Patent Application
20240324779
This application is based upon and claims priority to Chinese Patent Application No. 202310333327.X, filed on Mar. 28, 2023, the entire contents of which are incorporated herein by reference.
The present disclosure relates to the field of rocking chairs, and in particular to an assembled rocking chair.
A rocking chair is a casual chair which has a swinging structure and uses a user's own force applied to the chair to achieve a small extent of swinging. When a user sits on the rocking chair, swinging the body backwards and forwards may be implemented, to achieve the purpose of relieving stress and relaxing body and mind. A direct floor rocking chair is available in the current rocking chair type, that is, a swinging base of the rocking chair is a chair seat part. For example, in the technical solution disclosed by China utility model patents with publication patent No. CN206102123U, CN203633799U and CN203633798U, a rocking chair skeleton built in this kind of rocking chair is spliced by wooden structures, and particularly joints of a chair seat and a chair back mostly adopt wooden panels to form a good support. But, it has the disadvantages of a high manufacturing cost, hard modelling and being relatively heavy.
On this basis, a rocking chair skeleton which is recorded in the publication text of China invention patent with the publication No. CN114209171A, and the prior application of the applicant of this case abandons the wooden structure, and alternatively is formed by connecting bent pipe fittings. The pipe fittings may be formed by bending metal pipe fittings or formed by plastic pipe fittings in integrated injection molding. With a light weight, convenient carrying and convenient modeling, this kind of rocking chair skeleton is easy to build various shapes.
Despite the forgoing advantages, a chair seat skeleton and a chair back skeleton are both integrated and cannot be removed in the above prior patent, and the above solution seeks to occupy a relatively small space as much as possible during a folding process of the chair seat skeleton and the chair back skeleton. But the problems of a relatively big packing space and a relatively high transportation cost exist, which has a great cost influence on furniture enterprises exporting to overseas markets, and therefore it needs to be improved. It is to be emphasized that, based on the current solution, the rocking chair has been installed at the factory, including the skeleton, the soft package and the decorative coat. Therefore, the decorative coat of this kind of rocking chair generally adopts cutting, sewing and other ways to completely fit with the outer layout of the soft package, but when the detachable assembled rocking chair is proposed, users are required to install the decorative coat by themselves after purchase, so the traditional decorative coat solution definitely cannot continue to be applicable.
To solve the foregoing problem, the objective of the present disclosure is to provide an assembled rocking chair, the solution adopts a detachable chair seat skeleton and a detachable chair back skeleton, which can achieve a disassembly package of the rocking chair, an assembled use and relatively small space occupation, and reduce a packing space and a transportation cost in combination with a decorative coat capable of being independently disassembled and assembled.
To implement the above objective, the present disclosure adopts the technical solution below:
An assembled rocking chair, including a rocking chair skeleton and a coat main body, where the rocking chair skeleton includes a chair seat skeleton, a chair back skeleton with a lower end part in detachable connection with a rear end part of the chair seat skeleton, a chair seat support assembly forming a chair seat support face on the chair seat skeleton, and a chair back support assembly forming a chair back support face on the chair back skeleton; the chair seat skeleton and the chair back skeleton are both constructed to detachable skeletons; the chair seat skeleton at least includes arc-shaped members capable of being placed on a ground to achieve swinging forwards and backwards; the coat main body includes a chair seat sleeve and a chair back sleeve that are integrally connected; and a bottom of the chair seat sleeve or a back of the chair back sleeve is constructed with a mounting port, through which the rocking chair skeleton is mounted and removed, the chair seat sleeve or the chair back sleeve at an edge of the mounting port is detachably provided with a sealing cover, and the sealing cover can close or open the mounting port.
The present disclosure adopts the above technical solution, and this technical solution relates to the assembled rocking chair, which includes the coat main body and the rocking chair skeleton, where the rocking chair skeleton is divided into the chair seat skeleton and the chair back skeleton, the chair seat skeleton is provided with the chair seat support assembly to form the chair seat support face, and the chair back skeleton is provided with the chair back support assembly to form the chair back support face. In this solution, the chair seat skeleton and the chair back skeleton are both constructed to the detachable skeletons, and a disassembly way herein includes but is not limited to a disassembly and assembly solution provided by the following contents, and may also be any existing disassembly and assembly way.
The rocking chair skeleton is required to include the arc-shaped members capable of being placed on the ground to achieve swinging forwards and backwards, and the arc-shaped members serve as swinging rails through which the rocking chair can swing forwards and backwards.
Further, the coat main body of the decorative coat includes the chair seat sleeve and the chair back sleeve that are integrally connected; and the bottom of the chair seat sleeve or the back of the chair back sleeve is provided with the mounting port after integrated connection of the chair seat sleeve and the chair back sleeve, and the mounting port can be closed or opened through the sealing cover. During mounting, the rocking chair skeleton can be mounted inside the decorative coat from the mounting port after being assembled, and then the sealing cover is closed. When the decorative coat needs to be disassembled for washing or replaced, the rocking chair skeleton may be disassembled from the mounting port. Based on the foregoing solution, users can sleeve the decorative coat outside the rocking chair skeleton after assembling the rocking chair skeleton by themselves.
In conclusion, the foregoing solution adopts the detachable chair seat skeleton and the detachable chair back skeleton, which can achieve the disassembly package of the rocking chair, the assembled use and the relatively small space occupation, and reduce the packing space and the transportation cost in combination with the decorative coat capable of being independently disassembled and assembled.
In a further detailed solution, the chair seat skeleton includes chair seat side frames located on both sides, and first link assemblies detachably connected with the chair seat side frames on both sides; the chair seat side frames include the arc-shaped members capable of being placed on the ground to achieve swinging forwards and backwards, and support rods located above the arc-shaped members; the support rods of the chair seat side frames on both sides are connected through the chair seat support assembly, and the chair seat support assembly is formed with the chair seat support face between the two support rods. This solution is specifically used for solving the problem that the chair seat skeleton has a great packing space. In a specific solution, the chair seat side frames on both sides of the chair seat skeleton are connected through the first link assemblies, to implement the disassembly and assembly of the chair seat skeleton based on the detachable connection of the first link assemblies. In a disassembly state, the chair seat side frames on both sides and the first link assemblies can be stacked for storage, with relatively small space occupation, thereby reducing the packing space and the transportation cost. In an assembly state, both sides of the first link assemblies are connected with the chair seat side frames, to achieve a fixed connection.
In a specific solution, the arc-shaped members present a state that a middle is low and front and rear ends are high, only one end of each of the arc-shaped members is in closed loop connection with end parts of the support rods after being bent, free ends of the arc-shaped members and the support rods are all constructed with connecting parts for connecting the chair back skeleton, and both sides of the first link assemblies are detachably connected with closed loop connecting parts of the chair seat side frames.
This solution adopts a simplified structure to construct the chair seat skeleton. Specifically speaking, compared with a rocking chair frame recorded in China utility model patent text with publication No. CN216651800U, this solution is characterized that the chair seat side frames include the arc-shaped members and the support rods located above the arc-shaped member; and one end of each of the arc-shaped members is in closed loop connection with the end parts the support rods after being bent, and the other side of each of the chair seat side frames may be connected with other skeletons through the connecting parts on the free ends of the arc-shaped members and the support rods to ensure the connecting strength thereof. This solution adopts the arc-shaped members and the support rods that are connected together as the main frames of the entire chair seat skeleton in respective, and further the arc-shaped members are located at a lower part and may serve as swinging rails in contact with the ground, while the support rods may serve as left and right beam rods of the support face. Thus, the most simplified structure distribution is adopted to construct the support face and the swinging rails of the rocking chair, and the packing space and the transportation cost are further reduced in a manner of simplifying the structure.
In one of implementations, the chair back skeleton adopts a structure that is the same as the foregoing chair seat skeleton, the effect may refer to the contents recorded above, and a repetition is not made herein. The specific structure is that: the chair back skeleton includes chair back side frames located on both sides, and first link assemblies detachably connected with the chair back side frames on both sides; the chair back side frames include arc-shaped members and support rods located above the arc-shaped members; and the support rods of the chair back side frames on both sides are connected through a chair back support assembly, and the chair back support assembly is formed with a chair back support face between the two support rods.
In a further solution, only one end of each of the arc-shaped members is in closed loop connection with end parts of the support rods after being bent, free ends of the arc-shaped members and the support rods are all constructed with connecting parts for connecting the chair seat skeleton, and both sides of the first link assemblies are detachably connected with closed loop connecting parts of the chair back side frames.
Preferably, only one end of each of the arc-shaped members is integrally connected with the end parts of the support rods after being bent, that is, the arc-shaped members and the support rods are formed in a manner of integrated bending, with a convenient formation and a higher strength.
Preferably, the chair seat support assembly is an elastic cloth sleeve, of which front and rear end parts are constructed with openings, and after being penetrated from the free ends of the support rods, the openings of the elastic cloth sleeve are tightly sleeved on the two support rods of the chair seat side frames on both sides, to form the chair seat support face. In this solution, both ends of the elastic cloth sleeve are penetrated, worn and sleeved on the two support rods, to form the support face in a tightening state.
Preferably, the chair back support assembly is an elastic cloth sleeve, of which one end is constructed with an opening, and the opening of the elastic cloth sleeve is sleeved in from the closed loop connecting parts of the chair back side frames and tightly sleeved on the chair back side frames on both sides, to form the chair back support face. In this solution, considering that the chair back support face formed at the upper end the chair back is used to support a back and a head, has a wide coverage and basically extends to the upper end of the chair back, only one side of the elastic cloth sleeve is provided with the opening in this solution, and this opening needs to be sleeved in from the closed loop connecting parts of the side frames and tightly sleeved on the side frames on both sides, that is, the support rods and the arc-shaped members are sleeved by the clastic cloth sleeve.
Preferably, the first link assemblies include first connecting sheets on both sides, and a plurality of first links for connecting the first connecting sheets on both sides; and the first links are coated with gum sleeves. In this solution, the first connecting sheets on both sides of the first link assemblies are in fit connection with the closed loop connecting parts of the side frames, and generally a connection in a bolting manner is adopted, for example, plugging, clamping and other manners are adopted in an alternative solution. In addition, the first links are coated with the gum sleeves, which can play a role in collision prevention and buffering, to avoid users bumping against the first links and feeling pain during use.
In a further preferred solution, the first connecting sheets are set along radians of the closed loop connecting parts on the side frames, and a plurality of first links are constructed and distributed along the radians of the closed loop connecting parts. After adopting this solution, the plurality of first links may be distributed along the radians of the closed loop connecting parts, thus the sleeve coated outside the chair seat skeleton or the chair back skeleton can be supported by the plurality of first links in the same radian, thereby ensuring the consistency in the appearance and not generating an obvious recess in the middle.
Preferably, the assembled rocking chair further includes a second link assembly, of which two end parts are connected with the free ends of the arc-shaped members inside the connecting parts of the support rods. Both on the chair seat skeleton and the chair back skeleton, the connecting strength of the connecting end can be strengthened through the second link assembly, to ensure the stability of the rocking chair skeleton structure and the high support strength.
Certainly considering that the chair seat skeleton has a great stress, the arrangement on the chair seat skeleton is preferred.
In a further solution, the second link assembly includes second connecting sheets on both sides, and at least two second links for connecting the second connecting sheets on both sides; and the uppermost second link is constructed to a bending form with a sinking middle. In this solution, since the arc-shaped members and the support rods have no closed-loop connection at the free ends and exist high and low dislocations, at least two second links need to be arranged on the second link assembly, to ensure a connecting strength of upper and lower sides. Further, whether serving as the chair back skeleton or serving as the chair seat skeleton, one side of each of free ends of the arc-shaped members and the support rods serves as a connecting end, which is located near a hip and a waist of a user, so this solution requires that the uppermost second link has a sinking middle, to avoid an upper-side elastic support assembly sinking due to stress, and avoid users being interfered by the second links in a sitting state to feel uncomfortable.
In another implementation, the chair back skeleton includes support frames for constructing and forming a support face, and two rear struts connecting with rear ends of both sides of the support frames; each of the support frames include two side rods located on both sides, and a top rod connecting with rear end parts of the two side rods; and a rod body direction of each of the rear struts is arranged along extending directions of the side rods of the support frames, rear end parts of the rear struts are detachably connected or hinged with wall faces of rear sides at tops of the side rods, a distance from the rear struts to the side rods gradually becomes larger onwards from connecting ends thereof, and front end parts of the rear struts and the side rods are constructed with the connecting ends for connecting the chair seat skeleton. The disassemble chair back skeleton is used to solve the problem that the chair back skeleton in the rocking chair skeleton has a great packing space; specifically in this solution, the disassemble chair back skeleton is divided into the support frames and the two rear struts, the support frames serve as the main brackets of the chair back skeleton and includes two side rods and a top rod at a rear side thereof, and the main bracket wholly forming a top enclosure may be a U-shaped bracket, a quadrangular bracket, etc.
In this solution, the rear end parts of the rear struts are detachably connected or hinged with the wall faces of the rear sides at tops of the side rods, that is, the two rear struts can implement disassembly or overturn together with the support frames. In a disassembly state, the two rear struts and the support frames are placed in a separating manner; in an overturn and closing state, the two rear struts fit with the two side rods of the support frames as far as possible; and the top rods of the support frames and the two side rods are relatively flat in a thickness direction. Thus, the packing space of the chair back skeleton in a disassembly or folding state may be reduced as far as possible, so as to save the packing space and reduce the transportation cost.
However, when the chair back skeleton is assembled or unfolded for use, the rod body directions of the rear struts are set along the extending directions of the side rods of the support frames, a distance between the rear struts and the side rods gradually becomes great forwards from a connecting end thereof, and front end parts of the rear struts and the side rods are constructed with the connecting ends for connecting the chair seat skeleton. This structure is mainly connected with the chair seat skeleton through the rear struts and the side rods in respective, to form a triangular support for the entire chair back, thereby providing the chair back skeleton with a stable structure and a relatively high support strength.
Preferably, the chair back support assembly is at least connected with the two side rods of the support frames, such that the chair back support face for supporting the back and the head is formed in the support frames that are between the two side rods. In this solution, the chair back support assembly may form the support face between the support frames, to provide support to the back and the head.
Preferably, the rear end parts of the rear struts are constructed to cutting angles that have rear ends becoming great gradually, and front end faces of the cutting angles are cutting faces fitting with the rear end parts of the side rods; and the cutting faces at the rear end parts of the rear struts are placed on the rear end parts of the side rods and fixedly connected. In this solution, the rear end parts of the rear struts are provided with cutting angles, the cutting faces of the rear struts fit with the rear end parts of the side rods based on the setting of the cutting angles, with a greater contact area, a higher connecting stability and a higher support strength; and furthermore, the cutting angles at the rear end parts of the rear struts become great gradually from the rear ends, thus a thickness at a joint of the rear struts and the side rods changes gradually, without a step thickness change, such that the elastic cloth sleeve is more conveniently sleeved and has a higher fit after being sleeved.
Preferably, left and right end parts of the top rod are detachably connected or integrally connected and fixed with the rear end parts of the side rods on both sides thereof, and the top rod is detachably connected with the side rods on both sides thereof, such that the chair back skeleton has a higher disassembly degree, and the strength is higher because of integrated connection and fixation. Further, an arc angle transition is presented between the left and right end parts of the top rod and the rear end parts of the side rods on both sides thereof; and on the one hand, the arc angle transition may reduce damages and accidental injuries to end angles, and on the other hand, the elastic cloth sleeve is conveniently sleeved in from the rear end parts of the support frames.
Preferably, the two side rods are constructed to circular arcs with openings facing forwards and upwards, and support shapes formed by the side rods of the circular arcs fit with lying postures of human bodies. Lower end faces of the front end parts of the rear struts are constructed to the circular arc faces, positions of the front end parts of the rear struts that are connected with the chair seat skeleton are the circular arc faces, and when the rocking chair has a great swinging amplitude, the front end parts of the rear struts may also serve as parts of the swinging rails of the rocking chair.
Preferably, the chair back support assembly is an elastic cloth sleeve, of which a front end part is constructed with an opening, and the opening of the clastic cloth sleeve is sleeved in from the rear end parts of the support frames and at least tightly sleeved on two side rods of the support frames. In this solution, a way of sleeving the elastic cloth sleeve is adopted, with a simpler connecting way. One of ways is included and that the elastic cloth sleeve is only tightly sleeved on the two side rods of the support frames, that is, the two rear struts are connected after the clastic cloth sleeve is sleeved on the support frames, and in this solution, the elastic cloth sleeve is usually provided with an avoidance opening, through which the rear struts are connected with the support frames.
In another implementation, the elastic cloth sleeve is constructed to gradually become small to from an opening end thereof to a rear caliber, and the clastic cloth sleeve is tightly sleeved on the support frames and the two rear struts. In this solution, the two rear struts are connected with the support frames firstly, and then the entire elastic cloth sleeve covers the support frames and the two rear struts.
Preferably, the chair back support assembly and/or the chair seat support assembly are elastic meshes, a plurality of S springs or a plurality of bandages; and two end parts of the clastic meshes, the plurality of S springs or the plurality of bandages are both fixed to the two support rods of the chair seat skeleton, or the two support rods or the side rods of the chair back skeleton. The support assembly provided in this solution is the existing technology, the elastic meshes may be connected in manners of coating or adhering by magic stickers, the S springs are generally connected in a hook manner, and the bandages are connected in manners of binding, adhering by the magic stickers, hooks, etc.
Preferably, one end of the sealing cover is sewed or integrally connected with the chair seat sleeve or the chair back sleeve at an edge of one side of the mounting port, and the remaining edges of the sealing cover are connected with the chair seat sleeve or the chair back sleeve at the edge of the mounting port in manners of adhering, fastening or clamping.
In a specific implementation, the chair seat sleeve or the chair back sleeve at the edges of the sealing cover and the mounting port are provided with the magic stickers in respective, and the sealing cover is adhered to the edge of the mounting port through the magic stickers. The way of connecting by the magic stickers can achieve the high connecting strength and convenient disassembly and assembly.
Preferably, the coat main body is a fabric coat or a leather coat, and in the coat main body, the front face or the side of the chair seat sleeve and/or the front face or the side of the chair back sleeve are sprayed or printed with decorative patterns, and the decoration of the rocking chair is improved by spraying or printing the decorative patterns.
Preferably, both sides of the bottom of the chair seat sleeve are adhered or sewed with rail battens, when the coat main body is sleeved on the rocking chair skeleton, a middle of the chair seat sleeve is higher than lower end faces of the rail battens on both sides thereof, and inner sides of the rail battens resist to the lower end faces of the arc-shaped members of the chair seat skeleton. In this solution, both sides of the bottom of the chair seat sleeve below the arc-shaped members of the rocking chair skeleton are adhered to or sewed with the rail battens, and the arc-shaped members resist to the rail battens. The rail battens may be in non-detachable connection with the bottom of the chair seat sleeve in a sewing manner, and may also be detachably connected with the bottom of the chair seat sleeve by the magic stickers and other ways. During use, the rocking chair is avoided to be partially worn because of touching the ground when swinging, and damages to boards, tiles and the like are avoided. Meanwhile, due to the setting of the rail battens on both sides, a middle of the rocking chair is suspended without touching the ground, so abrasion will not generate.
Preferably, the mounting port is constructed to the bottom of the chair seat sleeve, and the rail battens are adhered to or sewed on the edge of the chair seat sleeve that is on the side of the mounting port; or the mounting port extends to the edge of the bottom of the chair seat sleeve, and the rail battens are adhered to or sewed on the edges that are on both sides of the sealing cover.
The bottom of the previous rocking chair is generally provided with plastic or flexible-glue rail strips, so the rocking chair is hard to be fixed to the decorative coat. However, in this solution, the rail battens include strip flexible anti-wearing outer layers, after being bent, two wide sides of the flexible anti-wearing outer layers are sewed to middles of the flexible anti-wearing outer layers to form a “8” shape, and ribs are worn in two through holes of the “8” shape. In this solution, the flexible anti-wearing outer layers of the rail battens may be made of a material that is the same as the decorative coat, such as a fabric strip or a leather strip, that is, the flexible anti-wearing outer layers may be made by leftover materials that are left after making the decorative coat. The ribs built in the rail battens may improve the thicknesses of the entire rail battens, such that the rocking chair cannot be flattened when swinging.
The embodiment of the present disclosure is described in detail below, the example of the embodiment is shown in the drawings, and from beginning to end, the same or similar signs indicate the same or similar components or components with same or similar function. The embodiment described with reference to the drawings is exemplary, which is intended to explain the present disclosure, instead of being understood as a limitation to the present disclosure.
In the description of the present disclosure, it is understood that orientation or position relationships indicated by the terms “center”, “longitudinal”, “transverse”, “length”, “width”, “thickness”, “upper”, “lower”, “front”, “rear”, “left”, “right”, “vertical”, “horizontal”, “top”, “bottom”, “inner”, “clockwise”, “anticlockwise”, and the like are based on the orientation or position relationships as shown in the drawings, for case of describing the present disclosure and simplifying the description only, rather than indicating or implying that the mentioned apparatus or element necessarily has a particular orientation and must be constructed and operated in the particular orientation. Therefore, these terms should not be understood as limitations to the present disclosure.
In addition, the terms “first” and “second” are merely used for description, instead of being understood as indicating or implying relative importance or impliedly indicating the quantity of the showed technical features. Thus, the features defined with “first” and “second” may expressly or impliedly one or more features. In the description of the present disclosure, unless otherwise stated, “a plurality of” means two or above two, unless specific limitation otherwise.
In the present disclosure, unless specific regulation and limitation otherwise, terms “install”, “join”, “connect”, “fix” and the like should be generally understood, for example, may a fixed connection, or a detachable connection, or an integrated connection, may a mechanical connection or an electric connection, may a direct connection or an indirect connection through an intermediation, and may an internal connection of two elements. Those of ordinary skill in the art may understand the specific meaning of the terms in the disclosure according to specific conditions.
In the present disclosure, unless specific regulation and limitation otherwise, the first feature “onto” or “under” the second feature may include the direct contact of the first feature and the second feature, or may include the contact of the first feature and the second feature through other features between them instead of direct contact. Moreover, the first feature “onto”, “above” and “on” the second feature includes that the first feature is right above and obliquely above the second feature, or merely indicates that the horizontal height of the first feature is higher than the second feature. The first feature “under”, “below” and “down” the second feature includes that the first feature is right below and obliquely below the second feature, or merely indicates that the horizontal height of the first feature is less than the second feature.
As shown in
As shown in
In a specific solution, the arc-shaped members 211 present a state that a middle is low and front and rear ends are high, only one end of each of the arc-shaped members 211 is in closed loop connection with end parts of the support rods 212 after being bent; and in a specific solution, only one end of each of the arc-shaped members 211 is integrally connected with the end parts of the support rods 212 after being bent. That is, the arc-shaped members 211 and the support rods 212 are formed in a manner of integrated bending, with a convenient formation and a higher strength. Free ends of the arc-shaped members 211 and the support rods 212 are all constructed with connecting parts for connecting the chair back skeleton 3, and both sides of the first link assemblies 22 are detachably connected with closed loop connecting parts 213 of the chair seat side frames 21.
As shown in
In a further preferred solution, the assembled rocking chair 2 further includes a second link assembly 24, of which two end parts are connected with the free ends of the arc-shaped members 211 inside the connecting part and the support rods 212. In this solution, the connecting strength of the connecting end can be strengthened through the second link assembly 24, to ensure the stability of the rocking chair skeleton structure and the high support strength. In a further solution, the second link assembly 24 includes second connecting sheets 241 on both sides, and at least two second links 242 for connecting the second connecting sheets 241 on both sides. The uppermost second link 242 is constructed to a bending form with a sinking middle. In this solution, since the arc-shaped members 211 and the support rods 212 have no closed-loop connection at the free ends and exist high and low dislocations, at least two second links 242 need to be arranged on the second link assembly 24, to ensure a connecting strength of upper and lower sides. Further, whether serving as the chair back skeleton 3 or serving as the chair seat skeleton 2, one side of each of free ends of the arc-shaped members 211 and the support rods 212 serves as a connecting end, which is located near a hip and a waist of a user, so this solution requires that the uppermost second link 242 has a sinking middle, to avoid an upper-side elastic support assembly sinking due to stress, and avoid users being interfered by the second links 242 in a sitting state to feel uncomfortable.
This solution adopts a simplified structure to construct the chair seat skeleton 2. Specifically speaking, compared with the rocking chair frame recorded in China utility model patent text with publication No. CN216651800U, this solution is characterized that the chair seat side frames 21 include the arc-shaped members 211 and the support rods 212 located above the arc-shaped member 211. One end of each of the arc-shaped members 211 is in closed loop connection with the end parts the support rods 212 after being bent, and the other side of each of the chair seat side frames 21 may be connected with other skeletons through the connecting parts on the free ends of the arc-shaped members 211 and the support rods 212 to ensure connecting strength thereof. This solution adopts the arc-shaped members 211 and the support rods 212 that are connected together as the main frames of the entire chair seat skeleton 2 in respective, and further the arc-shaped members 211 are located at a lower part and may serve as swinging rails in contact with the ground, while the support rods 212 may serve as left and right beam rods of the support face. Thus, the most simplified structure distribution is adopted to construct the support face and the swinging rails of the rocking chair, and the packing space and the transportation cost are further reduced in a manner of simplifying the structure.
Based on the specific structure of the above chair seat skeleton 2, in the solution as shown in
As shown in
For the chair back skeleton 3 with the foregoing structure, the chair back support assembly 5 adopts an elastic cloth sleeve, of which one end is constructed with an opening, and the opening of the elastic cloth sleeve is sleeved in from the closed loop connecting parts 213 of the chair back side frames and tightly sleeved on the chair back side frames on both sides, to form the chair back support face. In this solution, considering that the chair back support face formed at the upper end the chair back is used to support a back and a head, has a wide coverage and basically extends to the upper end of the chair back, only one side of the elastic cloth sleeve is provided with the opening in this solution, and this opening needs to be sleeved in from the closed loop connecting parts 213 of the side frames and tightly sleeved on the side frames on both sides, that is, the support rods 212 and the arc-shaped members 211 are sleeved by the elastic cloth sleeve.
Another solution for the chair back skeleton 3 as shown in
In this solution, the rear end parts of the rear struts 33 are detachably connected or hinged with the wall faces of the rear sides at tops of the side rods 321, that is, the two rear struts 33 can implement disassembly or overturn together with the support frames 32. In a disassembly state, the two rear struts 33 and the support frames 32 are placed in a separating manner. In an overturn and closing state, the two rear struts 33 fit with the two side rods 321 of the support frames 32 as far as possible. The top rods 322 of the support frames 322 and the two side rods 321 are relatively flat in a thickness direction. Thus, the packing space of the chair back skeleton 3 in a disassembly or folding state may be reduced as far as possible, so as to save the packing space and reduce the transportation cost.
However, when the chair back skeleton 3 is assembled or unfolded for use, the rod body directions of the rear struts 33 are set along the extending directions of the side rods 321 of the support frames 32, a distance a between the rear struts 33 and the side rods 321 gradually becomes great forwards from a connecting end thereof, and front end parts of the rear struts 33 and the side rods 321 are constructed with the connecting ends for connecting the chair seat skeleton 2. This structure is mainly connected with the chair seat skeleton 2 through the rear struts 33 and the side rods 321 in respective, to form a triangular support for the entire chair back, thereby providing the chair back skeleton 3 with a stable structure and a relatively high support strength.
In a further solution, the detachable chair back skeleton 3 further includes a chair back support assembly 5 that is at least connected with the two side rods 321 of the support frames 32, such that the chair back support face for supporting the back and the head is formed in the support frames 32 that are between the two side rods 321. In this solution, the chair back support assembly 5 may form the chair back support face between the support frames 32, to provide support to the back and the head.
In the implementation as shown in
In a further solution, left and right end parts of the top rod 322 are detachably connected or integrally connected and fixed with the rear end parts of the side rods 321 on both sides thereof. The top rod 322 is detachably connected with the side rods 321 on both sides thereof, and the chair back skeleton 3 may have a higher disassembly degree. Due to the integrated connection and fixation, the strength is higher. An arc angle 35 transition is presented between the left and right end parts of the top rod 322 and the rear end parts of the side rods 321 on both sides thereof; and on the one hand, the arc angle 35 transition may reduce damages and accidental injuries to end angles, and on the other hand, the elastic cloth sleeve is conveniently sleeved in from the rear end parts of the support frames 32. The two side rods 321 are constructed to circular arcs with openings facing forwards and upwards, and support shapes formed by the side rods 321 of the circular arcs fit with lying postures of human bodies.
As shown in
As an alternative solution, the chair back support assembly 5 and/or the chair seat support assembly 4 in the above solution adopts elastic meshes, a plurality of S springs or a plurality of bandages. Two end parts of the elastic meshes, the plurality of S springs or the plurality of bandages are both fixed to the two support rods 212 of the chair seat skeleton 2, or the two support rods 212 or the side rods 321 of the chair back skeleton 3. The support assembly provided in this solution is the existing technology, the elastic meshes may be connected in manners of coating or adhering by the magic stickers, the S springs are generally connected in a hook manner, and the bandages are connected in manners of binding, adhering by the magic stickers, and hooks, etc.
Further, the decorative coat as shown in
A bottom of the chair seat sleeve 11 or a back of the chair back sleeve 12 is constructed with a mounting port 13, through which the rocking chair skeleton is mounted and removed, the chair seat sleeve 11 or the chair back sleeve 12 at an edge of the mounting port 13 is removably provided with a sealing cover 14, and the sealing cover 14 can close or open the mounting port 13. The coat main body 1 of the decorative coat includes the chair seat sleeve 11 and the chair back sleeve 12 that are integrally connected. Only the bottom of the chair seat sleeve 11 or the back of the chair back sleeve 12 is provided with the mounting port 13 after integrated connection of the chair seat sleeve 11 and the chair back sleeve 12, and the mounting port 13 can be closed or opened through the sealing cover 14. During mounting, the rocking chair skeleton can be mounted inside the decorative coat from the mounting port 13 after being assembled, and then the sealing cover 14 is closed. When the decorative coat needs to be disassembled for washing or replaced, the rocking chair skeleton may be disassembled from the mounting port 13. After adopting the foregoing solution, a decorative coat with more convenient installation and simple disassembly and assembly is provided, to provide a mounting basis for the assembled rocking chair, for case of daily disassembly, washing or replacing of users.
As shown in
As shown in
The bottom of the previous rocking chair is generally provided with plastic or flexible-glue rail strips, so the rocking chair is hard to be fixed to the decorative coat. However, the rail battens 15 in this solution are as shown in
In conclusion, the assembled rocking chair includes the coat main body 1 and the rocking chair skeleton, where the rocking chair skeleton is divided into the chair seat skeleton 2 and the chair back skeleton 3, the chair seat skeleton 2 is provided with the chair seat support assembly 4 to form the chair seat support face, and the chair back skeleton 3 is provided with the chair back support assembly 5 to form the chair back support face. In this solution, the chair seat skeleton 2 and the chair back skeleton 3 are both constructed to the detachable skeletons, and a disassembly way herein includes but is not limited to a disassembly and assembly solution provided by the following contents, and may also be any existing disassembly and assembly way. The rocking chair skeleton is required to include the arc-shaped members 211 capable of being placed on the ground to achieve swinging forwards and backwards, and the arc-shaped members 211 serve as the swinging rails through which the rocking chair can swing forwards and backwards.
However, the coat main body 1 of the decorative coat includes the chair seat sleeve 11 and the chair back sleeve 12 that are integrally connected. Only the bottom of the chair seat sleeve 11 or the back of the chair back sleeve 12 is provided with the mounting port 13 after integrated connection of the chair seat sleeve 11 and the chair back sleeve 12, and the mounting port 13 can be closed or opened through the sealing cover 14. During mounting, the rocking chair skeleton can be mounted inside the decorative coat from the mounting port 13 after being assembled, and then the sealing cover 14 is closed. When the decorative coat needs to be disassembled for washing or replaced, the rocking chair skeleton may be disassembled from the mounting port 13. Based on the foregoing solution, users can sleeve the decorative coat outside the rocking chair skeleton after assembling the rocking chair skeleton by themselves.
The foregoing solution adopts the detachable chair seat skeleton 2 and the detachable chair back skeleton 3, which can achieve the disassembly package of the rocking chair, the assembled use and the relatively small space occupation, and reduce the packing space and the transportation costs combination with the decorative coat capable of being independently disassembled and assembled.
In the description of the specification, the descriptions of reference terms “one embodiment”, “some embodiments”, “example”, “specific example”, or “some examples” intend to be included in at least one embodiment or example of the present disclosure in combination with the specific characteristics, structures, materials or characteristics of this embodiment or example. In this specification, the schematic expression of the above terms does not need for the same embodiment or example. Moreover, the described specific characteristics, structures, materials or characteristics may be combined in one or more embodiments or examples in a suitable manner.
Although the embodiments of the present disclosure have been shown and described above, it is understood that the above embodiments are exemplary instead of being understood as a limitation to the present disclosure. Without departing from the principle and purpose of the present disclosure, those of ordinary skill in the art may make change, modification, replacement and deformation to the above embodiments within the scope of the present disclosure.
| Number | Date | Country | Kind |
|---|---|---|---|
| 202310333327.X | Mar 2023 | CN | national |
