Patent Application
20240218653
This application is based upon and claims priority to Chinese Patent Application No. 202211739252.7 filed on Dec. 31′, 2022 and No. 202310615659.7 filed on May 26, 2023.
The present disclosure relates to the field of equipment technologies providing a relatively private and soundproof space in a public place, and in particular to an office soundproof compartment and a mounting method thereof.
A soundproof compartment, which is also called office soundproof compartment, independent hut, private compartment, or miniature meeting compartment or the like, is placed in an office area or a public place. Due to good soundproof performance, it can be used for two or three persons to meet, talk, express emotions, perform video call or perform video live streaming or the like without suffering external environmental interferences. In an office soundproof compartment in the related arts, its structure comprises a cubic closed compartment body, where a door board for entering the compartment body is disposed on a sidewall of the compartment body. The office soundproof compartments in the related arts usually have the following defects: firstly, the office soundproof compartment in the related arts is an integral office soundproof compartment with its height usually being about two meters and therefore can occupy a large space during factory-leaving packaging or transportation, so as to increase transportation and packaging costs; further, it is very inconvenient for users to handle it due to large volume. Secondly, for an office soundproof compartment with a spliced compartment body, it is required to disassemble each part for packaging so as to save packaging space and transportation space, but users need to assemble each part according to the positions indicated in the installation manual during a mounting or assembling process, and especially in the mounting process, the users need to take more time to determine a correct mounting position of the parts, each of which is to be mounted by bolts or screws, leading to time-consuming and strenuous mounting and assembling operations.
The technical problem to be solved by the present disclosure is to provide an office soundproof compartment which can save packaging costs, occupy less transportation space, help handling and can be mounted simply, conveniently and quickly, so as to overcome the defects in the prior arts.
The technical solution of the present disclosure is to provide an office soundproof compartment with the following structure, comprising:
In some embodiments, the office soundproof compartment further comprises a lifting mechanism. The lifting mechanism comprises a first component and a second component movable relative to the first component. The first component is connected to the lower compartment body and the second component is connected to the top plate to enable the top plate to move up and down along with the second component and thus the top plate is maintained in extended or retracted state relative to the lower compartment body. The lifting mechanism is disposed inside the telescoping columns. Furthermore, the lifting mechanism may be movably disposed inside the upper compartment body and the lower compartment body.
In some embodiments, the office soundproof compartment may further comprise a drive mechanism which is connected to the top plate and is in transmission connection with the lifting mechanism so as to drive the lifting mechanism to move up and down.
In some embodiments, there are a plurality of lifting mechanisms which are respectively disposed inside corresponding telescoping columns. The first component is connected to the outer tube of the telescoping column and the second component is connected to the inner tube of the telescoping column to drive the inner tube of the telescoping column to move relative to the outer tube and hence make the telescoping column extend or retract.
In some embodiments, there are four lifting mechanisms and four telescoping columns, and the four telescoping columns are respectively connected to four corners of the lower compartment body while connected to the top plates respectively; the drive mechanism comprises two drive motors, each of which is in transmission connection with two lifting mechanisms; or the drive mechanism comprises one drive motor which is in transmission connection with the four lifting mechanisms.
In some embodiments, a lower end of at least one upper compartment plate of the upper compartment body is hinged to the top of the lower compartment body, and when the top plates are in extended state, the upper compartment plates are rotated upward to connect bottoms of the top plates.
In some embodiments, the lower ends of two upper compartment plates are hinged respectively to both sides of the top of the lower compartment body, where the two upper compartment plates are disposed at two opposed sides of the upper compartment body.
In some embodiments, at least one movable lock plate capable of extending out of or retracting into the upper compartment plates hinged to the top of the lower compartment body is connected inside the upper compartment plates. When the upper compartment plate is rotated upward to connect with the bottom of the top plate, the lock plate may extend upward out of the upper compartment plate to fit with the top plate so as to fix the upper compartment plate.
In some embodiments, the upper compartment body may further comprise support plates in one-to-one correspondence with the telescoping columns. When the telescoping columns are in extended state, the support plates are correspondingly wrapped on the telescoping columns, with the upper ends of the support plates abutted against the bottoms of the top plates and the lower ends of the support plates abutted against the top of the lower compartment body. The support plates are used to compensate a thickness difference between the movable part and the fixing part of the telescoping columns and support the top plates.
In some embodiments, one lower compartment plate of the lower compartment body is movably connected to one telescoping column to form a lower half part of the compartment door, where a handle is disposed on the compartment door; one upper compartment plate vertically opposed to the lower half part of the compartment door in the upper compartment body is movably connected to one telescoping column to form an upper half part of the compartment door; the upper compartment plate and the lower compartment plate of the compartment door are both disposed as transparent.
In some embodiments, slide wheels are connected at the bottom of the seat and/or a plurality of height-adjustable support feet are connected at the bottom of the seat.
In conclusion, compared with the related arts, the office soundproof compartment of the present disclosure has the following advantages: when the office soundproof compartment is mounted by a user after purchase, the telescoping columns are firstly extended and at this time, the telescoping columns can enable the top plates of the upper compartment body to extend. After the top plates are extended out, the basic frame of the upper compartment body is formed, and then the upper compartment plates are mounted in sequence. When the upper compartment plates are mounted, at least one of the upper compartment plates may be only connected to the top plate, which reduces the mounting process of at least some upper compartment plates and top plates. Thus, the office soundproof compartment can be simply, conveniently and quickly assembled. Similarly, during factory-leaving packaging and transportation of the office soundproof compartment, the upper compartment plates may be firstly dismounted, where at least some upper compartment plates are simply separated from the top plates; then the telescoping columns are retracted while the top plates are moved close to the lower compartment body so as to reduce the volume, save the packaging costs, occupy less transportation space, and help the handling.
Another technical solution of the present disclosure provides an office soundproof compartment with the following structure, comprising:
In some embodiments, two slide grooves with opposed openings are connected on two inner sidewalls of the lower compartment body and disposed at a side of the lower compartment body away from the compartment door. Further, the fixed side plate is cooperated slidably in the two slide grooves.
In some embodiments, a soft sealing strip extending along a length direction of the slide grooves and capable of being attached to the surface of the fixed side plate is connected to an inner wall of the slide grooves.
In some embodiments, the office soundproof compartment further comprises a lifting mechanism. The lifting mechanism comprises a first component and a second component movable relative to the first component. The first component is connected to the lower compartment body and the second component is connected to the top plate to enable the top plate to move up and down along with the second component and thus the top plate is maintained in extended or retracted state relative to the lower compartment body. The lifting mechanism is disposed inside the telescoping columns. Alternatively, the lifting mechanism may be movably disposed inside the upper compartment body and the lower compartment body.
In some embodiments, the office soundproof compartment may further comprise a drive mechanism which is connected to the top plate and is in transmission connection with the lifting mechanism so as to drive the lifting mechanism to move up and down.
In some embodiments, there are four lifting mechanisms and four telescoping columns. The four telescoping columns are respectively connected to four corners of the lower compartment body, and also respectively connected to the top plates; the drive mechanism comprises two drive motors, each of which is in transmission connection with two lifting mechanisms respectively; or the drive mechanism comprises one drive motor which is in transmission connection with the four lifting mechanisms respectively.
In some embodiments, the lower end of at least one upper compartment plate of the upper compartment body is hinged to the top of the lower compartment body, and when the top plate is in extended state, the upper compartment plate is enabled to rotate upward to connect with the bottom of the top plate.
In some embodiments, the lower ends of two upper compartment plates are hinged to both sides of the top of the lower compartment body respectively and the two upper compartment plates are also disposed at both sides of the fixed side plate respectively.
In conclusion, compared with the related arts, the office soundproof compartment provided by another embodiment of the present disclosure has the following advantages: when the office soundproof compartment is mounted by a user after purchase, the telescoping columns are firstly extended and at this time, the telescoping columns can enable the top plates of the upper compartment body to extend together with the fixed side plate, where the fixed side plate serves as a partial sidewall of the upper compartment body. After the top plates and the fixed side plate are extended out, the basic frame of the upper compartment body is formed, and then the upper compartment plates are mounted in sequence. When the upper compartment plates are mounted, at least one of the upper compartment plates may be only connected to the top plate, which reduces the mounting process of at least some upper compartment plates and top plates. Thus, the office soundproof compartment can be simply, conveniently and quickly assembled. Similarly, during factory-leaving packaging and transportation of the office soundproof compartment, the upper compartment plates may be firstly dismounted, where at least some upper compartment plates are simply separated from the top plates; then the telescoping columns are retracted while the top plates are moved close to the lower compartment body so as to reduce the volume, save the packaging costs, occupy less transportation space, and help the handling.
Another technical solution of the present disclosure provides a mounting method of an office soundproof compartment, where,
The mounting method may comprise the following steps:
In conclusion, compared with the related arts, the mounting method of the office soundproof compartment provided by the present disclosure has the following advantages: in the mounting method of the office soundproof compartment, after the office soundproof compartment is purchased by a user, the office soundproof compartment can be assembled by the following method without aligning each component: the drive mechanism is firstly started to bring the lifting mechanisms to move and thus the telescoping columns are extended out while the top plates and the fixed side plate are extended out synchronously; at this time, the basic frame of the upper compartment body is formed, and the fixed side plate can serve as one sidewall of the upper compartment body; then, four support plates are respectively wrapped on the four telescoping columns, and the four support plates compensate a thickness difference between the movable part and the fixing part of the telescoping columns, and further, a mounting space for mounting the upper compartment plates is formed between adjacent telescoping columns; the user then rotates up the first upper compartment plate and the second upper compartment plate to enable the tops of the first upper compartment plate and the second upper compartment plate to be connected with the bottoms of the top plates; finally, the third upper compartment plate is mounted. Since the first upper compartment plate and the second upper compartment plate are pre-hinged to the lower compartment body, that is, since their mounting positions are already determined, it is not required to take time to determine the correct mounting positions of the first upper compartment plate and the second upper compartment plate, saving time. After the first upper compartment plate and the second upper compartment plate are respectively connected, there is only one side left un-mounted for the entire upper compartment body. At this time, the remaining third upper compartment plate is connected at this side. Therefore, the three upper compartment plates can be quickly and easily mounted without taking time to determine their mounting positions. The mounting method of the office soundproof compartment helps the user to perform the mounting process more simply, more conveniently and move quickly after purchase, bringing good experiences to the users.
Numerals of the drawings are described below:
1. lower compartment body, 100. seat, 101. telescoping column, 102. lower compartment plate, 103. slide groove, 104. sealing strip, 1010. outer tube, 1011. inner tube, 1012. gear box, 1013. second component, 1014. first component, 1015. driving nut, 2. upper compartment body, 200. top plate, 201. first upper compartment plate, 202. second upper compartment plate, 203. third upper compartment plate, 204. support plate, 205. fixed side plate, 206. fourth upper compartment plate, 3. compartment door, 300. handle, 4. drive motor, 400. transmission rod, 5. slide wheel, 6. support foot, 7. lock plate, 700. drive mouth, 701. base, 702. rack, 703. drive gear.
Firstly, those skilled in the arts should understand that these embodiments are used only to interpret the technical principle of the embodiments of the present disclosure rather than limit the scope of protection of the embodiments of the present disclosure. Those skilled in the arts can make adjustment thereto to adapt to the specific application scenarios.
In the descriptions of the embodiments of the present disclosure, it should be noted that, unless otherwise clearly stated or defined, the terms “connect” and “couple”, and the like shall be understood in a broad sense, for example, may be fixed connection, or detachable connection, or formed into one piece; or may be mechanical connection, or electrical connection; or direct connection or indirect connection through an intermediate medium. Those skilled in the art may understand the specific meanings of the above terms in the present disclosure according to actual situations.
In the embodiments of the present disclosure, unless otherwise clearly stated or defined, the first feature being “on” or “below” the second feature refers to that the first feature and the second feature are in direct contact, or the first feature and the second feature are in indirect contact through an intermediate medium. Furthermore, the first feature being “above” or “on” the second feature refers to that the first feature is exactly above or obliquely above the second feature, or only refers to that the first feature has a higher horizontal height than the second feature. The first feature being “under” or “below” the second feature refers to that the first feature is exactly under or obliquely below the second feature, or only refers to that the first feature has a smaller horizontal height than the second feature.
The present disclosure will be further detailed below in combination with drawings and specific embodiments.
As shown in
The telescoping columns 101 in this embodiment may be electrically-lifted telescoping columns or manually-lifted telescoping columns. The basic structure of the telescoping columns 101 comprises an outer tube and an inner tube, where the inner tube is slidably cooperated in an inner hole of the outer tube and can extend or retract axially relative to the outer tube. It can be easily understood that when the inner tube slidably extends or retracts relative to the outer tube, the telescoping can be driven manually or by another lifting mechanism which at least comprises a lifter and a hydraulic jack and the like. Specifically, the another lifting mechanism may be disposed inside the telescoping columns; or, the another lifting mechanism may be disposed outside the telescoping columns, for example, disposed in the upper compartment body or the lower compartment body, and when the lifting action is completed, the another lifting mechanism may be moved out. This use can be repeated to reduce the costs.
As shown in
In this embodiment, the office soundproof compartment further comprises a compartment door 3 which is disposed on a sidewall of a same side of the upper compartment body 2 and the lower compartment body 1 for people to enter the compartment body. In order to help open the compartment door 3, a handle 300 is disposed on the compartment door 3 and one side of the compartment door 3 is rotatably connected to the telescoping column 101 to enable the compartment door 3 to be rotatably opened or closed. Specifically, one lower compartment plate 102 of the lower compartment body 1 is movably connected to one telescoping column 101 to form a lower half part of the compartment door 3, and an upper compartment plate horizontally opposed to the fixed side plate 205 in the upper compartment body 2 is movably connected to one telescoping column 101 to form an upper half part of the compartment door 3. It can be easily understood that the bottom of the upper half part of the compartment door 3 is connected to the top of the lower half part of the compartment door 3 to enable the compartment door 3 to be entirely rotatably opened or closed.
In this embodiment, the upper compartment plate of the upper half part of the compartment door 3 and the lower compartment plate 102 of the lower half part of the compartment door 3 are both disposed as transparent such that there will be better light inside the office soundproof compartment.
By referring to
With reference to
In this embodiment, the office soundproof compartment further comprises a lifting mechanism. The lifting mechanism comprises a first component 1014 and a second component 1013 movable relative to the first component 1014. The first component 1014 is connected to the lower compartment body 1 and the second component 1013 is connected to the top plate 200 to enable the top plate 200 to move up and down along with the second component 1013 and thus the top plate 200 is maintained in extended or retracted state relative to the lower compartment body 1. The lifting mechanism is disposed inside the telescoping columns 101. Furthermore, the lifting mechanism may further comprise a gear box 1012 mounted at the top end of the inner tube 1011. A power input end of the gear box 1012 is in transmission connection with a drive mechanism and a power output end of the gear box 1012 is connected to the vertically-disposed second component 1013. The vertically-disposed first component 1014 is connected in the inner hole of the outer tube 1010. The second component 1013 is in clearance fit with the first component 1014. Further, a driving nut 1015 thread-connected with the second component 1013 is connected on an inner wall of the first component 1014. When the second component 1013 rotates, the inner tube 1011 can extend or retract relative to the outer tube 1010.
With reference to
In other embodiments, the drive mechanism may also comprise one drive motor 4 which drives four lifting mechanisms and hence moves the four telescoping columns 101 up and down by a transmission component; or, the drive mechanism may also comprise four drive motors 4 which are respectively connected inside four telescoping columns 101 and in transmission connection with the lifting mechanisms in the telescoping columns 101.
In other embodiments, there may be one or two or three lifting mechanisms which are disposed in some telescoping columns 101 and driven to move up and down by one or more drive motors 4; or the lifting mechanisms may also be disposed outside the telescoping columns 101.
In other embodiments, the lifting mechanism may also be an electric push rod. In other words, a mutually-sleeved screw-nut assembly is disposed inside the telescoping columns. The outer tube may be fixedly connected with a screw and the inner tube is fixedly connected with a nut. Further, a built-in motor is disposed in the telescoping columns to drive the screw to spin and hence generate a relative position change between the screw and the nut, and therefore achieve relative position change between the inner tube and the outer tube. Moreover, a control button and a control box are disposed on a surface of the seat and/or the telescoping columns to achieve synchronous movement of the four telescoping columns by one button. In this way, the office soundproof compartment can be more easily and quickly assembled. Of course, the lifting mechanism may also be another common lifting structure such as gas spring or hydraulic push rod or the like.
By referring to
With reference to
In other embodiments, the movable lock plate 7 may also be an elastic buckle or elastic barb connected to the top of the upper compartment plates. Further, the upper ends of the upper compartment plates may be connected to the top plates 200 by screws such that the upper compartment plates can be more simply and quickly connected to the top plates 200.
By referring to
Furthermore, in order to improve the soundproofing effect of the office soundproof compartment, a sealing gasket is used at the connection of the lower compartment body 1 and the upper compartment body 2 and the connection of the lower compartment plates 102 and the upper compartment plates; in addition, a soundproof cotton may be disposed inside the lower compartment plates 102 and the upper compartment plates to improve the soundproofing effect.
By referring to
Furthermore, in some embodiments, a soft sealing strip 104 extending along a length direction of the slide grooves 103 and capable of being attached to the surface of the fixed side plate 205 is connected to an inner wall of the slide grooves 103. The soft sealing strips 104 are of a rubber material. The disposal of the soft sealing strips 104 can not only reduce the swing of the fixed side plate 205 during slide process but also achieve sealing effect on the edges of both sides of the fixed side plate 205, achieving good soundproofing effect of the office soundproof compartment.
By referring to
By referring to
Another embodiment of the present disclosure provides a mounting method of an office soundproof compartment. The office soundproof compartment comprises a lower compartment body 1 and an upper compartment body 2, where the lower compartment body 1 comprises a seat 100 and four telescoping columns connected at four corners of the seat 100. A lower compartment plate 102 is connected between two adjacent telescoping columns 101. The lower compartment plates 102, the telescoping columns 101 and the seat 100 are enclosed to form the lower compartment body 1 with top opened and surrounding closed. The upper compartment body 2 comprises a top plate 200 and a fixed side plate 205. The top plates are connected to the four telescoping columns 101 to enable the top plates 200 to synchronously move up and down along with the telescoping columns 101, and thus the top plates 200 are maintained in an extended or retracted state relative to the lower compartment body 1. The fixed side plate 205 is vertically disposed and connected to the top plate 200 and can extend or retract in synchronization with the top plate 200. The upper compartment body 2 further comprises three upper compartment plates: a first upper compartment plate 201, a second upper compartment plate 202 and a third upper compartment plate 203. The first upper compartment plate 201 and the second upper compartment plate 202 are disposed at both sides of the fixed side plate 205, with their lower ends hinged to the lower compartment body 1 respectively. The upper compartment body 2 further comprises four support plates 204 in one-to-one correspondence with the four telescoping columns 101. The office soundproof compartment further comprises a lifting mechanism and a drive mechanism. The lifting mechanism is disposed inside each telescoping column 101 and comprises a first component 1014 and a second component 1013 movable relative to the first component 1014. The first component 1014 is connected to the lower compartment body 1 and the second component 1013 is connected to the top plate 200 to enable the top plate 200 to move up and down along with the second component 1013. Thus, the top plate 200 is maintained in extended or retracted state relative to the lower compartment body 1. The drive mechanism is connected to the top plates 200 and is in respective transmission connection with the lifting mechanisms to drive the lifting mechanisms and hence move the telescoping columns 104 up and down.
The office soundproof compartment in this embodiment may be mounted after purchase by the following method: S1: the drive motor 4 is started to drive the lifting mechanisms to extend out four telescoping columns 101 and hence the top plates 200 and the fixed side plate 205 are in extended state relative to the lower compartment body 1; S2: the four support plates 204 are respectively connected to the four telescoping columns 101 with the upper ends of the support plates 204 abutted against the bottoms of the top plates 200 and the lower ends of the support plates 204 abutted against the top of the lower compartment body 1; S3: the first upper compartment plate 201 and the second upper compartment plate 202 are rotated upward to enable the upper ends of the first upper compartment plate 201 and the second upper compartment plate 202 to be connected with the bottoms of the top plates 200 respectively; S4: the third upper compartment plate 203 is mounted to enable the top plates 200, the fixed side plate 205, the three upper compartment plates and the four telescoping columns 101 to be enclosed to form the upper compartment body 2 with lower end opened and surrounding closed.
In the mounting method of the office soundproof compartment, after the office soundproof compartment is purchased by a user, the office soundproof compartment can be assembled by the following method without aligning each component: the drive mechanism is firstly started to extend out the telescoping columns 101, while the top plates 200 and the fixed side plate 205 are extended out; at this time, the basic frame of the upper compartment body 2 is formed, and the fixed side plate 205 can serve as one sidewall of the upper compartment body 2; then, four support plates 204 are respectively wrapped on the four telescoping columns 101, and the four support plates 204 compensate a thickness difference between the movable part and the fixing part of the telescoping columns 101, and further, a mounting space for mounting the upper compartment plates is formed between adjacent telescoping columns 101; the user then rotates up the first upper compartment plate 201 and the second upper compartment plate 202 to enable the tops of the first upper compartment plate 201 and the second upper compartment plate 202 to be connected with the bottoms of the top plates 200; finally, the third upper compartment plate 203 is mounted. Since the first upper compartment plate 201 and the second upper compartment plate 202 are pre-hinged to the lower compartment body 1, that is, since their mounting positions are already determined, it is not required to take time to determine the correct mounting positions of the first upper compartment plate 201 and the second upper compartment plate 202, saving time. After the first upper compartment plate 201 and the second upper compartment plate 202 are respectively connected, there is only one side left un-mounted for the entire upper compartment body 2. At this time, the remaining third upper compartment plate 203 is connected at this side. Therefore, the three upper compartment plates can be quickly and easily mounted without taking time to determine their mounting positions. The mounting method of the office soundproof compartment helps the user to perform the mounting process more simply, more conveniently and move quickly after purchase, bringing good experiences to the users.
In the descriptions of the embodiments of the present disclosure, it is noted that, in the descriptions of the present disclosure, the terms “inner”, “outer” and the like indicating direction or positional relationship are based on the direction or positional relationship shown in drawings and are used for the purpose of ease of descriptions rather than indicating or implying the device or member must have a specific orientation or be constructed or operated in a specific orientation and thus these terms shall not be understood as limiting of the present disclosure.
In the descriptions of the present disclosure, the descriptions by referring to the terms “one embodiment”, “some embodiments” “in this embodiment”, “specific example” or “some examples” or the like mean that the specific features, mechanisms, materials or characteristics described in combination with this embodiment or example are incorporated in at least one embodiment or example of the present disclosure. In this specification, the illustrative expressions of the above terms are not necessarily directed to same embodiment or example. Furthermore, the described specific features, mechanisms, materials or characteristics may be combined in an appropriate way in one or more embodiments or examples. Moreover, in a case of no conflicts, those skilled in the arts may perform combination for different embodiments or examples and the features of different embodiments or examples in the specification.
The above descriptions are only the specific embodiments of the present disclosure but the scope of protection of the present disclosure is not limited hereto. All changes or substitutions those skilled in the arts can easily conceive of within the technical scope of the present disclosure shall fall within the scope of protection of the present disclosure. Therefore, the scope of protection of the present disclosure shall be indicated by the claims.
| Number | Date | Country | Kind |
|---|---|---|---|
| 202211739252.7 | Dec 2022 | CN | national |
| 202310615659.7 | May 2023 | CN | national |
