The present invention relates to the field of bathroom equipment, in particular to a drain assembly.
Drainage structures are typically used in household bathroom equipment, such as, a sink, a wash basin and the like. As a conventional drainage device, a drain assembly is embedded at the bottom of a sink so as to communicate the sink with a sewer line, such that it serves as sealing for water storage in need of retaining water, and discharges water into the sewer line if drainage is required. However, during drainage, a user needs to wet his/her hand in water to open the drain assembly at the bottom of the sink, in such a case, if the sink is relatively deeper or water in the sink is dirty, or cold in winter, the above operation causes great inconvenience to users.
In view of the above, there needs to provide a drain assembly which allows the user to open the sink without wetting his/her hand to realize the disposing of water.
The present disclosure is to provide a drain assembly, for resolving the shortcomings of an existing drain assembly in drainage caused by its inconvenience in opening as mentioned in the background.
The technical solution of the present disclosure is to provide a drain assembly, comprising a downpipe and a sealing plug; the upper end opening of the downpipe is provided with a connecting pipe seat by integral molding and the upper end opening of the connecting pipe seat serves as a sewer outlet; the sealing plug is positioned at the sewer outlet to open or close the sewer outlet; the downpipe and the connecting pipe seat internally share a connector that can move upward or downward; the upper end part of the connector is linked with the sealing plug; a guide seat is integrally arranged at the position corresponding to the lower end part of the connector, on the pipe wall of the downpipe; the guide seat is communicated with interior of the downpipe, and a stay wire component having an operation end and an action end is elastically clamped on the guide seat through a wave spring; the action end of the stay wire component enters into the downpipe from the guide seat and then is linked with the lower end part of the connector; the operation end of the stay wire component is positioned outside the downpipe.
Compared with the prior art, the drain assembly provided by the present invention has the following beneficial effects: by means of clamped linkage of the stay wire component and the connector, and then by driving the sealing plug to open or close the sewer outlet through the connector, the effect of opening the sewer outlet is realized without wetting one's hand in water. Furthermore, the stay wire component is elastically clamped on the downpipe through a wave spring, therefore, the installation speed is increased and the sealing effect of the connection is ensured.
In some embodiment, the connector comprises a guiding rod and a connecting pole, and the guiding rod is positioned above the connecting pole; the sealing plug is in threaded connection with the upper end part of the guiding rod; the lower end part of the guiding rod is connected with the connecting pole; guiding sheets are integrally arranged on the rod body of the guiding rod, taking the rod body as the axis; the guiding rod and guiding sheets contribute to preventing the connector from deviation in the upward or downward movement process.
In some embodiment, the stay wire component comprises a toggled hook, a linkage rod, a stay wire and an operating rod. The toggled hook serves as the action end of the stay wire component, while the operating rod is the operation end of the stay wire component. The head of the toggled hook is hooked, while its body is sphere-shaped. A linkage seat is integrally formed on the body of the toggled hook. One end of the linkage rod is linked with the linkage seat, the other end thereof is connected with one end of the stay wire, and at the end part of the other end of the stay wire, there is a clamping element. Two ends of the clamping element respectively corresponding to the stay wire and the operating rod are integrally provided with clamping slots. The end part of the stay wire corresponding to the operating rod is integrally provided with a clamping head. The stay wire and the operating rod are in clamped linkage by means of the clamping element and the clamping head. The operating rod is pushed to drive the stay wire to pull the linkage rod, and the linkage rod pulls the toggled hook to rotate on a hinging seat, therefore, the head of the toggled hook stirs upward or downward in the downpipe, and then the toggled hook drives the connector to move upward or downward in the downpipe and the connecting pipe seat so as to open or close the sewer outlet by the sealing plug.
In some embodiment, the stay wire component further comprises a toggled hook seat, a fixing seat clamped with the toggled hook seat, and a connecting seat sheathed on the fixing seat and clamped with the guide seat. A splayed docking port is formed on the guide seat. The toggled hook seat is provided with a butt joint matching the docking port at its one side opposite to the guide seat in a raised manner. The interior of the toggled hook seat clamped with the fixing seat is provided with a mounting cavity in which a hinging seat is positioned. The body of the toggled hook is hinged on the hinging seat. The head of the toggled hook penetrates through the butt joint from the toggled hook seat into the downpipe and is clamped with the connecting pole. One end of the linkage rod is connected with the stay wire in the fixing seat, while the other end thereof penetrates through the hinging seat and is hinged on the linkage seat. The wave spring is positioned between the connecting seat and the fixing seat. The outer wall of the connecting seat is in rotary clamping with the guide seat, thereby realizing rapid connection of the stay wire component and the guide seat, achieving rapid positioning of connection of the toggled hook and the connector, and facilitating rapid connection of the connecting pole and the toggled hook.
In some embodiment, the lower end part of the connecting pole is integrally provided with a toggled hook fastener toward which the head of the toggled hook faces. The end of the head of the toggled hook is integrally provided with a clamp matching the toggled hook fastener. The toggled hook is clamped with the connecting pole through the clamp and the toggled hook fastener, such that the toggled hook and the connecting pole can be rapidly connected.
In some embodiment, on the pipe wall of the connecting pipe seat, there also provides an overflow outlet communicated with an overflow hole of a sink.
In some embodiment, the sewer outlet of the connecting pipe seat is embedded with a filtering stand. The guiding rod centrally penetrates through the filtering stand to be linked with the sealing plug so as to prevent the downpipe from being plugged. In case of cleaning the filtering stand, a user may separate the bottom of the connector from the toggled hook by poking the sealing plug, then the connector together with the sealing plug and the filtering stand is taken out, the filtering stand is cleaned, and after cleaning, the above components are wholly reassembled.
In some embodiment, an auxiliary mounting seat capable of assisting installation of the drain assembly is sheathed between the downpipe and the connecting pipe seat.
Reference numerals represent: 1. downpipe; 2 sealing plug; 3 connecting pipe seat; 4 sewer outlet; 5 connector; 5-1 guiding rod; 5-2 connecting pole; 5-3 guiding sheets; 5-4 toggled hook fastener; 6 guide seat; 7 wave spring; 8 stay wire component; 8-1 toggled hook; 8-2 linkage rod; 8-3 stay wire; 8-4 operating rod; 8-5 linkage seat; 8-6 toggled hook seat; 8-7 fixing seat; 8-8 connecting seat; 8-9 butt joint; 8-10 hinging seat; 8-11 clamp; 8-12 clamping element; 9 docking port; 10 filtering stand; 11 auxiliary mounting seat; 12 overflow outlet.
A clear and complete description about the technical solutions of the embodiments of the present disclosure will be given by referring to the accompanying drawings therein. Apparently, the described is merely about a portion of, not all the embodiments of the present invention. Taking the embodiments of the present invention as the basis, any other embodiments obtained by an ordinary skilled without paying any creative effort will fall into the scope claimed by the present invention.
Referring to
The stay wire component 8 driving the connector 5 to move upward or downward inside the downpipe 1 and the connecting pipe seat 3 comprises a toggled hook 8-1, a linkage rod 8-2, a stay wire 8-3 and an operating rod 8-4. The toggled hook 8-1 serves as the action end of the stay wire component 8, while the operating rod 8-4 is the operation end of the stay wire component 8. The toggled hook 8 mainly comprises a head and a body, and the head of the toggled hook 8-1 is hooked, while its body is sphere-shaped. A linkage seat 8-5 is integrally formed on the body of the toggled hook 8-1. The head of the toggled hook 8-1 enters into the downpipe 1 through the docking port 9 and is clamped with the lower end part of the connecting pole 5-2. To be specific, the lower end part of the connecting pole 5-2 is integrally provided with a toggled hook fastener 5-4 toward which the head of the toggled hook 8-1 faces. The end of the head of the toggled hook 8-1 is integrally provided with a clamp 8-11 matching the toggled hook fastener 5-4. The toggled hook 8-1 is clamped with the connecting pole 5-2 through the clamp 8-11 and the toggled hook fastener 5-4, such that the toggled hook 8-1 and the connecting pole 5-2 can be rapidly connected. One end of the linkage rod 8-2 is hinged with the hinging seat 8-10, the other end thereof is connected with one end of the stay wire 8-3, and the end part of the other end of the stay wire 8-3 is provided with a clamping element 8-12. Two ends of the clamping element 8-12 respectively corresponding to the stay wire 8-3 and the operating rod 8-4 are integrally provided with clamping slots. The end part of the stay wire 8-3 corresponding to the operating rod 8-4 is integrally provided with a clamping head. The stay wire 8-3 and the operating rod 8-4 are in clamped linkage by means of the clamping element 8-12 and the clamping head, and are respectively clamped on two ends of the clamping element 8-12 so as to rapidly connect the stay wire 8-3 and the operating rod 8-4.
Specially, one end of the linkage rod 8-2 hinged with the body of the toggled hook 8-1 is connected with a linkage head. The linkage seat 8-5 is provided with a first passage allowing the linkage head to pass through in the vertical direction and a second passage being vertical to the first passage and allowing the linkage head to reverse for 90°. The linkage rod 8-2 is positioned in the second passage after stretching into the second passage from the first passage with the help of the linkage head and then reversing for 90° so as to realize hinged linkage of the linkage rod 8-2 and the linkage seat 8-5.
Rapid clamping of the stay wire component 8 and the guide seat 6 is realized in such a structure that the stay wire component 8 further comprises a toggled hook seat, a fixing seat 8-7 clamped with the toggled hook seat, and a connecting seat 8-8 sheathed on the fixing seat 8-7 and clamped with the guide seat 6. The toggled hook seat is integrally provided with a protruding butt joint 8-9 matching the docking port 9 at its one side corresponding to the guide seat 6. The interior of the toggled hook seat clamped with the fixing seat 8-7 is provided with a mounting cavity in which a hinging seat 8-10 is positioned. The body of the toggled hook 8-1 is hinged on the hinging seat 8-10. The head of the toggled hook 8-1 penetrates through the butt joint 8-9 from the toggled hook seat into the downpipe 1 through the docking port 9 and is clamped with the connecting pole 5-2. To limit the movement direction of the toggled hook 8-1 at the butt joint 8-9, a limiting channel capable of limiting movement of the toggled hook 8-1 is provided on the butt joint 8-9, and two sides of a location corresponding to the limiting channel are provided with limiting blocks to limit the toggled hook 8-1 to move within the limiting channel. The stay wire 8-3 penetrates through the fixing seat 8-7 to be linked with the linkage rod 8-2. The wave spring 7 is positioned between the connecting seat 8-8 and the corresponding fixing seat 8-7. The outer wall of the connecting seat 8-8 is integrally provided with a positioning clamp block in a raised manner. A positioning clamp groove is integrally formed on the guide seat 6. The connecting seat 8-8 is clamped with the guide seat 6 by means of the positioning clamp groove and the positioning clamp block. The wave spring 7 in the connecting seat 8-8 props against the fixing seat 8-7, such that the fixing seat 8-7 can be steadily and sealingly connected on the guide seat 6, and sealed connection of the stay wire component 8 and the guide seat 6 is ensured.
On the pipe wall of the connecting pipe seat 3, there also provides an overflow outlet 12 communicated with an overflow hole of a sink.
The drain assembly provided by the present disclosure works as the following principle: when the drain assembly is used, the operating rod 8-4 is pushed or pulled to drive the stay wire 8-3 to move along with the operating rod 8-4; then the stay wire 8-3 drives the linkage rod 8-2 to allow the toggled hook 8-1 hinged with the linkage rod 8-2 to stir upward or downward in the mounting cavity; when the toggled hook 8-1 stirs upward, the connector 5 clamped with the head of the toggled hook 8-1 moves upward under the effect of the toggled hook 8-1, therefore, the sealing plug 2 is pushed away from the sewer outlet 4 to open the sewer outlet for drainage; and when the toggled hook 8-1 stirs downward, the connector 5 is driven to move downward, the sealing plug 2 is returned to the sewer outlet 4 so as to close the sewer outlet 4. In case of cleaning the filtering stand 10, a user may separate the bottom of the connector from the toggled hook 8-1 by poking the sealing plug 2, and then the connector 5 together with the sealing plug 2 and the filtering stand 10 is taken out, the filtering stand 10 is cleaned, and after cleaning, the above components are wholly reassembled.
Although detailed explanations have been given to the above embodiments of the present invention, it will be apparent to those skilled in the art that various modifications to the technical solutions of the embodiments or equivalent substitutions of partial technical features are also appreciated. Thus, it is intended that the present invention covers any modifications, equivalent substitutions or improvements made to the embodiments provided they come within the spirit and principle of the present invention.
Number | Name | Date | Kind |
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4594738 | Gebert | Jun 1986 | A |
7886372 | Jacobs | Feb 2011 | B2 |
10151087 | Wang | Dec 2018 | B1 |
20110271442 | Cen | Nov 2011 | A1 |
Number | Date | Country | |
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20210372105 A1 | Dec 2021 | US |