This application falls into the technical field of bathroom products, and particularly relates to a retractable shower curtain rod and its extendable installation method.
The existing shower curtain rods are usually fixed on the bathroom wall by drilling holes and nailing in the bathroom wall or using vacuum cups, so they are installed inconveniently and cannot adapt to the bathrooms of different sizes, and there exist some technical problems such as leaving installation marks on the wall after dismantling.
In view of this, this application provides a retractable shower curtain rod and its extendable installation method in order to solve the technical problems in the prior art.
To solve the technical problems, the retractable shower curtain rod provided in this application is:
Preferably, the pressure mechanism comprises a positioning part, a locking part and an extruding part; the positioning part can slide back and forth on the second rod to determine the locked position, the locking part can fix the positioning part on the second rod, and the extruding part has the first rod and the second rod extended on both sides by coordinating with the locking part to press on the bathroom wall.
Preferably, the positioning part is provided with a positioning hole, a locking screw hole and an extruding external thread; the locking part is a screw fastener, the positioning part is sleeved on the second rod through the positioning hole, and the locking part is assembled in the locking screw hole; fastening the locking part can help fix the positioning part on the second rod; loosening the locking part can help loosen the fixed connection between the positioning part and the second rod; the extruding part is provided with an extruding internal screw hole, and the structural dimensions of the extruding internal screw hole and the extruding external screw are matched with each other; the extruding part is assembled on the positioning part through screw matching, and exerts pressure on the first rod by rotating with the positioning part.
Preferably, the pressure mechanism further comprises a friction part, and the friction part is provided with a friction hole, an extruding position and an embedding position; the friction part is sleeved on the second rod through the friction hole and located between the first rod and the positioning part; when the extruding part exerts pressure on the extruding position, the embedding position can be embedded in the gap between the first rod and the second rod to increase the stability of the connection.
Preferably, the embedding position of the friction part is further provided with an elastic deformation slot, and the elastic deformation slot is used to generate elastic deformation when the embedding position is embedded between the first rod and the second rod.
Preferably, the second rod is further provided with a positioning guide slot or a positioning guide rib, and the positioning part is provided with a rod guide rib or a rod guide slot for matching with the positioning guide slot or the positioning guide rib.
Preferably, one end of the first rod used for contacting the wall is further provided with a first wall-pressing component, the first wall-pressing component comprises a first base plate, a first buffering part and a first connecting part, and the first base plate, the first buffering part and the first connecting part are connected with each other.
Preferably, one end of the second rod used for contacting the wall is further provided with a second wall-pressing component, the second wall-pressing comprises a second base plate, a second buffering part and a second connecting part, and the second base plate, the second buffering part and the second connecting part are connected with each other.
To solve the technical problems, the extendable installation method of the retractable shower curtain rod provided in this application is as follows:
Preferably, that pressure mechanism comprises a positioning part, a locking part and an extruding part, and the extendable installation of the retractable shower curtain rod includes the following steps:
Preferably, the pressure mechanism further comprises a friction part, and the friction part is provided with a friction hole, an extruding position and an embedding position; the friction part is sleeved on the second rod through the friction hole and located between the first rod and the positioning part; the fixing step adopts the following technical solution to press on the bathroom wall:
Referring to
The first rod 10 can be made of plastics, metal or wood, and the first rod 10 can be a round tube, a square tube or other tubular structures. The second rod 20 can be made of plastics, metal or wood, and the second rod 20 can be a tubular structure or a solid structure such as rod structure. As long as it can be assembled in the first cavity 110 of the first rod 10 and slide in the first cavity 110 (that is, adjust the assembly depth of the second rod 20 in the first cavity 110), the technical solutions of this application can be realized.
The pressure mechanism 30 locks the length of the retractable shower curtain rod and has the first rod 10 and the second rod 20 extended on both sides to press on the bathroom wall. The pressure mechanism 30 comprises a positioning part 310, a locking part 320 and an extruding part 330; the positioning part 310 can slide back and forth on the second rod 20 to determine the locked position, the locking part 320 can fix the positioning part 310 to the second rod 20, and the extruding part 330 has the first rod 10 and the second rod 20 extended on both sides by cooperating with the locking part 320 to press on the bathroom wall.
Specifically, referring to
The extruding part 330 is provided with an extruding internal screw hole 3310, and the structural dimensions of the extruding internal screw hole 3310 and the extruding external screw hole 3130 are matched with each other; the extruding internal screw hole 3310 is a through hole, and the extruding part 330 is assembled on the positioning part 310 through screw-thread fit and exerts pressure on the first rod 10 by rotating with the positioning part 310. Specifically, when the positioning part 310 is fixed near the end of the first rod 10 and the extruding part 330 is screwed on the positioning part 310 in the direction of the first rod 10, the extruding part 330 will gradually contact the end of the first rod 10 and begin to exert pressure. Referring to
The screwing of the locking part 320 should be able to lock the connection between the positioning part 310 and the second rod 20, and should not affect the screw-thread fit between the extruding part 330 and the positioning part 310, or the screwing of the locking part 320 should not affect the rotation between the extruding part 330 and the positioning part 310, and it should be able to lock the connection between the positioning part 310 and the second rod 20. Referring to
In the modified embodiments of this application, the pressure mechanism 30 can further integrate a friction part 340, and the friction part 340 is set between the first rod 10 and the positioning part 310; the pressure from the extruding part 330 is firstly transmitted to the friction part 340, and then transmitted to the first rod 10 through the friction part 340. Specifically, the friction part 340 can adopt the structure in
The friction part 340 is provided with a friction hole 3410, an extruding position 3420, an embedding position 3430 and an elastic deformation slot 3440; the friction hole 3410, the extruding position 3420, the embedding position 3430 and the elastic deformation slot 3440 are formed as a whole. The friction hole 3410 is a through hole. The size of the extruding position 3420 is larger than that of the embedding position 3430, and the elastic deformation slot 3440 is set on the embedding position 3430. The friction part 340 is sleeved on the second rod 20 through the friction hole 3410 and located between the first rod 10 and the positioning part 310. When the extruding part 330 exerts pressure on the extruding position 3420, the embedding position 3430 can be fully or partially embedded in the gap between the first rod 10 and the second rod 20 to increase the stability of the connection between the first rod 10 and the second rod 20. When the embedding position 3430 is fully or partially embedded in the gap between the first rod 10 and the second rod 20, the embedding position 3430 and/or the extruding position 3420 will exert pressure on the first rod 10, and the elastic deformation slot 3440 will also deform to adapt to the compression. The friction part 340 can be made of metal, wood or plastics, and it is preferably plastic.
In another modified embodiment of this application, in order to facilitate the sliding and locking of the positioning part 310 on the second rod 20, the second rod 20 and the positioning part 310 can be further provided with mutually matched guide structures respectively. Referring to
In the modified embodiments of this application, in order to strengthen the stability between the first rod 10, the second rod 20 and the bathroom wall, the first wall-pressing component 40 and the second wall-pressing component 50 can be provided respectively at the ends of the first rod 10 and the second rod 20. Referring to
Implementation principle: During installation, the assembly depth of the second rod 20 in the first cavity 110 is firstly adjusted to preliminarily adapt to the size of the bathroom. After the adjustment, the positioning part 310 on the second rod 20 is slid near the end of the first rod 10, and then the locking part 320 is screwed into the locking screw hole 3120 to fix the positioning part 310 on the second rod 20. After the positioning part 310 is fixed, the extruding part 330 is assembled on the positioning part 310 through screw-thread fit, and the extruding part 330 is gradually rotated to make it approach the first rod 10 to generate an extruding force. After the first rod 10 is under pressure from the extruding part 330, the second rod 20 is also under pressure from the positioning part 310 to have the first rod 10 and the second rod 20 gradually extended on both sides and pressed against the bathroom wall. When the retractable shower curtain rod is installed, as the positioning part 310 and the extruding part 330 are connected through screw-thread fit, the retaining force of the screw thread can maintain the extended state of the shower curtain rod. When the shower curtain rod needs to be replaced, rotate the extruding part 330 and move forward away from the first rod 10, and then adjust the assembly depth of the second rod 20 in the first cavity body 10 to smoothly disassemble the shower curtain rod. Therefore, the retractable shower curtain rod provided in this application can adapt to the bathrooms of different sizes, avoid drilling holes and nailing in the wall, and have such technical effects as good applicability, convenient demounting and no traces.
From the above description, this application further provides a extendable installation method for the shower curtain rod, which adopts the retractable shower curtain rod provided in this application to realize extendable installation in the bathrooms of different sizes; in practice, the length of the retractable shower curtain rod is adjusted by adjusting the assembly depth of the first rod 10 in the second rod 20, the length of the retractable shower curtain rod is locked by the pressure mechanism 30, and the first rod 10 and the second rod 20 extend on both sides to press on the bathroom wall.
Furthermore, the extendable installation method of the retractable shower curtain rod adopts the following steps to realize the extendable installation of the shower curtain rod:
In a preferred embodiment of the extendable installation method of the retractable shower curtain rod, the pressure mechanism further comprises a friction part 340, and the friction part 340 is provided with a friction hole 3410, an extruding position 3420 and an embedding position 3430; the friction part 340 is sleeved on the second rod 20 through the friction hole 3410 and located between the first rod 10 and the positioning part 310; the above the fixing step adopts the following technical solution to press on the bathroom wall:
Rotate the extruding part 310 to make the extruding part exert pressure on the extruding position of the friction part 340; when the extruding part 310 exerts pressure on the extruding position 3420, the embedding position 3430 can be embedded in the gap between the first rod 10 and the second rod 20 to increase the stability of the connection while the friction part 340 extrudes the first rod 10.
The technical solutions and technical effects of this application are described in detail with reference to the drawings and specific embodiments. It should be noted that the specific embodiments disclosed in the specification are only the preferred embodiments in this application, and the technicians in the field can also develop other embodiments on this basis; any simple variations and equivalent replacement that are not separated from the innovative ideas of this application are covered in this application and included the protection scope of the present patent.
Number | Date | Country | Kind |
---|---|---|---|
202210822799.7 | Jul 2022 | CN | national |
Number | Name | Date | Kind |
---|---|---|---|
2263698 | Hodgson | Nov 1941 | A |
4733681 | Lee | Mar 1988 | A |
5692856 | Newman, Jr. | Dec 1997 | A |
6045188 | Schooler | Apr 2000 | A |
6488159 | Shuen | Dec 2002 | B2 |
7066511 | Newman | Jun 2006 | B2 |
8205760 | Chang | Jun 2012 | B2 |
8479932 | Carney | Jul 2013 | B2 |
8800072 | Chang | Aug 2014 | B2 |
8978228 | Didehvar | Mar 2015 | B2 |
9102051 | Chen | Aug 2015 | B2 |
9474421 | Baines | Oct 2016 | B2 |
9744662 | Henry | Aug 2017 | B1 |
9968212 | Lundmark | May 2018 | B1 |
10426287 | Tsai | Oct 2019 | B1 |
10436235 | Daniels | Oct 2019 | B2 |
20080295240 | Chang | Dec 2008 | A1 |
20210033126 | Henderson | Feb 2021 | A1 |
20210378433 | Berman | Dec 2021 | A1 |
Number | Date | Country |
---|---|---|
217743949 | Nov 2022 | CN |
Number | Date | Country | |
---|---|---|---|
20240156292 A1 | May 2024 | US |