CN114855946B - push button slide - Google Patents

Abstract

The invention discloses a push button sliding seat, which comprises a main body component and a sliding block component, wherein the main body component is movably arranged on a rod piece, the sliding block component is arranged on the main body component and limits the main body component and the rod piece to move relatively or relatively fixed, the sliding block component comprises a friction unit corresponding to the rod piece and a pushing unit connected to the front end of the friction unit, and the pushing unit is controlled to push the friction unit to be close to the rod piece so as to fixedly connect the sliding seat with the rod piece or far away from the rod piece so as to enable the sliding seat and the rod piece to move relatively; the mobile device is simple in structure, convenient and flexible to operate and brings convenience to the movement of the user.

Description

Push button slide

Technical Field

The invention relates to the technical field of bathroom products, in particular to a push button sliding seat.

Background

The principle of the existing shower head moving frame is that a friction block is arranged on a moving seat and is tightly held or loosened with a lifting rod, so that the effect of fixing or moving is achieved. The holding of the shower moving frame is usually forced by a spring, and when the shower moving frame needs to move, a user presses a button along the extending direction of the spring, so that the friction block overcomes the elastic force of the spring, and the lifting rod is loosened. The shower head moving rack with the structure is generally lateral in the application direction of a user, namely, the hand action of the user applies force to the left side or the right side, when the elastic force of the spring is large, the user needs to apply large force, which may cause the lifting rod to deform, meanwhile, the user needs to hold other parts of the moving rack except the thumb to press, so that the force can be applied conveniently, and the position of the moving rack needs to be adjusted through the assistance of the other hand, which can lead to difficulty in adjusting the position of the moving rack when the user holds things on the hand.

Disclosure of Invention

The invention provides a push button sliding seat for solving the problems.

In order to achieve the above purpose, the invention adopts the following technical scheme:

a push button slider comprising:

the main body component is movably arranged on the rod piece; and

the sliding block assembly is arranged on the main body assembly and is used for limiting the main body assembly to move or be fixed with the rod piece;

the sliding block assembly comprises a friction unit corresponding to the rod piece and a pushing unit connected to the front end of the friction unit, and the pushing unit is controlled to push the friction unit to be close to the rod piece so that the sliding seat is fixedly connected with the rod piece or far away from the rod piece so that the sliding seat and the rod piece can move relatively.

Preferably, the main body assembly comprises a body, a containing cavity with a forward opening is formed in the front end of the body, and the sliding block assembly is arranged in the containing cavity; the rear end of the body is provided with a sliding sleeve cavity which is penetrated up and down, and a sliding sleeve is inserted into the sliding sleeve cavity.

Preferably, a through groove is formed between the sliding sleeve cavity and the accommodating cavity, a yielding groove corresponding to the through groove is formed in the sliding sleeve, and the friction unit is movably telescopic in the through groove and the yielding groove and is close to or far away from the rod piece.

Preferably, the friction unit comprises a wedging block movably arranged in the accommodating cavity and a friction pad fixedly arranged at the rear end of the wedging block, the pushing unit comprises a handle arranged at the front end of the wedging block and a sliding block arranged between the wedging block and the handle, the handle is pushed upwards or downwards, and the handle drives the sliding block to push the wedging block to move forwards and backwards, so that the friction pad is pushed to be far away from or close to the rod piece.

Preferably, the friction unit further comprises a baffle plate fixedly arranged at the front end of the accommodating cavity, and a spring accommodated between the wedging block and the baffle plate, wherein the wedging block is accommodated in the accommodating cavity and limited by the baffle plate so as not to be separated from the accommodating cavity, and the spring compressed by the spring enables the wedging block to return in the accommodating cavity and move backwards.

Preferably, the rear end wall of the accommodating cavity is provided with a plurality of columns in a forward protruding mode, and the baffle is locked on the main body through screws; the baffle plate is provided with a plurality of positioning columns in a backward protruding mode, and the spring is sleeved on the positioning columns, so that the spring can move between the wedging block and the baffle plate without deviating.

Preferably, the wedging block is provided with a cavity forwards, the spring is sleeved on the positioning column and penetrates into the cavity, and when the wedging block moves forwards, the spring is compressed in the cavity and resists the blocking piece; when the spring is reset, the wedging block moves backwards to push the friction pad to move backwards to be attached to the rod piece.

Preferably, the left end and the right end of the wedging block are respectively provided with a top block, and the top blocks are respectively and correspondingly provided with the sliding blocks; the sliding block is provided with a sliding groove corresponding to the top block, and the top block slides in the sliding groove to enable the sliding block to push the wedging block to move forwards and backwards.

Preferably, the top block is a V-shaped top block, the chute is a V-shaped groove, the notch of the V-shaped groove is inclined in the vertical direction, and the V-shaped top block is arranged corresponding to the direction of the V-shaped groove.

Preferably, the slider is provided with a back-off close to one end of the handle, a buckling groove corresponding to the back-off is formed in the handle, and the back-off is buckled to the buckling groove, so that the slider is fixedly connected with the handle.

The beneficial effects of the invention are as follows:

1) The sliding seat and the rod piece are fixedly connected or far away from each other by arranging the friction unit and the pushing unit on the sliding block assembly and controlling the pushing unit to push the friction unit to be close to the rod piece, so that the sliding seat and the rod piece are fixedly connected or can move relatively; the mobile device is simple in structure, convenient and flexible to operate and brings convenience to the movement of the user.

2) The handle is driven to drive the sliding block to push the top block on the wedging block to move upwards or downwards in the sliding groove of the sliding block by pushing the handle to move upwards or downwards, so that the wedging block moves forwards, and the friction pad is far away from the rod piece and can move relative to the rod piece; the top block on the wedging block slides to the bottom end of the sliding groove of the sliding block through the action force of spring reset, so that the wedging block moves backwards, and the friction pad is close to the rod piece and generates large friction force with the rod piece so as not to move relatively; the force for pushing the handle is not required to be too large, the labor-saving lever structure principle is adopted, the locking force is strong, and the pushing force is labor-saving.

3) Through setting up the kicking block into V type kicking block, set up the spout into V type groove, through the structure on V type inclined plane, can single hand operation in order to promote the handle, and operating force can be very laborsaving, this kind of simple structure, the part is less, and the reliability is higher, and the cost is lower.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and do not constitute a limitation on the invention. In the drawings:

fig. 1 is an isometric view of a push button slider of the present invention.

Fig. 2 is a structural view of a push button slider mounted on a rod member according to the present invention.

Fig. 3 is an exploded view of a push button slider according to the present invention.

Fig. 4 is a cross-sectional view of a push button slider of the present invention mounted on a rod.

Fig. 5 is an exploded view of the left and right sliders and the wedging block of the push button slider of the present invention.

Fig. 6 is a top sectional view showing an initial state of the push button slider mounted on the lever.

Fig. 7 is a left side cross-sectional view showing an initial state of the push button slider mounted on the lever member according to the present invention.

Fig. 8 is a front view showing an initial state of the push button slider mounted on the lever.

Fig. 9 is a top sectional view showing a state in which a knob slider is mounted on a lever in an upward movement state.

Fig. 10 is a left side cross section of a push button slider of the present invention in a handle up-moved state mounted on a lever.

Fig. 11 is a front view showing a state in which a handle of the push button slider is moved up, which is mounted on a lever.

Fig. 12 is a top view cross section of a push button slider of the present invention in a handle-down state mounted on a lever.

Fig. 13 is a top view cross section of a push button slider of the present invention in a handle-down state mounted on a lever.

Fig. 14 is a front view showing a state in which a handle mounted on a lever of a push button slider of the present invention is moved down.

Reference numerals in the drawings:

100-sliding seat; 200-bar members;

1-a body assembly; 11-a body; 12-sliding sleeve;

a 2-socket assembly; 21-a guide block; 22-a gasket; 23-a socket body; 24-a falling prevention pad; 25-screws;

3-a slider assembly; 31-friction pad; 32-wedging blocks; 321-V-shaped top blocks; 33-a spring; 34-a baffle; 35-handle; 36-sliding blocks; 361-V-shaped grooves; 37-screw.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear and obvious, the invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Referring to fig. 1 to 5, a push button slider 100 according to a preferred embodiment of the present invention is movably inserted into a rod 200 to adjust the position of the push button slider 100 on the rod 200.

The push button slide 100 comprises a main body assembly 1, a socket assembly 2 arranged on the side wall of the main body assembly 1 and a slide block assembly 3 arranged at the front end of the main body assembly 1, wherein the main body assembly 1 is sleeved on the rod piece 200, a shower head is inserted in the socket assembly 2, and the position of the push button slide 100 on the rod piece 200 is adjusted by adjusting the slide block assembly 3, so that the shower head moves up and down along with the push button slide 100 to meet the requirements of a user on the sprinkling range of the shower head.

The main body assembly 1 comprises a body 11, wherein a containing cavity which is opened forwards is formed in the front end of the body 11, and a sliding block assembly 3 is arranged in the containing cavity; the rear end of the body 11 is provided with a sliding sleeve 12 cavity which is penetrated up and down, and a sliding sleeve 12 is inserted into the sliding sleeve 12 cavity; a connecting column is convexly arranged on the side wall of the body 11, and a socket component 2 is connected to the connecting column.

In other embodiments, the middle part of the rear wall of the cavity of the sliding sleeve 12 is opened backward, only a part of the wall surface is left on the rear wall of the cavity of the sliding sleeve 12, and the sliding sleeve 12 is inserted into the cavity of the sliding sleeve 12 from top to bottom and is hung on the front wall, the two side walls and the part of the wall surface on the rear wall of the cavity of the sliding sleeve 12, so that the sliding sleeve is stable.

A through groove is formed between the cavity of the sliding sleeve 12 and the accommodating cavity, a yielding groove corresponding to the through groove is formed in the sliding sleeve 12, and one end, close to the sliding sleeve 12, of the sliding block assembly 3 is movably telescopic in the through groove and the yielding groove and is close to or far away from the rod piece 200.

The sliding block assembly 3 comprises a friction unit corresponding to the rod 200 and a pushing unit connected to the front end of the friction unit, wherein the pushing unit is controlled to push the friction unit to approach the rod 200 so as to fixedly connect the sliding seat 100 with the rod 200 or far away from the rod 200 so as to enable the sliding seat 100 and the rod 200 to be relatively movable.

The friction unit comprises a wedging block 32 movably arranged in the accommodating cavity and a friction pad 31 fixedly arranged at the rear end of the wedging block 32, the pushing unit comprises a handle 35 arranged at the front end of the wedging block 32 and a sliding block 36 arranged between the wedging block 32 and the handle 35, the handle 35 is pushed upwards or downwards, the sliding block 36 is driven by the handle 35 to push the wedging block 32 to move forwards and backwards, the friction pad 31 is pushed away from or close to the rod piece 200, and the push-button sliding seat 100 can move up and down on the rod piece 200.

The friction unit further comprises a baffle plate 34 covered at the front end of the accommodating cavity and a spring 33 accommodated between the wedging block 32 and the baffle plate 34, a plurality of columns are convexly arranged on the rear end wall of the accommodating cavity forwards, the baffle plate 34 is locked on the columns through screws 37, and the wedging block 32 is accommodated in the accommodating cavity and limited by the baffle plate 34 so as not to be separated from the accommodating cavity; in this embodiment, the number of the columns is four, four screw 37 holes corresponding to the columns are formed in the baffle 34, and the screws 37 penetrate through the screw 37 holes to lock the baffle 34 and the body 11. The baffle 34 is provided with a plurality of positioning columns in a protruding way, and the spring 33 is sleeved on the positioning columns, so that the spring 33 can move between the wedging block 32 and the baffle 34 without deviating; in this embodiment, two positioning columns are provided, two springs 33 are provided, a cavity is provided forward by the wedging block 32, the springs 33 are sleeved on the positioning columns and extend into the cavity, and when the wedging block 32 moves forward, the springs 33 are compressed; when the spring 33 is reset, the wedging block 32 moves backward to push the friction pad 31 to move backward to be attached to the rod 200.

The left and right ends of the wedging block 32 are respectively provided with a top block, and the top blocks are respectively correspondingly provided with a sliding block 36. The sliding block 36 is provided with a sliding groove corresponding to the top block, and the top block slides in the sliding groove to enable the sliding block 36 to push the wedging block 32 to move forwards and backwards. In this embodiment, the top block is set as a V-shaped top block 321, the sliding groove is set as a V-shaped groove 361, and the notch of the V-shaped groove 361 is inclined in the vertical direction, and the V-shaped top block 321 is set corresponding to the direction of the V-shaped groove 361. The V-shaped top block 321 moves up or down in the V-shaped groove 361, so that the wedging block 32 drives the friction pad 31 to approach one end of the handle 35 and separate from the rod 200, so that the push button slider 100 can move up and down freely on the rod 200. The two sliding blocks 36 are far away from each other and are arranged in a mirror image manner and are clamped on the handle 35.

The slider 36 is provided with a back-off close to one end of the handle 35, the handle 35 is provided with a buckling groove corresponding to the back-off, and the back-off is buckled to the buckling groove, so that the slider 36 is fixedly connected with the handle 35.

The socket assembly 2 comprises a guide block 21 and a gasket 22 which are sequentially sleeved on the connecting column, and a socket body 23 which is inserted into the connecting column, wherein a connecting hole is formed in the socket body 23, a falling-preventing pad 24 is inserted into the connecting hole, a screw 25 penetrates through the falling-preventing pad 24 and penetrates toward the connecting column to lock the socket body 23 and the body 11, the guide block 21 and the gasket 22 are limited between the socket body 23 and the body 11 to play a role of guiding and buffering, and the falling-preventing pad 24 enables the screw 37 and the connecting column not to fall off easily.

The working principle of the invention is briefly described as follows:

referring to fig. 6 to 8, in a default state, the handle 35 and the handle 35 are centrally disposed in a vertical direction, at this time, the spring 33 pushes the wedging block 32 to compress the side wall surface of the rod 200, the sliding block 36 is fixed in the middle under the acting force of the wedging block 32, the friction pad 31 is tightly attached to the side wall surface of the rod 200, and the push button slider 100 is fixedly disposed on the rod 200 under the action of friction force between the friction pad 31 and the rod 200.

Referring to fig. 9 to 11, when the handle 35 is pushed downward, the handle 35 moves downward to drive the two sliding blocks 36 to move downward, the wedging block 32 moves away from the rod 200 under the action of the pushing between the inclined surface of the V-shaped top block 321 and the V-shaped groove 361, the friction pad 31 moves away from the rod 200 along with the wedging block 32, the friction force between the friction pad 31 and the rod 200 is reduced, and the push button slider 100 can move downward as a whole.

Referring to fig. 12 to 14, when the handle 35 is pushed upward, the handle 35 moves upward to drive the two sliding blocks 36 to move upward, the wedging block 32 moves away from the rod 200 under the action of the pushing of the inclined surface of the V-shaped top block 321 and the V-shaped groove 361, the friction pad 31 moves away from the rod 200 along with the wedging block 32, the friction force between the friction pad 31 and the rod 200 is reduced, and the push button slider 100 can move upward as a whole.

According to the invention, the friction unit and the pushing unit are arranged on the sliding block assembly 3, and the pushing unit is controlled to push the friction unit to be close to the rod piece 200 so as to fixedly connect or separate the sliding seat 100 and the rod piece 200, so that the sliding seat 100 and the rod piece 200 are fixedly connected or can relatively move and move; the device has a simple structure, is convenient and flexible to operate, and brings convenience to the movement of a user; by pushing the handle 35 to move up or down, the handle 35 drives the sliding block 36 to push the top block on the wedging block 32 to move up or down in the sliding groove of the sliding block 36, so that the wedging block 32 moves forward, and the friction pad 31 moves away from the rod 200 to generate relative movement with the rod 200; the top block on the wedging block 32 slides to the bottom end of the sliding groove of the sliding block 36 by the restoring force of the spring 33, so that the wedging block 32 moves backwards, and the friction pad 31 is close to the rod piece 200 and generates large friction force with the rod piece 200 so as not to move relatively; the force for pushing the handle 35 is not required to be too large, the labor-saving lever structure principle is adopted, the locking force is strong, and the pushing time is labor-saving; through with the kicking block sets up to V type kicking block 321, will the spout sets up to V type groove 361, through the structure of V type inclined plane, can the one-hand operation with promote handle 35, and operating force can be very laborsaving, and this kind of simple structure, the part is less, and the reliability is higher, and the cost is lower.

While the foregoing description illustrates and describes the preferred embodiments of the present invention, as noted above, it is to be understood that the invention is not limited to the forms disclosed herein but is not to be construed as excluding other embodiments, and that various other combinations, modifications and environments are possible and may be made within the scope of the inventive concepts described herein, either by way of the foregoing teachings or by those of skill or knowledge of the relevant art. And that modifications and variations which do not depart from the spirit and scope of the invention are intended to be within the scope of the appended claims.

Claims (9)

1. A push button slider comprising:

the main body assembly is movably arranged on the rod piece and comprises a body, and the front end of the body is provided with a containing cavity with a forward opening; and

the sliding block assembly is arranged on the main body assembly and is used for limiting the main body assembly to move or be fixed with the rod piece;

the sliding block assembly comprises a friction unit corresponding to the rod piece and a pushing unit connected to the front end of the friction unit, the friction unit comprises a wedging block movably arranged in the accommodating cavity and a friction pad fixedly arranged at the rear end of the wedging block, the pushing unit comprises a handle arranged at the front end of the wedging block and a sliding block arranged between the wedging block and the handle, the handle is pushed upwards or downwards, the handle is enabled to drive the sliding block to push the wedging block to move forwards and backwards, and accordingly the friction pad is pushed to be far away from or close to the rod piece, so that the sliding seat and the rod piece can move relatively.

2. The push button slider of claim 1 wherein the slider assembly is disposed within the receiving cavity; the rear end of the body is provided with a sliding sleeve cavity which is penetrated up and down, and a sliding sleeve is inserted into the sliding sleeve cavity.

3. The push button slide seat according to claim 2, wherein a through groove is formed between the sliding sleeve cavity and the accommodating cavity, a yielding groove corresponding to the through groove is formed in the sliding sleeve, and the friction unit is movably telescopic in the through groove and the yielding groove and is close to or far away from the rod piece.

4. The push button sliding seat according to claim 2, wherein the friction unit further comprises a baffle plate fixedly arranged at the front end of the accommodating cavity, and a spring accommodated between the wedging block and the baffle plate, the wedging block is accommodated in the accommodating cavity and limited by the baffle plate so as not to be separated from the accommodating cavity, and the spring force after compression of the spring enables the wedging block to return to move backwards in the accommodating cavity.

5. The push button slider as set forth in claim 4, wherein the rear end wall of the receiving cavity is provided with a plurality of columns protruding forward, and the blocking piece is locked to the main body by a screw; the baffle plate is provided with a plurality of positioning columns in a backward protruding mode, and the spring is sleeved on the positioning columns, so that the spring can move between the wedging block and the baffle plate without deviating.

6. The push button slider of claim 5 wherein said wedging block defines a cavity forward, said spring being received on said post and extending into said cavity, said spring being compressed within said cavity and resisting against said stop when said wedging block is moved forward; when the spring is reset, the wedging block moves backwards to push the friction pad to move backwards to be attached to the rod piece.

7. The push button sliding seat according to claim 4 or 5, wherein a top block is arranged at each of the left and right ends of the wedging block, and the top blocks are respectively provided with a corresponding sliding block; the sliding block is provided with a sliding groove corresponding to the top block, and the top block slides in the sliding groove to enable the sliding block to push the wedging block to move forwards and backwards.

8. The push button slider as set forth in claim 7, wherein the ejector block is a V-shaped ejector block, the chute is a V-shaped groove, and the notch of the V-shaped groove is inclined in the up-down direction, and the V-shaped ejector block is disposed corresponding to the direction of the V-shaped groove.

9. The push button slider as claimed in claim 4 or 5, wherein an inverted buckle is provided at one end of the slider adjacent to the handle, a buckle slot corresponding to the inverted buckle is provided on the handle, and the inverted buckle is fastened to the buckle slot, so that the slider is fixedly connected with the handle.