CN215266977U - Cabinet body conducting system - Google Patents

Abstract

The utility model provides a cabinet body conductive system, which comprises a conductive structure; the conductive structure is provided with a groove; the groove extends along the length direction of the conductive structure; a partition plate is connected in the groove and faces the opening of the groove; the partition plate extends along the length direction of the conductive structure and divides the groove into a first mounting groove and a second mounting groove; a first conducting strip is arranged in the first mounting groove, and a second conducting strip is arranged in the second mounting groove; the plug is inserted into the groove, so that the plug is electrically connected with the conducting strip; the plug can be rationally adjusted according to the user demand the last mounted position of conductive structure need not rewiring or wiring, and not only the operation is swift convenient, simultaneously, conductive structure's electric conductive property is good, even receive the stability that the extrusion can not influence the power supply yet, and overall performance is stable, has good practicality.

Description

Cabinet body conducting system

Technical Field

The utility model relates to an electrically conductive technical field particularly, relates to a cabinet body conductive system.

Background

The existing cabinet body conducting system mainly conducts electricity by adopting a slotting wiring mode, the slotting position and the wiring length are fixed, so that a plug is fixedly arranged in a cabinet body, and subsequently, if the plug position needs to be adjusted or a new plug needs to be slotted again or wired, not only is the operation complicated, but also the electric wire is exposed during wiring, so that the appearance is influenced; meanwhile, the stability of the connection node is poor, and the extrusion of the wire is easy to cause the circuit to be disconnected, so that the stability of power supply is influenced; the conventional cabinet body conducting system is only suitable for a single type of cabinet body, such as a glass cabinet or a wood board cabinet, and different cabinet bodies cannot be used universally, so that the applicable scene is single; meanwhile, the installation position of the plug cannot be reasonably adjusted according to the use requirement by the conventional cabinet body conductive system, and the universality of the product is poor.

SUMMERY OF THE UTILITY MODEL

Based on this, in order to solve the problem that current cabinet body conductive system can't rationally adjust the mounted position of plug according to the user demand, the utility model provides a cabinet body conductive system, its concrete technical scheme as follows:

a cabinet conductive system comprising a conductive structure; the conductive structure is provided with a groove; the groove extends along the length direction of the conductive structure; a partition plate is connected in the groove and faces the opening of the groove; the partition plate extends along the length direction of the conductive structure and divides the groove into a first mounting groove and a second mounting groove; a first conducting strip is arranged in the first mounting groove, and a second conducting strip is arranged in the second mounting groove.

The cabinet body conductive system realizes the electric connection between the plug and each conductive sheet by inserting the plug into the groove; the plug can be reasonably adjusted in the installation position on the conductive structure according to the use requirement without rewiring or wiring, so that the operation is quick and convenient, and the conductive structure 1 is preset in various cabinets, such as a glass cabinet or a wood board cabinet, so that the secrecy is good, and the influence of the exposed electric wire on the appearance can be effectively avoided; simultaneously, conductive structure's electric conductive property is good, even receive the extrusion can not influence the stability of power supply yet, and the wholeness can be stable, has good practicality.

Further, the conductive structure includes a bottom plate; one end of the bottom plate is vertically connected with a first flange, and the other end of the bottom plate is vertically connected with a second flange; the first retaining edge, the second retaining edge and the partition plate are located on the same side of the bottom plate and extend along the length direction of the conductive structure.

Further, the distance between the partition board and the first rib is equal to the distance between the partition board and the second rib.

Further, the lengths of the first flange, the second flange and the partition are consistent.

Furthermore, a first extending part is arranged at one end, far away from the bottom plate, of the first retaining side; the first extending part extends towards the direction of the partition board; a first clamping part matched with the first extending part is arranged on one side, close to the first retaining edge, of the partition board; a first jack is formed between the first extending part and the first clamping part.

Furthermore, a second extending part is arranged at one end of the second retaining edge, which is far away from the bottom plate; the second extending part extends towards the direction of the partition board; a second clamping part matched with the second extending part is arranged on one side, close to the second flange, of the partition board; and a second jack is formed between the second extending part and the second clamping part.

Further, the first conducting strip comprises a first U-shaped section, a first arc-shaped section and a second arc-shaped section which are arranged oppositely; the opening of the first U-shaped section faces the opening of the first mounting groove, and the bottom end of the first U-shaped section is abutted to the bottom plate; one end of the first U-shaped section, which is close to the first flange, is connected with one end of the first arc-shaped section, and one end of the first U-shaped section, which is close to the partition plate, is connected with one end of the second arc-shaped section; the other end of the first arc-shaped section is bent and extends towards the first extension part; the other end of the second arc-shaped section is bent and extends towards the first clamping part; a first conductive hole is formed between the first arc-shaped section and the second arc-shaped section.

Further, the second conducting strip comprises a second U-shaped section, a third arc-shaped section and a fourth arc-shaped section which are arranged oppositely; the opening of the second U-shaped section faces the opening of the second mounting groove, and the bottom end of the second U-shaped section is abutted to the bottom plate; one end of the second U-shaped section, which is close to the second flange, is connected with one end of the third arc-shaped section, and one end of the second U-shaped section, which is close to the partition plate, is connected with one end of the fourth arc-shaped section; the other end of the third arc-shaped section bends and extends towards the direction of the second extension part; the other end of the fourth arc-shaped section is bent and extends towards the direction of the second clamping part; a second conductive via is formed between the third arcuate segment and the fourth arcuate segment.

Further, the width of the first conductive hole is smaller than that of the first jack.

Further, the first conducting strip and the second conducting strip are both made of a memory metal material.

Drawings

The invention will be further understood from the following description in conjunction with the accompanying drawings. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the embodiments. Like reference numerals designate corresponding parts throughout the different views.

Fig. 1 is a schematic structural diagram of a cabinet body conductive system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a conductive structure of a cabinet conductive system according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a plug of a cabinet conductive system according to an embodiment of the present invention;

fig. 4 is a schematic view of a structure of a cabinet conductive system according to an embodiment of the present invention.

Description of reference numerals: 1. a conductive structure; 11. a base plate; 12. a first flange; 13. a second flange; 14. a partition plate; 15. a first extension portion; 16. a first clamping part; 17. a second extension portion; 18. a second clamping part; 2. a first conductive sheet; 21. a first U-shaped section; 22. a first arcuate segment; 23. a second arcuate segment; 3. a second conductive sheet; 4. and (4) a plug.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the following embodiments. It should be understood that the detailed description and specific examples, while indicating the scope of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In the present invention, the terms "first" and "second" do not denote any particular quantity or order, but are merely used to distinguish names.

As shown in fig. 1 to 4, an embodiment of the present invention provides a cabinet conductive system, which includes a conductive structure 1; the conductive structure 1 is provided with a groove; the groove extends along the length direction of the conductive structure 1; a partition plate 14 is connected in the groove, and the partition plate 14 faces the opening of the groove; the partition plate 14 extends along the length direction of the conductive structure 1 and divides the groove into a first mounting groove 110 and a second mounting groove 111; a first conductive plate 2 is arranged in the first mounting groove 110, and a second conductive plate 3 is arranged in the second mounting groove 111.

The conductive system of the cabinet body realizes the electric connection between the plug 4 and each conductive sheet by inserting the plug 4 into the groove; the plug 4 can be reasonably adjusted in the installation position on the conductive structure 1 according to the use requirement without rewiring or wiring, so that the operation is quick and convenient, and the conductive structure 1 is preset in various cabinets, such as a glass cabinet or a wood board cabinet, so that the secrecy is good, and the influence of the exposed electric wire on the appearance can be effectively avoided; meanwhile, the conductive structure 1 has good conductive performance, does not influence the stability of power supply even if being extruded, has stable overall performance and good practicability.

In one embodiment, the conductive structure 1 comprises a base plate 11; one end of the bottom plate 11 is vertically connected with a first flange 12, and the other end of the bottom plate 11 is vertically connected with a second flange 13; the first rib 12, the second rib 13 and the partition 14 are located on the same side of the bottom plate 11 and extend along the length direction of the conductive structure 1.

Specifically, the first rib 12, the second rib 13 and the bottom plate 11 form the groove.

In one embodiment, the distance between the partition 14 and the first rib 12 is equal to the distance between the partition 14 and the second rib 13.

Specifically, the first rib 12, the bottom plate 11 and the partition 14 form the first mounting groove 110; the second retaining edge 13, the bottom plate 11 and the partition plate 14 form the second mounting groove 111; the first mounting groove 110 and the second mounting groove 111 have the same internal structure, function, and purpose.

In one embodiment, the lengths of the first rib 12, the second rib 13 and the partition 14 are the same.

In one embodiment, the end of the first rib 12 away from the bottom plate 11 is provided with a first extension 15; the first extension 15 extends toward the partition 14; a first clamping portion 16 matched with the first extending portion 15 is arranged on one side, close to the first retaining edge 12, of the partition plate 14; a first insertion hole 19 is formed between the first extending portion 15 and the first clamping portion 16.

Specifically, the first extending portion 15 is vertically connected to the first rib 12; the first clamping part 16 is vertically connected with the partition plate 14; the width of the first insertion hole 19 is smaller than that of the first mounting groove 110.

In one embodiment, a second extending portion 17 is disposed at an end of the second flange 13 away from the bottom plate 11; the second extension 17 extends toward the partition 14; a second clamping portion 18 matched with the second extending portion 17 is arranged on one side, close to the second retaining edge 13, of the partition plate 14; a second insertion hole is formed between the second extending portion 17 and the second clamping portion 18.

Specifically, the second extending portion 17 is vertically connected to the second flange 13; the second clamping portion 18 is vertically connected with the partition 14; the width of the second insertion hole is smaller than that of the second mounting groove 111.

In one embodiment, the first conductive sheet 2 comprises a first U-shaped section 21, a first arc-shaped section 22 and a second arc-shaped section 23 which are oppositely arranged; the opening of the first U-shaped section 21 faces the opening of the first mounting groove 110, and the bottom end of the first U-shaped section 21 abuts against the bottom plate 11; one end of the first U-shaped section 21 close to the first rib 12 is connected with one end of the first arc-shaped section 22, and one end of the first U-shaped section 21 close to the partition plate 14 is connected with one end of the second arc-shaped section 23; the other end of the first arc-shaped section 22 is bent and extends towards the first extending part 15; the other end of the second arc-shaped section 23 is bent and extends towards the first clamping part 16; a first conductive aperture is formed between the first arcuate segment 22 and the second arcuate segment 23.

In one embodiment, the second conductive sheet 3 comprises a second U-shaped section, a third arc-shaped section and a fourth arc-shaped section which are oppositely arranged; the opening of the second U-shaped section faces the opening of the second mounting groove 111, and the bottom end of the second U-shaped section abuts against the bottom plate 11; one end of the second U-shaped section, which is close to the second flange 13, is connected with one end of the third arc-shaped section, and one end of the second U-shaped section, which is close to the partition plate 14, is connected with one end of the fourth arc-shaped section; the other end of the third arc-shaped section bends and extends towards the second extension part 17; the other end of the fourth arc-shaped section is bent and extends towards the second clamping part 18; a second conductive via is formed between the third arcuate segment and the fourth arcuate segment.

Specifically, the free end of the first arc-shaped segment 22 abuts against the first extension 15; the free end of the second arc-shaped section 23 is abutted against the first clamping part 16; the free end of the third arc-shaped section is abutted with the second extension part 17; the free end of the fourth arc-shaped section is abutted against the second clamping part 18; through the arrangement, the first conducting strip 2 is firmly and stably clamped in the first mounting groove 110 and is not easy to loosen and displace; the second conducting strip 3 is firmly and stably clamped in the second mounting groove 111, and is not easy to loosen and displace, so that the conducting stability is ensured.

In one embodiment, the width of the first conductive hole is smaller than the width of the first jack 19.

In one embodiment, the width of the second conductive hole is smaller than the width of the second jack.

In one embodiment, the bending angle of the first arc-shaped segment 22 is the same as the bending angle of the second arc-shaped segment 23 and is greater than 90 degrees.

In one embodiment, the bending angle of the third arc-shaped section is the same as the bending angle of the fourth arc-shaped section and is greater than 90 degrees.

Specifically, the first arc-shaped segment 22, the second arc-shaped segment 23, the third arc-shaped segment and the fourth arc-shaped segment have the same structure, size and function; initially, the free end of the first arcuate segment 22 is distal from the first rib 12; the free end of the second arc-shaped segment 23 is far away from the baffle plate 14; the free end of the third arc-shaped section is far away from the second flange 13; the free end of the fourth arc segment is far away from the baffle 14;

inserting the plug 4 into the conductive structure 1, the plug 4 comprising a first tab and a second tab, the first tab pushing the free end of the first arc-shaped segment 22 to move towards the first rib 12 and the free end of the second arc-shaped segment 23 to move towards the partition 14 as the plug 4 is inserted; the second inserting piece pushes the free end of the third arc-shaped section to move towards the direction of the second baffle 13 and the free end of the fourth arc-shaped section to move towards the direction of the partition plate 14, the first inserting piece is always clamped in the first conductive hole in the displacement process, and the second inserting piece is always clamped in the second conductive hole, so that the power supply stability is ensured; through the arrangement, the universality of the conducting strip is increased, so that the conducting structure 1 can use plugs 4 and inserting pieces of different specifications and models, and the application range of the conducting structure 1 is widened.

In one embodiment, the first conductive plate 2 and the second conductive plate 3 are made of a memory metal material.

Specifically, the first conductive plate 2 and the second conductive plate 3 can elastically deform under the action of external force, and when the external force disappears, the first conductive plate 2 and the second conductive plate 3 can restore to the initial state.

In one embodiment, the conductive structure 1 is made of an insulating material.

The using process is as follows:

inserting the plug 4 into the conductive structure 1, wherein the first insert of the plug 4 is connected with the first conductive sheet 2 through the first jack 19 and the first conductive hole, and the second insert of the plug 4 is connected with the second conductive sheet 3 through the second jack and the second conductive hole, so as to form a conductive loop, and at the moment, the plug 4 is used as a power taking medium and can be communicated with an external device or an external circuit;

if the installation position of the plug 4 needs to be adjusted, the plug 4 is pulled out, and each inserting sheet is separated from each corresponding conducting sheet, so that a conducting loop can be cut off; and selecting a proper installation position, and repeating the operation.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A cabinet body conductive system is characterized by comprising a conductive structure;

the conductive structure is provided with a groove;

the groove extends along the length direction of the conductive structure;

a partition plate is connected in the groove and faces the opening of the groove;

the partition plate extends along the length direction of the conductive structure and divides the groove into a first mounting groove and a second mounting groove;

a first conducting strip is arranged in the first mounting groove, and a second conducting strip is arranged in the second mounting groove.

2. The cabinet conductive system of claim 1, wherein the conductive structure includes a base plate;

one end of the bottom plate is vertically connected with a first flange, and the other end of the bottom plate is vertically connected with a second flange;

the first retaining edge, the second retaining edge and the partition plate are located on the same side of the bottom plate and extend along the length direction of the conductive structure.

3. The cabinet conductive system of claim 2, wherein the distance between the partition and the first rib is equal to the distance between the partition and the second rib.

4. The cabinet conductive system of claim 2, wherein the first rib, the second rib, and the partition are of uniform length.

5. The cabinet conductive system of claim 2, wherein an end of the first rib remote from the base plate is provided with a first extension;

the first extending part extends towards the direction of the partition board;

a first clamping part matched with the first extending part is arranged on one side, close to the first retaining edge, of the partition board;

a first jack is formed between the first extending part and the first clamping part.

6. The cabinet conductive system of claim 2, wherein an end of the second ledge distal from the base plate is provided with a second extension;

the second extending part extends towards the direction of the partition board;

a second clamping part matched with the second extending part is arranged on one side, close to the second flange, of the partition board;

and a second jack is formed between the second extending part and the second clamping part.

7. The cabinet conductive system of claim 5, wherein the first conductive strip includes a first U-shaped segment, a first arc segment and a second arc segment that are oppositely disposed;

the opening of the first U-shaped section faces the opening of the first mounting groove, and the bottom end of the first U-shaped section is abutted to the bottom plate;

one end of the first U-shaped section, which is close to the first flange, is connected with one end of the first arc-shaped section, and one end of the first U-shaped section, which is close to the partition plate, is connected with one end of the second arc-shaped section;

the other end of the first arc-shaped section is bent and extends towards the first extension part;

the other end of the second arc-shaped section is bent and extends towards the first clamping part;

a first conductive hole is formed between the first arc-shaped section and the second arc-shaped section.

8. The cabinet conductive system of claim 6, wherein the second conductive strip includes a second U-shaped segment, a third arc segment and a fourth arc segment that are oppositely disposed;

the opening of the second U-shaped section faces the opening of the second mounting groove, and the bottom end of the second U-shaped section is abutted to the bottom plate;

one end of the second U-shaped section, which is close to the second flange, is connected with one end of the third arc-shaped section, and one end of the second U-shaped section, which is close to the partition plate, is connected with one end of the fourth arc-shaped section;

the other end of the third arc-shaped section bends and extends towards the direction of the second extension part;

the other end of the fourth arc-shaped section is bent and extends towards the direction of the second clamping part;

a second conductive via is formed between the third arcuate segment and the fourth arcuate segment.

9. The cabinet conductive system of claim 7, wherein the first conductive aperture has a width less than a width of the first receptacle.

10. The cabinet conductive system of claim 1, wherein the first conductive strip and the second conductive strip are made of a memory metal material.

Images