CN212346053U - Height free adjusting belt wire-free power-on laminate and shoe rack plate cabinet frame - Google Patents

Abstract

The utility model discloses a high free adjustment zone exempts from tank bracket of line circular telegram plywood and shoe rack board relates to tank bracket technical field. The utility model comprises a cabinet frame main body frame consisting of a bottom frame, a top frame and a vertical keel, a layer board and a shoe frame board, wherein the side surface of the cabinet frame main body frame is vertically provided with a limit chute, and two inner side chute walls of the limit chute are respectively and symmetrically and vertically provided with an anode guide rail and a cathode guide rail; two sides of the front part of the laminate are respectively provided with a first T-shaped connecting structure which is oppositely matched with the limiting sliding groove in a limiting way by bolts. The utility model discloses realize that the height of plywood and shoe rack board freely sets up and adjusts, realize simultaneously on the optional position, plywood and shoe rack board can both realize with spacing spout in the electric contact of positive negative pole slide rail realize the power supply, need not to be connected by the wire, and positive negative pole slide rail sets up in hidden spacing spout, and the security is good, and the availability factor is high, need not complicated circuit and can realize the plywood and the power supply with electrical apparatus of shoe rack board.

Description

Height free adjusting belt wire-free power-on laminate and shoe rack plate cabinet frame

Technical Field

The utility model belongs to the technical field of the tank bracket, especially, relate to a high free adjustment zone exempts from tank bracket of line circular telegram plywood and shoe rack board.

Background

The laminated plate on the existing cabinet body is detachable and convenient to mount and is basically locked and fixed through a bolt, the laminated plate and an electric appliance mounted on the shoe rack plate are usually connected through a wire, and the connecting wire can be wound, turned and crossed once the position is changed, so that the risk of short circuit and disconnection of the wire can be caused after long-term operation, and safety accidents are caused; on the basis of the height free adjustment of different laminates or shoe rack plates, the problem to be solved is that safe, free, efficient and stable power supply is realized by means of the self structure, so that the cabinet frame with the height free adjustment belt free of the line electrified laminates and the shoe rack plates is of great significance.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a high free setting and regulation of plywood and shoe rack board are realized to tank bracket of high free regulation area exempting from line circular telegram plywood and shoe rack board, realize simultaneously on the optional position, the plywood can both be realized with the shoe rack board in the electric contact realization power supply of positive negative pole slide rail, need not to be connected by the wire, and positive negative pole slide rail sets up in hidden spacing spout, the security is good, the availability factor is high, need not complicated circuit and can realize the plywood and the power supply of electrical apparatus of shoe rack board, overall structure design benefit, it is convenient to install and dismantle, can not be because of the short circuit of wire, the emergence of the potential safety hazard that leads to, satisfy the demand of use under different environment and the condition.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model discloses a cabinet frame with a free-line electrified laminate and a shoe frame plate for a free height adjusting belt, which comprises a cabinet frame main body frame consisting of a bottom frame, a top frame, a vertical keel vertically connected between the bottom frame and the top frame, and a laminate and a shoe frame plate freely clamped and installed on the cabinet frame main body frame;

the side surface of the back of the cabinet frame main body frame, which is close to the vertical keel, is vertically provided with a limiting chute, the two inner side chute walls of the limiting chute are respectively and symmetrically and vertically provided with an anode guide rail and a cathode guide rail, the front parts of the anode guide rail and the cathode guide rail in the limiting chute are transverse in the vertical direction, and positioning columns are uniformly distributed;

two sides of the front part of the laminate are respectively provided with a first T-shaped connecting structure which is oppositely matched with the limiting sliding chute in a limiting way by bolts, and the two first T-shaped connecting structures are connected with a first electric appliance by a hidden line arranged in the peripheral side frame of the laminate and then are closed;

two sides of the front part of the shoe rack plate are respectively and symmetrically provided with a second T-shaped connecting structure which is oppositely matched with the limiting sliding groove in a limiting way by bolts, and the two second T-shaped connecting structures are connected with a second electrical appliance by a hidden line arranged in the peripheral side frame of the shoe rack plate and then are closed;

plywood and shoe rack board are installed on spacing spout through first "T" shape connection structure, second "T" shape connection structure according to the demand detachably activity joint of use height respectively to with first electrical apparatus of parallelly connected electric connection and second electrical apparatus power supply after positive pole guide rail and negative pole guide rail electric property link to each other, positive pole guide rail and negative pole guide rail are become 12V power supply after through the transformer transformation by the power.

Furthermore, a first positioning fixture block, a first negative electrode contact block and a first positive electrode contact block are vertically arranged at the positive front end of the wide edge of the first T-shaped connecting structure from top to bottom, and first grooves matched with the positioning columns in a clamping manner are arranged at the positions where the first positioning fixture block, the first negative electrode contact block and the first positive electrode contact block are connected with the wide edge of the first T-shaped connecting structure; the first positioning fixture block is arranged in the limiting chute and positioned between the anode guide rail and the cathode guide rail; and the side part of the first cathode contact block is provided with a cathode reed which is opposite to the cathode guide rail in position and is in contact conduction with the cathode guide rail, and the side part of the first anode contact block is provided with an anode reed which is opposite to the anode guide rail and is in contact conduction with the anode guide rail.

Furthermore, the long side of the first T-shaped connecting structure is parallel to the side frame of the layer board, and the front end of the wide side is perpendicular to the long side, so that the layer board is horizontally arranged on the cabinet frame main body frame, and the frame on the opposite side of the first T-shaped connecting structure on the layer board is not in contact with the cabinet frame main body frame.

Furthermore, a second positioning fixture block, a second negative electrode contact block and a second positive electrode contact block are vertically arranged at the positive front end of the wide edge of the second T-shaped connecting structure from top to bottom, and second grooves in clamping fit with the positioning columns are formed in the positions where the second positioning fixture block, the second negative electrode contact block, the second positive electrode contact block and the wide edge of the second T-shaped connecting structure are connected; the second positioning fixture block is arranged in the limiting chute and positioned between the anode guide rail and the cathode guide rail; the side part of the second negative electrode contact block is provided with a negative electrode reed which is opposite to the position of the negative electrode guide rail and is in contact conduction with the negative electrode guide rail, and the side part of the second positive electrode contact block is provided with a positive electrode reed which is opposite to the positive electrode guide rail and is in contact conduction with the positive electrode guide rail

Furthermore, the long side of the second T-shaped connecting structure is parallel to the side frame of the shoe rack board, and an included angle of 45-75 degrees is formed between the front end of the wide side and the long side, so that the shoe rack board is arranged on the main frame of the cabinet frame at the same inclined included angle, and the side frame on the shoe rack board, which is positioned on the opposite side of the second T-shaped connecting structure, is not contacted with the main frame of the cabinet frame.

Furthermore, the first electric appliance and the second electric appliance comprise lamp belts arranged in a surrounding mode, built-in LED luminous sources and luminous colored lamp bars.

The utility model discloses following beneficial effect has for prior art:

the height of the laminated board and the shoe rack board can be freely set and adjusted by designing a cabinet frame main body frame with a limiting chute structure, wherein positive and negative slide rails are symmetrically arranged on two opposite side walls in the limiting chute structure, a T-shaped connecting structure is arranged on the side parts of the laminated board and the shoe rack board and correspondingly matched with the limiting chute, a groove is matched with a positioning column for clamping and limiting, the laminated board and the shoe rack board are manually and detachably arranged and adjusted in height, a reed on the side part of a positive contact block and a reed on the side part of a negative contact block on the T-shaped connecting structure arranged on the front part of the laminated board and the shoe rack board are attached to the positive and negative slide rails to realize parallel connection with the positive and negative slide rails for power supply, electrical appliances on the laminated board and the shoe rack board are supplied with power, the height of the laminated board and the shoe rack board can be freely set and adjusted by the design of the clamping, need not to be connected by the wire, and positive negative slide rail sets up in hidden spacing spout, and the security is good, and the availability factor is high, need not complicated circuit and can realize the plywood and the power supply with electrical apparatus of shoe rack board, and overall structure design is ingenious, and it is convenient to install and dismantle, can not satisfy the demand of using under different environment and the condition because of the short circuit of wire, the potential safety hazard that opens circuit and lead to.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of a cabinet frame with a free-line power-on laminate and a shoe rack plate for freely adjusting height according to the present invention;

FIG. 2 is an enlarged view of a portion of the portion A of FIG. 1;

FIG. 3 is an enlarged view of a portion of FIG. 1 at position B;

FIG. 4 is a front view of the structure of FIG. 1;

FIG. 5 is a left side view of the structure of FIG. 1;

FIG. 6 is a cross-sectional view taken along line C-C of FIG. 4;

FIG. 7 is an enlarged view of a portion of FIG. 6 at position D;

fig. 8 is a schematic structural view of the main frame of the cabinet frame of the present invention;

FIG. 9 is a front view of the structure of FIG. 8;

FIG. 10 is a cross-sectional view E-E of FIG. 9;

FIG. 11 is an enlarged view of a portion of FIG. 10 at position F;

FIG. 12 is a schematic view of a laminate according to the present invention;

FIG. 13 is a right side view of the structure of FIG. 12;

FIG. 14 is a schematic structural view of the shoe rack plate of the present invention;

FIG. 15 is a schematic view of the structure at view angle G in FIG. 14;

FIG. 16 is a left side view of the structure of FIG. 15;

FIG. 17 is a schematic structural view of the mounting position of the limiting chute and the first "T" shaped connecting structure;

in the drawings, the components represented by the respective reference numerals are listed below:

1-a cabinet frame main body frame, 101-a limiting sliding groove, 1011-a negative pole guide rail, 1012-a positive pole guide rail, 1013-a positioning column, 102-a vertical keel, 103-a bottom frame, 104-a top frame, 2-a layer plate, 201-a first T-shaped connecting structure, 2011-a first positioning fixture block, 2012-a first negative pole contact block, 2013-a first positive pole contact block, 2014-a first groove, 3-a shoe frame plate, 301-a second T-shaped connecting structure, 3011-a second positioning fixture block, 3012-a second negative pole contact block, 3013-a second positive pole contact block, 3014-a second groove and 302-a second electrical appliance.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "back", "vertical", "side", "front", "outer peripheral side", "front", "top to bottom", and the like indicate positional or positional relationships for convenience of description, and to simplify the description, but do not indicate or imply that the indicated component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

Referring to fig. 1-17, the utility model discloses a cabinet frame with a free-line electrified plywood and a shoe rack board for height free adjustment, which comprises a cabinet frame main body frame 1 composed of a bottom frame 103, a top frame 104, a vertical keel 102 vertically connected between the bottom frame 103 and the top frame 104, a plywood 2 and a shoe rack board 3 freely clamped and installed on the cabinet frame main body frame 1, a limit chute 101 vertically arranged on the back of the cabinet frame main body frame 1 near the side of the vertical keel 102, a positive guide rail 1012 and a negative guide rail 1011 symmetrically vertically arranged on two inner side walls of the limit chute 101, a transverse direction in the vertical direction at the front part of the positive guide rail 1012 and the negative guide rail 1011 in the limit chute 101, and positioning columns 1013 uniformly arranged;

two sides of the front part of the laminate 2 are respectively symmetrically provided with a first T-shaped connecting structure 201 which is opposite to the limiting chute 101 for limiting and matching, and the two first T-shaped connecting structures 201 are connected with a first electric appliance through a hidden line arranged in a frame at the peripheral side of the laminate 2 and then are closed;

two sides of the front part of the shoe rack plate 3 are respectively and symmetrically provided with a second T-shaped connecting structure 301 which is opposite to the limiting chute 101 for limiting and matching by bolts, and the two second T-shaped connecting structures 301 are connected with a second electrical appliance 302 by a hidden line arranged in the peripheral side frame of the shoe rack plate 3 and then are connected in a closed manner;

the layer board 2 and the shoe rack board 3 are detachably and movably clamped and mounted on the limiting sliding groove 101 through the first T-shaped connecting structure 201 and the second T-shaped connecting structure 301 according to the requirement of the use height, and are electrically connected with the positive guide rail 1012 and the negative guide rail 1011 in parallel to supply power to the first electric appliance and the second electric appliance 302, and the positive guide rail 1012 and the negative guide rail 1011 are transformed into 12V by a power supply through a transformer to supply power.

A first positioning fixture block 2011, a first negative electrode contact block 2012 and a first positive electrode contact block 2013 are vertically arranged at the front end of the wide side of the first T-shaped connecting structure 201 from top to bottom, and first grooves 2014 matched with the positioning columns 1013 in a clamping manner are arranged at the positions where the first positioning fixture block 2011, the first negative electrode contact block 2012, the first positive electrode contact block 2013 are connected with the wide side of the first T-shaped connecting structure 201; the first positioning fixture block 2011 is arranged in the limiting chute 101 and is positioned between the positive guide rail 1012 and the negative guide rail 1011; the side of the first negative contact block 2012 is provided with a negative reed which is opposite to the negative guide rail 1011 and is in contact conduction, and the side of the first positive contact block 2013 is provided with a positive reed which is opposite to the positive guide rail 1012 and is in contact conduction.

Wherein, the long limit of first "T" shape connection structure 201 and 2 side frames of plywood parallel arrangement, and the positive front end of broadside sets up with long limit is perpendicular, makes 2 levels of plywood set up on tank bracket main body frame 1, and the frame that lies in the relative one side of first "T" shape connection structure 201 on the plywood 2 and tank bracket main body frame 1 contactless.

A second positioning fixture block 3011, a second negative electrode contact block 3012 and a second positive electrode contact block 3013 are vertically arranged at the positive front end of the wide side of the second T-shaped connecting structure 301 from top to bottom, and second grooves 3014 in clamping fit with the positioning columns 1013 are arranged at the positions where the second positioning fixture block 3011, the second negative electrode contact block 3012, the second positive electrode contact block 3013 and the wide side of the second T-shaped connecting structure 301 are connected; the second positioning fixture block 3011 is arranged in the limiting chute 101 and located between the positive guide rail 1012 and the negative guide rail 1011; the side of the second negative electrode contact block 3012 is provided with a negative electrode reed which is opposite to the position of the negative electrode guide rail 1011 and is contacted and conducted, and the side of the second positive electrode contact block 3013 is provided with a positive electrode reed which is opposite to the positive electrode guide rail 1012 and is contacted and conducted

The long edge of the second T-shaped connecting structure 301 is arranged in parallel with the side frame of the shoe rack plate 3, and the front end of the wide edge and the long edge form an included angle of 45-75 degrees, so that the shoe rack plate 3 is arranged on the cabinet frame main body frame 1 at the same inclined included angle, and the frame on the shoe rack plate 3, which is positioned on the opposite side of the second T-shaped connecting structure 301, is not contacted with the cabinet frame main body frame 1.

The first and second electrical appliances 302 include a lamp strip, a built-in LED light source, and a color light bar.

The utility model discloses beneficial effect for prior art includes has:

the utility model discloses a design a cabinet frame main body frame with spacing spout structure, two opposite lateral walls in the spacing spout structure are symmetrically provided with positive and negative slide rails, through installing T-shaped connecting structure at the lateral part of plywood and shoe rack plate and correspondingly matching with the spacing spout, and matching with the positioning column by the slot for clamping and spacing, the plywood and shoe rack plate are set and adjusted in height by manual detachably, and the reed of the side part of the positive contact block and the negative contact block on the T-shaped connecting structure arranged at the front part of the plywood and shoe rack plate is jointed with the positive and negative slide rails to realize parallel connection with the positive and negative slide rails for power supply, the electric appliances on the plywood and shoe rack plate are supplied with power, through the design of ingenious clamping spacing structure and power supply structure, the free setting and adjustment of the height of the plywood and shoe rack plate are realized, meanwhile, on the arbitrary position, the plywood and shoe rack plate can both realize the electric contact with the positive and negative, need not to be connected by the wire, and positive negative slide rail sets up in hidden spacing spout, and the security is good, and the availability factor is high, need not complicated circuit and can realize the plywood and the power supply with electrical apparatus of shoe rack board, and overall structure design is ingenious, and it is convenient to install and dismantle, can not satisfy the demand of using under different environment and the condition because of the short circuit of wire, the potential safety hazard that opens circuit and lead to.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. The utility model provides a high free adjustment area exempts from cabinet frame of line circular telegram plywood and shoe rack board, includes by end frame (103), top frame (104), vertical cabinet frame main body frame (1) that constitutes in the vertical keel (102) of connecting between end frame (103) and top frame (104) to and plywood (2) and shoe rack board (3) on cabinet frame main body frame (1) are installed to free joint, its characterized in that:

the side face, close to the vertical keel (102), of the back of the cabinet frame main body frame (1) is vertically provided with a limiting sliding chute (101), two inner side groove walls of the limiting sliding chute (101) are respectively and symmetrically and vertically provided with an anode guide rail (1012) and a cathode guide rail (1011), the front parts, located on the anode guide rail (1012) and the cathode guide rail (1011), in the limiting sliding chute (101) are transverse in the vertical direction, and positioning columns (1013) are uniformly distributed;

two sides of the front part of the laminate (2) are respectively and symmetrically provided with a first T-shaped connecting structure (201) which is opposite to the limiting chute (101) for limiting and matching, and the two first T-shaped connecting structures (201) are connected with a first electric appliance through a hidden line arranged in the frame at the peripheral side of the laminate (2) and then are closed;

two sides of the front part of the shoe rack plate (3) are respectively and symmetrically provided with a second T-shaped connecting structure (301) which is oppositely matched with the limiting sliding groove (101) in a limiting way by bolts, and the two second T-shaped connecting structures (301) are connected with a second electrical appliance (302) by a hidden line arranged in the peripheral side frame of the shoe rack plate (3) and then are connected in a closed way;

plywood (2) and shoe rack board (3) are installed on spacing spout (101) through first "T" shape connection structure (201), the detachably activity joint of second "T" shape connection structure (301) according to the demand of use height respectively to first electric apparatus and second electric apparatus (302) power supply after connecting with anodal guide rail (1012) and negative pole guide rail (1011) electrical property with parallel electric connection's mode, power supply after anodal guide rail (1012) and negative pole guide rail (1011) become 12V by the transformer transformation of power.

2. The cabinet frame with the wire-free electrified layer plate and the shoe frame plate capable of freely adjusting the height according to claim 1 is characterized in that a first positioning fixture block (2011), a first negative electrode contact block (2012) and a first positive electrode contact block (2013) are vertically arranged at the front end of the wide side of the first T-shaped connecting structure (201) from top to bottom, and first grooves (2014) which are in clamping fit with the positioning columns (1013) are respectively arranged at the positions where the first positioning fixture block (2011), the first negative electrode contact block (2012) and the first positive electrode contact block (2013) are connected with the wide side of the first T-shaped connecting structure (201); the first positioning fixture block (2011) is arranged in the limiting chute (101) and is positioned between the positive guide rail (1012) and the negative guide rail (1011); the side part of the first negative electrode contact block (2012) is provided with a negative electrode reed which is opposite to the position of the negative electrode guide rail (1011) and is in contact conduction, and the side part of the first positive electrode contact block (2013) is provided with a positive electrode reed which is opposite to the positive electrode guide rail (1012) and is in contact conduction.

3. The cabinet frame with the wire-free electric connection layer plate and the shoe frame plate for the free height adjustment according to claim 2 is characterized in that the long side of the first T-shaped connecting structure (201) is arranged in parallel with the side frame of the layer plate (2), the front end of the wide side is arranged perpendicular to the long side, the layer plate (2) is horizontally arranged on the cabinet frame main body frame (1), and the frame on the opposite side of the first T-shaped connecting structure (201) on the layer plate (2) is not in contact with the cabinet frame main body frame (1).

4. The cabinet frame with the wire-free electrified layer plate and the shoe frame plate capable of freely adjusting the height according to claim 1 is characterized in that a second positioning clamping block (3011), a second negative electrode contact block (3012) and a second positive electrode contact block (3013) are vertically arranged at the front end of the wide side of the second T-shaped connecting structure (301) from top to bottom, and second grooves (3014) matched with the positioning columns (1013) are respectively arranged at the positions where the second positioning clamping block (3011), the second negative electrode contact block (3012), the second positive electrode contact block (3013) and the wide side of the second T-shaped connecting structure (301) are connected; the second positioning fixture block (3011) is arranged in the limiting sliding groove (101) and is positioned between the positive guide rail (1012) and the negative guide rail (1011); and a negative electrode reed which is opposite to the position of the negative electrode guide rail (1011) and is in contact conduction is arranged on the side part of the second negative electrode contact block (3012), and a positive electrode reed which is opposite to the positive electrode guide rail (1012) and is in contact conduction is arranged on the side part of the second positive electrode contact block (3013).

5. The cabinet frame with the wire-free electric laminate and the shoe frame plate for the free height adjustment according to claim 4, wherein the long side of the second T-shaped connecting structure (301) is arranged in parallel with the side frame of the shoe frame plate (3), and the right front end of the wide side forms an included angle of 45-75 degrees with the long side, so that the shoe frame plate (3) is arranged on the main frame (1) of the cabinet frame at the same inclined included angle, and the side frame of the shoe frame plate (3) on the opposite side of the second T-shaped connecting structure (301) is not in contact with the main frame (1) of the cabinet frame.

6. The cabinet frame with the wire-free electric laminate and the shoe rack plate for free height adjustment according to claim 4, wherein the first and second electric appliances (302) comprise a lamp strip, a built-in LED light source and a luminous colored lamp strip which are arranged in a surrounding mode.

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