CN216280331U - Quick-release assembling structure - Google Patents

Abstract

The utility model provides a quick-release assembling structure. The quick-release assembling structure is used for detachably connecting the display to the support frame and comprises a first group of fittings connected with the display and a second group of fittings connected with the support frame. The first set of fittings comprises a bottom plate, a boss, a first clamping part and an operating arm. The boss is arranged on the bottom plate. The first clamping part and the operating arm are arranged on the boss, and a first sliding groove is formed between the first clamping part and the boss. The second set of fittings comprises a plate body, a second clamping part and a convex block. The second clamping part and the convex block are arranged on the plate body, and a second sliding groove is formed between the second clamping part and the plate body. When the first group of fittings and the second group of fittings are in a combined state, the first clamping part is accommodated in the second sliding groove, the second clamping part is accommodated in the first sliding groove, and the operating arm and the lug are substantially interfered with each other.

Description

Quick-release assembling structure

Technical Field

The utility model relates to a quick-release assembly structure, in particular to a quick-release assembly structure capable of being pressed and controlled to be detached.

Background

With the development of technology and the increase of user demands, displays of various sizes have been widely used in daily life, and each display needs to be provided with a corresponding support. The supporting frame generally comprises a chassis and a vertical column, wherein a supporting plate for connecting the display is disposed on the vertical column. However, the conventional bearing plate is usually fixedly connected to the display by screws, and if the display needs to be replaced, the screws locked to the back of the display need to be removed to separate the display from the supporting frame, which is time-consuming and troublesome in removal and assembly. In addition, the display and the support frame are limited by various specifications, and the size of the display and the size of the bearing plate and the position of the lock hole are not matched, so that the display and the bearing plate cannot be assembled and disassembled at will. Therefore, there is a need for a structure that can be used to disassemble and assemble the monitor and the supporting frame quickly without the aid of tools.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a quick-release assembling structure which comprises two assembling parts, wherein the two assembling parts are respectively arranged on the display side and the supporting frame side, and the two assembling parts respectively comprise matched clamping parts and sliding grooves which can be mutually connected. In addition, the assembly part connected with the display also comprises an operating arm, and the assembly part connected with the support frame also comprises a lug. When the two assembling parts are assembled, the clamping part of the assembling part is accommodated in the sliding groove of the other assembling part, and the convex block is clamped with the convex part of the operating arm. If the combined state is required to be released, the display and the support frame can be quickly assembled or separated only by pressing the operating arm.

To achieve the above object, the present invention discloses a quick-release assembly structure for detachably connecting a display to a support frame, the quick-release assembly structure includes a first set of fittings and a second set of fittings. The first set of fittings is connected with the display and comprises a bottom plate, a boss, a first clamping part and an operating arm. The boss is arranged on the bottom plate. The first clamping part is arranged on the boss, and a first sliding groove is formed between the first clamping part and the boss. The operating arm is arranged on the boss. The second group of accessories is connected with the support frame and comprises a plate body, a second clamping part and a convex block. The second clamping part is arranged on the plate body and forms a second sliding chute with the plate body. The projection is arranged on the plate body. When the first group of accessories and the second group of accessories are in an assembled state, the first clamping part is accommodated in the second sliding groove, the second clamping part is accommodated in the first sliding groove, and the operating arm and the projection are substantially mutually interfered.

The boss is provided with a body part and an annular part, and the annular part is connected between the body part and the bottom plate so that the body part protrudes relative to the bottom plate.

The first set of fittings further comprises an opening formed on the boss and extending from the body part to the annular part, and the operating arm is locked on the body part and partially movably penetrates through the opening.

The operating arm comprises a pressing part, a convex part and a fixing part, wherein the fixing part is locked and fixed on the body part of the boss, and when the pressing part or the convex part is stressed to make the operating arm flex, the opening allows the operating arm to move in the opening.

When the first group of fittings and the second group of fittings are in the combined state, the convex part abuts against the plate body of the second group of fittings and interferes with the convex block.

When the first group of fittings and the second group of fittings are in the combined state and external force is applied to the pressing part, the convex part is far away from the plate body of the second group of fittings until the convex part and the convex block do not interfere with each other.

The convex part of the operating arm and the convex block of the second group of fittings are respectively provided with a corresponding inclined surface, when the first group of fittings and the second group of fittings are mutually assembled, the inclined surfaces of the convex part and the convex block are mutually contacted, so that the operating arm is bent.

The first clamping part comprises two first wing plates which are opposite to each other and are not parallel substantially, the first wing plates are respectively provided with first closed ends and first open ends, and the distance between the first closed ends is greater than that between the first open ends.

The second clamping part comprises two second wing plates which are opposite to each other and are not parallel substantially, the second wing plates are respectively provided with a second closed end and a second open end, and the distance between the second open ends is greater than that between the second closed ends.

The first group of accessories and the second group of accessories are in the combined state through the first open end abutting against the second closed end through the second chute, the second open end abutting against the first closed end through the first chute, and the mutual interference of the operating arm and the lug.

The first set of accessories further includes a plurality of screws, the base plate has a plurality of through holes, the through holes conform to Video Electronics Standards Association (VESA) Standards, and the screws lock the first set of accessories to the display through the through holes.

Other objects of the present invention, as well as means and embodiments of the present invention, will become apparent to those skilled in the art upon reference to the accompanying drawings and the following description of the embodiments.

Drawings

FIG. 1 is a schematic view of a quick release assembly structure according to the present invention;

FIG. 2 is an exploded view of a first set of components of the quick release assembly structure of the present invention;

FIG. 3 is a schematic view of a first set of components of the quick release assembly structure of the present invention;

FIG. 4 is a rear view of the first set of components of the quick release assembly structure of the present invention;

FIG. 5 is a bottom view of the first set of fittings of the quick release assembly structure of the present invention;

FIG. 6 is a top view of the first set of components of the quick release assembly structure of the present invention;

FIG. 7 is a schematic view of an operating arm of the quick release assembly structure of the present invention;

FIG. 8 is a schematic view of a second set of components of the quick release assembly of the present invention;

FIG. 9 is a rear view of a second set of components of the quick release assembly structure of the present invention;

FIG. 10 is a top view of a second set of components of the quick release assembly of the present invention;

FIG. 11 is a bottom view of the second set of quick release assembly structure of the present invention;

FIG. 12 is a top view of the quick release assembly structure of the present invention; and

fig. 13 is a bottom view of the quick release assembly structure of the present invention.

[ reference numerals ]

1000: quick-release assembling structure

2000: display device

3000: supporting frame

1: first set of fittings

11: base plate

111: perforation

12: boss

121: body part

1211: opening of the container

122: annular portion

13: a first engaging part

131: first wing plate

1321: first closed end

1322: first open end

14: operating arm

141: pressing part

142: convex part

1421: inclined plane

143: fixing part

144: perforation

145: screw with a thread

15: opening of the container

16: screw with a thread

2: second set of fittings

21: plate body

211: opening of the container

22: second engaging part

221: second wing plate

2211: second open end

2212: second closed end

23: bump

231: inclined plane

S1: first chute

S2: second chute

Detailed Description

This summary is explained below by way of examples, which are not intended to limit the utility model to any particular environment, application, or particular manner in which the utility model may be practiced as described in the examples. Therefore, the description of the embodiments is for the purpose of illustration only, and not for the purpose of limitation. It should be noted that, in the following embodiments and the accompanying drawings, some elements not directly related to the present invention have been omitted and not shown, and the dimensional relationship between the elements in the drawings is only for easy understanding and is not intended to limit the actual scale.

Fig. 1 is a schematic view of a quick-release assembly structure 1000 for detachably connecting a display 2000 to a supporting frame 3000 according to the present invention. The quick release assembly structure 1000 of the present invention comprises a first set of fittings 1 and a second set of fittings 2. The first set of fittings 1 is connected to the monitor 2000 and the second set of fittings 2 is connected to the support 3000, as will be further described below.

Referring to fig. 2 to 7, the first assembly 1 includes a base plate 11, a boss 12, a first engaging portion 13, an operating arm 14, an opening 15 and a plurality of screws 16. The bottom plate 11 has a plurality of through holes 111, the through holes 111 conform to the Video Electronics Standards Association (VESA) standard, and the display 2000 is also provided with locking holes conforming to the VESA standard, so that the screws 16 can lock the first set of accessories 1 to the display 2000 through the through holes 111 on the bottom plate 11.

In the present embodiment, the bottom plate 11 is approximately square, and the mounting surface formed by the through hole 111 can include at least the common 100 × 100 mm (millimeter; mm) and 75 × 75 mm, but is not limited thereto. In practice, it is only necessary that the locking hole of the display 2000 and the through hole 111 of the bottom plate 11 are both corresponding pitches meeting the VESA standard.

The boss 12 is disposed on the base plate 11, and has a body portion 121 and a ring portion 122. The first engaging portion 13 is disposed on the boss 12, and forms a first sliding slot S1 with the boss 12. Specifically, referring to fig. 2 to 6, the annular portion 122 of the boss 12 is connected between the main body 121 and the bottom plate 11, so that the main body 121 protrudes relative to the bottom plate 11.

In the present embodiment, the first engaging portion 13 includes two first flanges 131, which are respectively connected to the main body 121 of the boss 12. As shown, the body portion 121 has two openings 1211 with shapes matching the first wing plates 131, and the first wing plates 131 are disposed along the edges of the openings 1211 to protrude from the body portion 121 and are opposite to each other and not substantially parallel. A first slide groove S1 is formed between the portion of the first flap 131 not connected to the body portion 121 and the body portion 121. Therefore, each of the first wing plates 131 has a first closed end 1311 and a first open end 1312, and a distance D1 between the two first closed ends 1311 is greater than a distance D2 between the two first open ends 1312, so that the two first wing plates 131 are substantially V-shaped, as shown in fig. 3 and 4.

Referring to fig. 2 and 7, the operating arm 14 is disposed on the boss 12 and includes a pressing portion 141, a protruding portion 142, a fixing portion 143, and a plurality of through holes 144. The opening 15 is formed on the boss 12 and extends from the body 121 to the annular portion 122, and the operating arm 14 is locked to the body 121 and partially movably penetrates through the opening 15.

As shown in fig. 2 to 4, when the operation arm 14 is mounted, the fixing portion 143 passes through the opening 15, and the fixing portion 143 is locked to the body portion 121 of the boss 12 by a screw 145 passing through the through hole 144. The pressing portion 141 and the protrusion 142 are exposed from the opening 15. The lower edge of the projection 142 is located near or against the edge of the body portion 121 at the opening 15. When the pressing portion 141 or the protruding portion 142 is forced to flex the operation arm 14, the opening 15 allows the operation arm 14 to move in the opening 15, and the bottom plate 11 can be the limit of the flexing of the operation arm 14, so as to avoid the damage of the operation arm 14 caused by excessive force.

Please refer to fig. 8 to 11, which respectively illustrate a second set of fittings 2 of the present invention at different viewing angles. The second group member 2 includes a plate body 21, a second engaging portion 22, and a projection 23. The second engaging portion 22 is provided on the plate body 21, and forms a second slide groove S2 with the plate body 21.

Specifically, the second engaging portion 22 includes two second wing plates 221, the plate body 21 has two openings 211 matching with the second wing plates 221 in shape, and the second wing plates 221 are disposed along the edges of the openings 211 to protrude out of the plate body 21 and are opposite to each other and not substantially parallel. A second slide groove S2 is formed between the portion of the second wing plate 221 that is not connected to the plate body 21 and the plate body 21. Therefore, each of the second wings 221 has a second closed end 2211 and a second open end 2212, and the distance D3 between the two second open ends 2212 is greater than the distance D4 between the two second closed ends 2211, so that the two second wings 221 are substantially V-shaped, as shown in fig. 8, 10 and 11.

The protrusion 23 is disposed on the plate 21, and is capable of interfering with the protrusion 142 of the operating arm 14 when the first set of component 1 and the second set of component 2 are in the assembled state, so as to prevent the display 2000 from being separated from the support frame 3000, for example, to prevent the display 2000 from inadvertently sliding out of the support frame 3000 when the display 2000 is rotated between a vertical swing state (port) and a horizontal swing state (landscape).

Please refer to fig. 12 and 13, which respectively illustrate the combination of the first set of components 1 and the second set of components 2. When the first group of metal fittings 1 and the second group of metal fittings 2 are assembled, the first engaging portion 13 is accommodated in the second sliding slot S2, the second engaging portion 22 is accommodated in the first sliding slot S1, and the operating arm 14 and the protrusion 23 substantially interfere with each other, i.e., the protrusion 142 abuts against the plate 21 of the second group of metal fittings 2 and interferes with the protrusion 23.

Further, the protrusion 142 of the operating arm 14 has a slope 1421, and the protrusion 23 of the second assembly 2 has a slope 231, and the slope 1421 of the protrusion 142 and the slope 231 of the protrusion 23 correspond to each other. When the first group of fittings 1 and the second group of fittings 2 are assembled with each other, the first open end 1312 abuts against the second closed end 2211 through the second sliding slot S2, the second open end 2212 abuts against the first closed end 1311 through the first sliding slot S1, and the protrusion 142 and the projection 23 slide with the inclined surface 1421 and the inclined surface 231 in contact with each other, so that the operating arm 14 is deflected, enters the engaging position and interferes with the projection 23, so that the first group of fittings 1 and the second group of fittings 2 are in the assembled state, as shown in fig. 7 to 8 and fig. 12 to 13.

When the first group of components 1 and the second group of components 2 are assembled and the user wants to separate them, an external force is applied to the pressing portion 141 to move the protrusion 142 away from the plate 21 of the second group of components 2 until the protrusion 142 and the protrusion 23 do not interfere with each other, and the first group of components 1 and the second group of components 2 are disengaged, so that the first group of components 1 and the second group of components 2 can be separated.

In summary, in the quick-release assembly structure of the utility model, the matched assembly parts are respectively installed on the display and the support frame, and the two assembly parts are respectively provided with the clamping part and the sliding groove. In addition, the assembly part connected with the display also comprises an operating arm, and the assembly part connected with the support frame also comprises a lug. The projection is located above the convex portion of the operation arm. In the combined state, when the operation arm is pressed, the combined state can be released, so that the display is separated from the support frame. Therefore, the quick-release assembling structure of the utility model can be quickly operated by only respectively installing the assembling parts on the display and the supporting frame and then combining or disassembling without other tools.

The above-mentioned embodiments are only used to illustrate the novel embodiments and to explain the technical features of the present invention, and are not used to limit the protection scope of the present invention. Any arrangement which can be easily changed or equalized by a person skilled in the art is included in the scope of the present invention, and the scope of protection of the present invention is subject to the claims.

Claims (11)

1. A quick release assembly structure for removably connecting a display to a support frame, the quick release assembly structure comprising:

a first set of accessories connected to the display, comprising:

a base plate;

the boss is arranged on the bottom plate;

the first clamping part is arranged on the boss and forms a first sliding chute with the boss; and

the operating arm is arranged on the boss; and

a second set of fittings connected to the support frame, comprising:

a plate body;

the second clamping part is arranged on the plate body, and a second sliding groove is formed between the second clamping part and the plate body; and

the convex block is arranged on the plate body;

when the first group of accessories and the second group of accessories are in an assembled state, the first clamping part is accommodated in the second sliding groove, the second clamping part is accommodated in the first sliding groove, and the operating arm and the projection are substantially mutually interfered.

2. The quick release assembly structure of claim 1, wherein the boss has a body portion and an annular portion connected between the body portion and the base plate such that the body portion protrudes relative to the base plate.

3. The quick release assembly structure of claim 2, wherein the first set of fittings further comprises an opening formed on the boss and extending from the body portion to the annular portion, the operating arm being secured to the body portion and partially movably passing through the opening.

4. The quick release assembly structure of claim 3, wherein the operating arm comprises a pressing portion, a protruding portion and a fixing portion, the fixing portion is locked to the main portion of the boss, and the opening allows the operating arm to move in the opening when the pressing portion or the protruding portion is forced to flex the operating arm.

5. The quick release assembly structure of claim 4, wherein the protrusion abuts against the plate of the second set of fittings and interferes with the protrusion when the first set of fittings and the second set of fittings are in the assembled state.

6. The quick release assembly structure according to claim 5, wherein when the first set of fitting parts and the second set of fitting parts are in the assembled state and an external force is applied to the pressing portion, the protrusion is away from the plate of the second set of fitting parts until the protrusion and the protrusion do not interfere with each other.

7. The quick release assembly structure of claim 6, wherein the protrusion of the operating arm and the protrusion of the second assembly have corresponding slopes, and when the first assembly and the second assembly are assembled with each other, the protrusion and the protrusion contact each other with the slopes to cause the operating arm to flex.

8. The quick release assembly structure according to any one of claims 1 to 7, wherein the first engaging portion comprises two first wings, which are opposite to each other and substantially not parallel, the first wings respectively have a first closed end and a first open end, and the distance between the first closed ends is greater than the distance between the first open ends.

9. The quick release assembly structure according to claim 8, wherein the second engaging portion comprises two second wings, which are opposite to each other and substantially not parallel to each other, the second wings respectively have a second closed end and a second open end, and the distance between the second open ends is greater than the distance between the second closed ends.

10. The quick release assembly structure according to claim 9, wherein the first set of fittings and the second set of fittings are in the assembled state by the first open end abutting against the second closed end through the second sliding slot, the second open end abutting against the first closed end through the first sliding slot, and the operating arm interfering with the protrusion.

11. The quick release assembly structure of claim 10 wherein the first set of fittings further comprises a plurality of screws, the base plate has a plurality of holes, the holes conform to the video electronics standards association standard, and the screws lock the first set of fittings to the display through the holes.

Images