CN212338668U - Supporting rack - Google Patents

Abstract

The utility model discloses a supporting rack, include: the bearing body comprises two opposite side surfaces and two first assembling mechanisms, and the two first assembling mechanisms are arranged on the two side surfaces; at least one support which is detachably assembled with the first assembling mechanism, wherein each support comprises a supporting foot which extends transversely to the periphery of the bearing body and is used for supporting a peripheral environment structure; and a blocking mechanism adjustably arranged on at least one of the two side surfaces for blocking the surrounding environment structure.

Description

Supporting rack

Technical Field

The utility model discloses a supporting rack.

Background

In homes or offices, there is a need to place small articles such as stationery, ornaments, daily necessities, bottles, cans or other objects. After the display is placed on the desk top or at home or on the wall, the display occupies a part of the space, and the space above, behind or around the display cannot be used, which results in waste of space.

Therefore, a small shelf or a bookshelf is usually additionally placed to meet the requirement of placing and storing objects. However, the laminated shelf or the bookshelf occupies a considerable space, which further reduces the use space, and causes disadvantages such as oppression, inconvenience in operation, and the like, and the structure of the laminated shelf or the bookshelf is fixed, so that it cannot be adjusted according to the requirements of different installation environments, and besides, the installation is inconvenient, and the applicability is also limited.

Therefore, there is a need for a novel and advanced support frame to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to a support frame, which can be directly suspended on a single object or supported between two objects.

To achieve the above object, the present invention provides a support frame, comprising: the bearing body comprises two opposite side surfaces and two first assembling mechanisms, and the two first assembling mechanisms are arranged on the two side surfaces; at least one support detachably assembled with the first assembling mechanism, wherein each support comprises a supporting foot extending transversely to the periphery of the bearing body and used for supporting a peripheral environment structure; and a blocking mechanism adjustably arranged on at least one of the two side surfaces for blocking the surrounding environment structure.

The support leg includes an adjustable screw for adjustable relative movement toward and away from the surrounding structure.

The screw includes at least one unthreaded section extending in the axial direction of the screw.

The bearing body further comprises a plurality of inserting structures, and the blocking mechanism comprises an inserting end which is detachably inserted with one inserting structure.

The plurality of inserting structures are divided into two long-row sections and two short-row sections, the two long-row sections are located in the middle area of the bearing body at intervals, and the two short-row sections are located in the peripheral area adjacent to the bearing body at intervals.

The at least one support is provided with at least one second assembling mechanism, each second assembling mechanism is detachably assembled with one first assembling mechanism, and the first assembling mechanism and the second assembling mechanism respectively comprise concave-convex structures matched with each other.

Each first assembling mechanism comprises two jacks respectively arranged on the two sides, and each second assembling mechanism is a pin inserted in one jack.

The plug hole and the plug pin are provided with I-shaped cross sections, and the sizes or the shapes of two transverse end parts of the I-shaped cross sections are different.

The bearing body is further provided with at least one hollow convex column in a protruding mode, and each hollow convex column defines one insertion hole.

The supporting frame comprises a plurality of brackets; the support leg comprises an adjustable screw rod, and the screw rod is used for being relatively close to or far away from the surrounding environment structure in an adjustable way; the screw comprises a plurality of thread-free tangent planes which are arranged at equal angles; one end of the screw rod is provided with a universal structure, the universal structure comprises a ball head connected with the screw rod and a support pad which can be rotatably accommodated with the ball head, one side of the support pad is concavely provided with a groove, and the groove is accommodated with an anti-slip pad; the bearing body also comprises a plurality of inserting structures, and the blocking and resisting mechanism comprises an inserting end which is detachably inserted with one inserting structure; each plug-in structure comprises a slot and a lug protruding into the slot, and the plug-in end comprises a head embedded in the slot and a groove arranged on the head and accommodating the lug; the plurality of inserting structures are divided into two long-row sections and two short-row sections, the two long-row sections are positioned in the middle area of the bearing body at intervals, and the two short-row sections are positioned in the peripheral area adjacent to the bearing body at intervals; the bearing body is also convexly provided with a plurality of hollow convex columns, the plurality of hollow convex columns are arranged at two corners of the bearing body far away from the two short-row sections, the spacing distance of the plurality of hollow convex columns is greater than that of the two long-row sections, each hollow convex column defines one jack, and the two jacks arranged on the two sides are communicated; and each bracket is in a V-shaped bracket body and is wrapped with a nut which is in bolt connection with the screw rod, and the nut and the supporting pad are positioned at two opposite sides of the V-shaped bracket body.

The utility model has the advantages that: the utility model can directly suspend the bracket on a single object or support between two objects.

Drawings

Fig. 1 is a perspective view of a preferred embodiment of the present invention.

Fig. 2 is an exploded view of a preferred embodiment of the present invention.

Fig. 3 is an exploded perspective view of the present invention.

Fig. 4 is a partially enlarged view of fig. 3.

Fig. 5 is a cross-sectional view of a preferred embodiment of the present invention.

Fig. 6 is a schematic view of the present invention showing a direct suspension bracket on a single display.

Fig. 7 is a side view of fig. 6.

Fig. 8 is a perspective view of another embodiment of the present invention.

Fig. 9 and 10 are schematic views illustrating the present invention supported between two objects.

Fig. 11 and 12 are schematic cross-sectional views of different aspects of the bracket of the present invention.

1: support rack

10 bearing body

11: side surface

12 first connecting mechanism

121: plug hole

13 plug-in structure

131: slot

132 lug

133 long row of sections

134 short row section

14 hollow convex column

20, support

21, supporting foot

211 screw rod

212 thread-free cut surface

213 Universal Structure

214 ball head

215 support pad

216 groove

217 anti-slip pad

22 second assembling mechanism

221 pin

222,223 transition joint section

224,225 transverse end portion

23: nut

30 stopping mechanism

31, a plug end

311 head part

312 groove cutting

100 display

200 is a foundation

Detailed Description

The following description is given by way of example only, and not by way of limitation, of the scope of the invention.

Referring to fig. 1 to 5, which illustrate a preferred embodiment of the present invention, a support frame 1 of the present invention includes a support body 10, at least one support frame 20 and a blocking mechanism 30.

The bearing body 10 comprises two opposite side surfaces 11 and two first assembling mechanisms 12, wherein the two first assembling mechanisms 12 are arranged on the two side surfaces 11; the at least one support 20 is detachably assembled with the first assembling mechanism 12, each support 20 includes a supporting leg 21 extending transversely to the periphery of the supporting body 10 for supporting a surrounding structure, which may be a display 100 (such as a computer or a television screen) or a base 200 (such as a wall or a partition) including the display 100 and the display 100; the blocking mechanism 30 is adjustably disposed on at least one of the two sides 11 for blocking against the surrounding environment structure, wherein the number of the blocking mechanism 30 can be single or multiple. Thus, a single support frame can be directly suspended on a single object (as shown in fig. 6 and 7) or can be supported between two objects (as shown in fig. 8 to 10).

The supporting body 10 further includes a plurality of inserting structures 13, and the stopping mechanism 30 includes an inserting end 31 detachably inserted with one of the inserting structures 13. Each of the inserting structures 13 includes an inserting slot 131 and a protruding piece 132 protruding into the inserting slot 131, the inserting end 31 includes a head 311 embedded in the inserting slot 131 and a groove 312 disposed on the head 311 and receiving the protruding piece 132, so that the abutting mechanism 30 can be stably connected to the supporting body 10. The plurality of inserting structures 13 are divided into two long rows 133 and two short rows 134, the two long rows 133 are spaced apart from the middle region of the carrying body 10, the two short rows 134 are spaced apart from the periphery region of the carrying body 10, and the position of the abutting mechanism 30 can be adjusted accordingly according to different use environment requirements (as shown by the dotted lines in fig. 5). However, the plurality of plug structures 13 may be distributed continuously, in more zones, or in other areas, to augment the ability to adapt to the surrounding environment.

The at least one support 20 is provided with at least one second assembling mechanism 22, each second assembling mechanism 22 is detachably assembled with one first assembling mechanism 12, and the first assembling mechanism 12 and the second assembling mechanism 22 respectively comprise concave-convex structures which are matched with each other. In detail, each first assembling mechanism 12 includes two insertion holes 121 respectively disposed on the two sides 11, the supporting frame includes a plurality of brackets 20, and each second assembling mechanism 22 is a pin 221 inserted into one insertion hole 121. The carrier body 10 is further protruded with at least one hollow protruding column 14, each hollow protruding column 14 defines one insertion hole 121, and the hollow protruding column 14 enhances the assembling strength and stability of the bracket 20 and the carrier body 10. The insertion hole 121 and the plug pin 221 have an I-shaped cross section, which has the effect of strengthening the structure. The two transverse ends of the I-shaped cross section of the pin 221 may have different sizes or shapes, which may be used as an indication of the assembly direction. For example, in the embodiment shown in fig. 11, the two lateral ends 224,225 of the pin 221 having an i-shaped cross-section have different sizes; in the embodiment shown in fig. 12, the pin 221 has different transition sections 222,223 at the connection between the two transverse ends of the i-shaped cross section and the two sides of the longitudinal portion.

In this embodiment, the carrying body 10 is convexly provided with a plurality of hollow protruding pillars 14, the plurality of hollow protruding pillars 14 are disposed at two corners of the carrying body 10 away from the two short row sections 134, and the spacing distance of the plurality of hollow protruding pillars 14 is greater than the spacing distance of the two long row sections 133, so as to increase the supporting force and stability of the plurality of brackets 20; each hollow convex column 14 defines one insertion hole 121, and the two insertion holes 121 arranged on the two side surfaces 11 are communicated, so that the structure is simple and the manufacture is convenient.

The support foot 21 includes an adjustable screw 211, and the screw 211 is adjustable to be relatively close to or far from the surrounding environment structure. In detail, the screw 211 comprises at least one thread-free section 212 extending along the axial direction of the screw 211, and preferably, the screw 211 comprises a plurality of thread-free sections 212 arranged at equal angles, which facilitates direct rotational adjustment of the screw 211; one end of the screw 211 is provided with a universal structure 213, the universal structure 213 comprises a ball head 214 connected with the screw 211 and a support pad 215 rotatably receiving the ball head 214, thereby stably supporting objects with different surface types; a groove 216 is concavely arranged on one side of the supporting pad 215, and the groove 216 accommodates an anti-slip pad 217, so that the supporting pad is anti-slip and stable; each bracket 20 is generally in the shape of a v-shaped frame and includes a nut 23 threadedly engaged with the screw 211, the nut 23 and the support pad 215 being located on opposite sides of the v-shaped frame, whereby the bracket 20 further provides a tubular section to retain, stabilize and reinforce the engagement of the screw 211. The nut can also be freely rotated in situ, so that the screw rod can be conveniently adjusted to stretch by directly rotating the nut; the bracket may be directly integrally formed with the internal thread without the nut.

In practical use, when the bracket is applied to a direct suspension bracket for a single display 100 (as shown in fig. 6 and 7), the blocking mechanism 30 is assembled to the short row section 134 and hooked to the front side of the frame of the display 100, and after the screw 211 is rotated to adjust to a proper length, the supporting pad 215 of each bracket 20 is supported inward against the back side of the display 100, so that the bracket can be horizontally and stably erected; when the support mechanism 30 is applied to support between two objects (as shown in fig. 9 and 10), the support mechanism is assembled to the proper position of the long row section 133 (or the short row section 134) and supports against the rear side of the frame of the display 100, and after the screw 211 is rotated to adjust to a proper length, the support pad 215 of each bracket 20 supports outwards against the foundation 200 (wall surface or partition wall) for fixing the display 100, and preferably the rear side of the carrier body supports against the foundation 200 at the same time, and can also be horizontally and stably supported.

Claims (10)

1. A support shelf, comprising: the method comprises the following steps:

the bearing body comprises two opposite side surfaces and two first assembling mechanisms, and the two first assembling mechanisms are arranged on the two side surfaces;

at least one support which is detachably assembled with the first assembling mechanism, wherein each support comprises a supporting foot which extends transversely to the periphery of the bearing body and is used for supporting a peripheral environment structure; and

and the abutting mechanism is adjustably arranged on at least one of the two side surfaces and used for abutting against the surrounding environment structure.

2. The support shelf as claimed in claim 1, wherein: the support leg includes an adjustable screw for adjustable relative movement toward and away from the surrounding structure.

3. The support shelf as claimed in claim 2, wherein: the screw includes at least one unthreaded section extending in the axial direction of the screw.

4. The support shelf as claimed in claim 1, wherein: the bearing body further comprises a plurality of inserting structures, and the blocking mechanism comprises an inserting end which is detachably inserted with one inserting structure.

5. The support shelf as claimed in claim 4, wherein: the plurality of inserting structures are divided into two long-row sections and two short-row sections, the two long-row sections are located in the middle area of the bearing body at intervals, and the two short-row sections are located in the peripheral area adjacent to the bearing body at intervals.

6. The support shelf as claimed in claim 1, wherein: the at least one support is provided with at least one second assembling mechanism, each second assembling mechanism is detachably assembled with one first assembling mechanism, and the first assembling mechanism and the second assembling mechanism respectively comprise concave-convex structures matched with each other.

7. The support shelf as claimed in claim 6, wherein: each first assembling mechanism comprises two jacks respectively arranged on the two sides, and each second assembling mechanism is a pin inserted in one jack.

8. The support shelf as claimed in claim 7, wherein the socket and the pin have an i-shaped cross-section, the two transverse ends of the i-shaped cross-section being of different size or shape.

9. The support shelf as claimed in claim 7, wherein: the bearing body is further provided with at least one hollow convex column in a protruding mode, and each hollow convex column defines one insertion hole.

10. The support shelf as claimed in claim 8, wherein: the supporting frame comprises a plurality of brackets; the support leg comprises an adjustable screw rod, and the screw rod is used for being relatively close to or far away from the surrounding environment structure in an adjustable way; the screw comprises a plurality of thread-free tangent planes which are arranged at equal angles; one end of the screw rod is provided with a universal structure, the universal structure comprises a ball head connected with the screw rod and a support pad which can be rotatably accommodated with the ball head, one side of the support pad is concavely provided with a groove, and the groove is accommodated with an anti-slip pad; the bearing body also comprises a plurality of inserting structures, and the blocking and resisting mechanism comprises an inserting end which is detachably inserted with one inserting structure; each plug-in structure comprises a slot and a lug protruding into the slot, and the plug-in end comprises a head embedded in the slot and a groove arranged on the head and accommodating the lug; the plurality of inserting structures are divided into two long-row sections and two short-row sections, the two long-row sections are positioned in the middle area of the bearing body at intervals, and the two short-row sections are positioned in the peripheral area adjacent to the bearing body at intervals; the bearing body is also convexly provided with a plurality of hollow convex columns, the plurality of hollow convex columns are arranged at two corners of the bearing body far away from the two short-row sections, the spacing distance of the plurality of hollow convex columns is greater than that of the two long-row sections, each hollow convex column defines one jack, and the two jacks arranged on the two sides are communicated; and each bracket is in a V-shaped bracket body and is wrapped with a nut which is in bolt connection with the screw rod, and the nut and the supporting pad are positioned at two opposite sides of the V-shaped bracket body.

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