CN214739176U - Connecting device for mounting heat-insulating energy-saving suspended ceiling - Google Patents

Abstract

The utility model provides a connecting device of heat preservation energy-saving furred ceiling installation usefulness, include: a substrate; the top surface of the substrate is provided with a plurality of arc-shaped channel groups; a bearing connecting assembly is movably inserted at the arc-shaped channel group; the bottom surface of the base plate is provided with a plurality of mounting grooves for accommodating plates; a clamping groove is formed at the bottom of the mounting groove and is communicated with the arc-shaped channel group; the bearing connecting assembly sequentially penetrates through the arc-shaped channel group, the clamping groove and the mounting groove to be fixedly connected with the clamping assembly, so that the clamping assembly can drive the bearing connecting assembly to move back and forth along the arc-shaped channel group, the clamping assembly is driven to be clamped or separated from the clamping groove, and the plate disassembling and replacing efficiency is improved.

Description

Connecting device for mounting heat-insulating energy-saving suspended ceiling

Technical Field

The utility model relates to a building technical field especially relates to a connecting device of heat preservation energy-saving furred ceiling installation usefulness.

Background

At present, in indoor decoration, a suspended ceiling of a house has the functions of heat preservation, heat insulation, sound insulation and sound absorption, and is also a hidden layer of projects such as electric, ventilation air-conditioning, communication and fire prevention, alarm pipeline equipment and the like.

In the installation of current furred ceiling, generally carry out the fixed jib in indoor top bullet line location back, then pass through the bolt fastening with jib and fossil fragments, buckle panel in fossil fragments department at last to this installation operation of accomplishing the furred ceiling. However, when the plate is replaced or removed, the plate needs to be removed by means of equipment such as a suction cup, and the replacement efficiency is poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a connecting device of heat preservation and energy saving furred ceiling installation usefulness has solved the not good technical problem of dismantlement efficiency that proposes in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a connecting device for installing a heat-insulating and energy-saving ceiling comprises: a substrate; the top surface of the substrate is provided with a plurality of arc-shaped channel groups; a bearing connecting assembly is movably inserted at the arc-shaped channel group; the bottom surface of the base plate is provided with a plurality of mounting grooves for accommodating plates; a clamping groove is formed at the bottom of the mounting groove and is communicated with the arc-shaped channel group; the bearing connecting assembly sequentially penetrates through the arc-shaped channel group, the clamping groove and the mounting groove to be fixedly connected with the clamping assembly, so that the clamping assembly can drive the bearing connecting assembly to move back and forth along the arc-shaped channel group, and the clamping assembly is driven to be clamped or separated from the clamping groove.

As a preferred scheme of the utility model, the subassembly that clamps includes: a spring, a clamping plate and a fixing piece; one end of the spring is fixed at the bottom of the clamping groove, and the other end of the spring is fixedly connected with the clamping plate; one side of the clamping plate connecting spring is also fixedly connected with the bearing connecting assembly; the mounting interval sets up on the cardboard that bears coupling assembling outer wall both sides.

As an optimized proposal of the utility model, the arc channel group is composed of two arc through holes which are arranged oppositely.

As a preferred scheme of the utility model, it includes to bear coupling assembling: a bearing rod and a connecting rod; the bearing rod is erected on the substrate; the connecting rod is fixed on the end faces of two ends of the bearing rod oppositely, vertically penetrates through the corresponding arc-shaped through hole, the clamping groove and the mounting groove, and is fixedly connected with the clamping plate finally.

Furthermore, an arc opening used for limiting the fixing piece is formed in the groove wall of the clamping groove.

Furthermore, a flexible pad is laid at the bottom of the mounting groove; and a sealing rubber strip is adhered to the flexible pad close to the opening end of the clamping groove.

Furthermore, hanging parts are installed on the top surface of the base plate at intervals.

Compared with the prior art, the beneficial effects of the utility model are as follows: after the plate is placed in the mounting groove, the clamping assembly is clamped in the clamping groove formed in the base plate, so that the plate is fixed; based on the arc-shaped channel group arranged on the substrate, the clamping assembly is driven to slide to the position where the clamping assembly is separated from the clamping groove along the arc-shaped channel group, and then the clamping assembly is driven to drive the bearing connecting assembly to move downwards along the arc-shaped channel, so that the plate can be conveniently taken out of the mounting groove and replaced, and the work efficiency of manually mounting or replacing the detachable plate is further improved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic overall structure diagram of an embodiment of the present invention;

fig. 2 is a schematic view of the mounting position of the substrate separated from the clamping assembly in the embodiment of the present invention;

fig. 3 is a schematic view of an installation position of the substrate when the substrate and the clamping assembly are clamped in the embodiment of the present invention.

In the figure: 1. a substrate; 11. an arc-shaped channel group; 111. an arc-shaped through hole; 12. mounting grooves; 13. a card slot; 14. an arc opening; 2. a load bearing connection assembly; 21. a carrier bar; 22. a connecting rod; 3. clamping the assembly; 31. a spring; 32. clamping a plate; 33. a fixing member; 4. a flexible pad; 5. sealing rubber strips; 6. a hanger.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1 to 3, a connecting device for installing a heat-insulating and energy-saving ceiling comprises: a rectangular substrate 1; arc-shaped channel groups 11 are arranged on the top surface of the substrate 1 at intervals; the bearing connecting assembly 2 is movably inserted in the arc-shaped channel group 11; mounting grooves 12 for accommodating plates are formed on the bottom surface of the substrate 1 at intervals; a T-shaped clamping groove 13 is formed at the bottom of the mounting groove 12 (namely, the T-shaped clamping groove 13 is formed in the substrate 1, the clamping groove 13 is communicated with the bottom of the mounting groove 12, and the clamping groove 13 and the mounting groove are spliced to form an I-shaped structure), and the clamping groove 13 is communicated with the arc-shaped channel group 11; the bearing connection assembly 2 vertically penetrates through the arc-shaped channel group 11, the clamping groove 13, the mounting groove 12 downwards and is fixedly connected with the clamping assembly 3, so that the clamping assembly 3 can drive the bearing connection assembly 2 to move back and forth along the arc-shaped channel group 11, and the clamping assembly 3 and the clamping groove 13 are clamped or separated.

Wherein, clamping assembly 3 can drive and bear connecting assembly 2 along arc passageway group 11 reciprocating motion, includes three kinds of motion here: firstly, the clamping assembly 3 can drive the bearing connecting assembly 2 to slide along the arc-shaped channel group 11; secondly, the clamping assembly 3 can drive the bearing connecting assembly 2 to do vertical lifting motion along the arc-shaped channel group 11; ③: the clamping assembly 3 can drive the bearing connecting assembly 2 to slide along the arc-shaped channel group 11 and simultaneously perform lifting motion; the corresponding operation process is as follows:

the method comprises the following steps: when the clamping component 3 is clamped with the clamping groove 13, the clamping component 3 is manually rotated to drive the bearing connecting component 2 to slide along the arc-shaped channel group 11, so that the clamping component 3 can be shifted out of the clamping groove 13, and the separation operation of the clamping component 3 and the clamping groove 13 is realized;

secondly, the step of: the clamping assembly 3 can drive the bearing connecting assembly to vertically move up and down along the arc-shaped channel group 11, when the clamping assembly 3 is separated from the clamping groove 13, the clamping assembly 3 is vertically moved upwards to be clamped with the clamping groove 13, and the bearing connecting assembly 2 is relatively static, so that the clamping assembly 3 is fixed;

③: when clamping the subassembly 3 and draw-in groove 13 joint, clamping the subassembly 3 and drive earlier and bear the weight of behind the coupling assembling 2 and rise and slide along arc passageway group 11 opening to clamping the subassembly 3 and withdraw from draw-in groove 13 smoothly, bear coupling assembling 2 again and drive and clamp the subassembly 3 and vertically move down and reset, make and clamp subassembly 3 and withdraw from draw-in groove 13 outside base plate 1 completely.

The working principle is as follows: as shown in fig. 1-3, in actual operation, the substrate 1 can be directly fixed on a wall, a plate is placed on the top surface of the clamping assembly 3, the sliding clamping assembly 3 on one of the substrates 1 is lifted upwards manually, and at this time, the bearing connecting assembly 2 is forced to slide upwards synchronously, so that the clamping assembly 3 is clamped with the clamping groove 13; repeating the operation on the other substrate 1 to effectively clamp the plate between the clamping components 3 and the mounting grooves 12 of the two adjacent substrates 1; when the plate needs to be detached and replaced, the clamping assembly 3 of one of the substrates 1 is manually applied with force upwards and slides to drive the bearing connection assembly 2 to slide upwards and slide along the opening direction of the arc-shaped channel group 11, so that the clamping assembly 3 is separated from the clamping groove 13, the mounting groove 12 is withdrawn out of the substrate 1, and the other substrate 1 is repeatedly operated, so that the fixing and the detaching of the plate are realized.

As shown in fig. 1 to 3, the card-mounting assembly 3 includes: a spring 31, a catch plate 32 and a fixing piece 33 in an inverted J shape; the top end of the spring 31 is fixed at the bottom of the clamping groove 13, and the bottom end of the spring is fixed at the central axis of the top surface of the clamping plate 32; one surface of the clamping plate 32, which is connected with the spring 31 (i.e. the top surface of the clamping plate 32), is also fixedly connected with the bearing connecting assembly 2, so that the fixing piece 33 is separated from the clamping groove 13; the fixing pieces 33 are arranged on the clamping plates 32 on the two sides of the left outer wall and the right outer wall of the bearing connecting assembly 2 at intervals so as to increase the bearing capacity and the stability of the fixing pieces 33; the J-shaped hooks on the fixing members 33 are all arranged towards the corresponding slots 13, that is, the fixing members 33 on the left side of the bearing connection assembly 2 are arranged towards the left side, and the fixing members 33 on the right side of the bearing connection assembly 2 are oppositely arranged; so that the securing member 33 can be effectively snapped into the card slot 13.

As shown in fig. 1, each set of arc-shaped channel set 11 is composed of two arc-shaped through holes 111 arranged oppositely for the load-bearing connecting assembly 2 to slide.

As shown in fig. 1-3, the load bearing connection assembly 2 includes: a carrier bar 21, a connecting bar 22; the bearing rod 21 is erected on the top surface of the base plate 1; the relative terminal surface bottom that is fixed in the carrier bar 21 both ends of connecting rod 22 (namely the connecting rod 22 is installed respectively at carrier bar 21 both ends for it is "the [" type structure to bear coupling assembling 2), and downward vertical pass corresponding arc through-hole 111, draw-in groove 13, mounting groove 12, fixed connection cardboard 32 at last.

As shown in fig. 3, the slot wall of the slot 13 is provided with an arc opening 14 for limiting and protecting the fixing member 33, so as to prevent the fixing member 33 from being bent at an excessively large angle after being stressed and being difficult to withdraw from the slot 13.

As shown in fig. 1-3, a flexible pad 4 is laid at the bottom of the mounting groove 12; close to glue on the flexible pad 4 of draw-in groove 13 open end and be equipped with joint strip 5, when mounting 33 block to draw-in groove 13 in, cardboard 32 offsets with joint strip 5 to thereby realize that sealed operation further reaches heat retaining effect, and leave the clearance between flexible pad 4 and the cardboard 32, be used for placing panel.

As shown in fig. 1, hangers 6 are installed on the top surface of the substrate 1 at intervals so as to facilitate height adjustment of the substrate 1 (since the hangers 6 capable of being adjusted in a lifting manner are common technical workpieces in the building field, and will not be explained in detail here).

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (7)

1. A connecting device for installing a heat-insulating and energy-saving ceiling comprises: a substrate (1); the method is characterized in that: the top surface of the substrate (1) is provided with a plurality of arc-shaped channel groups (11); a bearing connecting assembly (2) is movably inserted at the arc-shaped channel group (11); the bottom surface of the base plate (1) is provided with a plurality of mounting grooves (12) for accommodating plates; a clamping groove (13) is formed in the bottom of the mounting groove (12), and the clamping groove (13) is communicated with the arc-shaped channel group (11); the bearing connection assembly (2) sequentially penetrates through the arc-shaped channel group (11), the clamping groove (13) and the mounting groove (12) and is fixedly connected with the clamping assembly (3), so that the clamping assembly (3) can drive the bearing connection assembly (2) to move back and forth along the arc-shaped channel group (11), and the clamping assembly (3) and the clamping groove (13) are driven to be clamped or separated.

2. The connecting device for installing the heat-insulating energy-saving suspended ceiling as claimed in claim 1, wherein the clamping assembly (3) comprises: a spring (31), a catch plate (32) and a fixing piece (33); one end of the spring (31) is fixed at the bottom of the clamping groove (13), and the other end of the spring is fixedly connected with the clamping plate (32); one surface of the clamping plate (32) connected with the spring (31) is also fixedly connected with the bearing connecting component (2); the fixing pieces (33) are arranged on the clamping plates (32) on two sides of the outer wall of the bearing connecting component (2) at intervals.

3. The connecting device for installing the heat-insulating and energy-saving suspended ceiling as claimed in claim 2, wherein the arc-shaped channel group (11) is composed of two oppositely arranged arc-shaped through holes (111).

4. A connecting device for installing an insulating and energy-saving suspended ceiling according to claim 3, wherein the bearing connecting assembly (2) comprises: a bearing rod (21) and a connecting rod (22); the bearing rod (21) is erected on the base plate (1); the connecting rods (22) are oppositely fixed on the end faces of two ends of the bearing rod (21), vertically penetrate through the corresponding arc-shaped through holes (111), the clamping grooves (13) and the mounting grooves (12), and are fixedly connected with the clamping plates (32).

5. The connecting device for installing the heat-insulating and energy-saving suspended ceiling as claimed in claim 3, wherein an arc opening (14) for limiting the fixing member (33) is formed on the groove wall of the clamping groove (13).

6. The connecting device for installing the heat-insulating and energy-saving suspended ceiling is characterized in that a flexible cushion (4) is laid at the bottom of the installation groove (12); and a sealing rubber strip (5) is adhered to the flexible pad (4) close to the opening end of the clamping groove (13).

7. The connecting device for installing the heat-insulating and energy-saving suspended ceiling is characterized in that hanging pieces (6) are installed on the top surface of the base plate (1) at intervals.

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