CN115030358A - Clamping structure of tubular wallboard for assembly decoration - Google Patents

Abstract

The invention discloses a clamping structure of a pipe-wall board for assembly decoration in the technical field of building equipment, which comprises a wall body, the wall board and a lead pipe, wherein the wall body is provided with a mounting groove, four corners of the lower end of the wall board are transversely and slidably connected with telescopic frames, a twisting frame mechanism is arranged between the telescopic frames on the same side of the front side and the rear side, and an energy storage mechanism is arranged on each twisting frame mechanism; the twisting frame mechanism is used for extruding the expansion frame to the inner wall of the mounting groove when the wallboard is extruded to the mounting groove; the energy storage mechanism is used for accumulating energy generated in the process that the wallboard is extruded into the mounting groove and is used for maintaining the expansion bracket to be extruded to the inner wall of the mounting groove; greatly increased the wildcard nature of wallboard, reduced the production degree of difficulty, secondly set up the position of energy storage mechanism to the wallboard and maintain, at first avoided traditional rigid connection spare to use the problem of back yielding for a long time.

Description

Clamping structure of tubular wallboard for assembly decoration

Technical Field

The invention relates to the technical field of building equipment, in particular to a clamping structure of a pipe wallboard for assembly decoration.

Background

Assembly decoration is a form of decorative construction emerging in recent years. The assembled decoration is as the name implies, namely, each part required to be used for decoration is produced and completed in a factory and then is transported to a decoration site for combined installation, so that the operations of measurement, cutting and the like of each part in the traditional decoration site are omitted, the construction is simpler and more convenient, the construction efficiency of the decoration site can be greatly improved, the construction site is cleaner and more beautiful, excessive decorative material garbage cannot be generated, and the assembled decoration is a more environment-friendly decoration construction form.

Present pipe wallboard is after the installation is accomplished, because long-time arrangement, can make its inside fastener because ageing deformation scheduling problem, lead to the installation not hard up, wherein owing to there is the pipe wallboard to be used for the pipeline separation more, its built-in power-on circuit, at the in-process that carries out the circuit and overhauls, the wallboard needs to be demolishd, then install once more, lead to friction between wallboard and the wall body to make the fit clearance between two increase, further lead to the wallboard, make the wallboard drop easily, and then increase the risk that the electric accident produced.

Based on the structure, the invention designs the clamping structure of the pipe wall plate for assembly decoration so as to solve the problems.

Disclosure of Invention

The invention aims to provide a clamping structure of a pipe wallboard for assembly decoration, which aims to solve the problems that after the existing pipe wallboard is installed, due to long-time arrangement, the internal fastener is aged and deformed to cause installation looseness, and due to the fact that the pipe wallboard is mostly used for pipeline separation and is internally provided with a power-on circuit, in the process of circuit maintenance, the wallboard needs to be detached and then installed again, friction between the wallboard and the wall body is caused to increase the fit clearance between the wallboard and the wall body, the wallboard is further caused to easily fall off, and further the risk caused by electrical accidents is increased.

In order to achieve the purpose, the invention provides the following technical scheme: a clamping structure of a pipe-wall board for assembly decoration comprises a wall body, wall boards and lead pipes, wherein the wall body is provided with a mounting groove, four corners of the lower end of the wall board are transversely and slidably connected with expansion brackets, a twisting frame mechanism is arranged between the expansion brackets on the same front side and the same rear side, and an energy storage mechanism is arranged on each twisting frame mechanism; the twisting frame mechanism is used for extruding the expansion frame to the inner wall of the mounting groove when the wallboard is extruded to the mounting groove; the energy storage mechanism is used for accumulating energy generated in the process that the wall plate is extruded into the mounting groove and is used for maintaining the expansion bracket to extrude towards the inner wall of the mounting groove.

As a further scheme of the invention, the hinge bracket mechanism comprises two first connecting rods which are respectively and fixedly connected with the lower ends of two telescopic brackets on the same side of the left side and the right side, the telescopic brackets are composed of a first sliding rod and a second sliding rod, the first sliding rod is transversely and slidably connected with the lower end of the wall plate, the second sliding rod is vertically and elastically slidably connected with the first sliding rod, the second sliding rod is fixedly connected with the first connecting rods, the opposite sides of the first connecting rods are fixedly connected with first mounting rods, the front end and the rear end of each first mounting rod are vertically and fixedly connected with second mounting rods, the upper ends of the second mounting rods are vertically and elastically and slidably connected with hinge blocks, the hinge blocks on the left side are rotatably connected with first connecting rods, the first connecting rods are rotatably connected with the lower ends of the second mounting rods on the right side, and the hinge blocks on the right side are rotatably connected with second connecting rods, the second connecting rod is rotatably connected with the lower end of the second mounting rod on the left side, the first connecting rod and the second connecting rod on the front side and the rear side are hinged to each other, and the energy storage mechanism can downwards extrude the left end of the first connecting rod in the downward moving process of the first sliding rod.

As a further scheme of the invention, the energy storage mechanism comprises two pin cylinders, the two pin cylinders are respectively connected with a second connecting rod in a sliding manner, pin shafts are connected in the pin cylinders in a sliding manner, the pin cylinders are connected with a second trigger mechanism, the second trigger mechanism is used for controlling the clamping between the pin cylinders and the pin shafts, the end parts of the pin shafts are fixedly connected with rotating shafts, the rotating shafts penetrate through a first connecting rod and are rotatably connected with the first connecting rod, the rotating shafts are rotatably connected with a first gear, the first gear is rotatably connected with the end surface of the first connecting rod, the end surface of the first connecting rod is provided with a first trigger mechanism, the first trigger mechanism is used for controlling the fixing between the first connecting rod and the first gear, the end surface of the first gear is fixedly connected with a sleeve, the inner wall of the sleeve is fixedly connected with a hairspring, and the hairspring is fixedly connected with the rotating shafts; the sleeve outer wall is provided with synchronous tooth, sleeve drive is connected with the hold-in range, synchronous belt drive is connected with the synchronizing wheel, the synchronizing wheel rotates with first connecting rod tip to be connected, synchronizing wheel terminal surface fixedly connected with second gear, second gear engagement has the third gear, third gear engagement has the fourth gear, second gear department the first mounting panel of articulated piece fixedly connected with, third gear and fourth gear all rotate with first mounting panel to be connected, fourth gear engagement has first rack, the vertical fixed connection of first rack and first slide bar.

According to a further scheme of the invention, clamping grooves are respectively formed in two sides of the bottom of the mounting groove, clamping rods are fixedly connected to the side walls of the first mounting rod, fixing rods are rotatably connected to the side walls of the first connecting rod and the second connecting rod, a third mounting rod is fixedly connected to the lower ends of the fixing rods on the same front side and the rear side, first elastic telescopic rods are fixedly connected to two sides of the third mounting rod, the first elastic telescopic rods are fixedly connected with the second mounting rod on the same side, second racks are fixedly connected to the upper end of the third mounting rod, the second racks can be meshed with a first gear, the second racks are connected with a first trigger mechanism, and the first trigger mechanism is connected to control the second racks to be meshed with the first gear.

As a further scheme of the invention, the first trigger mechanism comprises two cavities which are respectively arranged on the side wall of the first connecting rod beside the first gear, a second elastic telescopic rod is fixedly connected in the containing cavity, a first wedge-shaped block is fixedly connected with the second elastic telescopic rod, the wedge surface of the first wedge block is opposite to the second rack, the upper end of the second rack is fixedly connected with a first telescopic rod, the front and the rear first telescopic rods are fixedly connected with a sliding rod together, the sliding rod is fixedly connected with a second wedge-shaped block, the second wedge-shaped block is transversely connected with the lower end surface of the lead tube in a sliding manner, a first trigger rod is arranged above the second wedge-shaped block, the first trigger rod vertically penetrates through the wall plate and the lead pipe and is vertically and elastically connected with the wall plate and the lead pipe in a sliding manner, the first trigger lever is provided with a first locking mechanism capable of maintaining the first trigger lever in different positions relative to the wall panel.

As a further scheme of the invention, the second trigger mechanism comprises a second mounting plate, a second connecting rod is fixedly connected to the upper end of the second mounting plate, the second connecting rod is fixedly connected to the lower end of the lead tube, a position-avoiding groove is formed in the second wedge-shaped block, the first trigger rod is vertically, penetratingly and slidably connected with a second trigger rod, the second trigger rod is penetratingly and vertically, slidably connected with the second mounting plate, a second locking mechanism is arranged between the second trigger rod and the second mounting plate, the second locking mechanism can enable the second trigger rod to be maintained at different positions relative to the second mounting plate, the lower end of the second mounting plate is longitudinally, slidably connected with two third wedge-shaped blocks with opposite wedge surfaces, the third wedge-shaped blocks are fixedly connected with third connecting rods, the third connecting rods are fixedly connected with second telescopic rods, and the second telescopic rods are fixedly connected with fourth connecting rods, the fourth connecting rod is connected with the end face of the pin cylinder at the same side in a sliding manner.

As a further scheme of the invention, the lower end of the wallboard is provided with a rubber pad.

As a further scheme of the invention, the synchronous belt is made of a material with lower elasticity.

Compared with the prior art, the invention has the beneficial effects that:

1. the expansion bracket is used for extruding the inner wall of the mounting groove to fix the position of the wallboard, so that the size of the mounting groove and the size of a related connecting piece are not required to be strictly controlled in the mounting process of the wallboard, the compatibility of the wallboard is greatly improved, the production difficulty is reduced, and the position of the wallboard is maintained by arranging the energy storage mechanism, so that the problem that the traditional rigid connecting piece is easy to deform after being used for a long time is solved.

2. According to the invention, the balance spring replaces a traditional elastic connecting piece, so that even if the balance spring is tightened and loosened for multiple times, the elasticity of the balance spring is reduced, because the shrinkage of the balance spring is large, enough elastic force can be still provided for equipment, and the equipment is prevented from being failed due to insufficient elastic force.

3. The second rack makes the second slide bar have the trend that moves up through connecting pieces such as third installation pole, and the expansion bracket has the shrink trend for wallboard and kelly have the trend of motion in opposite directions, make the wallboard can hug closely the wall body with the mode of centre gripping, further assurance wallboard installation's stability, make the wallboard difficult emergence in the use drop, lead to its inside circuit to expose, produce the risk.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of a wall;

FIG. 3 is a schematic view of the wall removal structure of the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 3;

FIG. 5 is an enlarged view of the structure at B in FIG. 3;

FIG. 6 is a schematic cross-sectional elevation view of FIG. 3;

FIG. 7 is an enlarged view of the structure at C in FIG. 6;

FIG. 8 is an enlarged view of the structure at D in FIG. 6;

FIG. 9 is a bottom cross-sectional view of FIG. 3;

fig. 10 is an enlarged view of the structure at E in fig. 9.

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

wall 1, mounting groove 11, clamping groove 111, wall panel 2, lead tube 3, telescopic frame 41, first sliding rod 411, second sliding rod 412, first connecting rod 51, first mounting rod 52, second mounting rod 53, first connecting rod 54, second connecting rod 55, hinge block 56, pin barrel 61, pin shaft 62, rotating shaft 63, first gear 64, sleeve 65, hairspring 66, synchronous belt 67, synchronous wheel 68, second gear 69, third gear 610, fourth gear 611, first mounting plate 612, first rack 613, clamping rod 71, fixing rod 72, third mounting rod 73, first elastic expansion rod 74, second rack 75, accommodating cavity 81, second elastic expansion rod 82, first wedge block 83, sliding rod 84, second wedge block 85, avoiding groove 851, first trigger rod 86, first expansion rod 87, second mounting plate 91, second connecting rod 92, second trigger rod 93, third wedge block 94, third connecting rod 95, A second telescopic rod 96 and a fourth connecting rod 97.

Detailed Description

Referring to fig. 1-10, the present invention provides a technical solution: a clamping structure of a pipe wallboard for assembly decoration comprises a wall body 1, a wallboard 2 and a lead pipe 3, wherein a mounting groove 11 is formed in the wall body 1, four corners of the lower end of the wallboard 2 are transversely and slidably connected with telescopic frames 41, a twisting frame mechanism is arranged between the telescopic frames 41 on the same front side and the same rear side, and an energy storage mechanism is arranged on each twisting frame mechanism; the twisting frame mechanism is used for extruding the telescopic frame 41 to the inner wall of the mounting groove 11 when the wall plate 2 is extruded to the mounting groove 11; the energy storage mechanism is used for storing energy generated in the process that the wall plate 2 is pressed into the mounting groove 11 and maintaining the expansion bracket 41 to be pressed towards the inner wall of the mounting groove 11.

During operation, aim at mounting groove 11 with expansion bracket 41, then promote wallboard 2, make wallboard 2 draw close to wall body 1 for expansion bracket 41 extrudees the mounting groove 11 bottom and contracts, and the hank frame mechanism makes expansion bracket 41 extrude to mounting groove 11 inner wall simultaneously, reaches the purpose with wallboard 2 is fixed with this, and at the in-process of expansion bracket 41 shrink, potential energy is saved to energy storage mechanism, and the power that potential energy produced maintains the state that expansion bracket 41 extrudees to mounting groove 11 inner wall, makes wallboard 2 keep the state of foldeing with wall body 1.

The position of the wall plate 2 is fixed by extruding the expansion bracket 41 to the inner wall of the mounting groove 11, so that the size of the mounting groove 11 and related connecting pieces does not need to be strictly controlled in the mounting process of the wall plate 2, the universal matching performance of the wall plate 2 is greatly improved, the production difficulty is reduced, and the position of the wall plate 2 is maintained by arranging the energy storage mechanism, so that the problem that the traditional rigid connecting piece is easy to deform after being used for a long time is solved.

As a further scheme of the present invention, the hinged frame mechanism comprises two first connecting rods 51, the two first connecting rods 51 are respectively fixedly connected to the lower ends of two telescopic frames 41 on the same side of the left and right, the telescopic frame 41 is composed of a first sliding rod 411 and a second sliding rod 412, the first sliding rod 411 is transversely slidably connected to the lower end of the wall panel 2, the second sliding rod 412 is vertically and elastically slidably connected to the first sliding rod 411, the second sliding rod 412 is fixedly connected to the first connecting rod 51, the opposite side of the first connecting rod 51 is fixedly connected to a first mounting rod 52, the front end and the rear end of the first mounting rod 52 are vertically and fixedly connected to a second mounting rod 53, the upper end of the second mounting rod 53 is vertically and elastically and slidably connected to a hinged block 56, the hinged block 56 on the left side is rotatably connected to a first connecting rod 54, the first connecting rod 54 is rotatably connected to the lower end of the second mounting rod 53 on the right side, the hinged blocks 56 on the right side are rotatably connected with second connecting rods 55, the second connecting rods 55 are rotatably connected with the lower ends of the second mounting rods 53 on the left side, the first connecting rods 54 and the second connecting rods 55 on the front side and the rear side are hinged with each other, and the energy storage mechanism can downwards extrude the left ends of the first connecting rods 54 in the downward moving process of the first sliding rods 411.

During operation, as the wallboard 2 draws close to the wall body 1, the first sliding rod 411 slides downwards, and further, the first sliding rod 411 extrudes the left end of the first connecting rod 54 downwards through the energy storage mechanism, so that the first connecting rod 54 and the second connecting rod 55 draw close to each other, the second mounting rods 53 are pushed to two sides, the expansion bracket 41 is further pushed to two sides, and the expansion bracket 41 extrudes the inner wall of the mounting groove 11.

As a further scheme of the present invention, the energy storage mechanism includes two pin cylinders 61, the two pin cylinders 61 are respectively connected with the second connecting rod 55 in a sliding manner, a pin 62 is connected in each pin cylinder 61 in a sliding manner, the pin cylinders 61 are connected with a second trigger mechanism, the second trigger mechanism is used for controlling the engagement between the pin cylinders 61 and the pin 62, the ends of the pin 62 are both fixedly connected with a rotating shaft 63, the rotating shaft 63 penetrates through the first connecting rod 54 and is connected with the first connecting rod 54 in a rotating manner, the rotating shaft 63 is connected with a first gear 64 in a rotating manner, the first gear 64 is connected with the end surface of the first connecting rod 54 in a rotating manner, the end surface of the first connecting rod 54 is provided with a first trigger mechanism, the first trigger mechanism is used for controlling the fixation between the first connecting rod 54 and the first gear 64, the end surface of the first gear 64 is fixedly connected with a sleeve 65, the inner wall of the sleeve 65 is fixedly connected with a balance spring 66, the balance spring 66 is fixedly connected with the rotating shaft 63; the outer wall of the sleeve 65 is provided with synchronous teeth, the transmission of the sleeve 65 is connected with a synchronous belt 67, the transmission of the synchronous belt 67 is connected with a synchronous wheel 68, the synchronous wheel 68 is connected with the end rotation of the first connecting rod 54, the end face of the synchronous wheel 68 is fixedly connected with a second gear 69, the second gear 69 is meshed with a third gear 610, the third gear 610 is meshed with a fourth gear 611, the second gear 69 is located the first mounting plate 612 fixedly connected with the hinge block 56, the third gear 610 and the fourth gear 611 are both connected with the first mounting plate 612 in a rotating mode, the fourth gear 611 is meshed with a first rack 613, and the first rack 613 is connected with the vertical fixed connection of the first sliding rod 411.

In the initial state, the first trigger mechanism fixes the first link 54 and the first gear 64, and the second trigger mechanism engages the pin 61 and the pin 62;

during operation, the first sliding rod 411 moves downwards to drive the first rack 613 to move downwards, the first rack 613 pushes the fourth gear 611 to move downwards during downward movement, and further pushes the hinge block 56 to move downwards, so as to further enable the first link 54 and the second link 55 to rotate and approach each other (the first rack 613 pushes the fourth gear 611 to move downwards during downward movement, and also drives the fourth gear 611 to rotate, the fourth gear 611 drives the sleeve 65 to rotate through a transmission mechanism such as a synchronous belt 67, so as to enable the balance spring 66 to be tightened to generate elastic force, the elastic force generated by the balance spring 66 can prevent the fourth gear 611 from rotating, so that when the balance spring 66 is tightened to a certain degree, the fourth gear 611 does not rotate any more, during this process, the balance spring 66 is tightened to enable the rotating shaft 63 to rotate relative to the sleeve 65, and further enable the first link 54 and the second link 55 to rotate and approach each other, so that the results of the rotation and the downward movement of the fourth gear 611 are consistent, here, for convenience of description, the fourth gear 611 is moved downward instead), further causing the expansion bracket 41 to press the inner wall of the installation groove 11; then, under the limitation of the mounting groove 11, the expansion bracket 41 cannot move outwards continuously, the first connecting rod 54 and the second connecting rod 55 cannot rotate continuously and approach each other, the corresponding fourth gear 611 cannot move downwards continuously, in the process of enabling the first sliding rod 411 to move downwards continuously, the fourth gear 611 rotates and enables the hairspring 66 to be tightened continuously, after the wallboard 2 is in place, under the action of the elastic force of the hairspring 66, the first connecting rod 54 and the second connecting rod 55 keep the trend of approaching each other, and the expansion bracket 41 keeps the trend of extruding the inner wall of the mounting groove 11; when the wall plate 2 needs to be taken down, the pin cylinder 61 and the pin shaft 62 are disengaged from each other through the second trigger mechanism, the rotating shaft 63 can rotate relative to the second connecting rod 55, further, the rotating shaft 63 enables the balance spring 66 to be not tightened again through rotation, the first connecting rod 54 and the second connecting rod 55 are not drawn close to each other, the telescopic frame 41 resets under the action of each elastic piece, and the wall plate 2 is disengaged from the wall body 1.

According to the invention, the balance spring 66 replaces a traditional elastic connecting piece, so that even if the balance spring 66 is tightened and loosened for multiple times, the elasticity of the balance spring is reduced, because the shrinkage of the balance spring 66 is large, enough elastic force can be provided for equipment, and the equipment is prevented from being out of work due to insufficient elastic force.

As a further scheme of the present invention, both sides of the bottom of the mounting groove 11 are provided with clamping grooves 111, both side walls of the first mounting rod 52 are fixedly connected with a clamping rod 71, both side walls of the first connecting rod 54 and the second connecting rod 55 are rotatably connected with a fixing rod 72, both lower ends of the fixing rods 72 on the same front and back sides are fixedly connected with a third mounting rod 73, both sides of the third mounting rod 73 are fixedly connected with a first elastic telescopic rod 74, the first elastic telescopic rod 74 is fixedly connected with the second mounting rod 53 on the same side, both upper ends of the third mounting rod 73 are fixedly connected with a second rack 75, the second rack 75 can be engaged with the first gear 64, the second rack 75 is connected with a first trigger mechanism, and the first trigger mechanism is connected to control the second rack 75 to be engaged with the first gear 64.

In the initial state, the second rack 75 is not engaged with the first gear 64;

during operation, as the expansion bracket 41 reaches the bottom end of the mounting groove 11 and presses the inner wall of the mounting groove 11, correspondingly, the clamping rod 71 also enters the clamping groove 111, then the first trigger mechanism is adjusted to enable the second rack 75 to be meshed with the first gear 64, meanwhile, the first trigger mechanism enables the first connecting rod 54 and the first gear 64 not to be fixed any more, at this time, because the balance spring 66 is already in a tightened state, under the elastic force action of the balance spring 66, the sleeve 65 and the second connecting rod 55 both have a rotation trend, wherein the rotation trend of the second connecting rod 55 enables the second connecting rod 55 to have a trend of closing up the first connecting rod 54, further, the expansion bracket 41 can keep a pressing state with the inner wall of the mounting groove 11, and the rotation trend of the sleeve 65 enables the first gear 64 to have a rotation trend, the first gear 64 can enable the second rack 75 to have a trend of moving upwards through meshing with the second rack 75, and further, the second rack 75 makes the second slide bar 412 have the trend of moving up through connecting pieces such as third installation pole 73, and expansion bracket 41 has the shrink trend for wallboard 2 and kelly 71 have the trend of motion in opposite directions, make wallboard 2 hug closely wall body 1 with the mode of centre gripping, further assurance wallboard 2 installation's stability, make wallboard 2 difficult emergence in the use drop, lead to its inside circuit to expose, produce the risk.

As a further aspect of the present invention, the first trigger mechanism includes two cavities 81, the two cavities 81 are respectively formed in the side wall of the first connecting rod 54 beside the first gear 64, a second elastic telescopic rod 82 is fixedly connected in the cavities 81, the second elastic telescopic rod 82 is fixedly connected with a first wedge block 83, the wedge surface of the first wedge block 83 faces the second rack 75, the upper end of the second rack 75 is fixedly connected with a first telescopic rod 87, the front and rear first telescopic rods 87 are fixedly connected with a sliding rod 84 together, the sliding rod 84 is fixedly connected with a second wedge block 85, the second wedge block 85 is transversely slidably connected with the lower end surface of the lead tube 3, a first trigger rod 86 is arranged above the second wedge block 85, the first trigger rod 86 vertically penetrates through the wall plate 2 and the lead tube 3 and is vertically and elastically slidably connected with the wall plate 2 and the lead tube 3, the first trigger lever 86 is provided with a first locking mechanism which enables the first trigger lever 86 to be maintained in different positions relative to the wall panel 2.

During operation, after wallboard 2 laminating wall body 1, the manual extrusion first trigger lever 86, make first trigger lever 86 extrude second wedge 85 downwards, make second wedge 85 lateral shifting, second wedge 85 drives first telescopic link 87 lateral shifting through slide bar 84, first telescopic link 87 drives second rack 75 lateral shifting and is close to first gear 64 and the meshing of first gear 64, in this process, first wedge 83 can be extruded to second rack 75, press first wedge 83 into appearance chamber 81, make first wedge 83 break away from first gear 64 no longer spacing to the rotation of first gear 64, first gear 64 can rotate this moment, then second rack 75 moves to first gear 64 department and meshes with first gear 64.

As a further scheme of the present invention, the second trigger mechanism includes a second mounting plate 91, a second connecting rod 92 is fixedly connected to the upper end of the second mounting plate 91, the second connecting rod 92 is fixedly connected to the lower end of the lead tube 3, the second wedge 85 is provided with a position-avoiding groove 851, the first trigger rod 86 is vertically penetrated through and slidably connected to a second trigger rod 93, the second trigger rod 93 is penetrated through the second mounting plate 91 and vertically slidably connected to the second mounting plate 91, a second locking mechanism is disposed between the second trigger rod 93 and the second mounting plate 91, the second locking mechanism can maintain the second trigger rod 93 at different positions relative to the second mounting plate 91, the lower end of the second mounting plate 91 is longitudinally slidably connected to a third wedge 94 with two opposite wedge surfaces, the third wedge 94 is fixedly connected to a third connecting rod 95, the third connecting rod 95 is fixedly connected to a second telescopic rod 96, the second telescopic rod 96 is fixedly connected with a fourth connecting rod 97, and the fourth connecting rod 97 is connected with the end face of the pin cylinder 61 at the same side in a sliding manner.

During operation, the second trigger rod 93 is manually extruded, the second trigger rod 93 is enabled to downwards extrude the third wedge block 94, the third wedge block 94 is enabled to longitudinally move, the third wedge block 94 drives the fourth connecting rod 97 to longitudinally move through the third connecting rod 95 and the second telescopic rod 96, the pin barrel 61 is further driven to longitudinally move, the pin barrel 61 is enabled to be separated from the pin shaft 62, and then the rotating shaft 63 is enabled to freely rotate.

As a further scheme of the invention, a rubber pad is arranged at the lower end of the wall plate 2.

Protect wall body 1 through the rubber pad, prevent that the extrusion of wallboard 2 from making 1 surperficial indentation of wall body for wallboard 2 spills the indentation through once or many times dismouting back, influences pleasing to the eye.

As a further aspect of the present invention, the timing belt 67 is made of a material having low elasticity.

The elastic deformation of the timing belt 67 is prevented from absorbing the elastic potential energy accumulated in the balance spring 66.

Claims (8)

1. The utility model provides an assembly fitment is with joint structure that has a pipe wallboard, its characterized in that: the wall body comprises a wall body (1), a wall plate (2) and a lead pipe (3), wherein the wall body (1) is provided with a mounting groove (11), four corners of the lower end of the wall plate (2) are transversely connected with telescopic frames (41) in a sliding manner, a twisting frame mechanism is arranged between the telescopic frames (41) on the same front side and the same rear side, and an energy storage mechanism is arranged on each twisting frame mechanism; the twisting frame mechanism is used for extruding the expansion frame (41) to the inner wall of the mounting groove (11) when the wallboard (2) is extruded to the mounting groove (11); the energy storage mechanism is used for storing energy generated in the process that the wallboard (2) is extruded into the mounting groove (11), and the generated energy is used for maintaining the expansion bracket (41) to be extruded towards the inner wall of the mounting groove (11).

2. The clamping structure of the tube wall panel for the assembly decoration according to claim 1, wherein: the hinge frame mechanism comprises two first connecting rods (51), the two first connecting rods (51) are respectively and fixedly connected with the lower ends of two telescopic frames (41) at the left side and the right side, the telescopic frames (41) are composed of a first sliding rod (411) and a second sliding rod (412), the first sliding rod (411) is transversely and slidably connected with the lower end of a wallboard (2), the second sliding rod (412) is vertically and elastically slidably connected with the first sliding rod (411), the second sliding rod (412) is fixedly connected with the first connecting rods (51), the opposite sides of the first connecting rods (51) are respectively and fixedly connected with first installation rods (52), the front end and the rear end of each first installation rod (52) are respectively and vertically and fixedly connected with second installation rods (53), the upper ends of the second installation rods (53) are respectively and vertically and elastically and slidably connected with hinge blocks (56), and the left hinge blocks (56) are respectively and rotatably connected with first connecting rods (54), the first connecting rod (54) is rotatably connected with the lower end of the second mounting rod (53) on the right side, the hinged block (56) on the right side is rotatably connected with the second connecting rod (55), the second connecting rod (55) is rotatably connected with the lower end of the second mounting rod (53) on the left side, the first connecting rod (54) and the second connecting rod (55) on the front side and the rear side are hinged to each other, and the energy storage mechanism can downwards extrude the left end of the first connecting rod (54) in the downward moving process of the first sliding rod (411).

3. The clamping structure of the tube wall panel for the assembly decoration according to claim 2, wherein: the energy storage mechanism comprises two pin cylinders (61), the two pin cylinders (61) are respectively connected with a second connecting rod (55) in a sliding manner, a pin shaft (62) is connected in each pin cylinder (61) in a sliding manner, each pin cylinder (61) is connected with a second trigger mechanism, each second trigger mechanism is used for controlling the clamping between the corresponding pin cylinder (61) and the corresponding pin shaft (62), the end portions of the corresponding pin shafts (62) are fixedly connected with a rotating shaft (63), each rotating shaft (63) penetrates through the corresponding first connecting rod (54) and is rotatably connected with the corresponding first connecting rod (54), each rotating shaft (63) is rotatably connected with a first gear (64), each first gear (64) is rotatably connected with the end face of the corresponding first connecting rod (54), a first trigger mechanism is arranged on the end face of the corresponding first connecting rod (54), each first trigger mechanism is used for controlling the fixing between the corresponding first connecting rod (54) and the corresponding first gear (64), and a sleeve (65) is fixedly connected to the end face of the corresponding first gear (64), the inner wall of the sleeve (65) is fixedly connected with a hairspring (66), and the hairspring (66) is fixedly connected with the rotating shaft (63); sleeve (65) outer wall is provided with synchronous tooth, sleeve (65) transmission is connected with hold-in range (67), hold-in range (67) transmission is connected with synchronizing wheel (68), synchronizing wheel (68) rotate with first connecting rod (54) tip and are connected, synchronizing wheel (68) terminal surface fixedly connected with second gear (69), second gear (69) meshing has third gear (610), third gear (610) meshing has fourth gear (611), second gear (69) department first mounting panel (612) of articulated piece (56) fixedly connected with, third gear (610) and fourth gear (611) all rotate with first mounting panel (612) and are connected, fourth gear (611) meshing has first rack (613), first rack (613) and the vertical fixed connection of first slide bar (411).

4. A clamping structure for a tubular wall panel for assembly decoration according to claim 3, wherein: clamping grooves (111) are respectively arranged at two sides of the bottom of the mounting groove (11), clamping rods (71) are fixedly connected with the side walls of the first mounting rods (52), the side walls of the first connecting rod (54) and the second connecting rod (55) are both rotationally connected with a fixed rod (72), the lower ends of the fixed rods (72) at the front and rear sides are both fixedly connected with a third mounting rod (73), two sides of the third mounting rod (73) are fixedly connected with first elastic telescopic rods (74), the first elastic telescopic rod (74) is fixedly connected with the second mounting rod (53) at the same side, the upper ends of the third mounting rods (73) are fixedly connected with second racks (75), the second rack (75) can be meshed with the first gear (64), the second rack (75) is connected with the first trigger mechanism, the first trigger mechanism is connected to control the second rack (75) to be meshed with the first gear (64).

5. The clamping structure of the tube wall panel for the assembly decoration according to claim 4, wherein: first trigger mechanism includes two appearance chambeies (81), two hold chamber (81) and set up respectively in other first connecting rod (54) lateral wall of first gear (64), hold chamber (81) interior fixedly connected with second elastic telescopic link (82), second elastic telescopic link (82) first wedge of fixedly connected with (83), the scarf of first wedge (83) is just to second rack (75), second rack (75) upper end fixedly connected with first telescopic link (87), two around first telescopic link (87) common fixedly connected with slide bar (84), slide bar (84) fixedly connected with second wedge (85), second wedge (85) and lead wire wedge (3) lower extreme facial features lateral sliding connection, second wedge (85) top is provided with first trigger lever (86), first trigger lever (86) are vertical run through wallboard (2) and lead wire (3) and erect lead wire (2) and lead wire (3) with wallboard (2) and lead wire (3) A straight elastic sliding connection, the first trigger lever (86) being provided with a first locking mechanism which enables the first trigger lever (86) to be maintained in different positions relative to the wall plate (2).

6. The clamping structure of the tube wall panel for the assembly decoration according to claim 5, wherein: the second trigger mechanism comprises a second mounting plate (91), the upper end of the second mounting plate (91) is fixedly connected with a second connecting rod (92), the second connecting rod (92) is fixedly connected with the lower end of the lead pipe (3), the second wedge-shaped block (85) is provided with a position avoiding groove (851), the first trigger rod (86) is vertically connected with a second trigger rod (93) in a penetrating and sliding manner, the second trigger rod (93) penetrates through the second mounting plate (91) and is vertically connected with the second mounting plate (91) in a sliding manner, a second locking mechanism is arranged between the second trigger rod (93) and the second mounting plate (91), the second locking mechanism can enable the second trigger rod (93) to be maintained at different positions relative to the second mounting plate (91), and the lower end of the second mounting plate (91) is longitudinally connected with a third wedge-shaped block (94) with two opposite wedge surfaces in a sliding manner, the equal fixedly connected with third connecting rod (95) of third wedge-shaped piece (94), equal fixedly connected with second telescopic link (96) of third connecting rod (95), second telescopic link (96) fixedly connected with fourth connecting rod (97), fourth connecting rod (97) and round pin section of thick bamboo (61) terminal surface sliding connection of homonymy.

7. The clamping structure of the tube wall panel for the assembly decoration according to claim 6, wherein: the lower end of the wallboard (2) is provided with a rubber pad.

8. The clamping structure of the tube wall panel for the assembly decoration according to claim 7, wherein: the synchronous belt (67) is made of a material with low elasticity.

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