CN115573469A - Energy-saving heat-insulating wallboard for building - Google Patents

Abstract

The utility model relates to an energy-conserving heat preservation wallboard for building relates to the field of heat preservation wallboard. The hanging ring fixing device comprises a mounting frame arranged on a wall body, the mounting frame is hinged to the wall body, a first buckling plate is arranged on the wall body, a first sliding seat is arranged on the mounting frame in a sliding mode, a second buckling plate is arranged on the first sliding seat, a control assembly used for controlling the first sliding seat to move is arranged on the mounting frame, a wall plate is arranged on the mounting frame, a hanging ring is arranged on the wall plate, a hook is arranged on the mounting frame, the hanging ring is sleeved on the hook, and a limiting assembly used for limiting the hanging ring to be separated from the hook is arranged on the mounting frame. This application is alleviated traditional heat preservation wallboard and is influenced constructor and carry out investigation and prosthetic problem to the damaged position of wall body.

Description

Energy-saving heat-insulating wallboard for building

Technical Field

The application relates to the field of heat-insulating wall boards, in particular to an energy-saving heat-insulating wall board for buildings.

Background

In the building industry, in order to meet the national requirements of energy conservation and consumption reduction, the requirement on the heat preservation of the building wallboard is gradually improved. Traditional heat preservation wallboard is attached on the outer wall body to realize the heat preservation effect. The heat-insulating wall board is used according to the principle that the heat-insulating wall board is arranged, a heat-insulating layer is formed between a wall body and the outside, and the influence of the outside temperature on the indoor temperature is relieved through the heat-insulating layer.

But in the practical use process of the heat insulation wallboard, a plurality of difficulties are caused to the maintenance of the wall body. For example, after a residential building is used for a period of time, the outer wall below the window is prone to cracking. Because the reason of heated board itself material, its water-proof effects is limited, in case the condition rainwater that leaks appears enters into the crack very easily to the infiltration is indoor, leads to the condition that the window leaked. Because set up the heated board and cover the wall body, influence constructor and investigate the damaged position of wall body, constructor often needs one to demolish the heated board and detect, maintains the wall body of crack water leakage position again. And the removed heat insulation plate can not be reused. Consequently to some damaged positions of appearing easily in building, traditional heat preservation wallboard mounting means is not suitable for, can increase wall body maintenance constructor's the construction degree of difficulty on the contrary.

Disclosure of Invention

In order to alleviate traditional heat preservation wallboard and influence constructor and carry out investigation and prosthetic problem to the damaged position of wall body, this application provides an energy-conserving heat preservation wallboard for building.

The application provides an energy-conserving heat preservation wallboard for building adopts following technical scheme:

the utility model provides an energy-conserving heat preservation wallboard for building, is including setting up the mounting bracket on the wall body, the mounting bracket articulates on the wall body, be provided with first buckle on the wall body, it is provided with first slide to slide on the mounting bracket, be provided with on the first slide be used for with the second buckle of first buckle joint, be provided with on the mounting bracket and be used for control the control assembly that first slide removed, be provided with the wallboard on the mounting bracket, be provided with the link on the wallboard, be provided with the couple on the mounting bracket, just the link cover is established on the couple, be provided with on the mounting bracket and be used for the restriction the link breaks away from the spacing subassembly of couple.

Through adopting above-mentioned technical scheme, when the wall body crack appears in the window below and leads to leaking, the operator need dismantle the wallboard of window below to repair the wall body. At this moment, an operator needs to drive the first sliding seat to move through the control assembly, so that the first buckling plate and the second buckling plate are away from each other, the locking effect between the mounting frame and the wall body is relieved, and the mounting frame can be conveniently turned. Then the operator removes the spacing effect to the wallboard through spacing subassembly again for the operator can break away from the couple through the slip wallboard, makes the link, realizes dismantling of wallboard, so that the operator checks and maintains the wall crack department of leaking, realizes through this mode that the wallboard can dismantle, and the condition of broken ring wallboard when reducing the operator maintenance wall body reduces the wasting of resources.

Optionally, the control assembly is connected including rotating first band pulley and second band pulley on the mounting bracket, just first band pulley with around being equipped with the belt between the second band pulley, first slide with the belt is connected, run through with the axle center on the first band pulley and seted up the spline groove, first band pulley is in the spline inslot is slided with the axle center and is worn to be equipped with the integral key shaft, the axle center fixedly connected with double-screw bolt of spline shaft tip, the double-screw bolt runs through the mounting bracket, and with mounting bracket threaded connection, the double-screw bolt is worn out the one end of mounting bracket is provided with the spacing ring board.

Through adopting above-mentioned technical scheme, the operator is through rotating the integral key shaft for first band pulley takes place to rotate, and then drives first slide through the belt and slides, through integral key shaft self or spacing ring board butt mounting bracket, with the rotation number of turns of the first band pulley of restriction, thereby the limit distance that moves on the mounting bracket of control first slide, so that control the position relation between first buckle and the second buckle.

Optionally, a through hole is formed in the wall plate corresponding to the position of the spline shaft, a blocking block is connected to the through hole in a threaded mode, a sealing ring is arranged at one end of the blocking block, the sealing ring tightly abuts against the wall plate, and the other end of the blocking block tightly abuts against the spline shaft and limits the spline shaft to rotate.

Through adopting above-mentioned technical scheme, the operator blocks the through-hole through setting up the sprue, reduces the rainwater and passes through the condition that the through-hole got into in the wall body. In addition, the spline shaft is kept in a state of abutting against the mounting frame by arranging the blocking block to abut against the spline shaft.

Optionally, the spacing subassembly is including rotating the connection and being in locking seat on the mounting bracket, be provided with the picture peg on the wallboard, it is used for supplying to offer on the locking seat the slot that the picture peg was pegged graft, be provided with in the slot and be used for the butt the limiting plate of picture peg, fixedly connected with gear on the locking seat, be provided with the rack on the first slide, the rack with gear intermeshing.

Through adopting above-mentioned technical scheme, the operator drives first band pulley through rotating the integral key shaft and rotates, and then drives first slide and slide on the mounting bracket, under the effect in the gear and rack meshing transmission for the locking seat rotates, rotates when locking seat to slot opening and couple hook portion syntropy, and the operator can be through sliding the wallboard, makes the picture peg can break away from the slot, and the couple can break away from the link, realizes the dismantlement of wallboard. When the locking seat rotates to the opposite position of the slot opening and the hook part of the hook, the limiting plate is abutted to the plug board to prevent the wall board from sliding on the mounting frame and prevent the hook from separating from the hanging ring, so that the wall board is limited from separating from the mounting frame.

Optionally, a turning seat is arranged on the mounting frame, a positioning pin is arranged on the wall body, a first arc-shaped groove is formed in the turning seat, and the first arc-shaped groove is used for allowing the positioning pin to turn around the turning seat.

Through adopting above-mentioned technical scheme, overturn around the axis of upset seat in first arc wall through the locating pin for the mounting bracket can articulate on the wall body.

Optionally, a second slide seat is arranged on the mounting rack in a sliding manner, the turnover seat is fixedly connected onto the second slide seat, a driving unit used for controlling the second slide seat to move is arranged on the mounting rack, a sliding groove used for supplying the positioning pin to slide is formed in the turnover seat, the first arc-shaped groove faces towards one end of the first slide seat and is communicated with the sliding groove, a through groove used for inserting the positioning pin into the sliding groove is formed in the other end of the first arc-shaped groove, a limiting seat is detachably arranged on the wall body, and a limiting unit used for limiting the turnover angle of the mounting rack is arranged between the mounting rack and the limiting seat.

Through adopting above-mentioned technical scheme, when the mounting bracket butt was on the wall body, the operator drove the second slide through drive unit and removed for the locating pin breaks away from first arc wall and gets into the spout in, then the operator drove first slide through control assembly and removes, makes first buckle and the cooperation of second buckle locking, realizes the rigidity of mounting bracket on the wall body. When the mounting bracket was dismantled to the operator needs, the operator then drove two first slides through control assembly and removes, removes the locking relation of first buckle and second buckle, then the operator drives the second slide through drive unit and removes for the locating pin is located first arc wall, and the operator is through the upset mounting bracket, makes the locating pin align with leading to the groove. The operator dismantles spacing seat from the wall body earlier afterwards, and the rethread lifts the mounting bracket for the locating pin breaks away from upset seat from leading to the groove, realizes the dismantlement of mounting bracket.

Optionally, the drive unit is including setting up slide rail on the mounting bracket, be provided with the slider on the mounting bracket, just seted up on the slider be used for with slide rail complex first guide way, the slider is located first removal seat with the second removes between the seat, first removal seat with it has first connecting rod to articulate between the slider, the second remove the seat with it has the second connecting rod to articulate between the slider.

Through adopting above-mentioned technical scheme, the operator drives first slide through control assembly and slides, under the transmission of first connecting rod for the slider slides, and the slider slides and drives the upset of second connecting rod, and then makes second slide and first slide synchronous slip.

Optionally, be provided with the joint piece on the wall body, the joint groove has been seted up on the joint piece, set up on the spacing seat be used for with joint groove complex spacing groove, just the spacing groove orientation the one end of second slide is opened, spacing seat articulates there is the third connecting rod, be provided with the round pin axle on the third connecting rod, sell epaxial ring channel of having seted up, the second arc wall has been seted up on the upset seat, the ring channel with the cooperation of second arc wall, just the second arc wall is used for supplying the round pin axle winds the upset of upset seat, set up the confession on the spacing seat the second guide way that the slide rail slided.

Through adopting above-mentioned technical scheme, under the initial condition, the mounting bracket butt is on the wall body, and when the second slide removed to the round pin axle was located the spout, spacing seat and mounting bracket butt this moment, and the slide rail slides and sets up in the second guide way, and the joint piece slides and sets up at spacing inslot simultaneously for spacing seat is fixed on the wall body.

When the wallboard was dismantled to the operator, the operator need overturn the mounting bracket, need drive first slide through control assembly and remove the locking effect of relieving between first buckle and the second buckle earlier. And in the moving process of the first sliding seat, the second sliding seat moves to a position where the positioning pin is positioned in the first arc-shaped groove. Meanwhile, the second sliding seat enables the limiting seat to move to be separated from the sliding rail under the transmission action of the third connecting rod. The operator then turns the wall panel so that the mounting bracket is turned away from the wall. The limiting unit limits the turning angle of the mounting frame, so that the positioning pin is aligned with the through groove. This in-process joint piece is located the spacing inslot all the time, and the operator is with dismantling the back with the wallboard, and the mounting bracket is lifted to the rethread for the joint piece breaks away from the spacing groove, and the locating pin breaks away from upset seat, realizes the dismantlement of mounting bracket.

Optionally, the limiting unit comprises a turnover rod hinged to the limiting seat, a moving seat is hinged to the turnover rod, and the moving seat slides on the mounting frame.

Through adopting above-mentioned technical scheme, when the operator overturns the mounting bracket, drive the upset of upset pole, through the rotation angle of upset pole restriction mounting bracket.

Optionally, a limit column is arranged at the end of the clamping block, a screw is arranged at the end of the limit column, the screw is in threaded connection with the clamping block, and a cross rod for blocking the limit column is arranged on the turnover rod; when spacing seat aligns with the slide rail, the horizontal pole is relieved to spacing post blocks the effect, works as when spacing seat and mounting bracket are kept away from each other, the horizontal pole is in the butt gradually on the spacing post.

By adopting the technical scheme, when the mounting frame is abutted against the wall body, the cross rod removes the blocking effect on the limiting column, so that the clamping block can slide out of the limiting groove; when the mounting bracket when keeping away from the upset of wall body direction, the mounting bracket is kept away from gradually to spacing seat for the upset of upset pole, and drive the horizontal pole and be close to spacing seat gradually, thereby stop spacing post, prevent that the joint piece can the roll-off spacing groove. Stop spacing post through setting up the horizontal pole, restriction joint piece roll-off spacing groove is in order to dismantle the wallboard and need not to dismantle when the mounting bracket, prevents the condition that the mounting bracket breaks away from the wall body.

When the mounting bracket is dismantled to needs, the operator need twist off earlier spacing post after, then can be through lifting the mounting bracket for joint piece roll-off spacing groove, and the locating pin breaks away from the upset seat, then realizes the dismantlement of mounting bracket.

In summary, the present application includes at least one of the following beneficial technical effects:

1. an operator unscrews the spline shaft, removes the locking effect between the first buckle plate and the second buckle plate, drives the locking seat to rotate, enables the opening of the slot to be in the same direction as the hook part of the hook, removes the limiting effect of the locking seat on the wallboard, and facilitates the disassembly of the wallboard by the operator, so that the operator can conveniently check and maintain the crack and water leakage position of the wall body;

2. can dismantle through realizing the wallboard, the condition of broken ring wallboard when reducing the operator maintenance wall body reduces the wasting of resources.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic structural diagram for embodying a substrate according to an embodiment of the present disclosure.

Fig. 3 is an exploded view of an embodiment of the present application for embodying a suspension loop and a patch panel.

Fig. 4 is a schematic structural diagram for embodying a mounting bracket and a control assembly according to an embodiment of the present application.

Fig. 5 is a schematic structural view for showing a state of abutment between the connecting plate and the limiting seat in the embodiment of the present application.

Fig. 6 is a schematic structural diagram for showing a separation state of the connecting plate and the limiting seat in the embodiment of the application.

Fig. 7 is an exploded view of an embodiment of the present application for embodying a roll-over seat.

Fig. 8 is an exploded view of an embodiment of the present application for embodying a spacing unit.

Fig. 9 is a schematic structural diagram for embodying a limiting column in the embodiment of the present application.

Description of reference numerals: 1. a wall body; 11. a substrate; 12. a through hole; 13. blocking; 14. a seal ring; 15. a wallboard; 16. a mounting frame; 17. an upper transverse plate; 18. a lower transverse plate; 19. a connecting plate; 2. a control component; 21. a first pulley; 22. a second pulley; 23. a belt; 24. a spline groove; 25. a spline shaft; 26. a stud; 27. a limit ring plate; 3. a first slider; 31. a first buckle plate; 32. a moving groove; 33. a first groove; 34. a baffle plate; 35. a second buckle plate; 36. a rib; 4. hanging a ring; 41. hooking; 42. a limiting component; 43. rotating the base; 44. a gear; 45. a rack; 46. a locking seat; 47. a slot; 48. inserting plates; 49. a limiting plate; 5. a second slide; 51. a drive unit; 52. a slide rail; 53. a slider; 54. a first guide groove; 55. a first link; 56. a second link; 6. an arc-shaped plate; 61. a transition plate; 62. positioning pins; 63. an end plate; 64. a baffle ring; 65. a card slot; 66. a first arc-shaped slot; 67. a through groove; 68. a chute; 69. a turning seat; 7. a limiting seat; 71. a second guide groove; 72. a limiting groove; 73. a clamping block; 74. a clamping groove; 75. a third link; 76. a pin shaft; 77. an annular groove; 78. a second arc-shaped slot; 8. a limiting unit; 81. a turning rod; 82. a movable seat; 83. a cross bar; 84. a limiting column; 85. a screw.

Detailed Description

The present application is described in further detail below with reference to figures 1-9.

The embodiment of the application discloses energy-conserving heat preservation wallboard for building. Referring to fig. 1 and 2, the energy-saving thermal insulation wallboard for buildings comprises a base plate 11 arranged on a wall body 1, wherein the base plate 11 is a steel plate and is vertically and fixedly connected to the wall body 1 through expansion bolts, and the base plate 11 can be arranged below a window frame.

As shown in fig. 3 and 4, a mounting frame 16 is hinged to a side of the base plate 11 facing away from the wall 1, and a hinge axis between the mounting frame 16 and the base plate 11 is horizontally arranged and located below the mounting frame 16. The mounting frame 16 comprises an upper transverse plate 17 and a lower transverse plate 18 which are horizontally arranged and parallel to each other, the upper transverse plate 17 is fixedly connected with the lower transverse plate 18 through a connecting plate 19, the connecting plate 19 is perpendicular to the upper transverse plate 17 and the lower transverse plate 18, and the mounting frame 16 is I-shaped as a whole.

As shown in fig. 3, two first sliding seats 3 are slidably disposed on one side of the upper cross plate 17 facing the base plate 11, and the sliding direction of the two first sliding seats 3 is parallel to the length direction of the upper cross plate 17. The connecting plate 19 is located between the two first sliding seats 3, and the mounting frame 16 is provided with a control assembly 2 for controlling the two first sliding seats 3 to approach or move away from each other. Control assembly 2 is including rotating the first band pulley 21 of connecting deviating from base plate 11 one side at last diaphragm 17, the both ends of mounting bracket 16 are all being rotated and are being connected with second band pulley 22 deviating from base plate 11 one side, first band pulley 21 corresponds two second band pulleys 22 positions and all is provided with the annular, and all around being equipped with belt 23 between two second band pulleys 22 and the corresponding annular, first slide 3 and belt 23 one-to-one, and two first slides 3 all with the belt 23 fixed connection that corresponds, and first band pulley 21 rotates and drives two first slides 3 and be close to each other or keep away from each other.

Spline grooves 24 are formed in the first belt wheel 21 in a coaxial penetrating mode, and spline shafts 25 are arranged in the spline grooves 24 in a sliding mode along the axis direction of the first belt wheel 21. One end of the spline shaft 25, which faces the upper transverse plate 17, is coaxially and fixedly connected with a stud 26, the stud 26 penetrates through the upper transverse plate 17 and is in threaded connection with the upper transverse plate 17, and one end of the stud 26, which penetrates through the upper transverse plate 17, is fixedly connected with a limit ring plate 27. When the limit ring plate 27 is abutted against the upper transverse plate 17, the two first sliding seats 3 are in a state of being close to each other; when the spline shaft 25 abuts on the upper cross plate 17, the two first carriages 3 are in a state of being away from each other.

As shown in fig. 2 and fig. 5, one side of the base plate 11 facing the mounting frame 16 is fixedly connected with two L-shaped first fastening plates 31, the connecting plate 19 is located between the two first fastening plates 31, and the two first fastening plates 31 and the base plate 11 form a first groove 33 with an upward opening. Two first slides 3 are gone up to the equal perpendicular fixedly connected with in one side of base plate 11 and are used for the baffle 34 of the first buckle 31 of butt, baffle 34 and first buckle 31 one-to-one, fixedly connected with second buckle 35 on the baffle 34, second buckle 35 is used for pegging graft in first recess 33. One side fixedly connected with bead 36 of second buckle 35 towards first slide 3, offer the shifting chute 32 that is used for supplying bead 36 to slide on the inner wall of first buckle 31, and the length direction of shifting chute 32 is parallel with the length direction of last horizontal plate 17.

When the limit ring plate 27 abuts against the upper transverse plate 17, the two sliding seats are in a state of being close to each other, and the second buckle plate 35 is located between the limit ring plate 27 and the corresponding first buckle plate 31. When the spline shaft 25 abuts against the upper transverse plate 17, the two slide carriages are in a state of being away from each other, and the second buckle 35 is located in the first groove 33, and the convex rib 36 is inserted into the corresponding moving groove 32.

In the initial state, the retainer ring plate 27 abuts against the upper cross plate 17, and at this time, the two first sliders 3 are in a state of being close to each other. When the operator turns over the mounting frame 16, so that the mounting frame 16 is vertically arranged, the openings of the two second fastening plates 35 are both arranged towards the baffle 34, the second fastening plates 35 abut against the baffle 34, the second fastening plates 35 are located between the limiting ring plate 27 and the corresponding first fastening plates 31, and the moving grooves 32 are aligned with the protruding ribs 36. An operator rotates the spline shaft 25 through a wrench, so that the spline shaft 25 and the upper cross plate 17 gradually approach to each other, thereby driving the two first sliding seats 3 to move away from each other, and the second pinch plates 35 are gradually inserted into the corresponding first grooves 33. In the process, the rib 36 is gradually inserted into the moving groove 32, so that the mounting frame 16 is limited to turn over, and the mounting frame 16 is fixed on the wall 1.

As shown in fig. 2, 3 and 4, one side of the mounting frame 16 departing from the base plate 11 is provided with a wall plate 15, the wall plate 15 faces the connecting plate 19 and the lower transverse plate 18 and is fixedly connected with hanging rings 4, and each hanging ring 4 is provided with a jack along the length direction of the connecting plate 19. The lower transverse plate 18 and the connecting plate 19 are fixedly connected with L-shaped hooks 41 corresponding to the positions of the hanging rings 4, and the hook parts of the hooks 41 are arranged upwards and are matched with the insertion holes corresponding to the hanging rings 4. The upper transverse plate 17 is also provided with a limiting component 42 for limiting the hanging ring 4 to be separated from the hook 41.

As shown in fig. 4 and 5, the limiting assembly 42 includes two rotating seats 43 fixedly connected to the lower surface of the upper cross plate 17, the connecting plate 19 is located between the two rotating seats 43, and the two rotating seats 43 are both rotatably connected with a driving shaft. Two drive shafts are towards the equal axle center fixedly connected with gear 44 of one end of base plate 11, the equal fixedly connected with rack 45 of lower surface of two first slides 3, rack 45 and gear 44 one-to-one, and two racks 45 all with the gear 44 intermeshing that corresponds. The sections of the two driving shafts far away from the base plate 11 are fixedly connected with locking seats 46, the cross sections of the locking seats 46 are in a shape of '21274', and the openings of the locking seats 46 are marked as slots 47. The wall plate 15 is fixedly connected with an inserting plate 48 parallel to the wall plate 15 corresponding to the two locking seats 46, the connecting end of the inserting plate 48 far away from the inserting plate and the wall body is in a semicircular arc shape, and the end of the locking seat 46 close to the opening is also in a semicircular arc shape. The insertion plates 48 are matched with the corresponding insertion grooves 47, the bottom walls of the insertion grooves 47 are marked as limiting plates 49, and the limiting plates 49 are always abutted on the insertion plates 48.

When the retainer ring plate 27 abuts against the upper transverse plate 17, the retainer plate 49 is located below the insert plates 48, and at this time, an operator can lift the wall plate 15, so that each hanging ring 4 is separated from the corresponding hook 41, and the two insert plates 48 are separated from the corresponding slots 47. When the spline shaft 25 abuts against the upper transverse plate 17, the locking seat 46 is turned over under the driving action of the gear 44 and the rack 45, so that the limit plate 49 is positioned above the insert plate 48. At this time, the limiting plate 49 prevents the insertion plates 48 from moving upwards, so that the hooks 41 are always inserted into the corresponding hanging rings 4, and the two insertion plates 48 are inserted into the corresponding slots 47, thereby fixing the positions of the wall plate 15 and the mounting frame 16.

As shown in fig. 2 and 3, an inner hexagonal groove is formed in one end of the spline shaft 25, which is far away from the stud 26, a through hole 12 is formed in the wall plate 15, which corresponds to the position of the spline shaft 25, and the through hole 12 is coaxially penetrated, and a cylindrical block 13 is connected to the wall plate 15 through an internal thread. One end of the blocking piece 13 is used for abutting against the spline shaft 25 and keeping the spline shaft 25 abutting against the upper transverse plate 17, the outer circumferential surface of the other end of the blocking piece 13 is fixedly connected with the sealing ring 14, and the sealing ring 14 is used for abutting against the wall plate 15 and preventing the through hole 12 from being filled with water. The operator is at through-hole 12 female connection sprue 13, through sprue 13 butt integral key shaft 25 for integral key shaft 25 keeps the state of butt at last diaphragm 17, reduces integral key shaft 25 and leads to the not hard up condition of mounting bracket 16 at the external force down antiport.

As shown in fig. 5 and 6, two second carriages 5 are slidably arranged on the side of the lower cross plate 18 facing the base plate 11 along the length direction thereof, and a driving unit 51 for controlling the movement of the two second carriages 5 is arranged on the connecting plate 19. The driving unit 51 comprises slide rails 52 fixedly connected to the connecting plate 19 at both sides along the length direction of the lower cross plate 18, and a slide block 53 with a cross section of a shape of '21274' is arranged on the connecting plate 19. The opening of the sliding block 53 is disposed toward the connecting plate 19, and the two inner side walls of the sliding block 53 are each provided with a first guide groove 54 for matching with the sliding rail 52, so that the sliding block 53 is slidably disposed on the connecting plate 19 along the length direction of the sliding rail 52. The first hinge ear of the equal fixedly connected with in slider 53 both sides and second hinge ear, and first hinge ear is located the top of second hinge ear. The first hinge lugs are in one-to-one correspondence with the first slide carriage 3, and the second hinge lugs are in one-to-one correspondence with the second slide carriage 5. The two first hinge lugs are hinged with first connecting rods 55, and the two first connecting rods 55 are hinged with the corresponding first sliding seats 3; the two second hinge lugs are hinged with second connecting rods 56, and the two second connecting rods 56 are hinged with the corresponding second sliding seats 5.

As shown in fig. 6 and 7, the two second sliding seats 5 are provided with turning seats 69, each turning seat 69 includes an arc-shaped plate 6 in a minor arc shape, and an axis of the arc-shaped plate 6 is parallel to a length direction of the lower transverse plate 18. The central axis of the arc-shaped plate 6 is arranged towards the corresponding direction of the second sliding base 5, and the upper side wall and the lower side wall of the arc-shaped plate 6 are fixedly connected with the second sliding base 5 through the transition plate 61. One side of each of the two transition plates 61 departing from the second sliding base 5 is tangent to the outer arc surface of the arc plate 6, the transition plate 61 above the arc plate 6 is marked as a first transition plate 61, the transition plate 61 below the arc plate 6 is marked as a second transition plate 61, the first transition plate 61 is vertically arranged, and one end of the second transition plate 61 close to the second sliding base 5 is inclined downwards. One side fixedly connected with locating pin 62 that base plate 11 deviates from wall body 1, the one end fixedly connected with end plate 63 of keeping away from base plate 11 on the locating pin 62, locating pin 62 is fixedly connected with between end plate 63 and base plate 11 and keeps off ring 64, forms draw-in groove 65 between end plate 63 and the fender ring 64.

First arc-shaped groove 66 is formed in arc-shaped plate 6, clamping groove 65 is matched with first arc-shaped groove 66, and positioning pin 62 can slide around the axis of arc-shaped plate 6 in first arc-shaped groove 66. Through grooves 67 are formed in the positions, corresponding to the first arc-shaped grooves 66, of the second transition plate 61, the lower ends of the through grooves 67 are opened, and the upper ends of the through grooves 67 are communicated with the first arc-shaped grooves 66 so that the positioning pins 62 can slide out of the first arc-shaped grooves 66. When the center axis of the positioning pin 62 is perpendicular to the second transition plate 61, the positioning pin 62 is aligned with the through groove 67. The arc-shaped plate 6 is further provided with a sliding groove 68 for the positioning pin 62 to slide, and the length direction of the sliding groove 68 is parallel to the length direction of the arc-shaped plate 6. The sliding groove 68 is located on one side of the first arc-shaped groove 66 facing the connecting plate 19, and one end of the sliding groove 68 far away from the connecting plate 19 is communicated with one end of the first arc-shaped groove 66 far away from the through groove 67.

When the limit ring plate 27 abuts against the upper cross plate 17, the two first sliders 3 are in a state of being close to each other, and the two second sliders 5 are in a state of being away from each other under the interlocking action of the first link 55 and the second link 56. At this point, locating pins 62 are positioned within corresponding first arcuate slots 66, and an operator may turn mounting bracket 16 over so that the openings of both through slots 67 are aligned with corresponding locating pins 62. When the spline shaft 25 abuts against the upper transverse plate 17, the two second sliders 5 are in a state of being close to each other, and at this time, the two positioning pins 62 are both located at one end of the corresponding sliding groove 68 far away from the through groove 67.

As shown in fig. 8 and 9, the connecting plate 19 is provided with a limiting seat 7, the cross section of the limiting seat 7 is in a shape of '21274', an opening of the limiting seat 7 is arranged toward the connecting plate 19, two inner side walls of the limiting seat 7 are both provided with second guide grooves 71 for the sliding rails 52 to move, one side of the limiting seat 7 facing the substrate 11 is vertically provided with a limiting groove 72, and the upper end of the limiting groove 72 is closed and the lower end is opened. Fixedly connected with joint piece 73 on the base plate 11, and joint piece 73 all offers along the both sides of lower diaphragm 18 length direction and is used for with spacing groove 72 complex joint groove 74. The two sides of the limiting seat 7 along the length direction of the lower transverse plate 18 are fixedly connected with third hinge lugs, the two third hinge lugs are hinged with third connecting rods 75, and the third connecting rods 75 are in one-to-one correspondence with the second sliding seats 5. The ends of the two third connecting rods 75 far away from the sliding base are fixedly connected with pin shafts 76, the circumferential surfaces of the pin shafts 76 are provided with annular grooves 77, and the ends of the arc-shaped plates 6 near the connecting plates 19 are provided with second arc-shaped grooves. The pin 76 is located in the second arc-shaped groove 78, and the annular groove 77 is matched with the second arc-shaped groove 78, and the pin 76 can turn around the central axis of the arc-shaped plate 6. When the retainer ring plate 27 abuts against the upper cross plate 17, the second guide groove 71 slide rail 52 is completely separated from the second guide groove 71. When the operator rotates the spline shaft 25 to move the spline shaft 25 toward the upper cross plate 17, the stopper 7 gradually moves upward, so that the slide rail 52 is gradually inserted into the second guide groove 71.

One side of the limiting seat 7 departing from the base plate 11 is provided with a limiting unit 8 for limiting the overturning angle of the mounting frame 16. The limiting unit 8 comprises two turning rods 81 hinged to one side of the limiting seat 7, which is far away from the substrate 11, and the two first turning rods 81 are symmetrically arranged relative to the limiting groove 72. Two upset poles 81 keep away from the one end of spacing seat 7 and articulate jointly and have removal seat 82, remove seat 82 and slide along the length direction of connecting plate 19 and set up on connecting plate 19. Fixedly connected with horizontal pole 83 between two upset poles 81, the one end that the base plate 11 was kept away from to joint piece 73 is provided with cylindric spacing post 84, and spacing post 84 is towards one side of joint piece 73 with axle center fixedly connected with screw rod 85, screw rod 85 threaded connection on joint piece 73. The cross bar 83 is used for blocking the limiting post 84 and limiting the clamping block 73 to be separated from the limiting groove 72.

When the mounting rack 16 is turned to abut against the limiting seat 7, the slide rail 52 is aligned with the second guide groove 71, the cross bar 83 is driven by the turning bar 81 to remove the blocking effect on the limiting column 84, and the length directions of the two turning bars 81 are parallel to the length direction of the limiting groove 72. When the mounting frame 16 is turned towards the direction away from the substrate 11, the cross rod 83 is gradually turned towards the limiting column 84 until the cross rod 83 abuts against the limiting column 84, and meanwhile, the central axes of the two positioning pins 62 are perpendicular to the corresponding second transition plate 61, so that the two positioning pins 62 are aligned with the corresponding through grooves 67.

The implementation principle of the embodiment of the application is as follows: when installing wallboard 15, the operator is waiting to install wallboard 15 regional installation base plate 11, and then the operator twists the integral key shaft 25 for integral key shaft 25 keeps away from last diaphragm 17 and sets up, and spacing ring board 27 butt goes up diaphragm 17. At this time, the two first sliding seats 3 are in a state of being close to each other, the two second sliding seats 5 are in a state of being far away from each other, and the limiting seat 7 is separated from the sliding rail 52.

The operator moves the mounting frame 16 so that the two through grooves 67 are aligned with the positioning pins 62, and pushes the stopper base 7 and the connecting plate 19 away from each other so that the stopper groove 72 is aligned with the catching block 73. The operator is through moving mounting bracket 16 for locating pin 62 runs through logical groove 67, and in inserting corresponding first arc wall 66, and joint piece 73 inserts the spacing groove 72, realizes the preliminary fixed of mounting bracket 16 on wall body 1. At this moment, the mounting frame 16 and the limiting seat 7 are in a mutually-away state, an operator installs the limiting column 84 on one side of the limiting seat 7 facing the connecting plate 19, the limiting column 84 abuts against the cross rod 83 to limit the clamping block 73 to slide out of the limiting groove 72, and limit the two positioning pins 62 to be separated from the corresponding first arc-shaped grooves 66, so that the mounting frame 16 is further fixed on the wall body 1.

After completing the fixing of the mounting frame 16 on the wall 1, the operator needs to install the wall panel 15 on the mounting frame 16, and the wall panel 15 is a thermal insulation wall panel 15. Because the two first sliding seats 3 are in a state of being close to each other, the direction of the slots 47 of the two locking seats 46 is the same as the direction of the hooks 41, the operator sleeves the hanging ring 4 on the wall plate 15 on the corresponding hook 41, and the inserting plate 48 on the wall plate 15 is inserted into the corresponding slot 47, so that the preliminary position fixing of the wall plate 15 on the mounting frame 16 is realized. Then, the operator turns over the mounting frame 16, so that the mounting frame 16 is parallel to the wall 1, at this time, the connecting plate 19 is attached to the limiting seat 7, the slide rail 52 is aligned with the second guide groove 71, and the two positioning pins 62 are aligned with the corresponding slide grooves 68. Meanwhile, the cross bar 83 is far away from the limiting seat 7 under the overturning action of the two overturning rods 81, and the blocking effect on the limiting column 84 is released.

Thereafter, the operator inserts the wrench into the through hole 12 to screw the spline shaft 25 so that the spline shaft 25 abuts against the upper cross plate 17. The two first sliding seats 3 are in a state of being away from each other, and drive the second buckling plate 35 to be clamped on the first buckling plate 31 so as to limit the overturning of the mounting frame 16 and realize the final fixing of the mounting frame 16 on the wall body 1; meanwhile, the two first sliding seats 3 move to drive the corresponding locking seats 46 to rotate under the transmission action of the gear 44 and the rack 45, so that the openings of the slots 47 are opposite to the hooks 41, the wall plate 15 is limited to slide out of the mounting frame 16, and the wall plate 15 is further fixed on the mounting frame 16. The two second carriages 5 are in a condition of mutual approach and the two positioning pins 62 are each located in a corresponding sliding slot 68. Spacing seat 7 moves upwards under the impetus of two third connecting rods 75 for slide rail 52 pegs graft in the second guide way 71 that corresponds, and joint piece 73 is located spacing groove 72 all the time, realizes the rigidity between connecting plate 19 and the wall body 1, and then improves the installation stability of mounting bracket 16 on wall body 1.

Finally, the operator connects the blocking block 13 with the through groove 67 of the wall plate 15 in a threaded manner, so that the through hole 12 is sealed by the blocking block 13, one end of the blocking block 13 extending into the through hole 12 abuts against the spline shaft 25, the spline shaft 25 is prevented from rotating reversely, and the condition that the installation is loose between the mounting frame 16 and the wall body 1 is reduced.

When the operator needs to check the wall 1 for cracks. The operator twists off blockking block 13 earlier, and the integral key shaft 25 is moved to the reverse twisting of rethread for spacing ring plate 27 and last horizontal plate 17 butt remove the locking effect between first buckle 31 and the second buckle 35, and the cooperation relation between slide rail 52 and the spacing seat 7, so that the operator can overturn mounting bracket 16, removes the effect that hides of wallboard 15 to wall body 1, makes things convenient for the operator to detect the damage condition of wall body 1. When the wall body 1 needs to be repaired, the operator pulls the wall plate 15 away from the mounting frame 16. Through the mode, can dismantle the setting between realization wallboard 15 and the wall body 1, make things convenient for the operator to investigate 1 damaged area of wall body on the one hand to repair it, on the other hand also reduces 1 repair in-process wallboard 15 of wall body in order bad, reduces the wasting of resources.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an energy-conserving heat preservation wallboard for building which characterized in that: including setting up mounting bracket (16) on wall body (1), mounting bracket (16) articulate on wall body (1), be provided with first buckle (31) on wall body (1), it is provided with first slide (3) to slide on mounting bracket (16), be provided with on first slide (3) be used for with second buckle (35) of first buckle (31) joint, be provided with on mounting bracket (16) and be used for control assembly (2) that first slide (3) removed, be provided with on mounting bracket (16) wallboard (15), be provided with link (4) on wallboard (15), be provided with couple (41) on mounting bracket (16), just link (4) cover is established on couple (41), be provided with on mounting bracket (16) and be used for the restriction link (4) break away from spacing subassembly (42) of couple (41).

2. The energy-saving heat-insulating wallboard for buildings according to claim 1 is characterized in that: control assembly (2) are connected including rotating first band pulley (21) and second band pulley (22) on mounting bracket (16), just first band pulley (21) with around being equipped with belt (23) between second band pulley (22), first slide (3) with belt (23) are connected, go up with the axle center on first band pulley (21) and run through and seted up spline groove (24), first band pulley (21) are in spline groove (24) internal coaxiality slides and wears to be equipped with integral key shaft (25), integral key shaft (25) tip coaxial center fixedly connected with double-screw bolt (26), double-screw bolt (26) run through mounting bracket (16), and with mounting bracket (16) threaded connection, double-screw bolt (26) are worn out the one end of mounting bracket (16) is provided with stop ring board (27).

3. The energy-saving heat-insulating wallboard for buildings as claimed in claim 2, wherein: correspond on wallboard (15) through-hole (12) have been seted up to integral key shaft (25) position, wallboard (15) through-hole (12) female connection has sprue (13), just sprue (13) one end is provided with sealing ring (14), just sealing ring (14) support tightly on wallboard (15), sprue (13) other end supports tightly on integral key shaft (25), and the restriction integral key shaft (25) rotate.

4. The energy-saving heat-insulating wallboard for buildings according to claim 1 is characterized in that: spacing subassembly (42) are connected including rotating locking seat (46) on mounting bracket (16), be provided with picture peg (48) on wallboard (15), locking seat (46) are last to be seted up and are used for supplying slot (47) that picture peg (48) were pegged graft, be provided with in slot (47) and be used for the butt limiting plate (49) of picture peg (48), fixedly connected with gear (44) are gone up in locking seat (46), be provided with rack (45) on first slide (3), rack (45) with gear (44) intermeshing.

5. The energy-saving heat-insulating wallboard for buildings according to claim 1 is characterized in that: the wall body is characterized in that a turning seat (69) is arranged on the mounting frame (16), a positioning pin (62) is arranged on the wall body (1), a first arc-shaped groove (66) is formed in the turning seat (69), and the first arc-shaped groove (66) is used for allowing the positioning pin (62) to turn around the turning seat (69).

6. The energy-saving heat-insulating wallboard for buildings as claimed in claim 5, wherein: slide on mounting bracket (16) and be provided with second slide (5), upset seat (69) fixed connection be in on second slide (5), be provided with on mounting bracket (16) and be used for control drive unit (51) that second slide (5) removed, offer on upset seat (69) and be used for the confession spout (68) that locating pin (62) slided, just first arc wall (66) orientation the one end and spout (68) intercommunication of first slide (3), logical groove (67) that supply locating pin (62) to insert spout (68) are seted up to the other end of first arc wall (66), can dismantle on wall body (1) and be provided with spacing seat (7), mounting bracket (16) with be provided with between spacing seat (7) and be used for the restriction spacing unit (8) of mounting bracket (16) rotation angle.

7. The energy-saving heat-insulating wallboard for buildings according to claim 6 is characterized in that: drive unit (51) is including setting up slide rail (52) on mounting bracket (16), be provided with slider (53) on mounting bracket (16), just seted up on slider (53) be used for with slide rail (52) complex first guide way (54), slider (53) are located first removal seat (82) with between second removal seat (82), first removal seat (82) with it has first connecting rod (55) to articulate between slider (53), second removal seat (82) with it has second connecting rod (56) to articulate between slider (53).

8. The energy-saving heat-insulating wallboard for buildings according to claim 7 is characterized in that: be provided with joint piece (73) on wall body (1), joint groove (74) have been seted up on joint piece (73), offer on spacing seat (7) be used for with joint groove (74) complex spacing groove (72), just spacing groove (72) orientation the one end of second slide (5) is opened, spacing seat (7) articulate has third connecting rod (75), be provided with round pin axle (76) on third connecting rod (75), round pin axle (76) have been seted up ring channel (77), second arc wall (78) have been seted up on upset seat (69), ring channel (77) with second arc wall (78) cooperation, just second arc wall (78) are used for supplying round pin axle (76) wind upset seat (69) upset, the confession has been seted up on spacing seat (7) second guide way (71) that slide rail (52) slided.

9. The energy-saving heat-insulating wallboard for buildings according to claim 8 is characterized in that: spacing unit (8) including articulate upset pole (81) on spacing seat (7), it has removal seat (82) to articulate on upset pole (81), just removal seat (82) slide and set up on mounting bracket (16).

10. The energy-saving heat-insulating wallboard for buildings according to claim 9 is characterized in that: a limiting column (84) is arranged at the end part of the clamping block (73), a screw rod (85) is arranged at the end part of the limiting column (84), the screw rod (85) is in threaded connection with the clamping block (73), and a cross rod (83) used for blocking the limiting column (84) is arranged on the turnover rod (81); when spacing seat (7) and slide rail (52) align, horizontal pole (83) remove to spacing post (84) blocks the effect, when spacing seat (7) and mounting bracket (16) are kept away from each other, horizontal pole (83) butt gradually on spacing post (84).

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