CN116335386A - Assembled anti-toppling aluminum alloy template - Google Patents

Abstract

The invention provides an assembled anti-toppling aluminum alloy template, which comprises an aluminum template, wherein a corner plate is hinged to the left side surface of the aluminum template, a slot plate is detachably connected to the right side surface of the aluminum template, an assembly slot penetrating through the right side surface of the slot plate is formed in the top of the slot plate, the width of the assembly slot is gradually reduced from the left side to the right side, an assembly plugboard which is matched with the assembly slot and gradually reduced from the left side to the right side is fixedly connected to the left side surface of the corner plate, a sealing air bag groove is formed in the bottom surface of the aluminum template, a sealing air bag is fixedly arranged in the sealing air bag groove, an air bag jogging groove which corresponds to the sealing air bag in position up and down is formed in the top of the aluminum template, a supporting sliding rod is arranged on the front side surface of the aluminum template in an up-down sliding mode, and a supporting plate is rotatably connected between the left end and the right end of the bottom surface of the supporting sliding rod. According to the invention, the assembly plugboard can be inserted from the top of the assembly slot, so that the two aluminum templates can be connected quickly, gaps can not exist at the connecting positions of the aluminum templates, and the condition of slurry leakage is avoided.

Description

Assembled anti-toppling aluminum alloy template

Technical Field

The invention relates to the technical field of aluminum alloy templates, in particular to an assembled anti-toppling aluminum alloy template.

Background

The templates commonly used for concrete pouring in the construction industry comprise a steel template, a wood template, a plastic template and the like, wherein the steel template has large weight and is easy to rust, and is easy to be stuck with concrete in the concrete pouring process, so that the demoulding is difficult; the wooden template is light, but has low strength, is waterproof, is easy to mildew and rot, has low repeated use rate, needs to consume wood resources and is not beneficial to environmental protection; the plastic template has poor rigidity, easy deformation and high cost.

The appearance of building aluminum mould board has solved above-mentioned problem, and building aluminum mould board refers to the aluminum alloy mould board that is used for the building field, is the new generation template that appears after follow wood form and steel mould board, by special equipment extrusion, can freely make up according to different structure sizes, uses very extensively, and current aluminum mould board is stable for overall structure, can be equipped with the back stupefied on the aluminum mould board, and the setting of back stupefied can effectively prevent that the phenomenon of explosion mould from appearing in the in-process aluminum mould board of pouring concrete.

However, in the building aluminum templates which are usually used, in the actual use process, the aluminum templates are inconvenient to splice and install quickly, the spliced parts among the aluminum templates are not tightly connected, gaps with different sizes exist, so that the situation of slurry leakage is caused, in addition, the aluminum templates are usually fixed by adopting inclined ejector rods, one ends of the inclined ejector rods are abutted against the aluminum templates, and the other ends of the inclined ejector rods are abutted against the bottom surfaces, but the method is inconvenient to assemble and disassemble, needs cooperation of multiple people, and the inclined ejector rods are easy to incline and topple, so that the stability is not high.

In addition, there is also a reinforcing structure of aluminum templates: the long-rod bolt can penetrate through the inner cavities of the two aluminum template molds, the two aluminum templates are prevented from being exploded by utilizing the tensile force between the bolt and the nut, the long-rod bolt is easy to smash and warp to damage the long-rod bolt when crossing the cavity between the two aluminum templates, and the long-rod bolt is very inconvenient to vibrate due to the long-rod bolt when the concrete is poured, and the long-rod bolt can be taken out when the mold is disassembled conveniently, a PVC pipe is sleeved on the outer surface of the long-rod bolt, the long-rod bolt is pulled out from the PVC pipe after the mold is disassembled, and the PVC pipe solidified with the concrete is left in the building, so that the integrity of the building is influenced, and PVC pipe materials are wasted.

Accordingly, the present invention provides an assembled anti-toppling aluminum alloy form to solve the above-mentioned problems.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides an assembled anti-toppling aluminum alloy template to solve the problems in the prior art.

The utility model provides an assembled anti-toppling aluminum alloy template, includes the aluminum template, the left surface of aluminum template articulates there is the commentaries on classics angle board, the right flank of aluminum template can be dismantled and be connected with the slot board, the top of slot board is opened there is the assembly slot that runs through its right flank, the width of assembly slot diminishes from left side to right side gradually, fixedly connected with on the left surface of corner board with assembly slot assorted and the width diminishes from left side to right side gradually the assembly picture peg, it has sealed gasbag groove to open on the bottom surface of aluminum template, sealed gasbag inslot fixed mounting has sealed gasbag, open at the top of aluminum template has the gasbag gomphosis groove that corresponds about with sealed gasbag position, sliding mounting has the support slide bar from top to bottom the front side of aluminum template, rotate between the left and right sides of support slide bar bottom surface and be connected with the backup pad, the middle part fixed mounting of the front side of support slide bar has the supporting shoe.

Preferably, a plurality of slot board bolts are fixedly installed on the right side face of the aluminum template, a plurality of slot board bolt holes penetrate through the space between the left side face of the slot board and the assembly slot, slot board nut holes coaxial with the plurality of insert board bolt holes are formed in the left side face of the assembly slot, and each slot board nut Kong Najun is provided with a slot board nut fixedly connected with the slot board bolt threads.

Preferably, an assembling sleeve groove is formed in the left side face of the assembling plugboard, a plurality of sleeve sliding grooves are formed in the front side face and the rear side face of the assembling sleeve groove, sleeve sliding blocks are arranged in the sleeve sliding grooves in a sliding mode and correspond to each other in every two heights, assembling sleeves corresponding to the heights of the nut holes of the slot plates are fixedly arranged between every two corresponding sleeve sliding blocks, and a sleeve spring is fixedly arranged between the left side face of each sleeve sliding block and the left side face of each sleeve sliding groove.

Preferably, a compression bar chute is penetrated between the top surface of the assembly sleeve groove and the top surface of the assembly plugboard, a sleeve compression bar positioned on the right side of a plurality of assembly sleeves is arranged in the compression bar chute in a vertically sliding manner, the right end of the assembly sleeve is a spherical end, a plurality of sleeve wedge-shaped pressing blocks which are respectively positioned above each assembly sleeve and are attached to the spherical end are fixedly arranged on one side surface of the sleeve compression bar towards the assembly sleeve, a compression bar spring groove is formed in the bottom surface of the assembly sleeve groove, a compression bar plate positioned in the compression bar spring groove is fixedly connected with the bottom of the sleeve compression bar, a compression bar spring is fixedly arranged between the bottom surface of the compression bar plate and the bottom surface of the compression bar spring groove, a compression bar yielding groove is formed in the top surface of the assembly plugboard, and a compression bar is fixedly connected with a compression bar is arranged on the top end of the sleeve compression bar.

Preferably, the bottom surface of aluminum mould board is opened there is a plurality of assembly bottom holes of controlling the equidistance and arranging, every all upper and lower slidable mounting has the assembly clamp plate in the assembly bottom hole, every equal fixed mounting has the clamp plate gasbag between the top surface of assembly clamp plate and the top surface of assembly bottom hole, every equal fixed mounting in top of assembly clamp plate has the clamp plate spring that is located the clamp plate gasbag, every run through between the top of assembly bottom hole trailing flank all and the top of sealed gasbag groove has the trachea passageway, every equal fixedly connected with is followed the sealed trachea that the trachea passageway passed between clamp plate gasbag and the sealed gasbag.

Preferably, the top of aluminum mould board is opened there is a plurality of and assembles the upper and lower position one-to-one of bottom hole assembly ejector pin groove, every all slidable mounting has the assembly ejector pin about in the assembly ejector pin groove, when the bottom of assembly ejector pin and the bottom in assembly ejector pin groove overlap, its top upwards stretches out to the top surface top of aluminum mould board, every all run through between the leading flank in assembly ejector pin groove and the leading flank of aluminum mould board has the ejector pin spout, every the equal fixed mounting in bottom of assembly ejector pin leading flank has the ejector pin slider that is located the ejector pin spout, a plurality of be connected with the slider connecting rod jointly between the ejector pin slider, rotate on the leading flank of aluminum mould board and install the ejector pin bolt that is located slider connecting rod one end, the slider connecting rod is close to the one end fixedly connected with and ejector pin bolt threaded connection's ejector pin screw block.

Preferably, a slot board airbag groove is formed in the bottom surface of the slot board, a slot board airbag is installed in the slot board airbag groove, and the left end of the slot board airbag is connected with an air pipe penetrating through the left side surface of the slot board and the right side surface of the aluminum template and fixedly connected with the right end of the sealing airbag.

Preferably, the bottom of the corner plate is provided with a corner airbag groove, a corner airbag is arranged in the corner airbag groove, and the top of the corner plate is provided with a corner airbag jogging groove corresponding to the upper and lower positions of the corner airbag;

the bottom of the corner plate is provided with a corner plate bottom hole positioned at the front side of the corner air bag, a corner air bag pressing plate is arranged in the corner bottom hole, a corner pressing plate air bag is arranged at the top of the corner air bag pressing plate, a corner pressing plate air bag spring positioned in the corner pressing plate air bag is fixedly arranged at the top of the corner air bag pressing plate, a corner air pipe channel penetrates through the top of the corner bottom hole and the top of the corner air bag groove, and a corner air pipe penetrating through the corner air pipe channel is connected between the corner pressing plate air bag and the corner air bag;

the top of commentaries on classics angle board is opened there is the corner ejector pin groove, slidable mounting has the corner ejector pin about in the corner ejector pin groove, the corner ejector pin groove runs through with the leading flank of commentaries on classics angle board has the corner ejector pin spout, the bottom fixedly connected with of corner ejector pin is located the corner ejector pin slider in the corner ejector pin spout, rotate on the leading flank of commentaries on classics angle board and install the corner ejector pin bolt, the corner ejector pin slider is connected with the corner ejector pin screw block with corner ejector pin bolt threaded connection.

Preferably, two bilateral symmetry support vertical sliding rails are fixedly installed on the front side surface of the aluminum template, two ends of the support sliding rail are respectively installed in the two support vertical sliding rails in a sliding mode, two bilateral symmetry sliding bar bolts penetrate through and are installed in a threaded mode between the front side surface and the rear side surface of the support sliding bar, two sliding bar screw holes corresponding to the positions of the sliding bar bolts are formed in the front side surface of the aluminum template, two support plate bolts penetrate through and are installed in the bottoms of the front side surface and the rear side surface of the support plate in a threaded mode, two support plate screw holes corresponding to the positions of the support plate bolts are formed in the front side surface of the aluminum template, and two vertical assembly screw holes located between the sliding bar screw holes and the support plate screw holes are formed in the front side surface of the aluminum template.

Preferably, the top of the back side of the supporting plate is provided with a plurality of ground thorn grooves, and the bottom surface of the supporting sliding rod is fixedly connected with a plurality of supporting ground thorns.

The beneficial effects of the invention are as follows:

1. the cross section of the assembly slot is formed into an isosceles trapezoid, other shapes such as a wedge shape and a triangle shape can be adopted, as long as the width of the opening on the right side of the assembly slot is smaller than the width on the left side of the assembly slot, the assembly plugboard which is matched with the assembly slot and gradually becomes smaller from the left side to the right side is fixedly connected to the left side surface of the corner board, the cross section shape of the assembly plugboard is identical to that of the assembly slot, the assembly plugboard and the assembly slot can be in sliding fit, when a plurality of aluminum templates are assembled in the left-right direction, the assembly plugboard can be inserted from the top of the assembly slot, the two aluminum templates can be quickly connected, gaps do not exist at the connecting positions of the aluminum templates, and the condition of slurry leakage is avoided.

2. When a plurality of aluminum templates are vertically spliced, the sealing air bags at the bottoms of the aluminum templates positioned above are overlapped with the air bag embedding grooves at the tops of the aluminum templates positioned below, and when the sealing air bags are inflated and swelled, the bottoms of the sealing air bags enter the air bag embedding grooves to seal, so that the situation of liquid leakage between the vertically spliced aluminum templates can be avoided.

3. When the aluminum template is positioned at the bottommost part of the integral die, the supporting plate is turned over to the front side by 90 degrees to be vertical to the front side surface of the aluminum template, then the supporting slide rod is moved to the bottom of the aluminum template and fixed, at the moment, the supporting plate can support the aluminum template, and the supporting block can provide supporting force for the supporting plate, so that the aluminum template and the supporting plate are always kept vertical, and the aluminum template is prevented from toppling;

when the aluminum templates are vertically spliced, the supporting plate on the upper aluminum template does not need to be turned over for 90 degrees to the front side, the supporting sliding rod can directly slide downwards to the bottom of the aluminum templates, at the moment, the supporting plate moves to the front side of the lower aluminum templates, the supporting plate is fixed with the front side surface of the lower aluminum templates, and the splicing and fixing between the upper aluminum template and the lower aluminum templates can be realized.

4. When two aluminum templates are assembled and spliced in the left-right direction, after the assembly inserting plate is inserted into the assembly inserting groove in a sliding mode, the assembly sleeves can slide leftwards into the nut holes of the inserting groove plates, the assembly sleeves are sleeved on the outer sides of the inserting groove plate bolts, self-locking is formed between the assembly inserting plate and the assembly inserting groove, vertical dislocation of the two aluminum templates is avoided, and firmness after splicing is guaranteed.

5. When two aluminum templates are vertically assembled, a corner ejector rod at the top of a corner plate positioned below is inserted into a corner plate bottom hole, the top end of the corner ejector rod is close to a corner air bag pressing plate and cannot drive the corner air bag pressing plate to move upwards, after the two aluminum templates are fixed, a corner ejector rod bolt can rotate to drive a corner ejector rod sliding block and a corner ejector rod to move upwards and extrude a corner air bag pressing plate and a corner air bag pressing plate, and gas in the corner air bag pressing plate enters the corner air bag through a corner air pipe to bulge, so that the corner air bag pressing plate is in sealing fit with a corner air bag embedding groove.

6. When the aluminum template is positioned at the bottommost layer of the whole die, the two slide bar bolts and the two support plate bolts are screwed out of the two slide bar screw holes and the two support plate screw holes respectively, at the moment, the support plate can be turned over to the front side by 90 degrees to be vertical to the front side surface of the aluminum template, then the support slide bar is slid to the bottommost part of the two support vertical slide rails, so that the support plate is attached to the bottom surface, at the moment, the two slide bar bolts can be overlapped with the two support plate screw holes, then the two slide bar bolts are screwed into the two support plate bolts to fix the support slide bar, and the support plate can support the aluminum template to prevent the support plate from toppling;

7. when a plurality of aluminum templates are vertically assembled, the two slide bar bolts and the two support plate bolts on the aluminum templates positioned above are screwed out from the two slide bar screw holes and the two support plate screw holes respectively, at the moment, the support plate is not required to be turned forwards by 90 degrees, but the support slide bar is directly slid downwards to the bottommost parts of the two support vertical slide rails, the two slide bar bolts are screwed into the two support plate screw holes to fix the support slide bar, the two support plate bolts at the bottom end of the support plate at the moment are overlapped with the two vertical assembly screw holes on the front side surface of the aluminum template positioned below, and the two support plate bolts are screwed into the two vertical assembly screw holes, so that the fixed connection between the two vertically assembled aluminum templates can be realized.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the second embodiment of the present invention.

FIG. 3 is a schematic cross-sectional view of the invention at A-A in FIG. 1.

FIG. 4 is a schematic cross-sectional view of the corner plate and the slot plate of the present invention.

Fig. 5 is an enlarged view of the present invention at B in fig. 3.

Fig. 6 is an enlarged view of the present invention at C in fig. 3.

Fig. 7 is an enlarged view of the invention at D in fig. 4.

Fig. 8 is an enlarged view of the invention at E in fig. 4.

FIG. 9 is a schematic cross-sectional view of the invention at F-F in FIG. 1.

FIG. 10 is a schematic cross-sectional view of the invention at G-G of FIG. 9.

Fig. 11 is a schematic perspective view of the assembled aluminum templates of the present invention.

Fig. 12 is a schematic plan view of the assembled aluminum templates of the present invention.

FIG. 13 is a schematic cross-sectional view of the invention at H-H of FIG. 12.

Fig. 14 is an enlarged view of the invention at J in fig. 13.

Fig. 15 is an enlarged view of the invention at K in fig. 13.

In the figure: 1. an aluminum template; 2. a corner plate; 3. a slot plate; 4. assembling the slot; 5. assembling a plugboard; 6. sealing the air bag groove; 7. sealing the air bag; 8. an air bag jogging groove; 9. supporting a slide bar; 10. a support plate; 11. a support block; 12. a socket board bolt; 13. insert plate bolt holes; 14. a slotted plate nut hole; 01. a socket board nut; 15. assembling a sleeve groove; 16. a sleeve chute; 17. a sleeve slider; 18. assembling a sleeve; 19. a sleeve spring; 20. a compression bar chute; 21. a sleeve compression bar; 22. a spherical end; 23. a sleeve wedge-shaped pressing block; 24. a compression bar spring groove; 25. a compression bar plate; 26. a compression bar spring; 27. a compression bar abdicating groove; 28. a pressure receiving plate; 29. assembling a bottom hole; 30. assembling a pressing plate; 31. a platen air bag; 32. a platen spring; 33. a tracheal passage; 34. sealing the air tube; 35. assembling a jacking rod groove; 36. assembling a mandril; 37. a push rod chute; 38. a push rod sliding block; 39. a slider connecting rod; 40. a push rod bolt; 41. a push rod screw block; 42. air bag grooves of the inserting groove plate; 43. a socket board air bag; 44. a corner airbag groove; 45. a corner airbag; 46. a corner air bag jogging groove; 47. a bottom hole of the corner plate; 48. a corner air sac pressing plate; 49. a corner pressing plate air bag; 50. an air bag spring of the corner pressing plate; 51. a corner tracheal passage; 52. a corner air pipe; 53. a corner roof bar groove; 54. a corner ejector rod; 55. a corner ejector rod chute; 56. a corner ejector rod sliding block; 57. a corner ejector rod bolt; 58. a corner ejector rod screw block; 59. supporting a vertical sliding rail; 60. a slide bar bolt; 61. a slide bar screw hole; 62. a support plate bolt; 63. a support plate screw hole; 64. vertical assembly screw holes; 65. a ground piercing slot; 66. and (5) supporting ground thorns.

Detailed Description

The foregoing and other features, aspects and advantages of the present invention will become more apparent from the following detailed description of the embodiments with reference to the accompanying drawings, 1-15. The following embodiments are described in detail with reference to the drawings.

Exemplary embodiments of the present invention will be described below with reference to the accompanying drawings.

The first embodiment of the invention is an assembled anti-toppling aluminum alloy template, which comprises an aluminum template 1, wherein the left side surface of the aluminum template 1 is hinged with a corner plate 2, the aluminum template 1 and the corner plate 2 can be connected through a hinge in a rotating way, the hinge point is positioned at the rear ends of the end surfaces of the aluminum template 1 and the corner plate, the corner plate 2 can move to the rear side from the left side of the aluminum template 1 so as to change the angle of the corner plate, the aluminum template can be applied to concrete pouring with different angles, the right side surface of the aluminum template 1 is detachably connected with a slot plate 3, the slot plate 3 can be rapidly detached and installed with the aluminum template 1, the top of the slot plate 3 is provided with an assembly slot 4 penetrating through the right side surface of the slot plate, the width of the assembly slot 4 is gradually reduced from the left side to the right side, as shown in fig. 1, the cross section of the assembly slot 4 is formed into an isosceles trapezoid, or other shapes such as a wedge shape, a triangle shape and the like can be adopted, as long as the width of the opening on the right side of the assembly slot 4 is smaller than the width on the left side of the assembly slot 4, an assembly plugboard 5 which is matched with the assembly slot 4 and gradually reduces in width from the left side to the right side is fixedly connected to the left side surface of the corner board 2, the cross section shape of the assembly plugboard 5 is the same as that of the assembly slot 4, and the assembly plugboard 5 can be slidably embedded with the assembly slot 4, when a plurality of aluminum templates 1 are assembled in the left-right direction, the assembly plugboard 5 can be inserted from the top of the assembly slot 4, so that the two aluminum templates 1 can be quickly connected, and gaps do not exist at the splicing position of the aluminum templates 1, so that slurry leakage is avoided;

the bottom surface of the aluminum mould plate 1 is provided with a sealing air bag groove 6, a sealing air bag 7 is fixedly arranged in the sealing air bag groove 6, the top of the aluminum mould plate 1 is provided with an air bag embedding groove 8 which corresponds to the sealing air bag 7 in a vertical mode, when a plurality of aluminum mould plates 1 are vertically spliced, the sealing air bag 7 at the bottom of the upper aluminum mould plate 1 is overlapped with the air bag embedding groove 8 at the top of the lower aluminum mould plate 1, and when the sealing air bag 7 is inflated and swelled, the bottom of the sealing air bag is sealed in the air bag embedding groove 8, so that the situation of liquid leakage between the vertically spliced aluminum mould plates 1 can not occur;

the front side of the aluminum template 1 is provided with a support slide bar 9 in a sliding manner up and down, a support plate 10 is rotatably connected between the left end and the right end of the bottom surface of the support slide bar 9, the middle of the front side of the support slide bar 9 is fixedly provided with a support block 11, as shown in the attached figure 1, when the aluminum template 1 is not in use, the support slide bar 9 is positioned at a position where the front side of the aluminum template 1 is close to the top, the support plate 10 is vertical to the bottom surface of the support slide bar 9 and is close to the front side of the aluminum template 1, when the aluminum template 1 is positioned at the bottommost of the integral die, the support plate 10 is firstly turned to the front side for 90 degrees to be vertical to the front side of the aluminum template 1, then the support slide bar 9 is moved to the bottom of the aluminum template 1 and is fixed, at the moment, the support plate 10 can support the aluminum template 1, and the support block 11 can provide a support force for the support plate 10, so that the aluminum template 1 is always kept vertical to the support plate 10, and the aluminum template 1 is not toppled;

when the aluminum templates 1 are vertically spliced, the supporting plate 10 on the aluminum template 1 positioned above does not need to turn over 90 degrees to the front side, the supporting sliding rod 9 can be directly slid downwards to the bottom of the aluminum template 1, at the moment, the supporting plate 10 is moved to the front side of the aluminum template 1 below, and the supporting plate 10 is fixed with the front side surface of the aluminum template 1 below, so that the splicing and fixing between the upper aluminum template and the lower aluminum template can be realized.

In the second embodiment, on the basis of the first embodiment, a plurality of socket board bolts 12 arranged up and down are fixedly installed on the right side surface of the aluminum template 1, a plurality of socket board bolt holes 13 are penetrated between the left side surface of the socket board 3 and the assembly socket 4, a socket board nut hole 14 coaxial with the plurality of socket board bolt holes 13 is opened on the left side surface of the assembly socket 4, and a socket board nut 01 fixedly connected with the socket board bolts 12 by threads is installed in each socket board nut hole 14;

when the socket board 3 is installed, the socket board bolt holes 13 and the socket board bolts 12 can be matched one by one, and the socket board nuts 01 are screwed on the socket board bolts 12 from the socket board nut holes 14 by using a socket wrench, so that the socket board 3 and the aluminum template 1 can be quickly fixed and detached.

In the third embodiment, on the basis of the second embodiment, an assembling sleeve groove 15 is formed on the left side surface of the assembling plugboard 5, a plurality of sleeve sliding grooves 16 are formed on the front side surface and the rear side surface of the assembling sleeve groove 15, sleeve sliding blocks 17 are arranged in the sleeve sliding grooves 16 corresponding to each two heights in a sliding manner, assembling sleeves 18 corresponding to the heights of the plurality of slot board nut holes 14 are fixedly arranged between each two corresponding sleeve sliding blocks 17, and sleeve springs 19 are fixedly arranged between the left side surface of each sleeve sliding block 17 and the left side surface of the sleeve sliding groove 16;

the assembly sleeve 18 can slide left and right in the assembly sleeve groove 15 through the two sleeve sliding blocks 17, when the assembly sleeve 18 slides leftwards, the two sleeve sliding blocks 17 compress the two sleeve springs 19 and store force, when the two aluminum templates 1 are assembled and spliced leftwards and rightwards, the assembly inserting plate 5 is inserted into the assembly inserting groove 4 in a sliding mode, the plurality of assembly sleeves 16 can slide leftwards into the plurality of inserting groove plate nut holes 14, the plurality of assembly sleeves 16 are sleeved outside the plurality of inserting groove plate bolts 12, self-locking is formed between the assembly inserting plate 5 and the assembly inserting groove 4, vertical dislocation of the two aluminum templates 1 is avoided, and firmness after splicing is guaranteed.

In the fourth embodiment, on the basis of the third embodiment, a compression bar chute 20 is penetrated between the top surface of the assembly sleeve groove 15 and the top surface of the assembly inserting plate 5, a sleeve compression bar 21 positioned on the right side of the plurality of assembly sleeves 18 is installed in the compression bar chute 20 in a sliding manner up and down, the right end of the assembly sleeve 18 is a spherical end 22, a plurality of sleeve wedge-shaped pressing blocks 23 which are respectively positioned above each assembly sleeve 18 and are attached to the spherical end 22 are fixedly installed on one side surface of the sleeve compression bar 21 facing the assembly sleeve 18, a compression bar spring groove 24 is formed on the bottom surface of the assembly sleeve groove 15, a compression bar plate 25 positioned in the compression bar spring groove 24 is fixedly connected to the bottom of the sleeve compression bar 21, a compression bar spring 26 is fixedly installed between the bottom surface of the compression bar plate 25 and the bottom surface of the compression bar spring groove 24, a compression bar abdicating groove 27 is formed on the top surface of the assembly inserting plate 5, and a compression bar 28 is fixedly connected to the top end of the sleeve compression bar 21;

when two aluminum templates 1 are spliced in the left-right direction, when one aluminum template 1 is spliced above one aluminum template 1, the pressure receiving plate 28 is pressed downwards, the pressure receiving plate 28 drives the sleeve pressing rod 21 to slide downwards in the pressing rod sliding groove 20, so that the plurality of sleeve wedge-shaped pressing blocks 23 are driven to move downwards, the inclined surfaces of the sleeve wedge-shaped pressing blocks are driven to move leftwards to press the spherical ends 22 of the plurality of assembly sleeves 18, the plurality of assembly sleeves 18 are driven to move leftwards into the plurality of slot plate nut holes 14, self-locking between the assembly inserting plate 5 and the assembly inserting slots 4 is achieved, and when the aluminum template 1 above is disassembled, self-locking between the assembly inserting plate 5 and the assembly inserting slots 4 connected between the plurality of aluminum templates 1 below is released, so that the plurality of aluminum templates 1 can be disassembled.

In the fifth embodiment, on the basis of the first embodiment, a plurality of assembly bottom holes 29 are formed in the bottom surface of the aluminum die plate 1, the assembly bottom holes 29 are arranged in a left-right equidistant manner, an assembly pressing plate 30 is installed in each assembly bottom hole 29 in a vertically sliding manner, a pressing plate air bag 31 is fixedly installed between the top surface of each assembly pressing plate 30 and the top surface of the assembly bottom hole 29, a pressing plate spring 32 positioned in the pressing plate air bag 31 is fixedly installed at the top of each assembly pressing plate 30, an air pipe channel 33 penetrates through the space between the top of the rear side surface of each assembly bottom hole 29 and the top of the sealing air bag groove 6, and a sealing air pipe 34 penetrating through the air pipe channel 33 is fixedly connected between each pressing plate air bag 31 and the sealing air bag 7;

as shown in fig. 5, when the fitting presser plate 30 moves upward in the fitting bottom hole 29, the presser plate airbag 31 and the presser plate spring 32 are compressed, so that the gas in the presser plate airbag 31 is discharged from the seal gas pipe 34 into the seal airbag 7, and the seal airbag 7 is inflated to bulge, so that the seal airbag 7 enters the airbag fitting groove 8 to seal.

In a sixth embodiment, on the basis of the fifth embodiment, a plurality of assembling ejector rod grooves 35 are formed in the top of the aluminum template 1 and correspond to the assembling bottom holes 29 in a one-to-one mode, assembling ejector rods 36 are installed in each assembling ejector rod groove 35 in a one-to-one mode in a sliding mode, when the bottom of each assembling ejector rod 36 is overlapped with the bottom of each assembling ejector rod groove 35, the top end of each assembling ejector rod groove extends upwards to be above the top surface of the aluminum template 1, ejector rod sliding grooves 37 are formed between the front side surface of each assembling ejector rod groove 35 and the front side surface of the aluminum template 1 in a penetrating mode, ejector rod sliding blocks 38 located in the ejector rod sliding grooves 37 are fixedly installed at the bottom end of the front side surface of each assembling ejector rod 36, the ejector rod sliding blocks 38 can drive the assembling ejector rods 36 to slide up and down in the assembling ejector rod grooves 35 when sliding up and down in the ejector rod sliding grooves 37, a plurality of the ejector rod sliding rods 39 are connected with a sliding rod connecting rod 39 in a one-to-one mode, ejector rod bolts 40 located at one end of the front side of the aluminum template 1 are rotatably installed on the front side surface of each assembling ejector rod sliding rod, and one end of the ejector rod sliding rods 39 is fixedly connected with a screw bolt 40, and one end of the upper bolt 41 is driven to move and the upper bolt 41 is driven to move;

as shown in fig. 6 and 14, when the aluminum templates 1 are assembled vertically, the plurality of assembly ejector pins 36 at the top of the aluminum template 1 located below can be inserted into the plurality of assembly bottom holes 29 at the bottom of the aluminum template 1 located above, at this time, the top ends of the plurality of assembly ejector pins 36 are close to the assembly pressing plate 30, but the assembly pressing plate 30 cannot be lifted up, after the two aluminum templates 1 are fixedly connected, the rotatable ejector pin bolts 40 drive the plurality of ejector pin sliding blocks 38 to move up, so that the plurality of assembly top plates 36 move up simultaneously, so that the gas in the plurality of pressing plate air bags 31 inflates for the sealing air bags 7, and the sealing air bags 7 and the air bag embedding grooves 8 are sealed.

In the seventh embodiment, on the basis of the fifth embodiment, a slot board airbag groove 42 is formed in the bottom surface of the slot board 3, a slot board airbag 43 is installed in the slot board airbag groove 42, the left end of the slot board airbag 43 is connected with an air pipe penetrating through the left side surface of the slot board 3 and the right side surface of the aluminum template 1 and fixedly connected with the right end of the sealing airbag 7, and when the air in the plurality of pressing board airbags 31 enters the sealing airbag 7, the air in the sealing airbag 7 can enter the slot board airbag 43 through the air pipe, so that the reading board airbag 43 bulges and is in sealing contact with the top surface of the slot board 3 below the reading board airbag.

In the eighth embodiment, on the basis of the fifth embodiment, a corner airbag groove 44 is formed at the bottom of the corner plate 2, a corner airbag 45 is installed in the corner airbag groove 44, a corner airbag embedded groove 46 corresponding to the upper and lower positions of the corner airbag 45 is formed at the top of the corner plate 2, and when two aluminum templates 1 are vertically assembled, the corner airbag 45 at the bottom of the aluminum template 1 positioned above is inflated to bulge and enters the corner airbag embedded groove 46 at the top of the aluminum template 1 positioned below, so that the corner plates 2 of the two aluminum templates 1 are sealed;

the bottom of the corner plate 2 is provided with a corner plate bottom hole 47 positioned at the front side of the corner air bag 45, a corner air bag pressing plate 48 is arranged in the corner bottom hole 47, a corner pressing plate air bag 49 is arranged at the top of the corner air bag pressing plate 48, a corner pressing plate air bag spring 50 positioned in the corner pressing plate air bag 49 is fixedly arranged at the top of the corner air bag pressing plate 48, a corner air pipe channel 51 penetrates through the space between the top of the corner bottom hole 47 and the top of the corner air bag groove 44, and a corner air pipe 52 penetrating through the corner air pipe channel 51 is connected between the corner pressing plate air bag 49 and the corner air bag 45;

when the corner air bag pressing plate 48 moves upwards in the corner plate bottom hole 47, the corner air bag 49 and the corner air bag spring 50 can be compressed, and gas in the corner air bag 49 can enter the corner air bag 45 through the corner air pipe 52 to enable the corner air bag 45 to be inflated and bulged, so that the corner air bag is in sealing fit with the corner air bag fit groove 46;

the top of the corner plate 2 is provided with a corner ejector rod groove 53, a corner ejector rod 54 is arranged in the corner ejector rod groove 53 in a vertically sliding manner, a corner ejector rod sliding groove 55 penetrates through the corner ejector rod groove 53 and the front side surface of the corner plate 2, a corner ejector rod sliding block 56 positioned in the corner ejector rod sliding groove 55 is fixedly connected to the bottom of the corner ejector rod 54, the corner ejector rod sliding block 56 can drive the corner ejector rod 54 to slide up and down in the corner ejector rod groove 53 by sliding up and down in the corner ejector rod sliding groove 55, a corner ejector rod bolt 57 is rotatably arranged on the front side surface of the corner plate 2, the corner ejector rod sliding block 56 is connected with a corner ejector rod threaded block 58 in threaded connection with the corner ejector rod bolt 57, and the corner ejector rod threaded block 58 can be driven to move up and down by rotating the corner ejector rod threaded block 57, so that the corner ejector rod sliding block 56 and the corner ejector rod 54 are driven to move up and down;

when two aluminum templates 1 are vertically assembled, a corner ejector rod 56 positioned at the top of the corner plate 1 below is inserted into a corner plate bottom hole 47, the top end of the corner ejector rod is close to a corner air bag pressing plate 48 and cannot drive the corner air bag pressing plate 48 to move upwards, after the two aluminum templates 1 are fixed, a rotatable corner ejector rod bolt 57 drives a corner ejector rod sliding block 56 and a corner ejector rod 54 to move upwards and extrude a corner air bag pressing plate 48 and a corner air bag 49, and gas in the corner air bag 49 enters the corner air bag 45 through a corner air pipe 52 to bulge, and is sealed and embedded with a corner air bag embedding groove 46.

According to the ninth embodiment, on the basis of the first embodiment, two laterally symmetrical support vertical sliding rails 59 are fixedly mounted on the front side surface of the aluminum template 1, two ends of the support sliding rails 9 are respectively and slidably mounted in the two support vertical sliding rails 59, the support sliding rails 9 can vertically slide along the two support vertical sliding rails 59, two laterally symmetrical sliding bar bolts 60 are installed between the front side surface and the rear side surface of the support sliding rails 9 in a penetrating and threaded manner, two sliding bar screw holes 61 corresponding to the positions of the sliding bar bolts 60 are formed in the front side surface of the aluminum template 1, when the support sliding rails 9 are positioned at the tops of the two support vertical sliding rails 59, the two sliding bar bolts 60 can be screwed into the two sliding bar screw holes 61, so that the support sliding rails 9 are fixed, two support plate bolts 62 are installed at the bottoms of the front side surface and the rear side surface of the support plate 10 in a penetrating and threaded manner, the two support plate bolt 62 are screwed into the two support plate screw holes 63 corresponding to the positions of the support plate bolt 62, the support plate 10 can be fixed, and when the front side surface of the aluminum template 1 is positioned between the two support bolt holes 63 and the two support plate bolt holes 64 are vertically assembled;

when the aluminum template 1 is positioned at the bottommost layer of the whole die, the two slide bar bolts 60 and the two support plate bolts 62 are respectively screwed out of the two slide bar screw holes 61 and the two support plate screw holes 63, at the moment, the support plate 10 can be turned over for 90 degrees to the front side to be vertical to the front side surface of the aluminum template 1, then the support slide bar 9 is slid to the bottommost parts of the two support vertical slide rails 59, so that the support plate 10 is attached to the bottom surface, at the moment, the two slide bar bolts 60 can be overlapped with the two support plate screw holes 63, then the two slide bar bolts 60 are screwed into the two support plate screw holes 63, the support slide bar 9 can be fixed, the support plate 10 can support the aluminum template 1, and the support plate is prevented from tilting;

when a plurality of aluminum templates 1 are vertically assembled, the two slide bar bolts 60 and the two support plate bolts 62 on the aluminum template 1 positioned above are screwed out from the two slide bar screw holes 61 and the two support plate screw holes 63 respectively, at this time, the support plate 10 is not required to be turned forward by 90 degrees, the support slide bar 9 is directly slid downwards to the bottommost parts of the two support vertical slide rails 59, the two slide bar bolts 60 are screwed into the two support plate screw holes 63 to fix the support slide bar 9, the two support plate bolts 62 at the bottom end of the support plate 10 at this time are overlapped with the two vertical assembly screw holes 64 positioned on the front side of the aluminum template 1 positioned below, and the two support plate bolts 62 are screwed into the two vertical assembly screw holes 64, so that the fixed connection between the two vertically assembled aluminum templates 1 can be realized.

In the tenth embodiment, on the basis of the ninth embodiment, the top of the rear side of the support plate 10 is provided with a plurality of ground thorn grooves 65, the bottom surface of the support slide bar 9 is fixedly connected with a plurality of support ground thorns 66, when the support plate 10 is vertical, the plurality of support ground thorns 66 are all positioned in the plurality of ground thorn grooves 65, when the support plate 10 turns 90 ° forward, the plurality of support ground thorns 66 are exposed, when the support slide bar 9 drives the support plate 10 to move downward to the bottoms of the two support vertical slide rails 59, the plurality of support ground thorns 66 can penetrate into the bottom surface, when the bottom surface is harder, the support block 11 can be stepped on by foot to apply force, so that the plurality of support ground thorns 66 smoothly enter the bottom surface to be supported more firmly.

Claims (10)

1. The utility model provides an assembled anti-toppling aluminum alloy template, includes aluminum template (1), its characterized in that, the left surface of aluminum template (1) articulates there is corner board (2), the right flank of aluminum template (1) can be dismantled and be connected with slot board (3), the top of slot board (3) is opened there is assembly slot (4) that runs through its right flank, the width of assembly slot (4) diminishes from left side to right side gradually, fixedly connected with on the left surface of corner board (2) with assembly slot (4) assorted and width from left side to right side diminishing assembly picture peg (5), open on the bottom surface of aluminum template (1) has sealed gasbag groove (6), sealed gasbag (7) of fixed mounting in sealed gasbag groove (6), open at the top of aluminum template (1) have gasbag gomphosis groove (8) that correspond about sealed gasbag (7) position, slidable mounting has support slide bar (9) from top to bottom, support slide bar (9) rotation between the left and right sides bottom surface and be connected with support slide bar (10), support slide bar (11) side fixed mounting.

2. The assembled anti-toppling aluminum alloy template according to claim 1, wherein a plurality of slot plate bolts (12) which are arranged up and down are fixedly installed on the right side face of the aluminum template (1), a plurality of slot plate bolt holes (13) are penetrated between the left side face of the slot plate (3) and the assembling slot (4), slot plate nut holes (14) which are coaxial with the plurality of insert plate bolt holes (13) are formed in the left side face of the assembling slot (4), and slot plate nuts (01) which are fixedly connected with the slot plate bolts (12) through threads are installed in each slot plate nut hole (14).

3. An assembled anti-toppling aluminum alloy template according to claim 2, wherein an assembling sleeve groove (15) is formed in the left side face of the assembling plugboard (5), a plurality of sleeve sliding grooves (16) are formed in the front side face and the rear side face of the assembling sleeve groove (15), sleeve sliding blocks (17) are slidably mounted in the sleeve sliding grooves (16) corresponding to each two heights, assembling sleeves (18) corresponding to the heights of the plurality of socket plate nut holes (14) are fixedly mounted between each two corresponding sleeve sliding blocks (17), and sleeve springs (19) are fixedly mounted between the left side face of each sleeve sliding block (17) and the left side face of the sleeve sliding groove (16).

4. An assembled anti-toppling aluminum alloy template according to claim 3, characterized in that a compression bar sliding groove (20) is penetrated between the top surface of the assembly sleeve groove (5) and the top surface of the assembly inserting plate (5), a sleeve compression bar (21) positioned on the right side of a plurality of assembly sleeves (18) is arranged in the compression bar sliding groove (20) in a sliding manner up and down, the right end of the assembly sleeve (18) is a spherical end (22), a plurality of sleeve wedge-shaped press blocks (23) which are respectively positioned above each assembly sleeve (18) and are attached to the spherical end (22) are fixedly arranged on one side surface of the assembly sleeve (18), a compression bar spring groove (24) is formed on the bottom surface of the assembly sleeve groove (15), a compression bar plate (25) positioned in the compression bar spring groove (24) is fixedly connected to the bottom of the sleeve compression bar (21), a compression bar spring (26) is fixedly arranged between the bottom surface of the compression bar plate (25) and the bottom surface of the compression bar spring groove (24), a compression bar (27) is formed on the top surface of the assembly inserting plate (5), and the compression bar (21) is fixedly connected with a compression bar (28).

5. An assembled anti-toppling aluminum alloy template according to claim 1, wherein a plurality of assembly bottom holes (29) which are arranged at equal intervals are formed in the bottom surface of the aluminum template (1), an assembly pressing plate (30) is arranged in each assembly bottom hole (29) in a sliding mode up and down, a pressing plate air bag (31) is fixedly arranged between the top surface of each assembly pressing plate (30) and the top surface of each assembly bottom hole (29), a pressing plate spring (32) positioned in the pressing plate air bag (31) is fixedly arranged at the top of each assembly pressing plate (30), an air pipe channel (33) penetrates through the top of each assembly bottom hole (29) and the top of each sealing air bag groove (6), and a sealing air pipe (34) penetrating through the air pipe channel (33) is fixedly connected between each pressing plate air bag (31) and each sealing air bag (7).

6. The assembled anti-toppling aluminum alloy template according to claim 5, wherein a plurality of assembling ejector rod grooves (35) corresponding to the assembling bottom holes (29) in a one-to-one mode are formed in the top of the aluminum template (1), assembling ejector rods (36) are slidably mounted in the assembling ejector rod grooves (35) in an up-and-down mode, when the bottom of the assembling ejector rods (36) is overlapped with the bottom of the assembling ejector rod grooves (35), the top ends of the assembling ejector rods extend upwards to the top surface of the aluminum template (1), ejector rod sliding grooves (37) are formed between the front side surface of the assembling ejector rod grooves (35) and the front side surface of the aluminum template (1), ejector rod sliding blocks (38) located in the ejector rod sliding grooves (37) are fixedly mounted at the bottom ends of the front side surfaces of the assembling ejector rods (36), a plurality of the ejector rod sliding blocks (38) are connected with sliding block connecting rods (39) in a joint mode, a bolt (40) located at one end of the sliding block (39) is rotatably mounted on the front side surface of the aluminum template (1), and one end of the sliding block (39) is close to a screw bolt (41) fixedly connected with the bolt connecting block (41).

7. The assembled anti-toppling aluminum alloy template according to claim 5, wherein a slot board air bag groove (42) is formed in the bottom surface of the slot board (3), a slot board air bag (43) is installed in the slot board air bag groove (42), and an air pipe penetrating through the left side surface of the slot board (3) and the right side surface of the aluminum template (1) and fixedly connected with the right end of the sealing air bag (7) is connected to the left end of the slot board air bag (43).

8. The assembled anti-toppling aluminum alloy template according to claim 5, wherein a corner airbag groove (44) is formed in the bottom of the corner plate (2), a corner airbag (45) is installed in the corner airbag groove (44), and a corner airbag jogged groove (46) corresponding to the upper and lower positions of the corner airbag (45) is formed in the top of the corner plate (2);

the bottom of the corner plate (2) is provided with a corner plate bottom hole (47) positioned at the front side of the corner air bag (45), a corner air bag pressing plate (48) is arranged in the corner bottom hole (47), a corner pressing plate air bag (49) is arranged at the top of the corner air bag pressing plate (48), a corner pressing plate air bag spring (50) positioned in the corner pressing plate air bag (49) is fixedly arranged at the top of the corner air bag pressing plate (48), a corner air pipe channel (51) is penetrated between the top of the corner bottom hole (47) and the top of the corner air bag groove (44), and a corner air pipe (52) penetrating through the corner air pipe channel (51) is connected between the corner pressing plate air bag (49) and the corner air bag (45);

the top of corner board (2) is opened there is corner ejector pin groove (53), slidable mounting has corner ejector pin (54) about in corner ejector pin groove (53), corner ejector pin groove (53) run through with the leading flank of corner board (2) has corner ejector pin spout (55), the bottom fixedly connected with of corner ejector pin (54) is located corner ejector pin slider (56) in corner ejector pin spout (55), rotate on the leading flank of corner board (2) and install corner ejector pin bolt (57), corner ejector pin slider (56) are connected with corner ejector pin screw block (58) with corner ejector pin bolt (57) threaded connection.

9. The assembled anti-toppling aluminum alloy template according to claim 1, wherein two bilateral symmetry support vertical sliding rails (59) are fixedly installed on the front side surface of the aluminum template (1), two ends of the support sliding bar (9) are respectively and slidably installed in the two support vertical sliding rails (59), two bilateral symmetry sliding bar bolts (60) penetrate through and are installed between the front side surface and the rear side surface of the support sliding bar (9) in a threaded mode, two sliding bar screw holes (61) corresponding to the positions of the sliding bar bolts (60) are formed in the front side surface of the aluminum template (1), two support plate bolts (62) penetrate through and are installed on the bottom of the front side surface and the rear side surface of the support plate (10) in a threaded mode, two support plate screw holes (63) corresponding to the positions of the support plate bolts (62) are formed in the front side surface of the aluminum template (1), and two vertical assembly screw holes (64) located between the sliding bar screw holes (61) and the support plate screw holes (63) are formed in the front side surface of the aluminum template (1).

10. The assembled anti-toppling aluminum alloy template according to claim 9, wherein a plurality of ground thorn grooves (65) are formed in the top of the rear side face of the supporting plate (10), and a plurality of supporting ground thorns (66) are fixedly connected to the bottom face of the supporting sliding rod (9).

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