CN212919833U - Assembly type building is mould subassembly for wallboard - Google Patents

Abstract

The application relates to a mold assembly for an assembled building wallboard, which comprises a mold table, wherein a mold frame is connected onto the mold table and is a rectangular frame, the mold frame comprises a main side plate and an auxiliary side plate, a main reinforcing steel bar groove is sunken on the main side plate, an auxiliary reinforcing steel bar groove is sunken on the auxiliary side plate, a sliding template parallel to the auxiliary side plate is connected into the mold frame, a plurality of sliding reinforcing steel bar grooves which are opposite to the auxiliary reinforcing steel bar grooves one by one are sunken on the end surface of the sliding template far away from the mold table, an inserting template vertical to the sliding template is also arranged in the mold frame, a plurality of inserting reinforcing steel bar grooves which are opposite to the main reinforcing steel bar grooves one by one are sunken on the end surface of the inserting template far away from the mold table, a plurality of inserting grooves positioned between the adjacent inserting reinforcing steel bar grooves are sunken on the end surface of the inserting template close to the mold table, the, the splicing template and the mould frame enclose a casting cavity, and the splicing template is connected with a sealing block. This application has the waste that reduces transport and mould material, reduces the manufacturing cost's of assembled wallboard effect.

Description

Assembly type building is mould subassembly for wallboard

Technical Field

The application relates to the field of assembly type buildings, in particular to a mold assembly for an assembly type building wallboard.

Background

At present, the prefabricated building structure in China is in the initial development stage, the aspects of design, construction, component production, concept and the like are changed from cast-in-place to prefabricated building, the prefabricated building refers to the mode that a large amount of field operation work in the traditional construction mode is transferred to a factory for carrying out, the components and accessories (such as floor slabs, wall plates, stairs, balconies and the like) for the building are processed and manufactured in a factory, are transported to a building construction site, the building assembled and installed on site in a reliable connection mode reduces the manual operation and labor intensity, ensures the component quality and construction quality through standardized design, factory production and assembly construction, therefore, the engineering quality and the construction efficiency are improved, the material and energy consumption are in a controllable state through the factory production of the components, the resource and energy consumption is reduced, the construction waste is reduced, and the environment is protected.

In a common factory for producing the wallboard in an assembly mode, a steel frame mold is made according to the size of the wallboard, then the mold is fixed on a mold table, a reinforcing steel bar groove for inserting a reinforcing steel bar is formed in the mold in a sunken mode, the reinforcing steel bar is inserted into the built mold, then the concrete is used for pouring, and the wallboard is obtained after the mold is static for a period of time and is demoulded.

In view of the above-mentioned related technologies, the inventor believes that the assembled mold has a low standardization level and a poor versatility, and because the technical standards of construction enterprises are different, the assembled construction standard level is not high, and wallboard molds of different types need to be customized, and a mold change is required for producing wallboards of different sizes in the production process, while the construction mold is generally made of steel material, because the steel frame structure is heavy, the mold to be switched needs to be transported from a warehouse to a mold table by means of equipment, and then reinstallation is started, so that there are disadvantages of waste in transportation and material waste, which increases the manufacturing cost of the assembled wallboard.

SUMMERY OF THE UTILITY MODEL

In order to reduce the waste of transport and material, reduce the manufacturing cost of assembly type building production assembled wallboard, this application provides a mould subassembly for assembled building wallboard.

The application provides a pair of mould subassembly for assembly type structure wallboard adopts following technical scheme:

a wallboard mould assembly comprises a mould platform, wherein a mould frame is connected onto the mould platform, the mould frame is a rectangular frame and comprises two main side plates which are parallel to each other, a plurality of main reinforcing steel bar grooves extending along the thickness direction of the main side plates are recessed on the end surfaces, far away from the mould platform, of the main side plates, the mould frame comprises two auxiliary side plates which are parallel to each other, a plurality of auxiliary reinforcing steel bar grooves extending along the thickness direction of the auxiliary side plates are recessed on the end surfaces, far away from the mould platform, of the auxiliary side plates, the main side plates are perpendicular to the auxiliary side plates, the main reinforcing steel bar grooves and the auxiliary reinforcing steel bar grooves respectively penetrate through the plate surfaces of the main side plates and the auxiliary side plates, a sliding mould plate which is parallel to the auxiliary side plates is slidably connected into the mould frame, the sliding mould plate is equal to the mould frame in height and is abutted against the mould platform, the two ends of the sliding mould plate are respectively abutted against the inner walls of the two main side plates or the two auxiliary side plates, a plurality of sliding, the steel bar groove sealing and splicing device is characterized in that a splicing template perpendicular to the sliding template is further arranged in the template frame, the splicing template is equal to the template frame in height and is abutted to the template table, a plurality of splicing steel bar grooves which are opposite to the main steel bar grooves one by one are formed in the end face, far away from the template table, of the splicing template, a plurality of splicing grooves located between adjacent splicing steel bar grooves are formed in the end face, close to the template table, of the splicing template, the splicing template is in sealed splicing with the sliding steel bar grooves through the splicing grooves, the sliding template, the splicing template and the template frame form a pouring cavity, sealing blocks are connected to the splicing grooves, which are not spliced with the sliding steel bar grooves, of the splicing template, and the face, close to the pouring cavity.

By adopting the technical scheme, the length of the sliding template in the mould parallel to the direction of the main side plate is adjusted by moving the sliding template connected in the mould frame, so that the main side plate does not need to be made into different moulds according to various required sizes, and the manufacturing cost of the assembled wallboard is reduced.

Through being equipped with grafting template in the framed and grafting template is close to the terminal surface of moulding stage and caves in and have a plurality of inserting grooves for after the sliding template moved the regulation size, pass through inserting groove card with the grafting template on sliding template, make vice curb plate need not formulate different moulds according to the size of various requirements, thereby reduce the manufacturing cost of assembled wallboard.

The sliding reinforcement grooves corresponding to the auxiliary reinforcement grooves are formed in the sliding template in a concave mode, the inserting reinforcement grooves opposite to the main reinforcement grooves are formed in the inserting template in a concave mode, after the sliding template and the inserting template move, the sliding reinforcement grooves are opposite to the auxiliary reinforcement grooves, the inserting reinforcement grooves are opposite to the main reinforcement grooves, the main reinforcement and the auxiliary reinforcement can be normally installed on the die, and the die assembly can be normally used.

The heights of the sliding template and the inserting template are consistent with the height of the template frame, so that the material consumption of the die assembly is reduced, the production material is saved, and the manufacturing cost of the assembled wallboard is reduced.

Through sliding template and the terminal surface and the mould platform butt that the grafting template is close to the mould platform, be connected with sealed piece and sealed piece on the inserting groove through inserting template not pegging graft with the slip reinforcing bar groove and be close to the plane in pouring cavity and the face parallel and level of grafting template for the side of the wallboard of processing out is the plane, thereby makes the wallboard that the mould after adjusting the size through sliding template and inserting template processed out be normal article, ensures mould assembly normal use.

Preferably, the main side plate, the auxiliary side plate, the sliding template and the inserting template are all plates with uniform thickness.

Through adopting above-mentioned technical scheme, be the even board of thickness through main curb plate, vice curb plate, sliding template and grafting template for the face of the wallboard of pouring through the mould subassembly is the plane, ensures that the wallboard that the mould subassembly processed accords with the standard.

Preferably, the sunken spout that has on the terminal surface that the mould platform was kept away from to the master side board, the spout in-connection has the slider that removes along the spout, the last fixedly connected with sliding frame of slider, the dead weight of sliding frame is greater than the dead weight of sliding template, the terminal surface that the sliding frame is close to the mould platform leaves the clearance with mould platform and mould frame, the terminal surface that the mould platform was kept away from to the sliding frame is articulated with the terminal surface that the mould platform was kept away from to the sliding template, be connected with a plurality of top position bolts that drive sliding template upset was in order to keep away from the mould platform on the sliding frame.

Through adopting above-mentioned technical scheme, it has the spout to cave in on through the framed, make slider roll along the spout, make slider can not break away from framed motion, it overturns in order to keep away from the top position bolt of moulding platform to articulate and be connected with drive sliding template through sliding template and sliding frame, dead weight through sliding frame is greater than sliding template's dead weight, make top position bolt when stretching out, sliding frame keeps static because of the dead weight is greater than sliding template, sliding template can overturn because of the dead weight is less than sliding frame, make sliding template when removing in framed along the spout, sliding frame and moulding platform do not have the friction and can the rapid draing, reduce the time of adjusting the mould subassembly, thereby the manufacturing cost of assembled wallboard has been reduced.

Preferably, the sliding device is provided with a limiting bolt extending towards the direction of the die table in a penetrating manner, and the main side plate is provided with a limiting hole for inserting the limiting bolt in a sunken manner.

By adopting the technical scheme, the sliding device is blocked by the limiting bolt after moving to the specified position and cannot move continuously through the connection of the limiting bolt and the limiting hole in the sliding groove, so that the sliding template is fixed on the template frame after the position is adjusted, and the normal use of the mold assembly is ensured.

Preferably, the end face of the splicing template abutted against the auxiliary side plate is connected with a lifting plate, the thickness of the lifting plate is smaller than the groove width of the auxiliary reinforcing steel bar groove, the length of the lifting plate along the length direction of the splicing template is larger than the thickness of the auxiliary side plate, the end face of the lifting plate close to the die table is connected with a driving device, the driving device drives the splicing template to move towards the direction far away from the die table, and the extending length of the driving device is larger than the height of the splicing template.

By adopting the technical scheme, the thickness of the lifting plate is smaller than that of the auxiliary steel bar groove, the lifting plate penetrates through the auxiliary steel bar groove, the length of the lifting plate along the length direction of the auxiliary side plate is larger than the thickness of the auxiliary side plate, the lifting plate extends out of the auxiliary side plate, the driving device for driving the plugging template to move away from the die table is connected onto the lifting plate, the plugging template is connected with the driving device, the driving device is towards the height of the plugging template extending away from the direction of the die table, the plugging template can be separated from the die frame, no friction exists between the plugging template and the die frame when the plugging template moves, the plugging template is convenient to move, the time for adjusting the die assembly is reduced, and the manufacturing cost of the assembled wall plate is reduced.

Preferably, a clamping groove is formed in the inserting groove in a sunken mode, a sealing block is connected in the clamping groove and is an elastic block, the height of the sealing block is larger than the depth of the inserting groove, the length of the sealing block along the length direction of the inserting template is larger than the length of the inserting groove along the length direction of the inserting template, an inserting strip is fixedly connected to the side face of the sealing block and is an elastic strip, and the inserting strip can be inserted into the clamping groove.

Through adopting above-mentioned technical scheme, through setting up the joint groove on the inserting groove, fixed connection can insert the sealing strip of joint inslot on the sealed piece, make sealed piece pass through the sealing strip card and be difficult for droing on the inserting groove, the size of each direction through sealed piece all is greater than the inserting groove and sealed piece is the elastic block, make the elastic deformation through sealed piece seal the space of inserting groove, make the concrete of pouring the intracavity be difficult for flowing from the inserting groove, ensure mould assembly's normal use.

Preferably, a grooved wheel is connected to the end part of the driving device close to the die table, a grooved rail parallel to the insertion template is fixedly connected to the die table, and the grooved wheel moves along the length direction of the grooved rail.

By adopting the technical scheme, the grooved wheel is connected with the driving device, and the grooved wheel moves along the grooved rail parallel to the inserting template, so that the inserting template moves to a required position along with the movement of the grooved wheel, the sliding friction in the moving process is changed into rolling friction, the labor intensity of adjusting the die assembly is reduced, the time for adjusting the die assembly is reduced, and the manufacturing cost of the assembled wallboard is reduced.

Preferably, there are two sheaves, and the sheaves are located at two ends of the driving device along the length direction of the grooved rail.

Through adopting above-mentioned technical scheme, through installing two sheaves at drive arrangement along track length direction for the weight of drive arrangement and grafting template evenly divides to two sheaves on, makes grafting template along the even difficult empting of groove rail removal in-process atress, ensures the normal use of mould subassembly.

Preferably, the die table is provided with scales around the die frame.

By adopting the technical scheme, scales are engraved at the joint of the die table and the die frame, so that the adjusted size of the splicing die plate and the sliding die plate can be visually seen in the moving process, secondary measurement is not needed, the time for adjusting the die is saved, and the manufacturing cost of the assembled wallboard is reduced.

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

1. the heights of the sliding template and the inserting template are consistent with the height of the template frame, and the size of the template frame is adjusted through the sliding template and the inserting template, so that the customization consumption of the mold assembly is reduced, and the manufacturing cost of the assembled wallboard is reduced;

2. the die assembly is easy to adjust by connecting the sliding template with the die frame through the sliding device, connecting the inserting template with the die table through the grooved pulley and connecting the inserting template with the driving device, so that the time for adjusting the die is reduced, and the manufacturing cost of the assembled wallboard is reduced;

3. the sliding template and the inserting template are both plates with uniform thickness, so that the surfaces of the processed wallboards are both planes, and the normal use of the die assembly is ensured;

4. the scales are arranged on the die table around the die frame, so that the length of the die during size adjustment can be observed, and the time for adjusting the die assembly is reduced.

Drawings

Fig. 1 is a schematic view of the overall structure of a mold assembly according to the present application.

Fig. 2 is an enlarged schematic view of a portion a of fig. 1.

Fig. 3 is an enlarged schematic view of a portion B of fig. 1.

Fig. 4 is a schematic view of the internal structure of the sealing block in the present application for showing the embodiment.

Fig. 5 is an enlarged schematic view of the portion C of fig. 4.

Description of reference numerals: 1. a mould table; 2. a mold frame; 21. a main side plate; 22. a secondary side plate; 23. a main reinforcing steel bar groove; 231. a main reinforcing bar; 24. auxiliary reinforcing steel bar grooves; 241. auxiliary reinforcing steel bars; 25. a limiting hole; 26. a chute; 3. sliding the template; 31. a hinge; 32. a sliding frame; 321. a main sliding plate; 322. an auxiliary sliding plate; 33. a top bolt; 34. a connecting plate; 35. a support plate; 351. a limit bolt; 36. a fixing plate; 361. a fixing hole; 37. a rolling wheel; 38. sliding the reinforcing steel bar groove; 4. inserting a template; 41. inserting grooves; 441. a clamping groove; 42. a lifting plate; 43. a drive device; 431. a hydraulic cylinder; 432. a hydraulic lever; 44. a groove plate; 45. a grooved wheel; 46. a groove rail; 47. a sealing block; 471. inserting strips; 48. inserting a reinforcing steel bar groove; 5. pouring a cavity; 6. and (4) calibration.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a mold assembly for assembly type building wallboard. Referring to fig. 1, assembled building mould assembly for wallboard includes moulding stage 1, and moulding stage 1 and ground butt, fixedly connected with framed 2 on the moulding stage 1 are equipped with the sliding template 3 that can remove in framed 2 in the framed 2, still are equipped with in framed 2 with sliding template 3 perpendicular and can peg graft grafting template 4 on sliding template 3, sliding template 3 encloses into pouring cavity 5 with grafting template 4 and framed 2.

Referring to fig. 1, the mold base 1 is in the form of a rectangular plate, the mold base 1 is fixedly connected with a mold frame 2 having a rectangular horizontal cross section, the mold frame 2 includes two main side plates 21 and two auxiliary side plates 22, the two main side plates 21 are parallel to each other, the two auxiliary side plates 22 are parallel to each other, the main side plates 21 are perpendicular to the auxiliary side plates 22, main reinforcement grooves 23 into which main reinforcements 231 are inserted are recessed in end surfaces of the main side plates 21 away from the mold base 1, the main reinforcement grooves 23 in the two main side plates 21 face each other, auxiliary reinforcement grooves 24 into which auxiliary reinforcements 241 are inserted are recessed in end surfaces of the auxiliary side plates 22, the main reinforcement grooves 23 and the auxiliary reinforcement grooves 24 both extend in the thickness direction of the main side plates 21 and the auxiliary side plates 22, the main reinforcement grooves 23 and the auxiliary reinforcement grooves 24 extend in the thickness direction of the mold base 2, slide grooves 26 are recessed in end surfaces of the main side plates 21 away from the mold base 1, and the slide grooves 26 are located at an intermediate position of the main side plates 21 in the thickness, the groove bottom of the sliding groove 26 is sunken with a limiting hole 25, and the axial direction of the limiting hole 25 is vertical to the die table 1.

Referring to fig. 1, the sliding formworks 3 are rectangular plate-shaped, the sliding formworks 3 are perpendicular to the main side plate 21, the sliding formworks 3 are perpendicular to the form base 1, the height of the sliding formworks 3 is the same as that of the form frame 2, the length of the sliding formworks 3 is the same as that of the auxiliary side plate 22, a plurality of sliding reinforcement grooves 38 are recessed in the end surfaces of the sliding formworks 3 away from the form base 1, and the sliding reinforcement grooves 38 are respectively opposite to the auxiliary reinforcement grooves 24.

Referring to fig. 1, a sliding device moving along the sliding chute 26 is connected in the sliding chute 26, a sliding frame 32 is fixedly connected to the sliding device, the sliding frame 32 is hinged to an end surface of the sliding formwork 3 far away from the formwork table 1 through a hinge 31, the sliding frame 32 abuts against the sliding formwork 3 and is perpendicular to the formwork table 1, the sliding frame 32 comprises two main sliding plates 321 hinged to the sliding formwork 3 and an auxiliary sliding plate 322 fixedly connected to the two main sliding plates 321, the main sliding plates 321 and the auxiliary sliding plates 322 are both long plates, a gap is left between the main sliding plate 321 of the sliding frame 32 and the main side plate 21, a gap is left between the auxiliary sliding plate 322 of the sliding frame 32 and the formwork table 1, the self weight of the main sliding frame 32 is larger than that of the sliding formwork 3, a plurality of top bolts 33 penetrate through the auxiliary sliding plate 322 of the sliding frame 32, the heads of the top bolts 33 are far away from an abutting surface of the sliding frame 32 and the sliding formwork 3, the sliding die plate 3 is turned to a position where a gap is left with the die table 1 through the hinge shaft.

Referring to fig. 1 and 2, a connecting plate 34 is fixedly connected to an end surface of the main sliding plate 321 of the sliding frame 32, which is far away from the die table 1, the connecting plate 34 is rectangular plate-shaped, the connecting plate 34 is perpendicular to the die table 1, a supporting plate 35 is fixedly connected to an end surface of the connecting plate 34, which is far away from the end surface of the sliding frame 32, the supporting plate 35 is square and parallel to the die table 1, two fixing plates 36 are fixedly connected to a face of the supporting plate 35, which is close to the die table 1, which is perpendicular to the supporting plate 35, the fixing plates 36 are two, fixing holes 361 are formed in the fixing plates 36 in a penetrating manner, axes of the fixing holes 361 are parallel to the length direction of the sliding die plate 3, a rolling wheel 37 is connected between the two fixing holes 361, the thickness of the rolling.

Referring to fig. 2, a limiting bolt 351 connected to the limiting hole 25 penetrates the supporting plate 35, and the head of the limiting bolt 351 is located on the plate surface of the supporting plate 35 far from the die table 1.

Referring to fig. 4, the inserting template 4 is rectangular plate-shaped, the inserting template 4 is perpendicular to the mold table 1, the length of the inserting template 4 is the same as that of the main side plate 21, a plurality of inserting reinforcing steel bar grooves 48 are recessed on the inserting template 4, the inserting reinforcing steel bar grooves 48 are opposite to the main reinforcing steel bar grooves 23 of the mold frame 2, a plurality of inserting grooves 41 are recessed on the end face, close to the mold table 1, of the inserting template 4, the inserting grooves 41 are rectangular openings, the inserting grooves 41 penetrate through the thickness direction of the inserting template 4, the length of the inserting grooves 41 in the length direction of the inserting template 4 is larger than the sum of the thicknesses of the sliding frame 32 and the sliding template 3, and the depth of the inserting grooves 41 is equal to the perpendicular distance from the groove bottom.

Referring to fig. 4, two side walls of the insertion groove 41 are recessed with a clamping groove 441, the clamping groove 441 extends along the height direction of the insertion template 4, a sealing block 47 is connected in the clamping groove 441, the sealing block 47 comprises two end faces parallel to the die table 1, two faces and two side faces exposed outside the die frame 2, the sealing block 47 is a rectangular rubber block, the length of the sealing block 47 along the height direction of the die frame 2 is greater than the depth of the insertion groove 41, the length of the sealing block 47 along the length direction of the insertion template 4 is greater than the length of the insertion groove 41 along the length direction of the insertion template 4, and the thickness of the sealing block 47 is equal to the length of the insertion groove 41 along the length direction of the sliding template 3.

Referring to fig. 5, the insertion strip 471 is fixedly connected to the side face of the sealing block 47, the insertion strip 471 is a rubber strip, the height of the insertion strip 471 is equal to the height of the sealing block 47, the length of the insertion strip 471 along the direction perpendicular to the insertion template 4 is equal to the width of the clamping groove 441, and the length of the insertion strip 471 along the length direction of the insertion template 4 is equal to the clamping direction, so that the manufacturing cost of the assembled wallboard is reduced.

Referring to fig. 1 and 5, the end face of the splicing template 4 abutting against the mold frame 2 is connected with a lifting plate 42, the lifting plate 42 is a rectangular plate, the thickness direction of the lifting plate 42 is consistent with the thickness direction of the splicing template cross plate, the thickness of the lifting plate 42 is smaller than the groove width of the auxiliary reinforcement groove 24, a driving device 43 for driving the splicing template 4 to move away from the mold table 1 is fixedly connected to the end face of the lifting plate 42 close to the mold table 1, the driving device 43 is a hydraulic cylinder 431, the hydraulic cylinder 431 is perpendicular to the mold table 1, a hydraulic rod 432 of the hydraulic cylinder 431 extends out in the direction away from the mold table 1, and the extending length of the hydraulic rod 432 is larger than the height of the splicing template 4.

Referring to fig. 1 and 5, a groove plate 44 is fixedly connected to an end portion of the hydraulic cylinder 431 close to the die table 1, the groove plate 44 is a square plate, two grooved wheels 45 are fixedly connected to a plate surface of each groove plate 44 close to the die table 1, an axial direction of each grooved wheel 45 is perpendicular to a length direction of the corresponding auxiliary side plate 22, a groove rail 46 is fixedly connected to the die table 1 outside the corresponding auxiliary side plate 22 of the die frame 2, the length of each groove rail 46 is equal to that of the corresponding auxiliary side plate 22 of the die frame 2, each groove rail 46 is parallel to the corresponding auxiliary side plate 22, and each grooved wheel 45 moves along the length direction of the corresponding groove rail 46.

Referring to fig. 1, a scale 6 is marked at the joint of the die table 1 and the die frame 2, the range of the scale 6 parallel to the auxiliary side plate 22 is equal to the length of the auxiliary side plate 22, and the range of the scale 6 parallel to the main side plate 21 is equal to the length of the main side plate 21.

The implementation principle of a mold assembly for assembly type building wallboard in the embodiment of the application is as follows: assembly type for building wallboard mould subassembly is including connecting framed 2 on moulding platform 1, framed 2 in-connection has sliding template 3 and grafting template 4, sliding template 3 is through removing the length of adjusting mould owner curb plate 21, grafting template 4 is used for adjusting the length of the vice curb plate 22 of mould on sliding template 3 through removing the grafting, adjust the size of mould through sliding template 3 and grafting template 4, make mould subassembly's size can adjust and satisfy different specification requirements according to the specification of different wallboards, the quantity of customization mould has been reduced, the manufacturing cost of assembled wallboard has been reduced.

The sliding reinforcing steel bar groove 38 opposite to the auxiliary side plate 22 is sunken on the sliding template 3, and after the template is built, the auxiliary reinforcing steel bar 241 is clamped between the sliding template 3 and the template frame 2 through the opposite auxiliary reinforcing steel bar groove 24, so that the normal use of the mold assembly is ensured.

The sliding template 3 is provided with a sliding chute 26 in a concave manner, a rolling wheel 37 rolling along the sliding chute 26 is connected in the sliding chute 26, the rolling wheel 37 is connected with a sliding frame 32, so that the sliding frame 32 slides in the mold frame 2 along with the movement of the rolling wheel 37, the sliding frame 32 is hinged with the sliding template 3 through a hinge 31, so that the sliding template 3 moves in the mold frame 2 along with the movement of the sliding frame 32, a plurality of top bolts 33 are arranged on the sliding frame 32, when the top bolts 33 extend out, the end surface of the sliding template 3 close to the mold table 1 rotates towards the direction far away from the sliding frame 32 until a certain gap is reserved between the sliding template 3 and the mold table 1, a gap is reserved between the sliding frame 32 and the mold table 1, so that the sliding template 3 does not rub with the mold table 1 when moving in the mold frame 2, and the sliding template 3 does not influence the normal movement of the sliding template 3, the sliding template 3 moves through the rolling wheel 37, the number of customized molds is reduced, and the manufacturing cost of the assembled wallboard is reduced.

The supporting plate 35 connected with the sliding frame 32 through the rolling wheel 37 is provided with a limiting bolt 351 in a penetrating way, the sliding chute 26 of the mold frame 2 is provided with a plurality of limiting holes 25 for inserting the limiting bolt 351, after the sliding mold plate 3 moves to a specified position, the limiting bolt 351 is inserted into the corresponding limiting hole 25, so that the rolling wheel 37 can not move continuously along the sliding chute 26, the position of the sliding mold plate 3 is not changed, and the normal use of the mold assembly is ensured.

Through the inserting reinforcing steel bar grooves 48 which are recessed on the inserting template 4 and correspond to the main reinforcing steel bar grooves 23, after the template is built, the main reinforcing steel bars 231 are clamped on the inserting template 4 and the template frame 2 through the inserting reinforcing steel bar grooves 48 and the main reinforcing steel bar grooves 23, so that the main reinforcing steel bars 231 can be normally installed, and the normal use of the mold assembly is ensured.

The end face, close to the die platform 1, of the splicing template 4 is provided with a plurality of splicing grooves 41 in a concave mode, the length of each splicing groove 41 in the length direction of the splicing template 4 is larger than the sum of the thicknesses of the sliding frame 32 and the sliding template 3, the splicing template 4 is clamped on the sliding template 3 through the splicing grooves 41, the groove depth of each splicing groove 41 is equal to the vertical distance from the groove bottom of the corresponding sliding steel bar groove 38 to the die platform 1, no gap exists between the splicing template 4 and the sliding template 3, concrete in a pouring cavity cannot easily flow out, and normal use of a die assembly is guaranteed.

Through set up joint groove 441 on inserting groove 41, fixed connection can insert the sealing strip in joint groove 441 on sealed piece 47, make sealed piece 47 pass through the sealing strip card and be difficult for droing on inserting groove 41, the size of all directions through sealed piece 47 all is greater than inserting groove 41 and sealed piece 47 and is the rubber block, make the elastic deformation through sealed piece 47 seal the space of inserting groove 41, make the interior concrete of pouring cavity be difficult for flowing from inserting groove 41, ensure mould assembly's normal use.

The splicing template 4 is connected with a hydraulic cylinder 431, the hydraulic rod 432 extends in the direction away from the die table 1, so that the splicing template 4 is ejected out of the die table 1, the extension length of the hydraulic rod 432 is greater than the height of the splicing template 4, so that the splicing template 4 completely leaves the die frame 2 to move, the hydraulic cylinder 431 is connected with a grooved pulley 45, the die table 1 outside the die frame 2 is connected with a grooved rail 46 parallel to the auxiliary side plate 22 of the die frame 2, the grooved pulley 45 moves along the grooved rail 46 to drive the hydraulic cylinder 431 to move, so that the splicing template 4 is driven to move along the grooved rail 46, after the die table 1 moves to a specified position, the hydraulic rod 432 retracts to an initial position, and the splicing template 4 abuts against the die table 1, so that the length of the die assembly can be adjusted, the number of customized dies is reduced, and the manufacturing cost.

Two grooved wheels 45 are connected to each groove plate 44, so that the weight of the hydraulic cylinder 431 and the weight of the inserting template 4 are equally balanced on the two grooved wheels 45, the grooved wheels 45 are not prone to toppling due to uneven stress in the moving process, the size of the inserting template 4 is guaranteed to be adjusted normally, the number of customized molds is reduced, and the manufacturing cost of the assembled wallboard is reduced.

Scales 6 are engraved at the joint of the mould table 1 and the mould frame 2, so that the adjusted size can be visually seen in the moving process of the splicing template 4 and the sliding template 3, secondary measurement is not needed, the time for adjusting the mould is saved, and the manufacturing cost of the assembled wallboard is reduced.

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 (9)

1. The utility model provides a mould subassembly for assembly type building wallboard, includes mould platform (1), its characterized in that: the steel bar reinforced concrete formwork is characterized in that a formwork frame (2) is connected to the formwork table (1), the formwork frame (2) is a rectangular frame, the formwork frame (2) comprises two main side plates (21) which are parallel to each other, a plurality of main steel bar grooves (23) extending along the thickness direction of the main side plates (21) are formed in the end faces, far away from the formwork table (1), of the main side plates (21), the formwork frame (2) comprises two auxiliary side plates (22) which are parallel to each other, a plurality of auxiliary steel bar grooves (24) extending along the thickness direction of the auxiliary side plates (22) are formed in the end faces, far away from the formwork table (1), of the auxiliary side plates (22), the main side plates (21) are perpendicular to the auxiliary side plates (22), the main steel bar grooves (23) and the auxiliary steel bar grooves (24) respectively penetrate through the plate faces of the main side plates (21) and the auxiliary side plates (22), a sliding formwork (3) which is parallel to the auxiliary side plates (22) is connected in the formwork frame (2) in a sliding mode, the sliding formwork (3) is equal The two ends of the sliding template (3) are respectively abutted against the inner walls of the two main side plates (21) or the two auxiliary side plates (22), a plurality of sliding reinforcing steel bar grooves (38) which are opposite to the auxiliary reinforcing steel bar grooves (24) one by one are recessed on the end face of the sliding template (3) far away from the die platform (1), an inserting template (4) which is perpendicular to the sliding template (3) is further arranged in the die frame (2), the inserting template (4) is equal in height to the die frame (2) and is abutted against the die platform (1), a plurality of inserting reinforcing steel bar grooves (48) which are opposite to the main reinforcing steel bar grooves (23) one by one are recessed on the end face of the inserting template (4) close to the die platform (1), a plurality of inserting grooves (41) which are positioned between the adjacent inserting reinforcing steel bar grooves (48) are recessed on the end face of the inserting template (4) far away from the die platform (1), and the inserting template (4) is hermetically inserted with the sliding reinforcing steel bar grooves, the casting device is characterized in that the sliding template (3), the inserting template (4) and the template frame (2) are enclosed to form a casting cavity (5), a sealing block (47) is connected to an inserting groove (41) which is not inserted into the sliding reinforcing steel bar groove (38) on the inserting template (4), and the surface, close to the casting cavity (5), of the sealing block (47) is flush with the surface of the inserting template (4).

2. The mold assembly of claim 1, wherein: the die table (1), the die frame (2), the sliding die plate (3) and the inserting die plate (4) are all plates with uniform thickness.

3. The mold assembly of claim 1, wherein: sunken spout (26) on the terminal surface of mould platform (1) is kept away from in main curb plate (21), spout (26) in-connection has the slider that removes along spout (26), fixedly connected with sliding frame (32) on the slider, the dead weight of sliding frame (32) is greater than the dead weight of sliding template (3), sliding frame (32) are close to the terminal surface of mould platform (1) and are left the clearance with mould platform (1) and mould frame (2), the terminal surface that mould platform (1) was kept away from in sliding frame (32) is articulated with the terminal surface that sliding template (3) was kept away from mould platform (1), be connected with a plurality of drive sliding template (3) upsets on sliding frame (32) in order to keep away from top position bolt (33) of mould platform (1).

4. A modular building panel mold assembly as set forth in claim 3, wherein: the sliding device is provided with a limiting bolt (351) extending towards the direction of the die table (1) in a penetrating manner, and the main side plate (21) is provided with a limiting hole (25) for inserting the limiting bolt (351) in a sinking manner.

5. The mold assembly of claim 1, wherein: be connected with lifter plate (42) on the terminal surface of grafting template (4) and vice curb plate (22) butt, the thickness of lifter plate (42) is less than the groove width of vice reinforcing bar groove (24), and lifter plate (42) are greater than the thickness of vice curb plate (22) along the length direction's of grafting template (4) length direction, be connected with drive arrangement (43) on lifter plate (42) are close to the terminal surface of mould platform (1), drive arrangement (43) drive grafting template (4) are towards keeping away from mould platform (1) direction and are removed, the length of stretching out of drive arrangement (43) is greater than the height of grafting template (4).

6. The mold assembly of claim 1, wherein: sunken joint groove (441) on inserting groove (41), joint inslot (441) in-connection has sealed piece (47), sealed piece (47) are an elastic block, the highly groove depth that is greater than inserting groove (41) of sealed piece (47), sealed piece (47) are greater than inserting groove (41) along inserting template (4) length direction's length along inserting template (4) length, fixedly connected with grafting strip (471) on the side of sealed piece (47), grafting strip (471) are the elastic strip, grafting strip (471) can insert in joint groove (441).

7. The mold assembly of claim 5, wherein: the end part, close to the die table (1), of the driving device (43) is connected with a grooved wheel (45), the die table (1) is fixedly connected with a grooved rail (46) parallel to the inserting die plate (4), and the grooved wheel (45) moves along the length direction of the grooved rail (46).

8. The mold assembly of claim 7, wherein: the number of the grooved wheels (45) is two, and the grooved wheels (45) are positioned at two ends of the driving device (43) along the length direction of the grooved rail (46).

9. The mold assembly of claim 1, wherein: the mould table (1) is provided with scales (6) around the mould frame (2).

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