CN217834092U - Vertical mold production system - Google Patents

Abstract

The utility model provides a found mould production system, including drawbench and panel turnover machine, still include: the support frame, the tube drawing machine and the plate turnover machine are arranged on two sides of the support frame; the vertical die forming devices are arranged at intervals along the length direction of the support frame, are positioned below the support frame and are used for forming dies; the mixing tank is movably arranged on the support frame, moves along the length direction of the support frame, is positioned above the vertical die forming device and is used for mixing raw materials and supplying materials to the vertical die forming device; the bracket is arranged in the middle of the support frame; and the storage tank is arranged on the support and positioned above the mixing tank and used for storing and providing raw materials for the mixing tank. The utility model discloses compounding jar can be along its length direction reciprocating motion on the support frame, and compounding jar and found mould forming device can carry out the compounding, pour the process by a pair of many, need not to found the mould shaping in the long-time waiting in once pouring back, have improved production efficiency.

Description

Vertical mold production system

Technical Field

The utility model relates to a found mould production technical field, concretely relates to found mould production system.

Background

The partition wall, the decorative board and the like used in the existing buildings are various, the decorative gypsum board is used as one of building materials, people pursue the decorative effects of excellent quality, elegance, heat insulation, fire prevention and attractive appearance for the decoration of various buildings, and the gypsum board is widely applied to people as a decorative building product. In the development and production industry of gypsum boards, currently, gypsum board production forming molds used by people have two production tools, namely a plane injection closed forming mold and a vertical injection closed mold, and the gypsum board production forming mold is formed by completing production of gypsum boards through a production process method of mechanical vibration, extrusion forming or roll forming after material injection of the production forming mold. Generally, after a plurality of production raw materials are uniformly mixed in a mixing tank, a pair of vertical mold forming devices supplies materials, so that a certain number of vertical mold plates are poured and formed, after the vertical mold plates are formed, a tube drawing machine performs tube drawing operation, a panel turnover machine performs demoulding and panel turnover operation, then the next mixing and pouring process is performed, the waiting time in the process is long, and the production efficiency is low. Therefore, it is desirable to provide a vertical mold production system to solve the above existing problems.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a vertical mold production system to solve the problem that exists among the background art.

In order to solve the technical problem, the utility model provides a vertical mold production system, including drawbench and panel turnover machine, still include:

the pipe drawing machine and the plate turnover machine are arranged on two sides of the support frame;

the vertical die forming devices are arranged at intervals along the length direction of the supporting frame and are positioned below the supporting frame, and the vertical die forming devices are used for forming dies;

the mixing tank is movably arranged on the support frame, moves along the length direction of the support frame, is positioned above the vertical die forming device and is used for mixing raw materials and supplying materials to the vertical die forming device;

the bracket is arranged in the middle of the support frame;

the storage tank, the storage tank set up in on the support, the storage tank is located the top of compounding jar, the storage tank be used for storing and to the compounding jar provides the raw materials.

Furthermore, the mixing tank comprises a tank body movably arranged on the support frame, a stirring mechanism rotatably arranged in the tank body, and a mixing driving mechanism arranged on the tank body and used for driving the stirring mechanism to rotate;

the jar body includes from last to down straight section of thick bamboo section, awl section of thick bamboo section and the discharging pipe that connects gradually, the diameter of awl section of thick bamboo section is from last to descending, rabbling mechanism includes along the (mixing) shaft of vertical direction setting, sets up in the epaxial rhombus stirring arm subassembly of stirring, rhombus stirring arm subassembly is located the awl section of thick bamboo, compounding actuating mechanism is used for driving the (mixing) shaft and uses its axis to rotate as the center.

Furthermore, the rhombus stirring arm component comprises four stirring arms, the four stirring arms are connected end to form a rhombus frame, the four stirring arms and the stirring shaft are positioned in the same plane, two intersection points of opposite angles are positioned on the stirring shaft, and the other two intersection points are connected with the stirring shaft through a connecting shaft.

Further, the compounding jar pass through running gear with the support frame is connected, running gear includes the length direction along the support frame set up the track on the support frame, rotate set up on the compounding jar and with track matched with swiveling wheel, set up on the support frame and be used for driving the swiveling wheel and use its axis as the rotatory travel drive mechanism in center.

Furthermore, the vertical mold forming device comprises a vertical mold frame, at least two partition plate mechanisms detachably arranged on the vertical mold frame, a lower mold mechanism detachably arranged on the vertical mold frame and positioned between the two adjacent partition plate mechanisms, a baffle plate mechanism arranged at the end part between the two adjacent partition plate mechanisms, a mold clamping and pressing connecting rod mechanism hinged with one end of the vertical mold frame, and a pressing driving mechanism arranged on the vertical mold frame and used for driving the mold clamping and pressing connecting rod mechanism to press the partition plate mechanisms.

Further, the vertical die frame comprises a frame body, and a plurality of mounting holes are uniformly formed in the top of the outer side wall of the frame body at intervals along the length direction of the frame body;

the clapboard mechanism comprises a clapboard body arranged along the width direction of the frame body and a clapboard connecting plate connected with the bottom of the outer side wall of the clapboard body, and the clapboard connecting plate is provided with a clapboard connecting hole matched with the mounting hole;

the lower die mechanism comprises a lower die body arranged along the width direction of the frame body and a lower die connecting plate connected with the bottom of the outer side wall of the lower die body, and a lower die connecting hole matched with the mounting hole is formed in the lower die connecting plate.

Furthermore, a groove is formed in the outer side wall of the lower die body along the length direction of the lower die body, and a sealing rubber tube is arranged in the groove.

Furthermore, the locking and pressing link mechanism comprises a first folded plate with one end hinged to the end of the vertical die frame, a second folded plate fixedly connected with the other end of the first folded plate, a power plate arranged on the vertical die frame in a sliding mode, and a linkage plate with two ends hinged to the second folded plate and the power plate respectively, wherein an included angle between the first folded plate and the second folded plate is an obtuse angle, and the pressing and driving mechanism is used for driving the power plate to slide along the length direction of the vertical die frame.

Furthermore, the one end that first folded plate was kept away from to the second folded plate can be dismantled and set up the puller bolt.

Furthermore, a waste barrel is arranged under the support and is positioned below the mixing tank.

The above technical scheme of the utility model at least including following beneficial effect:

1. the utility model is provided with the support frame, at least two vertical mold forming devices are arranged below the support frame at intervals along the length direction of the support frame, the support frame is moved to be provided with the mixing tank, the mixing tank is used for mixing raw materials and supplying materials to the vertical mold forming devices, and the mixing tank and the vertical mold forming devices can carry out mixing and pouring processes on one by one because the mixing tank can reciprocate along the length direction of the support frame on the support frame, so that long-time waiting vertical mold forming after one-time pouring is not needed, and the production efficiency is improved;

2. the mixing tank comprises a tank body, the tank body comprises a straight cylinder section, a conical cylinder section and a discharging pipe which are sequentially connected from top to bottom, the diameter of the conical cylinder section is gradually decreased from top to bottom, the uniform discharging of the mixture is ensured, meanwhile, the stirring mechanism comprises a stirring shaft which is rotatably arranged and a rhombic stirring arm assembly which is arranged on the stirring shaft, the rhombic stirring arm assembly is positioned in the conical cylinder section, the mixture in the conical cylinder section is directly stirred, the discharging pipe blockage caused by the stagnation and the flowing of the mixture in the conical cylinder section is avoided, and the smooth discharging is ensured;

3. the partition plate mechanism is detachably connected with the vertical die frame, the lower die mechanism is detachably connected with the vertical die frame, a plurality of mounting holes are uniformly formed in the vertical die frame at intervals, connecting holes matched with the mounting holes are formed in the partition plate mechanism and the lower die mechanism, and the mounting distance between two adjacent partition plate mechanisms can be adjusted according to actual needs, so that the purpose of adjusting the thickness of the vertical die is achieved, and the adjusting operation is convenient;

4. one end of the vertical die frame is hinged with the die closing and pressing connecting rod mechanism, and the vertical die frame is provided with a pressing driving mechanism for driving the die closing and pressing connecting rod mechanism to press the partition plate mechanism, so that the partition plate mechanism positioned at the end part of one end of the vertical die frame is pressed, the problem of the size of a formed vertical die plate caused by the fact that the partition plate mechanism is propped open during pouring is avoided, the rejection rate is reduced, and the product percent of pass is improved;

5. the outer side wall of the lower die body is provided with a groove along the length direction of the lower die body, and a sealing rubber tube is arranged in the groove, so that good sealing performance can be ensured, the lower die body and the partition plate body can be prevented from being damaged due to close contact and friction, and the service life is prolonged;

6. one end, far away from the first folded plate, of the second folded plate is detachably provided with a puller bolt, the angle of inclination of the puller bolt can be changed by rotating and adjusting the puller bolt, the contact position of the puller bolt and the partition plate body can be changed, and a better puller effect is achieved;

7. the waste material barrel is arranged and used for containing residual waste materials in the material mixing tank and transferring the waste materials, and the use is convenient.

Drawings

Fig. 1 is a schematic structural diagram of a vertical mold production system in an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a mixing bowl in an embodiment of the present invention;

FIG. 3 is a left side view of FIG. 1;

FIG. 4 is an enlarged schematic view of portion A of FIG. 3;

FIG. 5 is a top view of FIG. 1;

fig. 6 is a schematic structural view of a vertical mold forming device according to an embodiment of the present invention;

fig. 7 is a diagram illustrating a state of use of the vertical mold forming device according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a vertical mold forming device according to another embodiment of the present invention;

fig. 9 is a diagram illustrating a state of use of the vertical mold forming apparatus according to another embodiment of the present invention;

fig. 10 is an enlarged structural view of a portion B in fig. 8.

In the figure:

1. a support frame; 11. supporting legs; 12. a primary support frame; 13. a first stage guard rail; 14. a first-stage ladder stand; 15. a reinforcing bar;

2. a support; 21. a support leg; 22. a secondary support frame; 23. a secondary ladder stand; 24. a secondary guardrail;

3. a material storage tank;

4. a mixing tank;

41. a can body; 411. a straight barrel section; 412. a conical section; 413. a discharge pipe;

42. a mixing drive mechanism; 421. a mixing motor; 422. a mixing speed reducer;

43. a stirring mechanism; 431. a stirring shaft; 432. a connecting shaft; 433. a stirring arm;

5. a traveling device; 51. a track; 52. a traveling rotating shaft; 53. a rotating wheel; 54. a drive sprocket;

6. a waste bin;

7. a vertical mold forming device;

71. erecting a mould frame; 711. a frame body; 712. mounting holes;

72. a partition mechanism; 721. a separator body; 722. a separator connecting plate; 723. a partition plate connecting hole;

73. a lower die mechanism; 731. a lower die body; 732. a lower die connecting plate; 733. connecting holes of the lower die; 734. sealing the rubber tube;

74. the connecting rod mechanism is pressed tightly by the mold clamping; 741. a first folded plate; 742. a second folded plate; 743. a linkage rod; 744. a power plate;

75. a pressing drive mechanism; 751. a rack; 752. a rotating shaft; 753. a gear; 754. a cylinder;

76. a baffle mechanism; 761. a baffle body; 762. perforating;

8. a tube drawing device; 81. drawing a tube; 82. drawing the pipe to walk on the rail;

9. a plate turnover device; 91. turning over a plate machine; 92. a turning plate traveling rail;

10. and tightly pushing the bolt.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 10 of the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. All other embodiments, which can be derived from the description of the embodiments of the present invention by a person skilled in the art, are within the scope of the present invention.

As shown in fig. 1 to 10, a vertical mold production system includes a pipe drawing machine 81, a plate turnover machine 91, and a support frame 1, and the left and right directions are the length directions of the support frame 1. A tube drawing traveling rail 82 is installed on the rear side of the support frame 1 along the length direction of the support frame 1, the tube drawing machine 81 reciprocates on the tube drawing traveling rail 82 along the length direction thereof, and the tube drawing machine 81 and the tube drawing traveling rail 82 jointly call a tube drawing device 8. A turning plate traveling rail 92 is arranged on the front side of the support frame 1 along the length direction of the support frame 1, the turning plate 91 reciprocates on the turning plate traveling rail 92 along the length direction thereof, and the turning plate 91 and the turning plate traveling rail 92 are jointly called a turning plate device 9. The cupping device and the plate turnover device 9 are all prior art devices and are not further described herein.

The support frame 1 comprises a first-level support frame 12 arranged along the horizontal direction, and a plurality of support legs 11 are uniformly arranged at the bottom of the first-level support frame 12 to play a role in stable support. Install stiffener 15 through the bolt between supporting leg 11 and the one-level carriage 12, strengthen the connection structure intensity between supporting leg 11 and the one-level carriage 12, improve the security. One-level cat ladder 14 is installed to the right-hand member of one-level carriage 12, and the bottom of one-level cat ladder 14 is fixed subaerial, and the staff of being convenient for climbs one-level carriage 12 and overhauls. Install one-level guardrail 13 around the top of one-level carriage 12, play the guard action, avoid being located the staff's accident on one-level carriage 12 and fall, effectively promoted the security.

Six vertical mold forming devices 7 are arranged on the ground below the first-stage supporting frame 12, the six vertical mold forming devices 7 are arranged at intervals along the length direction of the supporting frame 1, and the vertical mold forming devices 7 are used for forming molds. Move movable mounting compounding jar 4 on one-level carriage 12, compounding jar 4 moves along the length direction of one-level carriage 12, and compounding jar 4 is located the top of founding mould forming device 7, and compounding jar 4 is used for mixing the raw materials and supplies to founding mould forming device 7. Because the mixing tank 4 can reciprocate on the primary supporting frame 12 along the length direction of the primary supporting frame 12, one mixing tank 4 can carry out six-to-six mixing and pouring processes with six vertical mold forming devices 7, long-time waiting vertical mold forming after one-time pouring is not needed, and the production efficiency is improved.

The top of the primary support frame 12 is provided with a bracket 2, and the bracket 2 is positioned at the center of the primary support frame 12. The support 2 is provided with a plurality of storage tanks 3, wherein the plurality of storage tanks can be two, three, four or more, and are respectively used for storing different types of required raw materials, the bottom of each storage tank 3 is provided with a discharge port, the discharge ports are connected with the top of the mixing tank 4 through pipelines, the discharge ports are provided with pneumatic butterfly valves, the pneumatic butterfly valves are products of the prior art well known to those skilled in the art, the types of the pneumatic butterfly valves can be selected according to actual needs by those skilled in the art, and further description is not provided herein. Support 2 includes along the horizontal direction arranges the second grade carriage 22 in one-level carriage 12 top, and second grade carriage 22 is connected with one-level carriage 12 through a plurality of landing legs 21 that evenly arrange, plays the stabilizing support effect, and storage tank 3 installs on second grade carriage 22. The second grade cat ladder 23 is installed to the left end of second grade carriage 22, and the bottom and the one-level carriage 12 of second grade cat ladder 23 are connected, and the staff of being convenient for climbs to second grade carriage 22 from one-level carriage 12 and overhauls. Install second grade guardrail 24 around second grade carriage 22, the staff accident of avoiding ascending second grade carriage 22 falls, has effectively promoted the security.

According to an embodiment of the present invention, as shown in fig. 1-2, the mixing material tank 4 includes a tank body 41 movably mounted on the primary support frame 12, an agitating mechanism 43 rotatably mounted in the tank body 41, and a mixing material driving mechanism 42 mounted on the tank body 41 and used for driving the agitating mechanism 43 to rotate. The tank body 41 comprises a straight cylinder section 411, a conical cylinder section 412 and a discharge pipe 413 which are sequentially connected from top to bottom, the straight cylinder section 411, the conical cylinder section 412 and the discharge pipe 413 are welded into a whole, the diameter of the conical cylinder section 412 decreases progressively from top to bottom, and the mixture is guaranteed to flow downwards at a constant speed under the action of gravity and is discharged through the discharge pipe 413. A manual butterfly valve is arranged on the discharge pipe 413 and used for controlling discharge. The manual butterfly valve is a product known in the prior art and can be selected by those skilled in the art according to actual needs, and further description is omitted here. Rabbling mechanism 43 includes and rotates the (mixing) shaft 431 of installing middle part in jar body 41 along vertical direction through the bearing, install the rhombus stirring arm 433 subassembly on (mixing) shaft 431, rhombus stirring arm 433 subassembly is located awl section 412, compounding actuating mechanism 42 is used for driving (mixing) shaft 431 and uses its axis as the rotation of center, thereby it is rotatory to drive rhombus stirring arm 433 subassembly, rhombus stirring arm 433 subassembly is located awl section 412, directly advance the stirring to the mixture in awl section 412, avoid the mixture to stagnate in awl section 412 and flow and cause the discharging pipe 413 to block up, ensure that the ejection of compact is smooth and easy. The rhombic stirring arm 433 assembly comprises four stirring arms 433, the four stirring arms 433 are connected end to form a rhombic frame, the four stirring arms 433 and the stirring shaft 431 are located in the same plane, two intersection points are located on the stirring shaft 431, and the other two intersection points are connected with the stirring shaft 431 through a connecting shaft 432. The rhombus frame that four rabbling arms 433 are constituteed jointly agrees with the inside wall slope of conical shell section 412, and the distance is nearer, and rotatory in-process can effectively avoid the mixture to take place the deposit on conical shell section 412 inside wall, guarantees that the ejection of compact is smooth and easy. Meanwhile, the connecting shaft 432 enhances the strength of a connecting structure between the diamond-shaped frame and the stirring shaft 431, which are formed by the four stirring arms 433, so that the diamond-shaped frame is effectively prevented from being easily deformed due to resistance of the stirred mixture, and the service life of the diamond-shaped frame is prolonged. The mixing driving mechanism 42 comprises a mixing motor 421 and a mixing speed reducer 422 which are arranged at the top of the straight cylinder section 411, and is connected with the top of the stirring shaft 431 through a coupler, so that the driving is stable and reliable.

According to the utility model discloses a further embodiment, as shown in fig. 3-4, compounding jar 4 is connected with one-level carriage 12 through running gear 5, and running gear 5 includes two tracks 51 that are parallel to each other of arranging on support frame 1 along the length direction of support frame 1, installs two walking pivots 52 through bearing frame and bearing rotation on the straight section of thick bamboo 411, and two walking pivots 52 all arrange along the horizontal direction, and two walking pivots 52 are located the both sides of straight section of thick bamboo 411 respectively, and two walking pivots 52 are perpendicular with track 51. The two ends of the walking shaft 52 are fixedly sleeved with rotating wheels 53 which rotate coaxially with the walking shaft 52, and the rotating wheels 53 can roll on the track 51. The primary support frame 12 is provided with a travel drive mechanism for driving the rotor 53 to rotate about its central axis. The walking driving mechanism comprises a walking driving motor arranged on the straight cylinder section 411, a driving gear 753 which is connected with the output end of the walking driving motor and coaxially rotates, and a driven gear 753 which is fixedly sleeved at the end part of the walking rotating shaft 52 and is meshed with the driving gear 753; in another embodiment, the walking driving mechanism includes a walking driving motor installed at one end of the primary supporting frame 12, a driving sprocket coaxially rotating with the walking driving motor is sleeved on an output shaft of the walking driving motor, a driven sprocket is rotatably installed at the other end of the primary supporting frame 12, a driving chain is sleeved on the driving sprocket and the driven sprocket in a transmission manner, a driving sprocket 54 coaxially rotating with the walking rotating shaft 52 is fixedly sleeved on the end portion of the walking rotating shaft 52, and the driving sprocket 54 is in transmission connection with the chain. In the two embodiments, the walking driving motor works to drive the rotating wheel 53 to stably roll on the track 51, and the driving is stable and reliable.

In an embodiment of the present invention, as shown in fig. 1 and fig. 6 to 9, the vertical mold forming device 7 includes a vertical mold base 71, a plurality of partition plate mechanisms 72 detachably mounted on the vertical mold base 71, a lower mold mechanism detachably mounted on the vertical mold base 71 and located between two adjacent partition plate mechanisms 72, a baffle plate mechanism 76 mounted at an end portion between two adjacent partition plate mechanisms 72, a mold clamping and pressing link mechanism 74 hinged to one end of the vertical mold base 71, and a pressing drive mechanism 75 mounted on the vertical mold base 71 and used for driving the mold clamping and pressing link mechanism 74 to press the partition plate mechanisms 72. The pressing driving mechanism 75 is used for driving the die-closing pressing connecting rod mechanism 74 to press the partition plate mechanism 72, so that the partition plate mechanism 72 at the end part of one end of the upper die frame 71 is pressed, the problem of the size of the formed vertical die plate caused by the fact that the partition plate mechanism 72 is propped open during pouring is avoided, the rejection rate is reduced, and the product percent of pass is improved.

The vertical mold frame 71 includes a frame body 711, and a plurality of mounting holes 712 are formed at the top of the outer side wall of the frame body 711 at regular intervals along the length direction of the frame body 711. The partition mechanism 72 includes a partition body 721 installed along the width direction of the frame body 711, and a partition connecting plate 722 welded to the bottom of the outer sidewall of the partition body 721, and the partition connecting plate 722 is provided with a partition connecting hole 723 matching with the mounting hole 712. The lower die mechanism 73 includes a lower die body 731 mounted in the width direction of the frame body 711, and a lower die connecting plate 732 welded to the bottom of the outer sidewall of the lower die body 731, and the lower die connecting plate 732 has a lower die connecting hole 733 fitted to the mounting hole 712. The purpose of connecting the partition body 721 with the frame body 711 can be achieved by inserting bolts into the mounting holes 712 and the partition connecting holes 723, and the partition is convenient to disassemble and assemble. The purpose of connecting the lower die body 731 with the frame body 711 can be achieved by inserting bolts into the mounting holes 712 and the lower die connecting holes 733, and the disassembly and the assembly are convenient. The installation distance between two adjacent baffle bodies 721 can be adjusted according to actual needs, so that the purpose of adjusting the thickness of the vertical mold is achieved, and the adjustment operation is convenient and fast. The baffle mechanism 76 includes three layers of baffles connected in sequence, namely an inner side end baffle positioned at the innermost side, a rubber baffle positioned in the middle, and a demoulding end baffle positioned at the outermost side. The three-layer baffle is baffle body 761, evenly runs through on the baffle body 761 and has seted up a row of perforation 762, and the perforation 762 is used for wearing to adorn the pipe.

In another embodiment of the present invention, as shown in fig. 10, a groove is formed on the outer sidewall of the lower die body 731 along the length direction of the lower die body 731, and a sealing rubber tube 734 is inserted into the groove. Not only can ensure good sealing performance, but also can prevent the lower die body 731 and the clapboard body 721 from being damaged due to close contact and friction, and prolong the service life.

In another embodiment of the present invention, as shown in fig. 6 to 9, the locking pressing link mechanism 74 includes a first folding plate 741 with one end hinged to the top right end of the frame body 711, a second folding plate 742 fixedly connected to the other end of the first folding plate 741, a power plate 744 slidably mounted on the frame body 711, and a linkage plate with two ends hinged to the second folding plate 742 and the power plate 744 respectively, an included angle between the first folding plate 741 and the second folding plate 742 is an obtuse angle, the first folding plate 741 and the second folding plate 742 are welded, or the first folding plate 741 and the second folding plate 742 are integrally formed by bending. The pressing drive mechanism 75 is used for driving the power plate 744 to slide along the length direction of the vertical mold frame 71. The pressing driving mechanism 75 comprises a cylinder 754 installed on the frame body 711 along the horizontal direction, the cylinder 754 is fixedly installed on the frame body 711, a telescopic rod end of the cylinder 754 is connected with a power plate 744, a rack 751 is fixedly installed on the frame body 711 along the horizontal direction, a rotating shaft 752 is rotatably installed on the power plate 744 through a bearing and a bearing seat, and a gear 753 which coaxially rotates with the rotating shaft 752 and is meshed with the rack 751 is fixedly sleeved on the rotating shaft 752. The cylinder 754 works to drive the power plate 744 to slide on the frame body 711, the gear 753 is meshed with the rack 751, and the linkage rod 743 drives the second folded plate 742 to be close to or far away from the clapboard body 721 positioned at the upper right end of the frame body 711, so that the purpose of pressing or loosening the clapboard body 721 is achieved, the driving is stable and reliable, and the linkage effect is good.

The jacking bolt 10 is detachably mounted at one end, away from the first folded plate 741, of the second folded plate 742, the jacking bolt 10 movably penetrates through the end portion of the second folded plate 742, the jacking bolt 10 is fixed through two nuts which clamp the end portion of the second folded plate 742 in a resultant force manner, the nuts are in threaded connection with the jacking bolt 10, and through screwing, the nuts and the jacking bolt 10 rotate relatively, so that the inclination angle of the jacking bolt 10 can be changed, the contact position of the jacking bolt 10 and the partition body 721 is changed, and a better jacking effect is achieved.

In another embodiment of the utility model, as shown in fig. 1, waste bucket 6 has been arranged under support 2, and waste bucket 6 is located the below of compounding jar 4, and the universal wheel is installed to waste bucket 6's bottom, promotes laborsavingly. The waste material barrel 6 is used for containing and transferring residual waste materials in the mixing tank 4, and is convenient to use.

The utility model discloses a theory of operation: according to the requirements, a plurality of clapboard bodies 721, a lower mould body 731 and a clapboard body are well installed, circular pipes are arranged in through holes 762 on the clapboard body 761 in a penetrating way, then the angle of a jacking bolt 10 is adjusted, an air cylinder 754 works, a power plate 744 is pulled to slide on a rack body 711, and the power plate 744 pulls a second folding plate 742 through a linkage plate, so that the jacking bolt 10 jacks the right side wall of the clapboard body 721 located at the rightmost end on the rack body 711. Six upright mould forming device 7 all accomplish according to above-mentioned step operation back, and the storage tank 3 that is equipped with different raw materialss provides mixing bowl 4 with corresponding raw materials under the on-off control of corresponding automatic butterfly valve, and compounding motor 421 and compounding speed reducer 422 open, and drive (mixing) shaft 431 is rotatory, drives even axle 432 and puddler 433 rotation, carries out intensive mixing to the mixture in the mixing bowl 4. The rhombic frame formed by the four stirring arms 433 in an end-to-end manner is matched with the gradient of the inner side wall of the conical cylinder section 412, the distance is short, the mixture can be effectively prevented from being deposited on the inner side wall of the conical cylinder section 412 in the rotating process, and the smooth discharging is ensured. The opening and closing of the discharge pipe 413 are controlled by a manual butterfly valve to supply a material to a vertical mold forming device 7. After pouring is finished, forming needs to wait for a period of time, the previous processes are repeated, then the traveling device 5 drives the mixing tank 4 to move on the first-stage supporting frame 12, the mixing tank 4 moves to the position above the other vertical mold forming device 7, and the discharging pipe 413 is controlled to be opened and closed through a manual butterfly valve to supply materials to the new vertical mold forming device 7. After pouring is finished, the forming needs to wait for a period of time, the previous procedures are repeated, and the material is continuously supplied to the new vertical mold forming device 7. In the feeding process, if the vertical mold forming device 7 which is poured first finishes forming the mold, the tube drawing machine 81 moves to the corresponding position on the tube drawing traveling rail 82 to draw out the circular tube, the panel turnover machine 91 moves to the corresponding position on the panel turnover traveling rail 92 to demould and turn over the molded vertical mold. Whole work engineering links up, and mixing tank 4 can be on support frame 1 along support frame 1's length direction reciprocating motion, and mixing tank 4 and a plurality of upright mould forming device 7 can carry out the compounding of a pair of many, pour the process, need not to found the mould shaping in the long-time waiting of back once pouring, have improved production efficiency.

In the present invention, unless otherwise explicitly specified or limited, for example, it may be fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A vertical mold production system comprises a tube drawing bench (81) and a plate turnover machine (91), and is characterized by further comprising:

the pipe drawing machine (81) and the plate turnover machine (91) are arranged on two sides of the support frame (1);

the vertical die forming devices (7) are arranged at intervals along the length direction of the support frame (1), the vertical die forming devices (7) are positioned below the support frame (1), and the vertical die forming devices (7) are used for forming dies;

the mixing tank (4) is movably arranged on the support frame (1), the mixing tank (4) moves along the length direction of the support frame (1), the mixing tank (4) is positioned above the vertical die forming device (7), and the mixing tank (4) is used for mixing raw materials and supplying materials to the vertical die forming device (7);

the support (2) is arranged in the middle of the support frame (1);

storage tank (3), storage tank (3) set up in on support (2), storage tank (3) are located the top of compounding jar (4), storage tank (3) are used for storing and to compounding jar (4) provide the raw materials.

2. The vertical mold production system according to claim 1, wherein the mixing tank (4) comprises a tank body (41) movably arranged on the support frame (1), a stirring mechanism (43) rotatably arranged in the tank body (41), and a mixing driving mechanism (42) arranged on the tank body (41) and used for driving the stirring mechanism (43) to rotate;

jar body (41) includes from last straight section of thick bamboo section (411), awl section of thick bamboo section (412) and discharging pipe (413) that connect gradually down, the diameter of awl section of thick bamboo section (412) is steadilyd decrease from last to down, rabbling mechanism (43) include (mixing) shaft (431) that set up along vertical direction, set up rhombus stirring arm (433) subassembly on (mixing) shaft (431), rhombus stirring arm (433) subassembly is located awl section of thick bamboo (412), compounding actuating mechanism (42) are used for driving (mixing) shaft (431) and use its axis as the rotation in center.

3. The vertical mold production system according to claim 2, wherein the rhombic stirring arm (433) assembly comprises four stirring arms (433), the four stirring arms (433) are connected end to form a rhombic frame, the four stirring arms (433) and the stirring shaft (431) are positioned in the same plane, two opposite corners of the four stirring arms (433) are positioned on the stirring shaft (431), and the other two intersection points are connected with the stirring shaft (431) through a connecting shaft (432).

4. The vertical mold production system according to claim 1, wherein the mixing tank (4) is connected with the support frame (1) through a traveling device (5), the traveling device (5) comprises a rail (51) arranged on the support frame (1) along the length direction of the support frame (1), a rotating wheel (53) rotatably arranged on the mixing tank (4) and matched with the rail (51), and a traveling driving mechanism arranged on the support frame (1) and used for driving the rotating wheel (53) to rotate around the central axis thereof.

5. The vertical mold production system according to claim 1, wherein the vertical mold forming device (7) comprises a vertical mold frame (71), at least two partition mechanisms (72) detachably arranged on the vertical mold frame (71), a lower mold mechanism detachably arranged on the vertical mold frame (71) and located between two adjacent partition mechanisms (72), a baffle mechanism (76) arranged at the end part between two adjacent partition mechanisms (72), a mold clamping and pressing link mechanism (74) hinged to one end of the vertical mold frame (71), and a pressing drive mechanism (75) arranged on the vertical mold frame (71) and used for driving the mold clamping and pressing link mechanism (74) to press the partition mechanisms (72).

6. The vertical mold production system according to claim 5, characterized in that the vertical mold frame (71) comprises a frame body (711), and a plurality of mounting holes (712) are uniformly arranged at the top of the outer side wall of the frame body (711) at intervals along the length direction of the frame body (711);

the partition plate mechanism (72) comprises a partition plate body (721) arranged along the width direction of the frame body (711), and a partition plate connecting plate (722) connected with the bottom of the outer side wall of the partition plate body (721), wherein a partition plate connecting hole (723) matched with the mounting hole (712) is formed in the partition plate connecting plate (722);

the lower die mechanism (73) comprises a lower die body (731) arranged in the width direction of the frame body (711), and a lower die connecting plate (732) connected with the bottom of the outer side wall of the lower die body (731), wherein a lower die connecting hole (733) matched with the mounting hole (712) is formed in the lower die connecting plate (732).

7. The vertical mold production system according to claim 6, wherein a groove is formed in the outer side wall of the lower mold body (731) along the length direction of the lower mold body (731), and a rubber sealing tube (734) is arranged in the groove.

8. The vertical mold production system according to claim 5, wherein the clamping and pressing linkage mechanism (74) comprises a first folded plate (741) with one end hinged to the end of the vertical mold frame (71), a second folded plate (742) fixedly connected to the other end of the first folded plate (741), a power plate (744) slidably disposed on the vertical mold frame (71), and a linkage plate with two ends hinged to the second folded plate (742) and the power plate (744), respectively, an included angle between the first folded plate (741) and the second folded plate (742) is an obtuse angle, and the pressing driving mechanism (75) is configured to drive the power plate (744) to slide along the length direction of the vertical mold frame (71).

9. The formwork system of claim 8, wherein the second flap (742) is detachably provided with a tightening bolt (10) at an end thereof remote from the first flap (741).

10. A vertical mould production system according to any one of claims 1 to 9, wherein a waste bucket (6) is located directly below the support (2), the waste bucket (6) being located below the mixing bowl (4).

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