CN213890512U - Heated board push plate device - Google Patents

Abstract

The utility model relates to an heated board push plate device relates to the technical field of heated board production facility, and it is including installing the feeder hopper above the workstation, sliding the feeding frame that sets up on the workstation, installing third pneumatic cylinder on the workstation and installing the promotion subassembly on the workstation, be provided with on the third pneumatic cylinder with the first connecting piece of connection can be dismantled to the feeding frame, the promotion subassembly includes the catch bar, the catch bar with the feeding frame is connected. This application is through the setting of promotion subassembly and first connecting piece for when the third pneumatic cylinder is in during the maintenance, the first connecting piece of staff's accessible removes the third pneumatic cylinder and feeds the frame between be connected, and promotes the feed frame through the promotion subassembly and carry out reciprocating motion, realizes the continuous production to the heated board, further improves the production efficiency of heated board.

Description

Heated board push plate device

Technical Field

The application relates to the technical field of insulation board production equipment, in particular to an insulation board pressing machine.

Background

The perlite heat-insulating board is a novel external wall heat-insulating board integrating heat-insulating, heat-insulating and waterproof functions. The perlite heat-insulating waterproof heat-insulating board is prepared by taking bulk expanded perlite as an aggregate, adding a waterproof agent and a binder, and performing the working procedures of preparation, screening, pressure forming, drying and the like. The perlite insulation board needs a board pressing machine in the process of pressure forming.

The utility model discloses a chinese utility model patent that bulletin number is CN207984069U discloses a heated board briquetting machine, comprising a base plate, the bottom plate top is supported through a set of support column and is connected with the workstation, workstation top bilateral symmetry is equipped with two spouts, each the spout internal slipping is connected with the slider, each slider one side all is equipped with the thrust unit who is used for promoting the slider, two fixedly connected with workbin, each between the slider equal fixedly connected with stand, two on the slider stand top fixedly connected with crossbeam, fixedly connected with pneumatic cylinder on the crossbeam, the piston rod department fixedly connected with clamp plate of pneumatic cylinder, the shaping groove has been seted up to the workstation top.

When carrying out the pressurization shaping during operation of pearlite heated board, the staff starts thrust unit, and cylinder among the thrust unit promotes the slider and takes place the displacement, and the slider drives the stand, workbin and crossbeam take place the displacement, and the crossbeam drives the pneumatic cylinder and takes place the displacement, and pneumatic cylinder and workbin move to shaping groove top, and the material motion in the workbin gets into the shaping inslot, then the pneumatic cylinder promotes the clamp plate and takes place the displacement and extrude the material in the shaping inslot, realizes the pressurization shaping work to the heated board.

With respect to the related art in the above, the inventors consider that there are the following drawbacks: because the cylinder among the thrust unit is located the one end that is close to the material feeding, in the actual production process, it is inevitable to have the partly expanded perlite raw materials to remain on the workstation, along with the increase of equipment live time, probably get into the partly expanded perlite granule in the air intake system of cylinder, and then exert an influence to the normal work of cylinder, consequently, the staff need regularly clear up and maintain the cylinder, but when the cylinder was in during the maintenance, above-mentioned equipment can't transport the material in the feeding frame to the shaping inslot, and then influence the production work of heated board, thereby the production efficiency of heated board has been reduced.

SUMMERY OF THE UTILITY MODEL

In order to improve and can't transport the material in the feeding frame to the shaping inslot during the maintenance cylinder, and then lead to the problem that can't carry out the production work of heated board, this application provides a heated board push plate device.

The application provides a pair of heated board push plate device adopts following technical scheme:

the utility model provides a heated board push plate device, includes the feeder hopper of installing above the workstation, slides and sets up feeding frame on the workstation, install the third pneumatic cylinder on the workstation and install the promotion subassembly on the workstation, be provided with on the third pneumatic cylinder with the first connecting piece of connection can be dismantled to the feeding frame, the promotion subassembly includes the catch bar, the catch bar with the feeding frame is connected.

Through adopting above-mentioned technical scheme, when the third pneumatic cylinder is in during the maintenance, the material is from the feeder hopper to the feeding frame internal motion, the staff makes the third pneumatic cylinder take place to break away from with the feeding frame through adjusting first connecting piece, then the staff promotes the catch bar, the catch bar drives the feeding frame and takes place the displacement, the material in the feeding frame further transports to discharging device department for still can carry out the production work of heated board during the maintenance third pneumatic cylinder, improve the production efficiency of heated board.

Optionally, the first connecting member comprises a first connecting plate and a mounting bolt, the first connecting plate is fixedly connected to the piston rod of the third hydraulic cylinder, and the first connecting plate is fixedly mounted on the feeding frame through the mounting bolt.

Through adopting above-mentioned technical scheme, the setting of first linkage plate and construction bolt for the staff is convenient when the third pneumatic cylinder is in maintenance state, removes the locking between third pneumatic cylinder and the feeding frame, thereby makes things convenient for the staff to manually promote the feeding frame and takes place the displacement and carry out the production work of heated board.

Optionally, the pushing assembly further comprises a support installed on the workbench and a first connecting rod hinged to the pushing rod, a hinged shaft is fixedly connected to the side wall of one side of the pushing rod, the hinged shaft is rotatably connected with the support, an opening is formed in the first connecting plate, and the first connecting rod penetrates through the opening and is hinged to the feeding frame.

Through adopting above-mentioned technical scheme, when the third pneumatic cylinder is in maintenance status, the staff takes place to rotate the articulated moving axis of catch bar, and the catch bar drives first connecting rod and takes place the displacement, because the both ends of first connecting rod articulate with catch bar, feeding frame respectively, and the length of first connecting rod is fixed, therefore first connecting rod promotes the feeding frame and takes place the displacement, and the material in the feeding frame is to discharge device department motion, realizes the production work to the heated board.

Optionally, still including installing in the connection platform of workstation one side, connect the bench and install the shaping frame, connect the bench and install first pneumatic cylinder, install on the piston rod of first pneumatic cylinder be used for with the first catch plate of shaping frame cooperation of sliding, connect the top of platform and install the fourth pneumatic cylinder, install on the piston rod of fourth pneumatic cylinder be used for with the shaping frame complex second catch plate of sliding.

Through adopting above-mentioned technical scheme, when needs carry out processing work to expanded perlite, first pneumatic cylinder promotes the first bottom that promotes the board displacement to the shaping frame, then the fourth pneumatic cylinder promotes the second and promotes the board displacement to the shaping frame in and compress expanded perlite, heated board compression shaping back, the fourth pneumatic cylinder drives the second catch plate and upwards displaces, first pneumatic cylinder promotes the first catch plate and upwards displaces, heated board motion after the first catch plate promotion shaping is to connecting the bench.

Optionally, discharging device is installed to joint table one side, discharging device is including setting up in the mount table of workstation one side, installing the infrared ray sensor on the workstation and installing in the first pneumatic cylinder of workstation downside, install first mounting panel on the mount table, the mount table bottom is installed and is used for promoting the lifting unit that the mount table goes up and down, lifting unit includes the second pneumatic cylinder, the second pneumatic cylinder is installed the mount table below, the piston rod of second pneumatic cylinder with the mount table bottom surface is connected.

By adopting the technical scheme, when the heat insulation plate needs to be discharged, the first hydraulic cylinder pushes the processed heat insulation plate to displace along the vertical upward direction, and then the heat insulation plate displaces along the horizontal direction under the action of the feeding frame; simultaneously the second pneumatic cylinder promotes the mount table and moves along vertical ascending direction, and the top surface of first mounting panel is kept level with infrared ray sensor's detection height on the mount table until the heated board moves to first mounting panel top surface under the effect of the driving force of feeding frame.

Then infrared sensor with signal transmission and control second pneumatic cylinder, the second pneumatic cylinder drives the mount table decline for the top surface of loading the heated board on first mounting panel keeps level with infrared sensor's detection height, so circulation is reciprocal, realizes piling up the work in order of polylith heated board.

Optionally, the lifting assembly further comprises a threaded rod, a polished rod, a first gear, a second gear and a driving shaft, the bottom surface of the mounting table is detachably connected with a first connecting plate which is fixedly connected with a piston rod of the second hydraulic cylinder, the bottom end of the workbench is connected with two second mounting plates in a sliding way, the bottom ends of the threaded rod and the polished rod are respectively and rotatably connected on the two second mounting plates, the threaded rod passes through the first connecting plate and is provided with a connecting piece which is detachably connected with the mounting table, the polished rod penetrates through the first connecting plate to be connected with the mounting table in a sliding manner, the driving shaft is rotationally connected to the workbench, the first gear is coaxially connected with the driving shaft, the second gear is coaxially connected with the threaded rod, the first gear is meshed with the second gear, and the first connecting plate is provided with a mounting hole for the threaded rod and the polished rod to pass through.

Through adopting above-mentioned technical scheme, when devices such as second pneumatic cylinder broke down, the heated board can't carry out ejection of compact work through full-automatic mode, the staff can be followed the mount table bottom and dismantled first connecting plate this moment, then utilize the connecting piece to be connected the threaded rod with the mount table, the rotation drive shaft, the drive shaft drives first gear and takes place to rotate, first gear drives and takes place to rotate rather than the second gear of meshing, the second gear drives the threaded rod and takes place to rotate, the mount table is at the threaded rod, the effect of polished rod and connecting piece is followed vertical direction and is taken place to go up and down, realize piling up the work in order to the heated board.

When the discharging device can normally operate, the connection between the connecting piece and the mounting table is removed, the influence of the threaded rod on the lifting operation of the mounting table is avoided when the discharging device normally operates, the second hydraulic cylinder pushes the mounting table to lift along the vertical direction, and the ordered stacking operation of the insulation boards is realized.

Optionally, the feeding device further comprises a first driving assembly and a second driving assembly, the first driving assembly is used for driving the driving shaft to rotate, the first driving assembly is connected with the feeding frame, the first driving assembly is used for driving the second driving assembly to move according to the reciprocating motion of the feeding frame, the second driving assembly is connected with the driving shaft, and the second driving assembly is used for driving the driving shaft to rotate according to the motion of the first driving assembly.

Through adopting above-mentioned technical scheme, when needs carry out manual feeding and ejection of compact process, the staff drives the feeding frame through the catch bar and carries out reciprocating motion, the reciprocating motion of feeding frame transmits momentum to first drive assembly department, first drive assembly rethread momentum transmission realizes the control to second drive assembly, second drive assembly further controls the drive shaft again and takes place to rotate, realize the decline to the mount table height through the drive shaft at last, and then make the feeding frame through every through a reciprocating motion, the mount table can descend the height of a heated board, and then make second heated board ejection of compact after can pile up automatically on first heated board, thereby realize piling up in order to the heated board.

Optionally, the first driving assembly comprises a transmission rod, a transmission part, a sliding track arranged on the side wall of the workbench, a sliding block connected in the sliding track in a sliding mode, and a rotating shaft connected to the workbench in a rotating mode, wherein two ends of the transmission rod are respectively connected with the feeding frame and the sliding block, two ends of the transmission part are respectively connected with the sliding block and the rotating shaft, and the transmission part is used for driving the rotating shaft to rotate according to the reciprocating motion of the sliding block.

Through adopting above-mentioned technical scheme, when the feeding frame is carrying out reciprocating motion, the transfer line on the feeding frame drives the sliding block and carries out reciprocating motion in the track that slides, and the driving medium further drives the axis of rotation with the momentum that sliding block reciprocating motion produced and takes place to rotate, and the momentum rethread second drive assembly that the axis of rotation produced is to drive shaft department transmission, realizes the control to drive shaft pivoted.

Optionally, the second driving assembly includes a third bevel gear fixedly mounted on the rotating shaft, a worm rotatably connected in the workbench, a fourth bevel gear fixedly mounted on the worm, and a worm wheel fixedly mounted on the driving shaft, the third bevel gear is engaged with the fourth bevel gear, and the worm wheel is engaged with the worm.

Through adopting above-mentioned technical scheme, when the feeding frame is carrying out reciprocating motion, the feeding frame drives the axis of rotation through first drive assembly and takes place to rotate, and the axis of rotation drives third bevel gear and takes place to rotate, and third bevel gear drives the fourth bevel gear rather than meshing and takes place to rotate, and fourth bevel gear drives the worm and takes place to rotate, and the worm drives rather than the worm wheel of meshing and takes place to rotate, and the worm wheel drives the drive shaft and takes place to rotate, and the lift to the mount table height is realized to the drive shaft at last.

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

1. through the arrangement of the pushing assembly and the first connecting piece, when the third hydraulic cylinder is in a maintenance period, a worker can release the connection between the third hydraulic cylinder and the feeding frame through the first connecting piece and push the feeding frame to reciprocate through the pushing assembly, so that the continuous production of the insulation board is realized, and the production efficiency of the insulation board is further improved;

2. through the arrangement of the lifting assembly, the first hydraulic cylinder, the infrared sensor and the mounting table, workers do not need to manually stack the heat-insulation plates, the discharging device can automatically realize the ordered stacking work of the heat-insulation plates, the workload of the workers is further reduced, and the working efficiency of the workers is improved;

3. through the arrangement of the first driving assembly, the second driving assembly and the lifting assembly, when workers manually feed the insulation boards through the pushing device, momentum generated when the first driving assembly and the second driving assembly reciprocate the feeding frame is transmitted to the lifting assembly, the mounting table is controlled to descend through the lifting assembly, the second insulation board can be automatically stacked on the first insulation board after being discharged, and the insulation boards are sequentially stacked.

Drawings

Fig. 1 is a schematic perspective view of a feeding device of a plate press according to an embodiment of the present application;

FIG. 2 is a schematic perspective view of the first drive assembly shown in FIG. 1;

FIG. 3 is a schematic cross-sectional view of the work bench of FIG. 1 in a vertical direction;

FIG. 4 is a schematic perspective view of the press machine shown in FIG. 1;

FIG. 5 is a schematic perspective view of the discharge device shown in FIG. 4;

FIG. 6 is a cross-sectional structural view of the drive shaft shown in FIG. 5;

FIG. 7 is a cross-sectional structural schematic view of the first shifting board shown in FIG. 4;

fig. 8 is a schematic sectional structure view of the mount table shown in fig. 5.

Description of reference numerals: 100. a work table; 110. a feed hopper; 120. a third hydraulic cylinder; 130. a feeding frame; 140. a connecting table; 150. forming a frame; 160. a first hydraulic cylinder; 170. a first push plate; 180. a column; 190. a placing table; 200. a fourth hydraulic cylinder; 210. a second pusher plate; 220. a discharging frame; 230. an installation table; 240. an infrared sensor; 250. a second hydraulic cylinder; 260. a first connecting plate; 270. fixing the bolt; 280. carrying blocks; 290. a first mounting plate; 300. a pillar; 310. a drive shaft; 320. a first gear; 330. connecting holes; 340. a butting block; 350. a sliding hole; 360. a control lever; 370. a connecting rod; 380. a butt joint groove; 390. a second mounting plate; 400. a spring; 410. a first sliding groove; 420. a first slide plate; 430. a threaded rod; 440. a polish rod; 450. a second gear; 460. a second sliding groove; 470. mounting grooves; 480. a second connecting plate; 490. locking the bolt; 500. a connector tile; 510. installing a bolt; 520. a support; 530. hinging a shaft; 540. a first link; 550. opening a hole; 560. a sliding track; 570. a sliding block; 580. a through hole; 590. a transmission rod; 600. a rotating shaft; 610. a ratchet wheel; 620. a guide ring; 630. a first pawl; 640. a second pawl; 650. a first guide bar; 660. a second guide bar; 670. a third bevel gear; 680. a fourth bevel gear; 690. a worm; 700. a chamber; 710. a worm gear; 720. a push rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses heated board push plate device. Referring to fig. 1, the plate press includes a table 100, a feeding device installed on the table 100, and a discharging device installed at one side of the table 100, the feeding device includes a feeding hopper 110, and the feeding hopper 110 is fixedly connected to the table 100. The feeding device further comprises a third hydraulic cylinder 120 fixedly connected to the top surface of the work table 100, the third hydraulic cylinder 120 being located at one side of the feeding hopper 110. The feeding device further comprises a feeding frame 130 connected to the top surface of the workbench 100 in a sliding manner, and a first connecting piece is arranged between the feeding frame 130 and the third hydraulic cylinder 120.

Referring to fig. 1, the first connecting member includes a first engaging plate 500 fixedly connected to a piston rod of the third hydraulic cylinder 120, four mounting bolts 510 are threadedly connected to the first engaging plate 500, and the first engaging plate 500 is fixedly mounted to a side wall of the feed frame 130 by means of the mounting bolts 510.

Referring to fig. 1, the feeding device further includes a pushing assembly installed on the workbench 100, the pushing assembly includes a bracket 520 fixedly connected to the workbench 100, a hinge shaft 530 is rotatably connected to the bracket 520, and a pushing rod 720 is fixedly connected to one end of the hinge shaft 530 far away from the bracket 520. One end of the push rod 720 close to the feeding frame 130 is hinged with the first link 540, and the distance between one end of the push rod 720 far away from the first link 540 and the hinge shaft 530 is far greater than the distance between one end of the push rod 720 close to the first link 540 and the hinge shaft 530. The first connecting plate 500 is formed with an opening 550, and an end of the first connecting rod 540 away from the pushing rod 720 passes through the opening 550 and is hinged to a side wall of the feeding frame 130.

Referring to fig. 1, the feeding device further includes a first driving assembly and a second driving assembly, the first driving assembly includes a sliding rail 560, the sliding rail 560 is fixedly connected to the side wall of the workbench 100, a sliding block 570 is connected to the sliding rail 560 in a sliding manner, and baffles for limiting the sliding block 570 from falling off from two sides are formed on two sides of the sliding rail 560. The top surface of the sliding rail 560 is provided with a through hole 580, the side wall of the feeding frame 130 is fixedly connected with a transmission rod 590, one end of the transmission rod 590 is fixedly connected with the side wall of the feeding frame 130, and the other end of the transmission rod 590 is connected in the through hole 580 in a sliding manner and fixedly connected with the sliding block 570.

Referring to fig. 1 and 2, a rotation shaft 600 is rotatably connected to a sidewall of the work table 100 below the feeding hopper 110, and a transmission member is disposed between the rotation shaft 600 and the sliding block 570. The driving medium includes ratchet 610, one end of axis of rotation 600 stretches out the lateral wall of workstation 100 and with ratchet 610 fixed connection, the both sides that lie in ratchet 610 on the axis of rotation 600 all rotate and are connected with guide ring 620, the one end that axis of rotation 600 is kept away from to two guide rings 620 rotates respectively and is connected with first pawl 630 and second pawl 640, the torsional spring is all installed between first pawl 630 and a guide ring 620 and between second pawl 640 and another guide ring 620, the tip that first pawl 630 keeps away from the pin joint is formed with the hook-shaped portion, the hook-shaped portion is used for with ratchet 610 joint, the torsional spring is used for promoting first pawl 630 and second pawl 640 and supports ratchet 610 tightly.

Referring to fig. 1 and 2, a first guide rod 650 and a second guide rod 660 are hinged to the side walls of two opposite sides of the sliding block 570, one end of the first guide rod 650, which is far away from the sliding block 570, is hinged to one guide ring 620, and one end of the second guide rod 660, which is far away from the sliding block 570, is hinged to the other guide ring 620.

Referring to fig. 3, the second driving assembly includes two third bevel gears 670 fixedly installed on the rotating shaft 600, a chamber 700 is formed in the working table 100, two worms 690 are rotatably connected to the chamber 700 in the vertical direction, and fourth bevel gears 680 engaged with the third bevel gears 670 are fixedly connected to the top ends of the worms 690. Two driving shafts 310 are rotatably connected to the bottom end of the working table 100, and worm wheels 710 engaged with the worm 690 are fixedly connected to the ends of the two driving shafts 310 extending into the chamber 700.

Referring to fig. 4, a connecting table 140 is fixedly connected to one side of the workbench 100 away from the third hydraulic cylinder 120, four forming frames 150 are fixedly connected to the connecting table 140, two first hydraulic cylinders 160 are fixedly connected to the bottom end of the connecting table 140, and first pushing plates 170 are fixedly connected to piston rods of the two first hydraulic cylinders 160. Four upright columns 180 are fixedly connected to the connecting table 140, a mounting table 190 is fixedly connected to the top ends of the upright columns 180, a fourth hydraulic cylinder 200 is fixedly connected to the top surface of the mounting table 190, and a piston rod of the fourth hydraulic cylinder 200 penetrates through the mounting table 190 and is fixedly connected with a second push plate 210.

Referring to fig. 4, discharging device includes a discharging frame 220, the discharging frame 220 is located on one side of the workbench 100, which is fixedly provided with the forming frame 150, the discharging frame 220 is arranged in a hollow manner, the mounting table 230 is connected in the discharging frame 220 in a sliding manner along the vertical direction, a lifting assembly for driving the mounting table 230 to lift is installed in the discharging frame 220, and the inner wall of the top end of the mounting frame is fixedly connected with an infrared sensor 240 along the vertical direction.

Referring to fig. 5, the lifting assembly includes a second hydraulic cylinder 250, the second hydraulic cylinder 250 is fixedly connected to the bottom end of the discharging frame 220, a first connecting plate 260 is fixedly connected to a piston rod of the second hydraulic cylinder 250, a fixing bolt 270 is threadedly connected to the first connecting plate 260, and the first connecting plate 260 is fixedly connected to the bottom surface of the mounting platform 230 through the fixing bolt 270. Four carrier blocks 280 are fixedly connected to the top surface of the mounting table 230, a first mounting plate 290 is detachably connected to the top surface of the mounting table 230, four pillars 300 are fixedly connected to the bottom end of the first mounting plate 290, and the bottom surface of the first mounting plate 290 abuts against the top surface of the carrier blocks 280 so that the pillars 300 are away from the top surface of the mounting table 230.

Referring to fig. 5 and 6, two driving shafts 310 are rotatably coupled to the table 100 (see fig. 4) in a horizontal direction. The driving shaft 310 is detachably connected with a first gear 320, one end of the driving shaft 310, which is far away from the workbench 100 (see fig. 4), is radially provided with a connecting hole 330, and two abutting blocks 340 are slidably connected in the connecting hole 330. The end part of one end of the driving shaft 310 far away from the workbench 100 is axially provided with a sliding hole 350 connected with the connecting hole 330, the sliding hole 350 is internally connected with a control rod 360 in a sliding manner, one end of the control rod 360 near the connecting hole 330 is hinged with two connecting rods 370, and one end of each connecting rod 370 far away from the control rod 360 is respectively hinged with each abutting block 340. An abutting groove 380 which is matched with the end part of the abutting block 340 in a clamping way is formed on the inner wall of the first gear 320.

Referring to fig. 7, the bottom end of the discharging frame 220 is connected with two second mounting plates 390 in a sliding manner, the two second mounting plates 390 are both provided with telescopic parts, each telescopic part comprises a spring 400, the second mounting plate 390 is provided with a first sliding groove 410 along the horizontal direction, one end of the spring 400 is fixedly connected with the inner wall of the first sliding groove 410, the other end of the spring 400 is fixedly connected with a first sliding plate 420, and the first sliding plate 420 partially extends out of the first sliding groove 410.

Referring to fig. 4 and 8, the two first sliding plates 420 are rotatably connected with a threaded rod 430 and a polished rod 440 respectively, the bottom ends of the threaded rod 430 and the polished rod 440 are fixedly connected with a second gear 450 engaged with the first gear 320, the bottom surface of the mounting table 230 is provided with a second sliding groove 460 and a mounting groove 470, the top end of the threaded rod 430 is slidably connected in the mounting groove 470, and the polished rod 440 is slidably connected in the second sliding groove 460. The top end of the threaded rod 430 is provided with a connecting piece, the connecting piece comprises a second connecting plate 480, the second connecting plate 480 is connected to the top end of the threaded rod 430 in a sliding mode, and the second connecting plate 480 is connected with a locking bolt 490 in a threaded mode and is installed in the installation groove 470 through the locking bolt 490. The second connecting plate 480 is also provided with a telescopic member, and the threaded rod 430 is in threaded connection with the first sliding plate 420.

Referring to fig. 8, the top end of the polish rod 440 is also provided with a connecting element and a telescopic element, the top end of the polish rod 440 is connected with the first sliding plate 420 in a circumferential rotation manner and is axially fixed, the first connecting plate 260 is provided with two mounting holes for the second connecting plate 480 to pass through (see fig. 5), and the polish rod 440 and the threaded rod 430 pass through the mounting holes and are connected with the mounting table 230 in a sliding manner.

In an initial state, the feeding frame 130 is located below the feeding hopper 110 and the first pushing plate 170 is flush with the bottom surface of the forming frame 150, the material enters the feeding frame 130 from the feeding hopper 110, the feeding frame 130 moves under the pushing of the third hydraulic cylinder 120 until the feeding frame 130 moves to the upper side of the forming frame 150, and the material in the feeding frame 130 falls into the forming frame 150. Fourth pneumatic cylinder 200 promotes second catch bar 210 and descends and compress tightly the material in shaping frame 150, accomplishes and compresses tightly the work back, and fourth pneumatic cylinder 200 drives second catch bar 210 and rises, and first pneumatic cylinder 160 promotes first catch bar 170 and rises, and first catch bar 170 promotes the heated board after the shaping and rises, then the heated board under the promotion of feed frame 130 to discharging device motion.

The application principle of the heated board push plate device of the embodiment of the application is as follows:

when needs carry out manual feeding and ejection of compact work to the heated board, the staff takes place the rotation with catch bar 720 around articulated shaft 530, and catch bar 720 drives first connecting rod 540 and takes place the displacement, because the both ends of first connecting rod 540 are articulated with catch bar 720, feeding frame 130 respectively, and the length of first connecting rod 540 is fixed, therefore first connecting rod 540 promotes feeding frame 130 and carries out reciprocating motion. The material in the feeding hopper 110 enters the feeding frame 130 and then moves to the forming frame 150 along with the feeding frame 130, until the feeding frame 130 moves to the upper side of the forming frame 150, the expanded perlite in the feeding frame 130 falls into the forming frame 150.

The fourth hydraulic cylinder 200 pushes the second pushing plate 210 to descend and compresses the expanded perlite in the forming frame 150, after the compressing operation is completed, the fourth hydraulic cylinder 200 drives the second pushing plate 210 to ascend, the first hydraulic cylinder 160 pushes the first pushing plate 170 to ascend, the first pushing plate 170 pushes the formed insulation board to ascend, and then the insulation board moves towards the mounting table 230 under the pushing of the feeding frame 130.

Meanwhile, the reciprocating motion of the feeding frame 130 drives the transmission rod 590 to reciprocate, the transmission rod 590 drives the sliding block 570 to reciprocate in the sliding track 560, the sliding block 570 drives the first guide rod 650 and the second guide rod 660 to change the distance between the first guide rod and the ratchet 610, the first pawl 630 and the hook-shaped part on the first guide rod 650 pull the ratchet 610 to rotate, the second pawl 640 on the second guide rod 660 pushes the ratchet 610 to rotate, the ratchet 610 further drives the rotating shaft 600 to rotate, and one reciprocating motion of the feeding frame 130 drives the rotating shaft 600 to rotate in the same direction for one circle.

The rotating shaft 600 drives the third bevel gear 670 to rotate, the third bevel gear 670 drives the fourth bevel gear 680 meshed with the third bevel gear to rotate, the fourth bevel gear 680 drives the worm 690 to rotate, the worm 690 drives the worm wheel 710 meshed with the worm gear to rotate, the worm wheel 710 drives the driving shaft 310 to rotate, the driving shaft 310 drives the first gear 320 to rotate, the first gear 320 drives the second gear 450 meshed with the first gear to rotate, the second gear 450 drives the threaded rod 430 to rotate, the first sliding plate 420 changes the position on the threaded rod 430, the first sliding plate 420 further pushes the mounting table 230 to descend along the vertical direction, and therefore automatic discharging stacking work of the heat insulation plate is achieved.

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 heated board push plate device which characterized in that: including install feeder hopper (110) above workstation (100), slide and set up feeding frame (130) on workstation (100), install third pneumatic cylinder (120) on workstation (100) and install the promotion subassembly on workstation (100), be provided with on third pneumatic cylinder (120) with feeding frame (130) can dismantle the first connecting piece of connection, the promotion subassembly includes catch bar (720), catch bar (720) with feeding frame (130) are connected.

2. The heated board sheeting press of claim 1 wherein: the first connecting member comprises a first connecting plate (500) and a mounting bolt (510), the first connecting plate (500) is fixedly connected to a piston rod of the third hydraulic cylinder (120), and the first connecting plate (500) is fixedly mounted on the feeding frame (130) through the mounting bolt (510).

3. The heated board sheeting press of claim 2 wherein: the pushing assembly further comprises a support (520) installed on the workbench (100) and a first connecting rod (540) hinged to the pushing rod (720), a hinged shaft (530) is fixedly connected to one side wall of the pushing rod (720), the hinged shaft (530) is rotatably connected with the support (520), an opening (550) is formed in the first connecting plate (500), and the first connecting rod (540) penetrates through the opening (550) and is hinged to the feeding frame (130).

4. The heated board sheeting press of claim 1 wherein: still including installing in connection platform (140) of workstation (100) one side, install shaping frame (150) on connecting platform (140), install first pneumatic cylinder (160) on connecting platform (140), install on the piston rod of first pneumatic cylinder (160) be used for with shaping frame (150) first slurcam (170) of the complex that slides, fourth pneumatic cylinder (200) are installed on the top of connecting platform (140), install on the piston rod of fourth pneumatic cylinder (200) be used for with shaping frame (150) second slurcam (210) of the complex that slides.

5. The heated board sheeting press of claim 4 wherein: connect platform (140) one side to install discharging device, discharging device is including setting up in mount table (230) of workstation (100) one side, installing infrared ray sensor (240) on workstation (100) and installing in first pneumatic cylinder (160) of workstation (100) downside, install first mounting panel (290) on mount table (230), install and be used for promoting mount table (230) lift assembly that goes up and down, lift assembly includes second pneumatic cylinder (250), second pneumatic cylinder (250) are installed mount table (230) below, the piston rod of second pneumatic cylinder (250) with mount table (230) bottom surface is connected.

6. The heated board sheeting press of claim 5 wherein: the lifting assembly further comprises a threaded rod (430), a polished rod (440), a first gear (320), a second gear (450) and a driving shaft (310), a first connecting plate (260) is detachably connected to the bottom surface of the mounting table (230), the first connecting plate (260) is fixedly connected with a piston rod of the second hydraulic cylinder (250), two second mounting plates (390) are connected to the bottom end of the workbench (100) in a sliding mode, the bottom ends of the threaded rod (430) and the polished rod (440) are respectively and rotatably connected to the two second mounting plates (390), the threaded rod (430) penetrates through the first connecting plate (260) and is provided with a connecting piece detachably connected with the mounting table (230), the polished rod (440) penetrates through the first connecting plate (260) and is slidably connected with the mounting table (230), and the driving shaft (310) is rotatably connected to the workbench (100), the first gear (320) is coaxially connected with the driving shaft (310), the second gear (450) is coaxially connected with the threaded rod (430), the first gear (320) is meshed with the second gear (450), and a mounting hole for the threaded rod (430) and the polished rod (440) to penetrate through is formed in the first connecting plate (260).

7. The heated board sheeting press of claim 6 wherein: the feeding device is characterized by further comprising a first driving assembly and a second driving assembly, wherein the first driving assembly and the second driving assembly are used for driving the driving shaft (310) to rotate, the first driving assembly is connected with the feeding frame (130), the first driving assembly is used for driving the second driving assembly to move according to the reciprocating motion of the feeding frame (130), the second driving assembly is connected with the driving shaft (310), and the second driving assembly is used for driving the driving shaft (310) to rotate according to the motion of the first driving assembly.

8. The heated board sheeting press of claim 7 wherein: first drive assembly includes transfer line (590), driving medium, installs slip track (560) on workstation (100) lateral wall, slides and connects and is in slip piece (570) in slip track (560) and rotation axis (600) of connecting on workstation (100) rotate, the both ends of transfer line (590) respectively with feeding frame (130) with slip piece (570) are connected, the both ends of driving medium respectively with slip piece (570) with rotation axis (600) are connected, the driving medium is used for the basis the reciprocating motion drive of slip piece (570) rotation axis (600) take place to rotate.

9. The heated board sheeting press of claim 8 wherein: the second driving assembly comprises a third bevel gear (670) fixedly mounted on the rotating shaft (600), a worm (690) rotatably connected in the workbench (100), a fourth bevel gear (680) fixedly mounted on the worm (690), and a worm wheel (710) fixedly mounted on the driving shaft (310), wherein the third bevel gear (670) is meshed with the fourth bevel gear (680), and the worm wheel (710) is meshed with the worm (690).

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