CN214136282U - Pressing device for cutting insulation board - Google Patents

Abstract

The application relates to a closing device that heated board cutting was used belongs to heated board processing equipment's field, and the heated board cutting machine includes transport mechanism, and the last cutting assembly that has put of transport mechanism, cutting assembly include door type frame, at least one side of door type frame is provided with closing device, and closing device is connected with along the gliding compression roller of vertical direction including fixing the support frame on door type frame on the support frame. This application stability when improving the heated board cutting improves product cutting effect.

Description

Pressing device for cutting insulation board

Technical Field

The application relates to the field of insulation board processing equipment, in particular to a pressing device for insulation board cutting.

Background

The heat-insulating board is a hard foamed plastic board made up by using polystyrene resin as raw material, adding other raw auxiliary materials and polymer, heating and mixing them, at the same time injecting catalyst, then extruding and forming. After being processed into blocks, the block-shaped heat-insulating blocks need to be cut into plates with certain thickness.

The Chinese utility model patent with the existing authorization publication number of CN209954920U discloses a cutting device for a cement foaming insulation board, which comprises a cutting component. Cutting platform and drive assembly, cutting assembly include line of cut support, line of cut, first slide rail, second slide rail and slider, and cutting platform changes roller, feed end and discharge end including the transmission, and cutting platform is used for transmitting the heated board, the line of cut support include two parallels and with cutting platform vertically a supporting beam, two supporting beams be provided with respectively with cutting bed looks vertically second slide rail, the line of cut both ends are through slider and second slide rail swing joint. When the insulation board is conveyed on the cutting platform, the insulation board is sawed by the cutting lines, the distance between the two cutting lines is adjusted, and the thicknesses of the cut insulation boards are different.

With respect to the related art in the above, the inventor believes that when the foam block is cut, the foam board may shake, and may be unstable during cutting, which affects the quality of the cut insulation board.

SUMMERY OF THE UTILITY MODEL

In order to improve the stability when heated board cutting, improve product cutting effect, this application provides a closing device that heated board cutting was used.

The application provides a pair of closing device that heated board cutting was used adopts following technical scheme:

the utility model provides a closing device that heated board cutting used, heated board cutting machine include transport mechanism, and the last cutting subassembly that has put of transport mechanism, cutting assembly include door type frame, at least one side of door type frame is provided with closing device, and closing device is connected with along the gliding compression roller of vertical direction including fixing the support frame on door type frame on the support frame.

Through adopting above-mentioned technical scheme, when the heat preservation piece from transport mechanism in the time of conveying door type frame below, the compression roller slides to the direction that is close to the heat preservation piece, and the compression roller is pressed on the heat preservation piece, makes the heat preservation piece more stable when being cut by cutting assembly, improves heated board cutting effect.

Optionally, a plurality of anti-slip rings are arranged on the compression roller, and the surfaces of the anti-slip rings are rough.

Through adopting above-mentioned technical scheme, the slip-resistant ring supports the upper surface at the heat preservation piece, increases the friction between compression roller and the heat preservation piece, makes the heat preservation piece more stable when the cutting.

Optionally, the anti-slip ring is detachably connected with the compression roller.

Through adopting above-mentioned technical scheme, the antiskid ring can be dismantled and removable, improves practicality and convenience in use.

Optionally, a sliding groove is formed in the surface of the compression roller, a convex block is fixed on the inner ring of the anti-slip ring, the convex block is inserted into the sliding groove, the convex block is connected with the sliding groove in a sliding mode, and the anti-slip ring is connected to the compression roller in a threaded mode.

Through adopting above-mentioned technical scheme, when installing the antiskid ring on to the compression roller, the lug is spacing in the spout, and the antiskid ring is difficult to along the radial rotation of compression roller, makes the antiskid ring more stable, improves the convenience when installing to be convenient for change.

Optionally, the compression roller is rotatably connected to the wheel carrier, the wheel carrier is provided with a plurality of compression rollers with parallel axes, and the anti-slip rings connected to the compression rollers on the same wheel carrier are arranged in a staggered manner.

Through adopting above-mentioned technical scheme, a plurality of compression rollers and insulating block contact, increase the compression degree of compression roller to the insulating block to anti-skidding ring looks alternate setting makes insulating block top surface multiple point all can be compressed tightly.

Optionally, a motor is fixed on the support frame, a vertical lead screw is fixed at an output end of the motor, the wheel carrier is connected to the connecting frame, a sliding plate is fixed on the connecting frame, a sliding block is fixed on the sliding plate, and the sliding block is slidably connected with the lead screw.

Through adopting above-mentioned technical scheme, the motor drives the lead screw and rotates, and the slider slides on the lead screw, therefore the link drives the wheel carrier and slides from top to bottom, and driving motor rotates and to make the wheel carrier be close to or keep away from the collets, and when the height of collets is different, can adjust the height of compression roller.

Optionally, a limiting rod is fixed on the support frame, and the limiting rod penetrates through the sliding plate and is connected with the sliding plate in a sliding manner.

Through adopting above-mentioned technical scheme, when lead screw drive link motion, the sliding plate reinforcing lead screw and sliding plate sliding connection's stability, then the link drives more stable when the wheel carrier slides.

Optionally, an air cylinder is fixed at the bottom of the connecting frame, the output end of the air cylinder faces downwards, and the wheel frame is fixed at the output end of the air cylinder.

Through adopting above-mentioned technical scheme, when turbine and compression roller were close to the insulating block top surface, cylinder drive compression roller hugged closely the top surface at the insulating block, and the precision improves when making the compression roller adjust, and it is appropriate to the insulating block degree of compressing tightly in spacing to the insulating block.

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

1. the compression roller slides towards the direction close to the heat insulation block, and is pressed on the heat insulation block, so that the heat insulation block is more stable when being cut by the cutting assembly, and the cutting effect of the heat insulation plate is improved;

2. the anti-slip ring is abutted to the upper surface of the heat-insulating block, so that the friction between the compression roller and the heat-insulating block is increased, and the heat-insulating block is more stable during cutting.

Drawings

FIG. 1 is a schematic overall structure diagram of the first embodiment;

FIG. 2 is a schematic structural diagram of a driving device according to a first embodiment;

FIG. 3 is a schematic structural diagram of a wheel frame according to an embodiment;

FIG. 4 is a schematic structural view of a wheel frame in the second embodiment;

fig. 5 is a partially enlarged schematic view of a portion a in fig. 4.

Description of reference numerals: 1. a transport mechanism; 2. a cutting assembly; 21. a gantry frame; 22. cutting a line; 3. a pressing device; 31. a support frame; 311. a cross bar; 312. a vertical rod; 313. a base plate; 32. a drive mechanism; 321. a motor; 322. a lead screw; 323. a limiting rod; 324. a slider; 325. a cylinder; 33. a connecting frame; 34. a sliding plate; 35. a wheel carrier; 36. a compression roller; 361. a chute; 37. an anti-slip ring; 371. A bump; 372. a screw.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses closing device that heated board cutting was used.

Example one

Referring to fig. 1, the insulation board cutting machine comprises a conveying mechanism 1, a cutting assembly 2 is arranged on the conveying mechanism 1, the cutting assembly 2 comprises a door-shaped frame 21, and a plurality of transverse cutting lines 22 are arranged on the door-shaped frame 21. The pressing device 3 is arranged on the door-shaped frame 21, and when the heat preservation block passes below the door-shaped frame 21, the pressing device 3 presses the heat preservation block.

Referring to fig. 1 and 2, the pressing device 3 includes a support frame 31 fixed on the top of the door frame 21, the support frame 31 includes a cross bar 311, a vertical bar 312 is fixed on each end of the cross bar 311, and a bottom plate 313 is fixed on the top end of the vertical bar 312. The side of each vertical rod 312 far away from the door-shaped frame 21 is fixed with a compression roller 36 for compressing the heat preservation block and a driving mechanism 32.

The driving mechanism 32 includes a motor 321 fixed on the bottom plate 313, and a screw 322 is fixed at an output end of the motor 321. Two limiting rods 323 are further fixed on the bottom plate 313, and the screw 322 is located between the two limiting rods 323. A connecting frame 33 which slides along the vertical direction is arranged on one side of the vertical rod 312, a sliding plate 34 is respectively fixed at the upper end and the lower end of the connecting frame 33, a sliding block 324 is fixed on the sliding plate 34, and the sliding block 324 is in sliding connection with the lead screw 322. When the motor 321 drives the lead screw 322 to rotate, the sliding block 324 slides vertically along the lead screw 322, and the connecting frame 33 slides therewith.

Referring to fig. 1 and 3, two air cylinders 325 are fixed to the sliding plate 34 at the lower side of the connecting frame 33, output ends of the air cylinders 325 are directed vertically downward, and the output ends of the air cylinders 325 penetrate the sliding plate 34 and are slidably connected to the sliding plate 34. The output end of the air cylinder 325 is fixed with a wheel carrier 35, the rotating shaft of the press roll 36 is fixed on the wheel carrier 35 through a bolt, the axis of the press roll 36 is vertical to the conveying direction of the conveying mechanism 1, and two press rolls 36 are respectively arranged at two sides of the wheel carrier 35.

When the bottom end of the connecting frame 33 is close to the top surface of the heat-insulating block, the air cylinder 325 drives the wheel frame 35 to move downwards, so that the compression roller 36 is pressed on the upper surface of the heat-insulating block, and the compression roller 36 can rotate, so that the heat-insulating block can smoothly run while being compressed.

The implementation principle of the first embodiment is as follows: firstly, the heat preservation block is conveyed on the conveying mechanism 1, when the heat preservation block is to slide to the lower part of the door-shaped frame 21, the motor 321 drives the screw rod 322 to rotate, the connecting frame 33 slides towards the direction close to the heat preservation block, and then the output end of the air cylinder 325 pushes the wheel frame 35 to be close to the heat preservation block, so that the press roller 36 is abutted to the heat preservation block.

When the heat preservation block operates, the compression roller 36 compresses the heat preservation block and rotates, so that the heat preservation block is stably cut into heat preservation plates.

Example two

Referring to fig. 4 and 5, since the surface of the pressing roller 36 is smooth, the relative slip between the heat-insulating block and the pressing roller 36 is generated, and thus the pressing of the pressing roller 36 on the heat-insulating block is not stable. A plurality of slip-proof rings 37 are further fixed to the pressure roller 36, the slip-proof rings 37 are circular rings, and the outer surfaces of the slip-proof rings 37 are rough. The compression roller 36 is provided with a sliding groove 361 in the same direction as the axial direction, the inner ring of the anti-slip ring 37 is provided with a convex block 371, when the anti-slip ring 37 is installed, the anti-slip ring 37 slides in from one end of the compression roller 36, the convex block 371 is inserted into the sliding groove 361, the anti-slip ring 37 slides on the compression roller 36 along the sliding groove 361, the anti-slip ring 37 is screwed tightly with a screw 372, and the screw 372 is screwed on the compression roller 36. The anti-slip ring 37 contacts the heat-insulating block, so that the friction between the heat-insulating block and the compression roller 36 is increased, and the compression effect of the compression roller 36 on the heat-insulating block is firmer.

The anti-slip rings 37 connected to the two press rollers 36 on the same wheel carrier 35 are staggered, so that the contact area of the anti-slip rings 37 and the heat-insulating block in the horizontal direction is increased, and the compression effect on the heat-insulating block is better.

The implementation principle of the second embodiment is as follows: the output end of the air cylinder 325 pushes the wheel carrier 35 to approach the heat-insulating block, so that the anti-slip ring 37 on the press roller 36 abuts against the heat-insulating block. When the heat preservation block operates, the compression roller 36 compresses the heat preservation block and rotates, so that the heat preservation block is stably cut into heat preservation plates.

When the slip ring 37 is attached or detached, the pressing roller 36 is removed from the wheel frame 35, and the slip ring 37 is slid along the slide groove 361.

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 (8)

1. The utility model provides a closing device that heated board cutting was used, heated board cutting machine include transport mechanism (1), have transversely put cutting assembly (2) on transport mechanism (1), and cutting assembly (2) are including door type frame (21), its characterized in that: at least one side of the door-shaped frame (21) is provided with a pressing device (3), the pressing device (3) comprises a support frame (31) fixed on the door-shaped frame (21), and a pressing roller (36) sliding along the vertical direction is connected to the support frame (31).

2. The pressing device for cutting the insulation board according to claim 1, wherein: the press roll (36) is provided with a plurality of anti-slip rings (37), and the surfaces of the anti-slip rings (37) are rough.

3. The pressing device for cutting the insulation board according to claim 2, wherein: the anti-slip ring (37) is detachably connected with the press roll (36).

4. The pressing device for cutting the insulation board according to claim 3, wherein: the surface of the pressing roller (36) is provided with a sliding groove (361), a convex block (371) is fixed on an inner ring of the anti-slip ring (37), the convex block (371) is inserted into the sliding groove (361), the convex block (371) is in sliding connection with the sliding groove (361), and the anti-slip ring (37) is in threaded connection with the pressing roller (36).

5. The pressing device for cutting the insulation board according to claim 2 or 3, wherein: the compression roller (36) is rotationally connected to the wheel carrier (35), the wheel carrier (35) is provided with a plurality of compression rollers (36) with parallel axes, and anti-slip rings (37) connected to the compression rollers (36) on the same wheel carrier (35) are arranged in a staggered mode.

6. The pressing device for cutting the insulation board according to claim 5, wherein: the supporting frame (31) is fixedly provided with a motor (321), the output end of the motor (321) is fixedly provided with a vertical lead screw (322), the wheel frame (35) is connected to the connecting frame (33), the connecting frame (33) is fixedly provided with a sliding plate (34), the sliding plate (34) is fixedly provided with a sliding block (324), and the sliding block (324) is slidably connected with the lead screw (322).

7. The pressing device for cutting the insulation board according to claim 6, wherein: a limiting rod (323) is fixed on the support frame (31), and the limiting rod (323) penetrates through the sliding plate (34) and is in sliding connection with the sliding plate (34).

8. The pressing device for cutting the insulation board according to claim 6, wherein: an air cylinder (325) is fixed at the bottom of the connecting frame (33), the output end of the air cylinder (325) faces downwards, and the wheel frame (35) is fixed at the output end of the air cylinder (325).

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