CN214265703U - Longitudinal cutting device for foam board - Google Patents

Abstract

The utility model relates to a longitudinal cutting device of cystosepiment, belong to cutting device's technical field, it includes the workstation, the workstation includes feed end and discharge end, be equipped with the cutting component who is close to the discharge end on the workstation, the feed opening has been seted up to one side that the workstation is close to the discharge end, the feed opening is located cutting component under, the opening vibrating bin on the below fixedly connected with of workstation, the vibrating bin is located the feed opening under, the lower fixed surface of vibrating bin is connected with vibrating motor, the discharge gate has been seted up to vibrating bin lateral wall level, the lateral wall fixedly connected with air exhauster of workstation, the air intake fixedly connected with exhaust column of air exhauster, the one end intercommunication vibrating bin of air exhauster is kept away from to the exhaust column, the air outlet fixedly connected with of air exhauster goes out the tuber pipe, the one end fixedly connected with collecting box of air exhauster is kept away from to the tuber pipe. This application has and retrieves the sweeps that produces in the cystosepiment cutting process, reduces environmental pollution's effect.

Description

Longitudinal cutting device for foam board

Technical Field

The application relates to the field of cutting devices, in particular to a longitudinal cutting device for a foam board.

Background

The existing foam board has the advantages of light weight, heat insulation, high cost performance, easiness in deformation, recyclability and the like, and is widely applied to the aspects of heat insulation of building walls, roofs, composite board heat insulation, refrigeration houses, air conditioners, vehicles and ships, floor heating, decoration carving and the like. After the foam board raw material is transversely cut by the cutting device, the foam board raw material is generally longitudinally cut again, so that a foam board with a proper size is obtained.

A chinese patent with publication number CN207189846U discloses a simple cutting device for EPS foam boards, which comprises a frame, a transmission device and a control device, wherein a platform is arranged at the bottom of the frame, the transmission device is arranged on the platform, a support is arranged at one side of the platform, and the control device is fixedly connected to the support; the frame includes the frame, and the frame is located the both sides of frame, and the frame is fixed to be set up on the platform, is provided with the round pin post on the frame, is connected through the connecting piece between round pin post and the line of cut, is provided with the lead screw along the length direction of frame on the frame, and the lead screw is connected with heating motor, and the top of frame is provided with the crossbeam, fixedly on the crossbeam being provided with the support, is provided with the fan on the support, and the fan is connected with controlling means, still is provided with the guide rail that is used for connecting.

Aiming at the related technologies, the inventor thinks that the defect that part of scraps are remained on a cutting surface in the cutting process of the foam board, and when the foam board is cut and falls down, the scraps can be separated from the foam board due to impact, and the scraps can directly fall onto the ground without being processed, so that the environment is influenced.

SUMMERY OF THE UTILITY MODEL

In order to retrieve the sweeps that produces among the foam board cutting process, reduce the pollution to the environment, this application provides a longitudinal cutting device of foam board.

The application provides a longitudinal cutting device of cystosepiment adopts following technical scheme:

the utility model provides a longitudinal cutting device of cystosepiment, includes the workstation, the workstation includes feed end and discharge end, be equipped with the cutting subassembly that is close to the discharge end on the workstation, the feed opening has been seted up to one side that the workstation is close to the discharge end, the feed opening is located cutting subassembly under, the opening vibration case on the below fixedly connected with of workstation, the vibration case is located the feed opening under, the lower fixed surface of vibration case is connected with vibrating motor, the discharge gate has been seted up to vibration case lateral wall level, the lateral wall fixedly connected with air exhauster of workstation, the air intake fixedly connected with exhaust column of air exhauster, the one end intercommunication vibration case of air exhauster is kept away from to the exhaust column, the air outlet fixedly connected with of air exhauster goes out the tuber pipe, the one end fixedly connected with collecting box that the air exhauster was kept away from to the tuber pipe.

Through adopting above-mentioned technical scheme, the staff places the cystosepiment from the feed end on the workstation, then cut the cystosepiment through cutting assembly, the cystosepiment that the cutting got off falls into the vibration incasement from the feed opening, vibrating motor vibrates the vibration case this moment, and then will fall into the cystosepiment of vibration incasement and vibrate, and then drop the sweeps vibration on the cystosepiment, the air exhauster starts this moment, follow the vibration case through the exhaust column with the sweeps, then send into the collection box from the tuber pipe, then discharge the cystosepiment from the discharge gate, and then retrieve the sweeps that produces in the cystosepiment cutting process, reduce the pollution to the environment.

Optionally, the side wall of the workbench is fixedly connected with a blower, an air outlet of the blower is fixedly connected with a blowpipe, and one end of the blowpipe, far away from the blower, is fixedly communicated with the vibration box.

Through adopting above-mentioned technical scheme, when the air exhauster cleared up the sweeps, the hair-dryer started, and then blows the sweeps in the vibrating bin, and then makes things convenient for the air exhauster to absorb.

Optionally, the lateral wall of the vibration box is hinged with a valve for shielding the discharge hole.

Through adopting above-mentioned technical scheme, the possibility that the valve can reduce the sweeps from the valve departure makes the sweeps collect more thoroughly, further protects the environment.

Optionally, two turning blocks that are located the discharge gate top of vibrating bin fixedly connected with, two the turning block is just to setting up, the last fixed surface of valve is connected with the axis of rotation, the axis of rotation rotates to be connected between two turning blocks, the cover is equipped with the torsional spring in the axis of rotation, the one end and the turning block fixed connection of torsional spring, the other end and the axis of rotation fixed connection of torsional spring, when the torsional spring is in natural state, the valve is in the closed condition.

Through adopting above-mentioned technical scheme, the elasticity of torsional spring is closed the valve, can reduce because of the hair-dryer bloies the possibility that leads to the valve to open, further guarantees the leakproofness of vibration case, further reduces the possibility that the sweeps fled out, and then the environmental protection.

Optionally, the lateral wall fixedly connected with ejection of compact cylinder of discharge gate is kept away from to the vibrating bin, the piston rod of ejection of compact cylinder runs through the lateral wall of vibrating bin and extends to the vibrating bin in, the directional discharge gate of piston rod of ejection of compact cylinder, sliding connection has the scraping wings in the vibrating bin, the scraping wings is connected with ejection of compact cylinder's piston rod fixed, when ejection of compact cylinder's piston rod is in the extension state, the scraping wings is close to the lateral wall butt of discharge gate with the vibrating bin.

Through adopting above-mentioned technical scheme, after the sweeps clearance in the vibrating bin was accomplished, ejection of compact cylinder's piston rod extension, then promote the scraping wings and slide to the direction that is close to the discharge gate, then the cystosepiment promotes the valve and opens, and the cystosepiment is discharged from the discharge gate, and convenient operation is laborsaving.

Optionally, two conveying plates that are just right each other of below fixedly connected with of workstation, conveying plate is parallel with the workstation, two rotate between the conveying plate and be connected with the conveyer belt, the conveyer belt is located the below of vibrating bin, a plurality of through-holes that run through the conveyer belt are seted up to the conveyer belt, the conveyer belt includes interconnect's upper band face and lower band face, the lateral wall fixedly connected with suction fan of conveying plate, the air intake fixedly connected with aspiration channel of suction fan, the aspiration channel runs through the lateral wall of conveying plate and extends to between upper band face and the lower band face, the air outlet fixedly connected with collecting pipe of suction fan, collecting pipe intercommunication collecting box.

Through adopting above-mentioned technical scheme, the cystosepiment falls into on the conveyer belt from the discharge gate, then on the sweeps of part follow discharge gate departure falls into the conveyer belt, the suction fan will fall into the sweeps on the conveyer belt and absorb from the through-hole, then absorb from the aspiration channel, then carry the collection case through the collecting pipe, further collect the sweeps, further guarantee the clean of environment.

Optionally, the one end fixedly connected with house steward that the suction fan was kept away from to the aspiration channel, house steward is parallel with the conveyer belt, a plurality of branch pipes of fixedly connected with on the house steward, the branch pipe communicates with house steward is perpendicular, the branch pipe is perpendicular with the conveying board, the branch pipe is along house steward's length direction evenly distributed, a plurality of holes of induced drafting towards the upper band face are seted up to the branch pipe.

Through adopting above-mentioned technical scheme, the branch pipe can increase the absorbing area to the sweeps, and the sweeps that fall from the through-hole enters into the branch pipe through the hole of induced drafting, then through house steward intercommunication aspiration channel, and then collects the sweeps, and then makes the clearance of sweeps comparatively thorough, and then guarantees the cleanness of environment.

Optionally, fixedly connected with is located the connecting pipe in the hole of induced drafting on the branch pipe, the connecting pipe is perpendicular with the branch pipe, the top fixedly connected with of branch pipe is located the expansion passageway between upper band face and the connecting pipe, the expansion passageway is trapezoidal, the area that the expansion passageway is close to upper band face one side is greater than the area that the expansion passageway is close to connecting pipe one side, the collection mouth has been seted up to the expansion passageway, collect the mouth towards the upper band face.

Through adopting above-mentioned technical scheme, the expansion passageway can increase the receiving area to the sweeps, and then makes the sweeps enter into the expansion passageway from collecting the mouth, then enters into the branch pipe from the connecting rod, further increases the receiving area of sweeps, and the clearance of further guaranteeing the sweeps is comparatively thorough to the environmental protection.

Optionally, two it is connected with a plurality of pivots to rotate between the conveying board, the pivot is located between upper band face and the lower band face, the length direction evenly distributed of conveying board is followed to the pivot, pivot and branch pipe interval distribution, fixedly connected with is used for the rotatory piece with upper band face jack-up in the pivot.

Through adopting above-mentioned technical scheme, the pivot rotates and drives rotatory piece and rotate, and then rotatory piece will go up the face of taking and jack-up, and then vibrate the cystosepiment that is located on the face of taking, further drop the sweeps vibration on the cystosepiment to make the clearance of sweeps more thorough.

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

1. through the arrangement of the vibration box, the vibration motor, the exhaust fan and the collection box, the cut foam board falls into the vibration box, then the vibration motor vibrates the vibration box, and further scraps on the foam board are vibrated and fall off, then the exhaust fan collects the scraps from the vibration box into the collection box, and further the scraps generated in the foam board cutting process are recovered, so that the pollution to the environment is reduced;

2. through the arrangement of the blower, the conveyor belt, the suction fan and the rotating block, the scraps on the foam board can be further collected and cleaned, and the pollution of the scraps to the environment is further reduced;

3. through the setting of valve and torsional spring, can shelter from the sweeps in the vibrating bin, and then reduce the possibility that the sweeps flies out from the discharge gate, can further reduce the pollution of sweeps to the environment.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic view showing the structure of a vibration box in the embodiment of the present application;

FIG. 3 is an enlarged schematic view of portion A of FIG. 2;

fig. 4 is a schematic partial cross-sectional structure diagram of an embodiment of the present application.

Description of reference numerals: 1. a work table; 11. a feeding end; 12. a discharge end; 13. a feeding port; 14. a blower; 141. a blowpipe; 15. a transfer plate; 16. a conveyor belt; 161. a belt feeding surface; 162. a lower belt surface; 163. a through hole; 17. a rotating roller; 18. a rotating groove; 2. a cutting assembly; 21. a gantry; 211. a vertical plate; 2111. a vertical slot; 212. a transverse plate; 22. a slider; 23. cutting a line; 3. a vibration box; 31. a vibration motor; 32. a discharge port; 33. a shutter; 331. a rotating shaft; 34. a torsion spring; 35. rotating the block; 4. an exhaust fan; 41. an exhaust pipe; 42. an air outlet pipe; 43. a collection box; 5. a discharging cylinder; 51. a material pushing plate; 6. a suction fan; 61. an air suction pipe; 62. a collection pipe; 63. a header pipe; 64. a branch pipe; 641. an air suction hole; 642. a connecting pipe; 643. expanding the channel; 644. a collection port; 7. a rotating shaft; 71. rotating the block; 72. a driven gear; 73. a chain; 8. cutting the air cylinder; 9. a conveyor motor.

Detailed Description

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

The embodiment of the application discloses longitudinal cutting device for foam boards. Referring to fig. 1, the longitudinal cutting device for the foam board comprises a workbench 1 in a rectangular parallelepiped shape, and supporting legs are fixedly connected to the lower surface of the workbench 1 near the corners. Workstation 1 includes feed end 11 and discharge end 12, is equipped with cutting assembly 2 on the workstation 1 simultaneously, and cutting assembly 2 is close to discharge end 12. In the cystosepiment cutting process, the staff places the cystosepiment from feed end 11 to workstation 1 on, then cuts the cystosepiment through cutting assembly 2, then collects from discharge end 12.

Referring to fig. 1, the upper surface of the workbench 1 is provided with a plurality of rotating grooves 18, the rotating grooves 18 are uniformly distributed along the length direction of the workbench 1, and the rotating grooves 18 are rotatably connected with rotating rollers 17. After the cystosepiment was placed on workstation 1, cystosepiment and live-rollers 17 butt, the user promoted the cystosepiment and drove live-rollers 17 and rotate, and then made the cystosepiment be close to cutting assembly 2, convenient operation is laborsaving.

Referring to fig. 1, the cutting assembly 2 includes a gantry 21 fixedly connected to the worktable 1, two sliders 22 slidably connected to the gantry 21, and a cutting line 23 fixedly connected between the two sliders 22. The gantry 21 includes two vertical plates 211 fixedly connected to both sides of the table 1, and a horizontal plate 212 fixedly connected between top ends of the two vertical plates 211. Vertical grooves 2111 are formed in one side, close to the discharge end 12, of the vertical plate 211, the vertical grooves 2111 are parallel to the vertical plate 211, the sliding block 22 is connected in the vertical grooves 2111 in a sliding mode, and one end of the sliding block 22 extends out of the surface of the vertical plate 211. Fixedly connected with cutting cylinder 8 on workstation 1, cutting cylinder 8 is parallel with perpendicular groove 2111, and cutting cylinder 8's piston rod and slider 22 fixed connection. When the foam board moves below the cutting line 23, the piston rod of the cutting cylinder 8 contracts to drive the sliding block 22 to slide downwards along the vertical groove 2111, and then drive the cutting line 23 to move downwards, so that the foam board is cut.

Referring to fig. 1, a feed opening 13 is formed in the workbench 1 near the upper surface, the feed opening 13 is near the discharge end 12, and the feed opening 13 is located right below the cutting line 23. Meanwhile, the lower surface of the workbench 1 is fixedly connected with a vibration box 3, and the length of the vibration box 3 is equal to the width of the workbench 1. The opening has been seted up to the central point of the upper surface of vibrating bin 3, and vibrating bin 3 is located feed opening 13 under, and feed opening 13 intercommunication vibrating bin 3. Simultaneously the lower surface fixedly connected with vibrating motor 31 of vibration case 3, in cutting line 23 accomplished the cystosepiment cutting, the cystosepiment of cutting enters into vibration case 3 from the ministoma, then vibrating motor 31 starts to vibrate vibration case 3, and then vibrates the cystosepiment in the vibration case 3, then drops the sweeps vibration on the cystosepiment, conveniently collects the sweeps.

Referring to fig. 2, a blower 14 is fixedly connected to a side wall of the worktable 1, a blowing pipe 141 is fixedly connected to an air outlet of the blower 14, an end of the blowing pipe 141 remote from the blower 14 is fixedly connected to the vibration box 3, and the blowing pipe 141 penetrates through the side wall of the vibration box 3 and extends into the vibration box 3. When the foam board vibrates, the blower 14 compresses air and then sends the air into the vibration box 3 from the blowing pipe 141, and then blows up the waste chips in the vibration box 3, so that the possibility that the waste chips are pressed between the foam boards is reduced, and the waste chips are conveniently collected.

Referring to fig. 1 and 2, an exhaust fan 4 is fixedly connected to a side wall of the workbench 1, an air inlet of the exhaust fan 4 is fixedly connected with an exhaust pipe 41, one end of the exhaust pipe 41, which is far away from the exhaust fan 4, is fixedly connected with the vibration box 3, and the exhaust pipe 41 penetrates through the side wall of the vibration box 3 and extends into the vibration box 3. The air outlet fixedly connected with of air exhauster 4 goes out tuber pipe 42, and goes out the one end fixedly connected with collecting box 43 that tuber pipe 42 kept away from air exhauster 4, goes out tuber pipe 42 and runs through the lateral wall of collecting box 43 and extend to in the collecting box 43. When the sweeps on the cystosepiment breaks away from with the cystosepiment simultaneously, exhaust fan 4 absorbs the sweeps in the vibration case 3 from exhaust column 41, then sends into to collection box 43 from air-out pipe 42, and then reduces the possibility that the sweeps splashes, and then the environmental protection.

Referring to fig. 2, a discharge port 32 is formed in a side wall of the vibration box 3, the discharge port 32 is formed along a length direction of the vibration box 3, and a shutter 33 is hinged to the side wall of the vibration box 3. The shutter 33 can reduce the possibility of the scraps splashing from the discharge port 32, thereby ensuring more thorough collection of the scraps.

Referring to fig. 2 and 3, two rotating blocks 35 are fixedly connected to the side wall of the vibration box 3, the rotating blocks 35 are located above the material outlet 32, and a connecting line of the two rotating blocks 35 is parallel to the material outlet 32. A rotation shaft 331 is fixedly connected to an upper surface of the shutter 33, and a length of the rotation shaft 331 is greater than a length of the shutter 33. The rotating groove 18 is formed in one side, right opposite to the rotating block 35, of the rotating shaft 331 is connected to the connecting groove in a rotating mode, meanwhile, the rotating shaft 331 is sleeved with the torsion spring 34, one end of the torsion spring 34 is fixedly connected with the rotating shaft 331, and the other end of the torsion spring is fixedly connected with the rotating block 35. The user opens the shutter 33, makes the shutter 33 revolve the axis of rotation 331 to the one side rotation that is close to workstation 1, and torsional spring 34 takes place elastic deformation this moment, and when the user loosened the shutter 33, torsional spring 34 resumes to natural state gradually, and the shutter 33 closes gradually this moment, and then shelters from discharge gate 32, further guarantees the effect of sheltering from of shutter 33.

Referring to fig. 2 and 4, a discharging cylinder 5 is fixedly connected to a side wall of the vibration box 3 far away from the discharging port 32, a piston rod of the discharging cylinder 5 points to the discharging port 32, and a material pushing plate 51 is slidably connected in the vibration box 3. The length of the material pushing plate 51 is equal to the length of the vibration box 3, while the material pushing plate 51 is perpendicular to the lower surface of the vibration box 3. The piston rod of the discharging cylinder 5 passes through the side wall of the vibration box 3 and is fixedly connected with the material pushing plate 51. After the foam board in the vibration box 3 is cleaned, the piston rod of the discharging cylinder 5 extends, and then the material pushing plate 51 is pushed to approach from the side far away from the discharging port 32 to the side close to the discharging port 32, and then the foam board is pushed out from the discharging port 32.

Referring to fig. 1 and 4, two transfer plates 15 are fixedly attached to the lower surface of the table 1. The conveying plates 15 are parallel to the workbench 1, a conveying belt 16 is rotatably connected between the two conveying plates 15, and the conveying belt 16 is positioned below the vibration box 3. Meanwhile, the side wall of the transmission plate 15 is fixedly connected with a transmission motor 9, and the transmission motor 9 is fixedly connected with a rotating shaft of the transmission belt 16. The cystosepiment falls into on the conveyer belt 16 from discharge gate 32, then conveying motor 9 drives conveyer belt 16 and rotates, and then drives the cystosepiment and removes to the direction that is close to discharge end 12, and then conveniently collects the cystosepiment.

Referring to fig. 4, the conveyor belt 16 includes an upper belt surface 161 and a lower belt surface 162 fixedly attached to each other. The two conveying plates 15 are rotatably connected with a plurality of rotating shafts 7, the rotating shafts 7 are uniformly distributed along the length direction of the conveying plates 15, and the rotating shafts 7 are positioned between the upper belt surface 161 and the lower belt surface 162. The surface of the rotating shaft 7 is coaxially and fixedly connected with a rotating block 71, the rotating block 71 is oval, and the rotating shaft 7 is connected with a driving mechanism. When 16 transportation cystosepiments of conveyer belt, actuating mechanism drives pivot 7 rotatory, and then drives rotatory piece 71 and rotate, when rotatory piece 71 becomes vertical state by the horizontality gradually, rotatory piece 71 is gradually with upper band face 161 jack-up that makes progress, and then vibrates upper band face 161, and then vibrates the cystosepiment that is located upper band face 161, and then further breaks away from the remaining sweeps of cystosepiment.

Referring to fig. 2 and 4, the driving mechanism includes a driven gear 72 fixedly connected to the connecting shaft of the rotary shaft 7 and the conveyor belt 16. The same side of all the rotating shafts 7 penetrates through the side wall of the conveying plate 15, the driven gears 72 are coaxially and fixedly connected with one ends of the rotating shafts 7 penetrating through the conveying plate 15, and all the driven gears 72 are meshed with a chain 73 together. The output shaft of the transmission motor 9 is fixedly connected with the connecting shaft of the transmission belt 16. The conveying motor 9 drives the connecting shaft of the conveying belt 16 to rotate, and then drives one driven gear 72 to rotate, the driven gear 72 drives the chain 73 and then drives all the driven gears 72, and then the driven gear 72 drives the rotating shaft 7 to rotate, so that the operation is simple and convenient.

Referring to fig. 1 and 4, the conveyor belt 16 is provided with a plurality of through holes 163, and the through holes 163 penetrate the upper belt surface 161 and the lower belt surface 162. The side wall of the conveying plate 15 is fixedly connected with a suction fan 6, and an air inlet of the suction fan 6 is fixedly connected with an air suction pipe 61. The suction duct 61 extends through the side wall of the conveying plate 15 between the upper belt face 161 and the lower belt face 162, and the end of the suction duct 61 remote from the suction fan 6 faces the upper belt face 161. When the upper belt surface 161 vibrates, the waste chips fall between the upper belt surface 161 and the lower belt surface 162 through the through hole 163, and at this time, the suction fan 6 is started, and the waste chips are collected from the suction pipe 61 by the suction fan 6. The air outlet fixedly connected with collecting pipe 62 of suction fan 6, collecting pipe 62 keep away from the one end and the collecting box 43 fixed connection of suction fan 6, and collecting pipe 62 runs through the lateral wall of collecting box 43 and extends to the collecting box 43, and suction fan 6 sends into the collecting box 43 through collecting pipe 62 after collecting the sweeps, then collects in unison, further guarantees the clean of environment.

Referring to fig. 1 and 4, a header pipe 63 is fixedly connected to one end of the suction pipe 61 far away from the suction fan 6, the suction pipe 61 communicates with the header pipe 63, and the header pipe 63 abuts against the conveying plate 15 near the suction fan 6. The main pipe 63 is parallel to the transfer plate 15, and the main pipe 63 is fixedly connected with a plurality of branch pipes 64, and the branch pipes 64 are distributed with the rotating shaft 7 in a staggered manner. The branch pipe 64 is parallel to the upper belt surface 161, and the branch pipe 64 is provided with a plurality of air suction holes 641, and the air suction holes 641 point to the upper belt surface 161. When the sweeps fall into between upper band face 161 and the lower band face 162, when suction fan 6 carried out the induced drafting, the sweeps entered into branch pipe 64 from induced draft hole 641, then got into house steward 63 from branch pipe 64, and then got into aspiration channel 61, and branch pipe 64 can increase the area of contact with the sweeps, and then can better collect the sweeps, and then guarantee the clean of environment.

Referring to fig. 1 and 4, a connection pipe 642 positioned in the air suction hole 641 is fixedly connected to the branch pipe 64. The connection tube 642 is perpendicular to the upper belt surface 161, and an expansion channel 643 is fixedly connected to the top end of the connection tube 642. The divergent passage 643 is located between the connection tube 642 and the upper belt surface 161, and the divergent passage 643 has a trapezoidal shape. The area of the divergent passage 643 close to the upper belt surface 161 is larger than the area of the divergent passage 643 close to the connection pipe 642, the collection port 644 is opened at the divergent passage 643 close to the upper belt surface 161, and the connection pipe 642 penetrates the bottom surface of the divergent passage 643 and communicates with the collection port 644. The area of the collection opening 644 is larger than that of the air suction opening, and the expansion passage 643 can further increase the contact area with the scraps, so that the scraps can be better collected, and the environment is further ensured.

The implementation principle of the longitudinal cutting device for the foam board in the embodiment of the application is as follows: the operating personnel places the cystosepiment from feed end 11 on workstation 1, then cutting assembly 2 cuts the cystosepiment, the cystosepiment after the cutting enters into vibration case 3 through feed opening 13, then vibrating motor 31 and hair-dryer 14 peel off the sweeps on the cystosepiment, simultaneously air exhauster 4 induced drafts to the sweeps in the vibration case 3 and collects in collection box 43, then the cystosepiment falls into conveyer belt 16, rotation axis 7 vibrates conveyer belt 16 this moment, the sweeps falls down from through-hole 163, then suction fan 6 further absorbs the sweeps, then send into collection box 43, then the cystosepiment is transported to discharge end 12 from conveyer belt 16 and is collected.

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 longitudinal cutting device of cystosepiment, includes workstation (1), workstation (1) includes feed end (11) and discharge end (12), be equipped with cutting assembly (2) that are close to discharge end (12) on workstation (1), its characterized in that: a feed opening (13) is arranged on one side of the workbench (1) close to the discharge end (12), the feed opening (13) is positioned under the cutting component (2), the opening vibration box (3) is fixedly connected under the workbench (1), the vibration box (3) is positioned right below the feed opening (13), the lower surface of the vibration box (3) is fixedly connected with a vibration motor (31), a discharge hole (32) is horizontally arranged on the side wall of the vibration box (3), an exhaust fan (4) is fixedly connected with the side wall of the workbench (1), an air inlet of the exhaust fan (4) is fixedly connected with an exhaust pipe (41), one end of the exhaust pipe (41) far away from the exhaust fan (4) is communicated with the vibration box (3), the air outlet fixedly connected with of air exhauster (4) goes out tuber pipe (42), go out one end fixedly connected with collecting box (43) that air exhauster (4) were kept away from in tuber pipe (42).

2. Foam board longitudinal cutting device according to claim 1, characterized in that: the side wall of the workbench (1) is fixedly connected with a blower (14), an air outlet of the blower (14) is fixedly connected with a blowpipe (141), and one end, far away from the blower (14), of the blowpipe (141) is fixedly communicated with the vibration box (3).

3. Foam board longitudinal cutting device according to claim 1, characterized in that: the side wall of the vibration box (3) is hinged with a valve (33) used for shielding the discharge hole (32).

4. Foam board longitudinal cutting device according to claim 3, characterized in that: vibrating bin (3) two turning blocks (35) that are located discharge gate (32) top of fixedly connected with, two turning block (35) is just to setting up, the last fixed surface of valve (33) is connected with axis of rotation (331), axis of rotation (331) rotate to be connected between two turning blocks (35), the cover is equipped with torsional spring (34) on axis of rotation (331), the one end and the turning block (35) fixed connection of torsional spring (34), the other end and axis of rotation (331) fixed connection of torsional spring (34), when torsional spring (34) is in natural state, valve (33) are in the closed condition.

5. Foam board longitudinal cutting device according to claim 1, characterized in that: lateral wall fixedly connected with ejection of compact cylinder (5) of discharge gate (32) are kept away from in vibration case (3), the piston rod of ejection of compact cylinder (5) runs through the lateral wall of vibration case (3) and extends to in vibration case (3), the directional discharge gate (32) of piston rod of ejection of compact cylinder (5), sliding connection has scraping wings (51) in vibration case (3), scraping wings (51) and the piston rod fixed connection of ejection of compact cylinder (5), when the piston rod of ejection of compact cylinder (5) is in the extension state, scraping wings (51) and vibration case (3) are close to the lateral wall butt of discharge gate (32).

6. Foam board longitudinal cutting device according to claim 1, characterized in that: the utility model discloses a vibration box, including workstation (1), conveying board (15), conveyer belt (16), lateral wall fixedly connected with suction fan (6), a plurality of through-holes (163) that run through conveyer belt (16) are seted up to conveyer belt (16), conveyer belt (16) include interconnect's upper band face (161) and lower band face (162), the lateral wall fixedly connected with suction fan (6) of conveying board (15), air intake fixedly connected with aspiration channel (61) of suction fan (6), aspiration channel (61) run through the lateral wall of conveying board (15) and extend to between upper band face (161) and lower band face (162), the air outlet fixedly connected with collecting pipe (62) of suction fan (6), the collecting pipe (62) is communicated with the collecting box (43).

7. Foam board longitudinal cutting device according to claim 6, characterized in that: one end fixedly connected with house steward (63) of suction fan (6) is kept away from in aspiration channel (61), house steward (63) are parallel with conveyer belt (16), a plurality of branch pipes (64) of fixedly connected with are gone up in house steward (63), branch pipe (64) and house steward (63) perpendicular intercommunication, branch pipe (64) are perpendicular with conveying plate (15), the length direction evenly distributed of house steward (63) is followed in branch pipe (64), a plurality of holes of induced drafting (641) towards upper band face (161) are seted up in branch pipe (64).

8. Foam board longitudinal cutting device according to claim 7, characterized in that: the connecting pipe (642) positioned in the air suction hole (641) is fixedly connected to the branch pipe (64), the connecting pipe (642) is perpendicular to the branch pipe (64), an expansion channel (643) positioned between the upper belt surface (161) and the connecting pipe (642) is fixedly connected to the top end of the branch pipe (64), the expansion channel (643) is trapezoidal, the area of one side, close to the upper belt surface (161), of the expansion channel (643) is larger than the area of one side, close to the connecting pipe (642), of the expansion channel (643), a collection opening (644) is formed in the expansion channel (643), and the collection opening (644) faces the upper belt surface (161).

9. Foam board longitudinal cutting device according to claim 8, characterized in that: two it is connected with a plurality of pivots (7) to rotate between conveying board (15), pivot (7) are located between upper band face (161) and lower band face (162), the length direction evenly distributed of conveying board (15) is followed in pivot (7), pivot (7) and branch pipe (64) interval distribution, fixedly connected with is used for rotatory piece (71) with upper band face (161) jack-up on pivot (7).

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