CN115555635A - Cutting equipment - Google Patents

Abstract

The invention discloses cutting equipment, which relates to the technical field of part processing, and adopts the technical scheme that the cutting equipment comprises a feeding unit and a bottom platform positioned on one side of the feeding unit, wherein the bottom platform is respectively provided with a feeding unit, a clamping unit and a cutting unit; the feeding unit is used for separating the stacked rod-shaped materials into single rod-shaped materials and horizontally conveying the single rod-shaped materials to the feeding unit; the feeding unit is used for clamping the rod-shaped materials and sending the rod-shaped materials to the cutting unit; the clamping unit is used for clamping and limiting the rod-shaped materials; and the cutting unit is used for cutting the rod-shaped materials delivered by the feeding unit. The device has the beneficial effects that the device integrates the functions of feeding, clamping, cutting and chip removal in the rod-shaped material cutting process. Through the feeding unit, the rod-shaped materials are fed one by one, the fixation of the materials in the cutting process is ensured by means of the feeding unit and the clamping unit, and the surface of the materials cannot be damaged.

Description

Cutting equipment

Technical Field

The invention relates to the technical field of part processing, in particular to cutting equipment.

Background

Rod-shaped materials are common raw material forms in the processing field, and for the rod-shaped materials, the rod-shaped materials are generally required to be cut off and then treated according to the use requirements. Feeding is required before the material enters the cutting equipment, and both manual feeding and mechanical feeding are generally adopted. The manual feeding has the operation safety risk; utilize mechanical feeding, at present most common is to push the material into to cutting equipment's cutter department with the horizontal direction, the problem that this mode exists is, when the cutting, the inside centre gripping subassembly of cutting equipment or cutting assembly can cause the mar for the stub bar part of cutting off the back material, influence follow-up use. Moreover, the prior art lacks a special cutting device for rod-shaped materials with higher integration degree.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a cutting device, which solves the problem that the prior art center lacks an integrated cutting device for rod-shaped materials.

In order to achieve the purpose, the invention provides the following technical scheme: a cutting device comprises a feeding unit and a bottom platform positioned on one side of the feeding unit, wherein a feeding unit, a clamping unit and a cutting unit are respectively arranged on the bottom platform;

the feeding unit is used for arranging and stacking the rod-shaped materials and separating the stacked rod-shaped materials into single rod-shaped materials to be conveyed to the feeding unit in a translation manner;

the feeding unit is used for receiving the rod-shaped materials conveyed by the feeding unit, clamping the rod-shaped materials, changing the original horizontal height of the rod-shaped materials and then conveying the rod-shaped materials to the cutting unit;

the clamping unit is used for clamping and limiting the rod-shaped materials conveyed by the feeding unit;

the cutting unit is used for cutting the rod-shaped materials delivered by the feeding unit;

the bottom table respectively bears and drives the feeding unit and the cutting unit to move horizontally in the feeding direction and the cutting direction, and the feeding direction is perpendicular to the cutting direction.

Compared with the prior art, the method has the following beneficial effects: the device integrates the functions of feeding, clamping, cutting and chip removal in the rod-shaped material cutting process. Through the feeding unit, the multiple rod-shaped materials are fed one by one, the fixation of the materials in the cutting process is ensured by means of the feeding unit and the clamping unit, and the surface of the materials cannot be damaged.

The base table is used as an integral bearing structure of all mechanisms except the feeding unit, the module integration is good, and different traction assemblies on the base table are used for completing the drive control of the cutting unit and the feeding unit. The maintenance and the service of the device are convenient.

Drawings

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

FIG. 2 is a schematic view of a base structure according to an embodiment of the present invention;

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

FIG. 4 is an enlarged view of part B of FIG. 2;

FIG. 5 is a first schematic structural diagram of a feeding unit according to an embodiment of the present invention;

FIG. 6 is an enlarged view of a portion A of FIG. 5;

FIG. 7 is a second schematic structural diagram of a feeding unit according to an embodiment of the present invention;

FIG. 8 is an enlarged view of part B of FIG. 7;

FIG. 9 is a first schematic structural diagram of a feeding unit according to an embodiment of the present invention;

FIG. 10 is a second schematic structural diagram of a feeding unit according to an embodiment of the present invention;

fig. 11 is a front view of a feeding unit according to an embodiment of the present invention.

FIG. 12 is a first schematic structural diagram of a clamping unit according to an embodiment of the present invention;

FIG. 13 is a second structural diagram of a clamping unit according to an embodiment of the present invention;

FIG. 14 is a schematic diagram of a movable trough driving structure according to an embodiment of the present invention;

fig. 15 is a partially enlarged view a of fig. 14.

In the figure:

1. a feeding unit; 2. a feeding unit; 3. a clamping unit; 4. a base table; 5. a cutting unit;

110. a frame body; 111. a stopper; 112. a slide rail; 120. a feeding part; 121. rotating the roller; 130. a material poking mechanism; 131. a kick-out plate; 132. a material pulling support plate; 133. a deflector rod; 134. a material poking push rod; 135. a pull rod; 136. a gear and rack combination; 137. an adjustment assembly;

210. a pushing assembly; 211. a bearing table; 212. a lower support plate; 213. an upper slide rail; 214. a support plate baffle; 215. a load floor; 216. a bottom slider; 220. a clamping assembly; 221. an upper slide block; 222. a main support plate; 223. a baffle plate; 224. a splint; 2241. a guide rod; 225. an upper support plate driving mechanism; 2251. a first upper supporting plate push rod; 2252. a second upper support plate push rod; 226. a support frame; 2261. mounting a block; 2261. mounting blocks; 227. a splint push rod;

310. a base station; 320. a horizontal clamping part; 321. a horizontal clamping bar; 3211. a feeding clamping rod; 3212. a discharging clamping rod; 330. a material trough group; 331. fixing a trough; 3311. a feed trough section; 3312. a discharge groove part; 332. a movable trough; 3321. a trough rotating shaft; 3322. a trough gear; 3323. a material groove ejector rod; 3324. A trough rack; 340. a vertical clamping portion; 341. a vertical clamping bar; 350. a top block; 360. a horizontal clamping block; 370. clamping the guide rail; 371. a sliding table; 372. a sliding table motor; 373. a sliding table screw rod; 380. and a displacement sensor.

410. A base; 420. a feed draw assembly; 421. a feed rail; 422. feeding screw rods; 430. cutting the traction assembly; 431. cutting the track; 432. cutting a screw rod; 440. a chip removal assembly; 441. a chip removal channel; 442. a chip removal motor; 450. a hydraulic station; 451. a hydraulic oil tank; 452. a hydraulic oil pump; 460. A positioning assembly; 461. a pillar; 462. a suspension plate; 463. a feeding pressure lever; 464. and feeding and rotating the roller.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1, the present invention provides the following technical solutions:

a cutting device comprises a feeding unit 1 and a bottom table 4 positioned on one side of the feeding unit 1, wherein a feeding unit 2, a clamping unit 3 and a cutting unit 5 are respectively arranged on the bottom table 4;

the feeding unit 1 is used for arranging and stacking the rod-shaped materials, separating the stacked rod-shaped materials into single rod-shaped materials, and horizontally conveying the single rod-shaped materials to the feeding unit 2;

the feeding unit 2 is used for receiving the rod-shaped materials conveyed by the feeding unit 1, clamping the rod-shaped materials, changing the original horizontal height of the rod-shaped materials, and then conveying the rod-shaped materials to the cutting unit 2;

the clamping unit 3 is used for clamping and limiting the rod-shaped materials conveyed by the feeding unit 2;

a cutting unit 5 that cuts the rod-shaped material delivered by the feeding unit 2; the cutting unit 5 is a circular saw.

The bottom table 4 respectively bears and drives the feeding unit 2 and the cutting unit 3 to move horizontally in the feeding direction and the cutting direction, and the feeding direction is vertical to the cutting direction.

Rod-shaped materials are conveyed to the feeding unit 2 one by one through the feeding unit 1, clamped by the feeding unit 2 and then positioned at the cutting position of the cutting unit 5 by combining the clamping unit 3, and then driven by the base table 4, the cutting unit performs translation cutting action.

Example 2

Referring to fig. 2 to 4, on the basis of embodiment 1, the base table 4 includes a base 410, and a feeding traction assembly 420, a cutting traction assembly 430 and a chip removal assembly 440 are respectively disposed on the upper side of the base 410; the feeding traction assembly 420 is used for moving and drawing the material to be cut, so that the material to be cut moves from the feeding end to the discharging end of the bottom table relative to the stroke direction of the feeding assembly 420; the cutting traction assembly 430 is used for movably dragging the cutting equipment and completing the cutting of the material by driving the cutting equipment to move; the chip discharging assembly 440 carries the chips generated when the material is processed by the cutting device, and transfers and collects the chips.

The drawing directions of the cutting drawing assembly 430 and the feeding drawing assembly 420 are both horizontal, and the drawing travel routes of the cutting advancing assembly 430 and the feeding drawing assembly 420 are L-shaped. The cutting track 431 of the cutting pulling assembly 430 is positioned at one side of the discharge end of the feeding track 421 of the feeding pulling assembly 420; the extension of the long axis of the cutting rail 431 intersects with and is perpendicular to the axis of the feeding rail 421.

The chip removal assembly 440 is positioned at one side of the cutting traction assembly 430;

the chip removal assembly 440 comprises a chip removal channel 441, a conveyor belt is arranged in the chip removal channel 441, and the long axis of the chip removal channel 441 is parallel to the long axis of the cutting track 431;

one end of the debris discharging channel 441 extends to the end of the cutting rail 431 close to the feeding rail 421, and the other end is provided with a discharging port for discharging the debris.

This device draws subassembly 430 and feeding through setting up the cutting, can cooperate current cutting equipment and charging equipment to use, carries on cutting equipment and charging equipment respectively to set up on cutting draws subassembly 430 and feeding and draws subassembly 420, through the drive of two subassembly that draw, accomplishes the propulsion of waiting to cut the material to and drive cutting equipment reciprocating motion and carry out the material cutting. And debris generated during the cutting process can be collected and transferred by the debris removal assembly 440.

The cutting traction assembly 430 and the feeding traction assembly 420 are of a rail and screw rod combined structure. The feeding track 421 and the cutting track 431 both comprise two guide rails arranged in parallel; a feeding screw rod 422 is arranged between the guide rails of the feeding track 421; a cutting screw rod 432 is arranged between the guide rails of the cutting track 431; one end of the feeding screw 422 and one end of the cutting screw 432 are linked with a motor shaft of a motor respectively.

The upper side of one end of the chip discharge channel 441 far away from the feeding traction assembly 420 is provided with a chip discharge motor 442, and the chip discharge motor 442 drives the conveyor belt in the chip discharge channel 441 to move through the combination of the chain wheel and the chain.

The screw rod is used as a main structure of displacement driving, and translation with higher precision can be realized. And the rail is used as a displacement guide structure, so that the stability during movement can be ensured.

The base 410 is also provided with a hydraulic station 450, and the hydraulic station 450 is arranged at one side of the cutting traction assembly 430; the hydraulic station 450 includes a hydraulic oil tank 451 and a hydraulic oil pump 452.

A positioning assembly 460 is arranged on one side of the feeding traction assembly 420; the positioning assembly 460 comprises a vertically arranged pillar 461, and a feeding press rod 463 is connected above the pillar 461 through a suspension plate 462; the feeding press rod 463 is located right above the pillar 461, the fixed part of the feeding press rod 463 is fixedly connected with the plate body of the suspension plate 462, and the movable part can move towards the top end of the pillar 461 in the vertical direction.

A roller bracket is fixedly arranged at the top end of the strut 461, and a feeding roller 464 is rotatably connected to the roller bracket; the extension line of the axis of the feeding roller 464 is perpendicular to the axis of the feeding rail 421. Combine locating component 460, can carry out the centre gripping to the material that keeps away from the cutting stage property when the material gets into cutting equipment cutting position to material stability when guaranteeing the cutting. The cutting tool is suitable for cutting strip-shaped materials.

The cutting screw rod 432 of the cutting traction assembly 430 is linked with the cutting unit 5, a screw hole capable of being in threaded connection with the cutting screw rod 432 is formed in the lower side of the cutting unit 5, and the cutting unit 5 is in sliding connection with the cutting rail 431. Likewise, the feeding unit 2 is also linked with the feeding traction assembly 420 by means of a slider provided on the lower side thereof.

Example 3

Referring to fig. 5 to 8, based on the above embodiment, the feeding unit 1 includes a frame body 110 and a feeding portion 120, and the feeding portion 120 is located at one side of the frame body 110; a placing area for placing the rod-shaped materials is arranged on the upper side of the frame body 110, and the placing area is inclined downwards towards the feeding part 120;

the feeding part 120 is used for horizontally conveying the rod-shaped materials; a material shifting mechanism 130 is arranged between the feeding part 120 and the frame body 110, and the material shifting mechanism 130 is used for shifting the rod-shaped material into the conveying area of the feeding part 120 after the rod-shaped material is lifted from the placing area of the frame body 110.

The whole frame body 1 is a strip-shaped frame corresponding to the rod-shaped materials; the feeding part 120 comprises a plurality of rotating rollers 121 arranged along the conveying direction of the frame body 110, and the rotating rollers 121 are uniformly distributed in a linear array; the kick-out mechanism 130 is disposed on a side of the roller 121 adjacent to the frame 110. One end of the placing area of the rack body 110, which is close to the rotating roller 121, is provided with a stopper 111, and when the rod-shaped materials slide along the inclined plane of the placing area of the rack body 110 and move downwards to be close to the rotating roller 121, the stopper 111 stops the rod-shaped materials from continuing to slide.

The kick-out mechanism 130 includes a kick-out plate 131, and the rod-shaped material in the rack body 110 placement area is lifted and kicked into the rotating roller 121 by the rotation of the kick-out plate 131. The axis of the rotating shaft of the material shifting plate 131 is vertical to the material conveying direction of the feeding part 120; the kick-out plate 131 spans the end region where the stack 110 and the loading part 120 are close to; the upper edge of the material shifting plate 131 is inclined, and one end of the material shifting plate 131 facing the feeding part 120 is a low-level end, and the other end facing the frame body 110 is a high-level end; when the material-poking plate 131 rotates to perform the material-poking action, the rod-shaped material is jacked up from the material rack 131 by the high-level end of the material-poking plate 131 and slides onto the rotating roller 121 along the inclined edge of the material-poking plate 131.

The material stirring structure 130 further comprises a material stirring support plate 132, the material stirring support plate 132 is connected with the frame body 1, and one side of the material stirring support plate 132 is rotatably connected with the material stirring plate 131; the edge of one side of the material shifting plate 131 is fixedly connected with a shifting rod 133, and the shifting rod 133 is arranged on one side far away from the inclined edge of the material shifting plate 131; the rotating shafts of the shifting plate 131 and the shifting support plate 132 are positioned at the connecting part of the shifting rod 133 and the shifting plate 131; the material shifting mechanism 130 further comprises a driving assembly for driving the material shifting plate 131 to rotate through the shifting rod 133.

The driving assembly comprises a material shifting push rod 134, one end of the material shifting push rod 134 is hinged to a material shifting support plate 132, the other end of the material shifting push rod 134 is hinged to a pull rod 135, and a rod body of the pull rod 135 is hinged to one end, far away from the material shifting plate 131, of the material shifting rod 133. Through the link structure, when the material-stirring rod 134 extends, the material-stirring rod 134 pulls the material-stirring rod 133 to rotate via the pull rod 135, so as to drive the material-stirring plate 131 to rotate. The material pushing rod 134 can be an electric, pneumatic or hydraulic pushing rod in the prior art.

A plurality of material shifting plates 131, a material shifting support plate 132 and a shifting rod 133 in the material shifting mechanism 130 are arranged along the frame body 110; one material poking push rod 134 and one pull rod 135 are arranged, and when one pull rod 135 is arranged, the end parts of all the poking rods 133 are hinged with the rod body of the pull rod 135.

The field worker may place a certain amount of material directly on the rack 110, and the material rolls or slides to the stopper 111 due to the inclined structure of the upper portion of the rack 110 and stagnates there. With the extension of the material-shifting push rod 134, the pull rod 134 moves upwards, so as to drive all the shifting rods 133 to rotate, and further lift the material-shifting plate 131. The switch board 131 jacks up the rod-shaped material closest to the stopper 11 from the bottom to the top, and the pushed-up rod-shaped material slides onto the rotary roller 121 along the inclined edge of the switch board 131, and is horizontally conveyed by the rotary roller 121. The driving of the roller 121 can be performed by the prior art and will not be described in detail herein.

The frame body 110 is horizontally connected with the material shifting support plate 132 in a sliding manner; the rack body 110 is fixedly provided with a horizontal slide rail 112, one side of the material shifting support plate 132 is rotatably connected with the material shifting plate 131, and the other side is slidably connected with the slide rail 112.

The material shifting support plate 132 is linked with the adjusting component 137 through a gear and rack combination 136;

a rack in the gear and rack assembly 136 is fixedly connected with the material shifting toothed plate 132, and a gear is coaxial and fixedly connected with a rotating rod of the adjusting assembly 137;

each material shifting support plate 132 is correspondingly provided with a gear and rack combination 136, the rotating rod is provided with one gear, and gears in the gear and rack combination 136 are coaxially connected with the rotating rod.

The driving of the rotating rod can be selected from motor driving or manual rotation, and is used for adjusting the position of the material shifting support plate 132, so that the working position of the material shifting plate 131 can be changed according to actual requirements. Referring to fig. 4 of the present application, a rotary disc in the adjusting assembly 137 is disposed at one side of the frame body 110, and the rotary disc changes the direction of output power through a gear box, so as to drive a rotating rod to rotate to drive gears in the rack and pinion assembly 136 to rotate. Along with the rotation of gear, drive the translation of kickoff extension board 132 in the horizontal direction to the cooperation degree of adjustment kickoff board 131 and the material that is closest to dog 111 when lifting, avoid leading to once jack-up more than a material because of the lifting of kickoff board 131.

Example 4

Referring to fig. 9 to 11, on the basis of the above embodiment, the feeding unit 2 includes a pushing assembly 210 and a clamping assembly 220; the clamping component 220 is arranged on the upper side of the pushing component 210, and the clamping component 220 is connected with the pushing component 210 in a sliding manner; the clamping assembly 220 changes the horizontal height of the clamped object by sliding along the pushing assembly 210; the gripping assembly 220 grips the material to be pushed in a horizontal direction.

According to the application of the feeding mechanism in different scenes, the pushing assembly 210 combines with on-site rails, push rods and other mechanisms to form the feeding operation for the material handling assembly by the material clamped by the clamping assembly 220. By operating with the material end slightly raised by the clamp assembly 220, the material is separated from the front end mechanism and does not damage the surface of the material while being transported.

The pushing assembly 210 comprises a bearing table 211, wherein an inclined lower support plate 212 is arranged on the upper side of the bearing table 211; the lower edge of the lower support plate 212 is close to the edge of the bearing table 211, and the upper edge is inclined towards the middle of the bearing table 211;

an inclined upper sliding rail 213 is arranged along the outer side of the plate body of the lower support plate 212, an upper sliding block 221 is fixedly arranged at the lower side of the clamping component 220, and the clamping component 220 is connected with the lower support plate 212 in a sliding mode through the upper sliding block 221 and the upper sliding rail 213. The sliding direction of the pushing assembly 210 is perpendicular to the projection of the feeding direction of the feeding mechanism on the horizontal plane.

The clamping assembly 220 comprises an upper support plate 222, and the upper support plate 222 is fixedly connected with the upper sliding block 221; one side of the upper support plate 222, which is far away from the upper sliding block 221, is provided with a vertical baffle 223 and a clamping plate 224, and the clamping plate 224 moves in the horizontal direction and clamps the material by combining the baffle 223.

An upper plate driving mechanism 225 is fixedly disposed on one side of the upper plate 222, and the upper plate driving mechanism 225 drives the upper plate 222 to slide along the upper rail 213.

Through the structure, the upper support plate 222 moves along the plate surface of the lower support plate 212 according to the material conveying requirement while the whole feeding mechanism moves, so that the material can move up and down in a small range within a certain range, the movement does not need to be large, and only a certain interval is kept between the upper support plate and the support platform.

A lower support plate 212 is fixedly connected with a support plate baffle 214 at the upper edge; an upper plate drive mechanism 225 is provided on a side of the upper plate 222 facing the lower plate 212; the upper support plate driving mechanism 225 comprises an upper support plate push rod one 2251 and an upper support plate push rod two 2252, wherein the fixed ends of the upper support plate push rod one 2251 and the upper support plate push rod two 2252 are both fixedly arranged near the upper edge of the upper support plate 222; the movable ends of upper brace push rod one 2251 and upper brace push rod two 2252 are both disposed toward baffle 214.

Go up first 2251 of backup pad push rod and go up two 2252 of backup pad push rod and can select for use the mechanism that current scheme can realize promoting the operation, adopt hydraulic cylinder as the push rod structure in this scheme.

When the device works, the second upper support plate push rod 2252 is ejected out to drive the whole clamping assembly 220 to move obliquely upwards along the lower support plate 212; after the materials are fed in place, the first upper support plate push rod 2251 is ejected out, the second upper support plate push rod 2252 is retracted, and the clamping assembly 220 is maintained at the middle position under the supporting limit of the first upper support plate push rod 2251; at this moment, the front end and the rear end of the material fall on the support, the clamping of the material is released, the first upper supporting plate push rod 2251 and the second upper supporting plate push rod 2252 are in a recovery state, and the clamping assembly 220 falls back to a low position. The entire feed mechanism is then moved back to the initial position, and the first 2251 and second 2252 upper brace push rods again adjust the clamp assembly 220 to the neutral position.

In this way, when the material is conveyed, the front and rear of the material are separated from the support table, and the surface of the material is not damaged.

A support frame 226 is fixedly arranged on one side of the upper support plate 222 away from the lower support plate 212, and the upper surface of the support frame 226 is a horizontal plane; the baffle 223 is fixed and vertically arranged on one side of the support frame 226 far away from the upper support plate 222, and the clamping plate 224 horizontally moves along the upper surface of the support frame 226. The upper side of the supporting frame 226 is fixedly provided with a clamping plate push rod 227, the movable end of the clamping plate push rod 227 faces the baffle 223, and the movable end of the clamping plate push rod 227 is fixedly connected with the clamping plate 224. A mounting block 2261 is fixedly arranged on the upper side surface of the support frame 226, the clamping plate push rod 227 is fixedly connected with the mounting block 2261, and a rod body of the clamping plate push rod 227 penetrates through the mounting block 2261 and extends towards the clamping plate 224; the horizontal guide rod 2241 is fixedly arranged on one side, away from the blocking plate 223, of the clamping plate 224, and a guide hole is formed in the block body of the mounting block 2261 corresponding to the guide rod 2241. Through the structure, the clamping plate 224 can ensure enough stability during movement, and the clamping effect of the device on materials is ensured.

The bearing base plate 215 which is concave upwards is formed at the bottom of the bearing table 211, the bottom sliding block 216 is fixedly arranged at the lower side of the bearing base plate 215, and the bottom sliding block 216 is matched with the corresponding sliding rail and the driving mechanism in combination with the application environment of the feeding mechanism, so that the whole feeding mechanism can be pushed.

Example 5

Referring to fig. 12 to 15, on the basis of the above embodiment, the clamping unit 3 includes a base 310, a horizontal clamping portion 320 and a trough group 330 are disposed on the upper side of the base 310, and the trough group 330 is disposed on one side of the horizontal clamping portion 320; one end of the trough group 330 is a feed inlet, the other end is a discharge outlet, and one end of the feed inlet of the trough group 330 is provided with a vertical clamping part 340; the horizontal clamping part 320 comprises at least two horizontal clamping rods 321, the horizontal clamping rods 321 are telescopic rods, the fixed part of each horizontal clamping rod 321 is fixedly connected with the base table 310, and the movable part of each horizontal clamping rod 321 faces the material trough group 330; a through hole is formed in one side groove wall of the material groove group 330 corresponding to the horizontal clamping rod 321, and the movable end of the horizontal clamping rod 321 can move towards the other side groove wall through the through hole.

Through this structure, the cell wall that combines the silo and the centre gripping of horizontal clamping bar 321 expansion end to the cell wall is as a component that clamping effect realized, because the area of contact of cell wall and bar-shaped material is great relatively, consequently can not leave the vestige of centre gripping on the material surface at the fixed in-process of centre gripping, can have the firm and pleasing to the eye to the material centre gripping among the cutting process concurrently.

The material groove group 330 comprises a fixed material groove 331 and a movable material groove 332; the fixed trough 331 is a feed end of the trough group 330, a movable trough 332 is arranged at a discharge end of the fixed trough 331, and the movable trough 332 is a discharge end of the trough group 330; the movable chute 332 can adjust the orientation of its outlet.

A cutting groove is reserved on the groove body of the fixed material groove 331; the cutting groove corresponds to a cutter for cutting, and a cutting space is reserved for the cutter; the two horizontal clamping rods 321 are provided and respectively correspond to groove bodies on two sides of the cutting groove on the fixed material groove 331.

Through this structure, two horizontal clamping bars 321 have fixed the both ends of material cutting position respectively after carrying out the centre gripping to bar-shaped material, alright in order to ensure the holistic stability of material when the cutting.

The vertical clamping part 340 comprises a vertical clamping rod 341, the vertical clamping rod 341 is an expansion rod, and a fixing part of the vertical clamping rod 341 is arranged above the feeding end of the fixing trough 331 through a supporting structure; the movable end of the vertical clamping bar 341 is disposed toward the fixed chute 331, and the movable end of the vertical clamping bar 341 moves toward the chute body portion on the feeding side of the cutting chute on the fixed chute 331.

Through this structure, when cutting, this device carries out the centre gripping respectively to the both sides of bar-shaped material cutting seam and bar-shaped material cutting position rear end upside and fixes, and overall stability when can ensure bar-shaped material cutting.

The movable end of the horizontal clamping rod 321 and the movable end of the vertical clamping rod 341 are both fixedly connected with the jacking block 350, and one surface of the jacking block 350 facing the fixed trough 331 is a smooth plane.

One side of the cutting groove in the fixed material groove 331 in the feeding direction is a feeding groove part 3311 of the fixed material groove 331, and one side of the cutting groove in the discharging direction is a discharging groove part 3312 of the fixed material groove 331;

the two horizontal clamping rods 321 are correspondingly divided into a feeding clamping rod 3211 and a discharging clamping rod 3212;

the upper side of the base table 310 is provided with a clamping guide rail 370, the clamping guide rail 370 is connected with a sliding table 3671 in a sliding way, and the sliding table 371 is fixedly connected with the discharging clamping rod 3212 and the discharging groove part 3312.

A sliding table motor 372 is arranged on one side of the clamping guide rail 370, a motor shaft of the sliding table motor 372 is linked with a sliding table screw rod 373, and a sliding table 371 is in threaded connection with the sliding table screw rod 373;

the moving direction of the sliding table 371 is parallel to the feeding and discharging direction of the clamping mechanism.

The sliding table 371 is driven by the sliding table motor 372 to move, after cutting is completed, the discharging groove part 3312 can be combined with the discharging clamping rod 3212 to clamp the cut materials to move horizontally, and after loosening, the cut part moves to other equipment along the movable trough 332.

One side of the feeding clamping rod 3211 and one side of the vertical clamping rod 341 are respectively provided with a displacement sensor 380, and the motion states of the movable ends of the feeding clamping rod 3211 and the vertical clamping rod 341 are fed back through the displacement sensors.

The lower side surface of the movable trough 332 is fixedly connected with a trough rotating shaft 3321, and a trough gear 3322 is coaxially and fixedly arranged on the trough rotating shaft 3321; the base platform 310 is fixedly connected with a trough ejector rod 3323, the movable end of the trough ejector rod 3323 is fixedly connected with a trough rack 3324, and the trough rack 3324 is meshed with a trough gear 3322; the trough ejector rod 3323 is a telescopic rod.

The trough rotary shaft 3321 is provided on the side of the center line of the lower side surface of the movable trough 332.

When the trough ejector rod 3323 drives the trough rack 3324 to move, the trough rack 3324 drives the trough gear 3322 to rotate, so that the movable trough 332 is driven to rotate. Because the first cutting end of the rod-shaped material can not be directly used, the rod-shaped material needs to be cut off and then discarded, the rod-shaped material can be thrown into a waste material pile at the first cutting end through the rotation of the movable trough 332, and then the movable trough 332 rotates again to reset, so that the material is discharged in the normal discharging direction.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The cutting equipment is characterized by comprising a feeding unit (1) and a bottom table (4) positioned on one side of the feeding unit (1), wherein the feeding unit (2), a clamping unit (3) and a cutting unit (5) are respectively arranged on the bottom table (4);

the feeding unit (1) is used for arranging and stacking the rod-shaped materials and separating the stacked rod-shaped materials into single rod-shaped materials to be conveyed to the feeding unit (2) in a translation manner;

the feeding unit (2) receives the rod-shaped materials conveyed by the feeding unit (1), changes the original horizontal height of the rod-shaped materials after clamping the rod-shaped materials, and then conveys the rod-shaped materials to the cutting unit (2);

the clamping unit (3) is used for clamping and limiting the rod-shaped materials conveyed by the feeding unit (2);

a cutting unit (5) for cutting the rod-shaped material delivered by the feeding unit (2);

the bottom table (4) bears and drives the feeding unit (2) and the cutting unit (3) to translate in the feeding direction and the cutting direction respectively, and the feeding direction is perpendicular to the cutting direction.

2. The cutting device according to claim 1, characterized in that, comprises a base (410), the upper side of the base (410) is respectively provided with a feeding traction assembly (420), a cutting traction assembly (430) and a chip removal assembly (440);

the cutting traction assembly (430) and the feeding traction assembly (420) are both in the horizontal direction, and the traction travel routes of the cutting advancing assembly (430) and the feeding traction assembly (420) are in an L shape;

the cutting unit (5) is carried on the cutting advancing assembly (430), and the feeding unit (2) is carried on the feeding advancing assembly (420);

the cutting traction assembly (430) and the feeding traction assembly (420) are of a rail and screw rod combined structure, and a screw rod is positioned between the rails and driven to rotate by a screw rod motor;

the cutting track (431) of the cutting and drawing assembly (430) is positioned on one side of the discharge end of the feeding track (421) of the feeding and drawing assembly (420);

the chip removal assembly (440) is positioned at one side of the cutting traction assembly (430);

the chip removal assembly (440) comprises a chip removal channel (441), a conveyor belt is arranged in the chip removal channel (441), and the long axis of the chip removal channel (441) is parallel to the long axis of the cutting track (431);

one end of the chip discharge channel (441) extends to one end of the cutting track (431) close to the feeding track (421), and the other end of the chip discharge channel is provided with a discharge port for discharging chips.

3. The cutting apparatus according to claim 2, wherein one side of the feed pulling assembly (420) is provided with a positioning assembly (460);

the positioning assembly (460) comprises a support pillar (461) which is vertically arranged, and a feeding pressure rod (463) is connected above the support pillar (461) through a suspension plate (462);

the feeding compression bar (463) is positioned right above the strut (461), the fixed part of the feeding compression bar (463) is fixedly connected with the plate body of the suspension plate (462), and the movable part can move towards the top end of the strut (461) in the vertical direction;

a roller bracket is fixedly arranged at the top end of the strut (461), and a feeding roller (464) is rotatably connected to the roller bracket;

the extension line of the axial line of the feeding rotating roller (464) is vertical to the axial line of the feeding track (421).

4. The cutting apparatus according to claim 3, wherein the feeding unit (1) comprises a frame (110) and a feeding portion (120), the feeding portion (120) being located at one side of the frame (110);

a placing area for placing the rod-shaped materials is arranged on the upper side of the frame body (110), and the placing area is downwards inclined towards the feeding part (120);

the feeding part (120) is used for horizontally conveying the rod-shaped materials; a material poking mechanism (130) is arranged between the feeding part (120) and the frame body (110), and the material poking mechanism (130) is used for raising the rod-shaped materials from the placing area of the frame body (110) and then poking the rod-shaped materials into the conveying area of the feeding part (120);

the whole frame body (1) is a strip-shaped frame corresponding to the rod-shaped material;

the feeding part (120) comprises a plurality of rotary rollers (121) arranged along the conveying direction of the frame body (110), and the rotary rollers (121) are uniformly distributed in a linear array;

the material poking mechanism (130) is arranged on one side of the rotary roller (121) close to the frame body (110);

the kick-out mechanism (130) comprises a kick-out plate (131), the kick-out plate (131) can rotate, and rod-shaped materials in the placement area of the frame body (110) are lifted up and kicked into the rotary roller (121) through the rotation of the kick-out plate (131);

the axis of the rotating shaft of the kick-out plate (131) is vertical to the material conveying direction of the feeding part (120);

the material shifting plate (131) spans the end area where the material rack (110) and the feeding part (120) are close to each other; the upper edge of the material shifting plate (131) is inclined, one end of the material shifting plate (131) facing the feeding part (120) is a low-level end, and the other end of the material shifting plate facing the frame body (110) is a high-level end;

when the material shifting plate (131) rotates to perform material shifting action, the high-level end of the material shifting plate (131) jacks up the rod-shaped materials from the material rack (131), and the rod-shaped materials slide onto the rotating roller (121) along the inclined edge of the material shifting plate (131).

5. The cutting apparatus according to claim 4, characterized in that the kick-out structure (130) further comprises a kick-out support plate (132), the kick-out support plate (132) is connected with the frame body (1), one side of the kick-out support plate (132) is rotatably connected with the kick-out plate (131);

the edge of one side of the material shifting plate (131) is fixedly connected with a shifting rod (133), and the shifting rod (133) is arranged on one side far away from the inclined edge of the material shifting plate (131);

the rotating shafts of the material shifting plate (131) and the material shifting support plate (132) are positioned at the connecting part of the material shifting rod (133) and the material shifting plate (131); the material shifting mechanism (130) further comprises a driving assembly for driving the material shifting plate (131) to rotate through the shifting rod (133).

6. The cutting device according to claim 5, characterized in that the driving assembly comprises a material-shifting push rod (134), one end of the material-shifting push rod (134) is hinged with a material-shifting support plate (132), the other end is hinged with a pull rod (135), and a rod body of the pull rod (135) is hinged with one end of the material-shifting rod (133) far away from the material-shifting plate (131);

a plurality of material shifting plates (131), material shifting support plates (132) and material shifting rods (133) in the material shifting mechanism (130) are arranged along the frame body (110);

the material poking push rod (134) and the pull rod (135) are at least provided with one, and when one pull rod (135) is arranged, the end parts of all the poking rods (133) are hinged with the rod body of the pull rod (135).

7. The cutting apparatus according to claim 2, wherein the feed unit (2) comprises a pushing assembly (210), the pushing assembly (210) being connected to a clamping assembly (220);

the pushing assembly (210) bears the clamping assembly (220) and is connected with the clamping assembly (220), and the clamping assembly (220) is connected with the pushing assembly (210) in a sliding mode;

the clamping assembly (220) slides along the pushing assembly (210) to change the horizontal height of the clamped object; the clamping assembly (220) clamps the material to be pushed in the horizontal direction;

the pushing assembly (210) comprises a bearing table (211), and an inclined lower support plate (212) is arranged on the upper side of the bearing table (211); the lower edge of the lower support plate (212) is close to the edge of the bearing table (211), and the upper edge is close to the middle of the bearing table (211);

the pushing assembly (210) is arranged on the outer side surface of the lower support plate (212), the pushing assembly (210) is connected with the inclined surface of the lower support plate (212) in a sliding mode, and the sliding direction of the pushing assembly (210) is perpendicular to the projection of the feeding direction of the feeding mechanism on the horizontal plane;

an inclined upper sliding rail (213) is arranged along the outer side of the plate body of the lower support plate (212), an upper sliding block (221) is fixedly arranged on the lower side of the clamping assembly (220), and the upper sliding block (221) is connected with the upper sliding rail (213) in a sliding mode;

the clamping assembly (220) comprises an upper support plate (222), and the upper support plate (222) is fixedly connected with an upper sliding block (221);

one side of the upper support plate (222) departing from the upper sliding block (221) is provided with a vertical baffle (223) and a clamping plate (224), the clamping plate (224) moves in the horizontal direction, and the material is clamped by combining the baffle (223);

an upper support plate driving mechanism (225) is fixedly arranged on one side of the upper support plate (222), and the upper support plate driving mechanism (225) drives the upper support plate (222) to slide along the upper sliding rail (213).

8. The cutting apparatus as set forth in claim 7, characterized in that a bridge stop (214) is fixedly attached at an upper edge of the lower bridge (212); the upper support plate driving mechanism (225) is arranged on one side of the upper support plate (222) facing the lower support plate (212);

the upper support plate driving mechanism (225) comprises a first upper support plate push rod (2251) and a second upper support plate push rod (2252), and fixed ends of the first upper support plate push rod (2251) and the second upper support plate push rod (2252) are fixedly arranged at positions close to the upper edge of the upper support plate (222); the movable ends of the first upper support plate push rod (2251) and the second upper support plate push rod (2252) are both arranged towards the baffle (214);

a supporting frame (226) is fixedly arranged on one side of the upper support plate (222) far away from the lower support plate (212), and the upper surface of the supporting frame (226) is a horizontal plane;

the baffle (223) is fixed and vertically arranged on one side of the supporting frame (226) far away from the upper support plate (222), and the clamping plate (224) horizontally moves along the upper surface of the supporting frame (226);

a clamping plate push rod (227) is fixedly arranged on the upper side surface of the supporting frame (226), the movable end of the clamping plate push rod (227) faces the baffle (223), and the movable end of the clamping plate push rod (227) is fixedly connected with the clamping plate (224);

a mounting block (2261) is fixedly arranged on the upper side surface of the supporting frame (226), the clamping plate push rod (227) is fixedly connected with the mounting block (2261), and a rod body of the clamping plate push rod (227) penetrates through the mounting block (2261) and extends towards the clamping plate (224);

one side that baffle (223) were kept away from in splint (224) is fixed to be set up horizontally guide bar (2241), correspond guide bar (2241) on the block of installation piece (2261) and set up the guiding hole.

9. The cutting apparatus according to claim 2, wherein the clamping unit (3) comprises a base (310), a horizontal clamping part (320) and a trough group (330) are arranged on the upper side of the base (310), and the trough group (330) is arranged on one side of the horizontal clamping part (320);

one end of the material groove group (330) is a material inlet, the other end of the material groove group is a material outlet, and one end of the material inlet of the material groove group (330) is provided with a vertical clamping part (340);

the horizontal clamping part (320) comprises at least two horizontal clamping rods (321), the horizontal clamping rods (321) are telescopic rods, the fixed parts of the horizontal clamping rods (321) are fixedly connected with the base station (310), and the movable parts are arranged towards the material groove group (330);

a through hole is formed in one side groove wall of the material groove group (330) corresponding to the horizontal clamping rod (321), and the movable end of the horizontal clamping rod (321) can pass through the through hole and move towards the other side groove wall;

the material groove group (330) comprises a fixed material groove (331) and a movable material groove (332);

the fixed trough (331) is a feeding end of the trough group (330), the discharging end of the fixed trough (331) is provided with a movable trough (332), and the movable trough (332) is a discharging end of the trough group (330);

the movable trough (332) can adjust the direction of the outlet thereof;

a cutting groove is reserved on the groove body of the fixed material groove (331); the cutting groove corresponds to a cutter for cutting, and a cutting space is reserved for the cutter;

the two horizontal clamping rods (321) are respectively corresponding to the groove bodies on the two sides of the cutting groove on the fixed material groove (331);

the vertical clamping part (340) comprises a vertical clamping rod (341), the vertical clamping rod (341) is a telescopic rod, and a fixing part of the vertical clamping rod (341) is arranged above the feed end of the fixing trough (331) through a supporting structure;

the movable end of the vertical clamping rod (341) is arranged towards the fixed trough (331), and the movable end of the vertical clamping rod (341) moves towards the trough body part on the feeding side of the cutting trough on the fixed trough (331);

the movable end of the horizontal clamping rod (321) and the movable end of the vertical clamping rod (341) are fixedly connected with a jacking block (350), and one surface, facing the fixed trough (331), of the jacking block (350) is a smooth plane.

10. The clamping mechanism as claimed in claim 9, wherein the feeding direction side of the cutting groove of the fixed material groove (331) is a feeding groove part (3311) of the fixed material groove (331), and the discharging direction side is a discharging groove part (3312) of the fixed material groove (331);

the two horizontal clamping rods (321) are correspondingly divided into a feeding clamping rod (3211) and a discharging clamping rod (3212);

a clamping guide rail (370) is arranged on the upper side of the base table (310), the clamping guide rail (370) is connected with a sliding table (3671) in a sliding mode, and the sliding table (371) is fixedly connected with the discharging clamping rod (3212) and the discharging groove part (3312);

a sliding table motor (372) is arranged on one side of the clamping guide rail (370), a motor shaft of the sliding table motor (372) is linked with a sliding table screw rod (373), and the sliding table (371) is in threaded connection with the sliding table screw rod (373);

the moving direction of the sliding table (371) is parallel to the feeding and discharging direction of the clamping mechanism;

displacement sensors (380) are respectively arranged on one sides of the feeding clamping rod (3211) and the vertical clamping rod (341), and the motion states of the movable ends of the feeding clamping rod and the vertical clamping rod are fed back through the displacement sensors;

the lower side surface of the movable trough (332) is fixedly connected with a trough rotating shaft (3321), and a trough gear (3322) is coaxially and fixedly arranged on the trough rotating shaft (3321);

the base station (310) is fixedly connected with a trough ejector rod (3323), the movable end of the trough ejector rod (3323) is fixedly connected with a trough rack (3324), and the trough rack (3324) is meshed with a trough gear (3322);

the trough ejector rod (3323) is a telescopic rod.

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