CN112025801B - Cutting device with positioning structure for preparing environment-friendly materials - Google Patents

Abstract

The invention relates to the technical field of environment-friendly material preparation, in particular to a cutting device with a positioning structure for environment-friendly material preparation, which comprises a device main body and is characterized in that: the device main part includes the operation panel, the mounting bracket is installed on the top of operation panel, the internal thread of mounting bracket installs rotatory screw rod, and the one end of rotatory screw rod extends to the outside of mounting bracket, the surface of rotatory screw rod cup joints installs hydraulic lifting rod, and the one end of hydraulic lifting rod extends to the outside of mounting bracket. According to the invention, the mounting rod and the auxiliary rod are arranged, a gap for the cutting blade to pass through is reserved between the auxiliary rods arranged on one side of the mounting rod, and the auxiliary rods with different widths between the gaps can be replaced by the auxiliary rods with different widths through the mutual matching between the sliding blocks and the sliding grooves, so that different requirements of the staff in manufacturing the environment-friendly material are met, and the environment-friendly material is convenient to manufacture with the staff.

Description

Cutting device with positioning structure for preparing environment-friendly materials

Technical Field

The invention relates to the technical field of environment-friendly material preparation, in particular to a cutting device with a positioning structure for environment-friendly material preparation.

Background

New materials refer to newly developed or developing structural materials with excellent properties and functional materials with special properties. The structural materials mainly utilize the mechanical properties of strength, toughness, hardness, elasticity and the like. Such as new ceramic materials, amorphous alloys (metallic glass), etc. In the processing of new materials, cutting equipment is required.

The existing cutting equipment is complex in operation in the using process, a worker is required to adjust the cutting position and the cutting direction by operating a plurality of parts, time and labor are wasted, the machining efficiency is low, the stability in the cutting process is poor, and the product quality is reduced, so that the cutting device with the positioning structure for preparing the environment-friendly material is required to be designed to solve the problems.

Disclosure of Invention

The invention aims to provide a cutting device with a positioning structure for preparing environment-friendly materials, which aims to solve the problems that the existing cutting equipment provided in the background art is complex in operation in the use process, a plurality of parts are required to be operated by a worker to adjust the cutting position and the cutting direction, time and labor are wasted, the processing efficiency is low, the stability in the cutting process is poor, and the product quality is reduced.

In order to achieve the above purpose, the present invention provides the following technical solutions: cutting device with location structure is used in environmental protection material preparation, including the device main part, its characterized in that: the device main part includes the operation panel, the mounting bracket is installed on the top of operation panel, the internally threaded of mounting bracket installs rotatory screw rod, and the one end of rotatory screw rod extends to the outside of mounting bracket, the surface of rotatory screw rod cup joints and installs hydraulic lifting rod, and the one end of hydraulic lifting rod extends to the outside of mounting bracket, cutting blade is installed to the bottom of hydraulic lifting rod, rotating electrical machines is installed to one side of hydraulic lifting rod bottom, and the output of rotating electrical machines extends to the inside of hydraulic lifting rod and be connected with cutting blade, the internally mounted of operation panel has moving mechanism, the installation metal block is installed on moving mechanism's top, place the platform is installed on the top of installation metal block, place the both sides on platform top all install first dead lever, extrusion mechanism is all installed to the inside of first dead lever.

Preferably, the extrusion mechanism comprises a lower pressing block, the lower pressing block is arranged in the first fixing rod, a sliding block is arranged on one side of the lower pressing block, a mounting rod is arranged on one side, close to the sliding block, of the inner wall of the first fixing rod, a rotating screw is arranged on the top end of the lower pressing block in a threaded manner, the rotating screw extends to the outer side of the top end of the first fixing rod, a rotating handle is arranged on the top end of the rotating screw on the outer side of the first fixing rod, a sleeve ring is sleeved on the outer surface of the rotating screw on the top end of the first fixing rod, sleeve tracks are sleeved on the outer surface of the sleeve ring, sliding grooves are formed in one sides, close to each other, of the sliding grooves are provided with sliding blocks, mounting rods are arranged on one ends, far away from the sliding blocks, of the sliding blocks, and auxiliary rods are uniformly arranged on the other ends of the mounting rods.

Preferably, the slider is close to the side of sliding block and has all seted up the holding tank, the inside of holding tank is all installed ejecting spring, the card ball is all installed to ejecting spring's the other end, the fixed slot has all been seted up to the inside side that is close to the card ball of briquetting down, and the card ball extends to the fixed slot inside.

Preferably, the slider is close to the side of sliding block and has all seted up the holding tank, the inside of holding tank is all installed ejecting spring, the card ball is all installed to ejecting spring's the other end, the fixed slot has all been seted up to the inside side that is close to the card ball of briquetting down, and the card ball extends to the fixed slot inside.

Preferably, friction rollers are arranged on one sides of the clamping balls, which are far away from the ejection springs.

Preferably, the moving mechanism comprises a rotating crawler, the internally mounted of operation panel has the rotating crawler, the moving mechanism is including rotating the crawler, the internally mounted of operation panel has the rotating crawler, the internally mounted of rotating the crawler has first tooth, the rotation crawler of both ends about the first tooth is inside all to be installed the second tooth, rotatory handle is installed to one side of first tooth, and the one end of rotatory handle extends to the operation panel outside, auxiliary frame is installed to operation panel one side of rotatory handle bottom, the second dead lever is installed on the top of auxiliary frame, the top of second dead lever is installed and is cup jointed the ring, and cup joints the ring and cup joints the surface at rotatory handle, the rotatory screw rod one end in the mounting bracket outside is installed the second and is cup jointed the axle, cup joints the rotatory handle surface of ring one side and cup joints first cup jointed the axle, first cup joints axle and cup joints axle top surface and install rotatory crawler, the auxiliary frame surface is close to first one side of cup jointing the axle all cup joints and installs the solid fixed ring, gu fixed ring's outer surface is installed one and is close to first ring and is cup jointed the solid fixed ring and can be installed the solid fixed ring and is cup jointed the ring by a little volume than first side of meshing.

Preferably, the first sleeve joint axle is inside to be close to the one side of meshing chi and all install the accommodation piece, the inside of rotating the track all installs fixed spring, fixed metal piece is all installed to the other end of fixed spring.

Preferably, connecting rods are arranged on one sides of the sleeving circular rings at the upper end and the lower end of the rotary handle, which are close to the first sleeving shaft, and the other ends of the connecting rods are connected with the first sleeving shaft.

Compared with the prior art, the invention has the beneficial effects that:

1. through being provided with rotation handle and briquetting down, the staff makes the original cup joint the ring rotation that cup joints on rotating the screw rod through rotatory track, and can make cup joint the ring on cup jointing the ring cup joint the track and bring and drive another ring and rotate, thereby make two rotate the screw rod drive down the briquetting and move downwards, thereby place the staff and place the environment-friendly material on the platform and carry out effectual fixed, thereby make things convenient for later that the staff operates cutting blade to place the material on the platform and cut, and so prevent when the staff cuts the material of placing the platform at operation cutting blade, place the material on the platform and take place the skew condition, thereby lead to cutting blade can cut inhomogeneous to placing the material on the platform, thereby influence the condition of staff to the preparation of environment-friendly material afterwards.

2. Through being provided with installation pole and auxiliary rod, leave the gap that is used for cutting blade to pass through between the auxiliary rod that installation pole one side was installed, and mutually support between staff's accessible slider and the spout to change into the auxiliary rod that the width is different between the gap, with this different demands of staff when making environmental protection material that satisfy, thereby make things convenient for the staff to environmental protection material's preparation.

3. Through being provided with moving mechanism, the staff is through dragging rotatory handle so that the solid fixed ring on rotatory handle is cup jointed by first cover axle, thereby make the staff when rotatory handle, will drive rotatory screw rod and rotate, thereby drive the hydraulic lifting rod and carry out the repetitive motion, thereby carry out effectual cutting to the material of placing on the platform, and when the staff need not remove the hydraulic lifting rod and cut, the staff can remove rotatory handle to the inside direction of track of rotation, thereby make first tooth and the second tooth intermesh of installing on the track of rotation, thereby remove the platform of placing when the staff rotates rotatory handle, and will not drive the removal of hydraulic lifting rod when the staff removes the platform, thereby reduce the switch that the staff required when operating the device, thereby alleviate staff's working strength, and the reduction of the operating part of device, also will make the whole manufacturing price of device main part reduce, and so the economic benefits of mill improves.

Drawings

FIG. 1 is a schematic elevational cross-sectional view of the structure of the present invention;

FIG. 2 is a schematic side view of the structure of the present invention;

FIG. 3 is a schematic top view of a lower block structure of the present invention;

FIG. 4 is a schematic side cross-sectional view of a first quill configuration of the present invention;

FIG. 5 is a schematic side view of a retaining ring structure of the present invention;

fig. 6 is an enlarged schematic view of a portion of the structure of fig. 3 a in accordance with the present invention.

In the figure: 100. a device body; 110. an operation table; 111. a mounting frame; 112. rotating the screw; 113. a hydraulic lifting rod; 114. a cutting blade; 115. installing a metal block; 116. a placement table; 117. a first fixing rod; 118. a rotating electric machine; 200. an extrusion mechanism; 210. pressing the block; 211. a chute; 212. a slide block; 213. an auxiliary lever; 214. a sliding block; 215. a mounting rod; 216. rotating the screw; 217. rotating the handle; 218. a sleeve joint ring; 219. sleeving the crawler belt; 220. a receiving groove; 221. an ejector spring; 222. ball clamping; 223. friction roller; 224. a fixing groove; 300. a moving mechanism; 310. rotating the grip; 311. an auxiliary frame; 312. a second fixing rod; 313. sleeving a circular ring; 314. a first sleeve joint shaft; 315. a fixing ring; 316. a meshing ruler; 317. a rotating track; 318. a second sleeve joint shaft; 319. a first tooth; 320. rotating the crawler belt; 321. a second tooth; 322. fixing the metal block; 323. a connecting rod; 324. a receiving block; 325. and fixing the spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-6, an embodiment of the present invention is provided:

the utility model provides a cutting device with location structure for environmental protection material preparation, including device main part 100, device main part 100 includes operation panel 110, mounting bracket 111 is installed on the top of operation panel 110, the internally threaded of mounting bracket 111 installs rotatory screw rod 112, and rotatory screw rod 112's one end extends to the outside of mounting bracket 111, rotatory screw rod 112's surface cup joints and installs hydraulic lifting rod 113, and hydraulic lifting rod 113's one end extends to the outside of mounting bracket 111, cutting blade 114 is installed to hydraulic lifting rod 113's bottom, rotating electrical machines 118 is installed to one side of hydraulic lifting rod 113 bottom, and rotating electrical machines 118's output extends to hydraulic lifting rod 113's inside and is connected with cutting blade 114, operating panel 110's internally mounted has moving mechanism 300, install installation metal piece 115 on the top of moving mechanism 300, place the platform 116 is installed on the top of installation metal piece 115, place the both sides on platform 116 top all install first dead lever 117, the inside of first dead lever 117 all installs extrusion mechanism 200, the staff is through placing the material that needs to place the platform 116, and through installing at 111 inside cutting blade 114, thereby the material that is placed on the platform 116, the environmental protection material that satisfies is placed, thereby the preparation efficiency is carried out to the material to the manufacturing personnel after the environmental protection material, the environmental protection material is satisfied.

Further, the extrusion mechanism 200 includes lower briquetting 210, lower briquetting 210 is all installed to the inside of first dead lever 117, sliding block 214 is all installed to one side of lower briquetting 210, the installation pole 215 has all been seted up to one side that first dead lever 117 inner wall is close to sliding block 214, the rotation screw 216 is all installed to the top of lower briquetting 210 screw thread, and the outside that rotation screw 216 extends to first dead lever 117 top in the first dead lever 117 outside, the rotation handle 217 is installed at the rotation screw 216 top in the first dead lever 117 outside, the cover ring 218 has all been cup jointed to the rotation screw 216 surface at first dead lever 117 top, the cover ring 218 has been cup jointed and is installed the cover track 219, the staff cup joints the track 219 through rotatory, and so that the cover ring 218 that cup joints on the rotation screw 218 and come to drive another cover ring 218 and rotate, thereby make two rotation screw 216 drive down briquetting 210, from carrying out effective fixation to the environment-friendly material that places the workstation on, thereby make things convenient for the later the staff to place the material on the workstation and place the workstation on the material on the workstation and cut the material on the workstation and can not take place the workstation on the workstation and cut the material on the workstation 116 and place the material on the workstation and the material is cut the workstation 116 is cut the material is even and is cut to the material is placed on the workstation 116 after the workstation 116 is cut to the material is even is place on the workstation 116 to the workstation 116.

Further, the side of the lower pressing block 210, which is close to each other, is provided with the sliding grooves 211, the sliding blocks 212 are slidably mounted in the sliding grooves 211, the accommodating grooves 220 are formed in the side, which is close to the sliding blocks 214, of the sliding blocks 212, the ejector springs 221 are mounted in the accommodating grooves 220, the clamping balls 222 are mounted at the other ends of the ejector springs 221, the friction rollers 223 are mounted at the sides, which are far away from the ejector springs 221, of the clamping balls 222, the fixing grooves 224 are formed in the sides, which are close to the clamping balls 222, of the lower pressing block 210, the clamping balls 222 extend into the fixing grooves 224, the mounting rods 215 are mounted at the ends, which are far away from the sliding blocks 214, of the two sliding blocks 212, the auxiliary rods 213 are uniformly mounted at the other ends of the mounting rods 215, gaps for the cutting blades 114 to pass through are reserved between the auxiliary rods 213 mounted at one side of the mounting rods 215, and staff can exchange the auxiliary rods 213 with different widths between the gaps through the mutual cooperation between the sliding blocks 212 and the sliding grooves 211, so that different requirements of the staff in the environment-friendly materials can be met.

Further, the moving mechanism 300 includes a rotating track 320, a rotating track 320 is mounted in the operating platform 110, a first engaging tooth 319 is mounted in the rotating track 320, a second engaging tooth 321 is mounted in the rotating track 320 at the upper and lower ends of the first engaging tooth 319, a rotating grip 310 is mounted at one side of the first engaging tooth 319, one end of the rotating grip 310 extends to the outside of the operating platform 110, an auxiliary frame 311 is mounted at one side of the operating platform 110 at the bottom end of the rotating grip 310, a second fixing rod 312 is mounted at the top end of the auxiliary frame 311, a sleeve ring 313 is mounted at the top end of the second fixing rod 312, the sleeve ring 313 is sleeve-jointed on the outer surface of the rotating grip 310, a second sleeve-jointing shaft 318 is mounted at one end of the rotating screw 112 at the outside of the mounting frame 111, a first sleeve-jointing shaft 314 is sleeve-jointed on the outer surface of the rotating grip 310 at one side of the sleeve-jointing ring 313, the outer surfaces of the top ends of the first sleeving shaft 314 and the second sleeving shaft 318 are sleeved with a rotary crawler belt 317, one side, close to the first sleeving shaft 314, of the outer surface of the auxiliary frame 311 is sleeved with a fixed ring 315, the outer surface of the fixed ring 315 is provided with a circle of meshing ruler 316, one side, close to the rotary handle 310, of the inner part of the first sleeving shaft 314 is provided with a circle of first meshing teeth 319, the volume of the fixed ring 315 is smaller than that of the first sleeving shaft 314 and can be sleeved with the fixed ring 315, one side, close to the meshing ruler 316, of the inner part of the first sleeving shaft 314 is provided with a containing block 324, the inner part of the rotary crawler belt 320 is provided with a fixed spring 325, the other end of the fixed spring 325 is provided with a fixed metal block 322, one side, close to the first sleeving shaft 314, of the sleeving circular rings 313 at the upper end and the lower end of the rotary handle 310 is provided with a connecting rod 323, the other end of the connecting rod 323 is connected with the first sleeving shaft 314, the worker pulls the rotary handle 310 so that the fixing ring 315 fixed on the rotary handle 310 is sleeved by the first sleeve-connecting shaft 314, so that the worker can drive the rotary screw 112 to rotate when rotating the rotary handle 310, so as to drive the hydraulic lifting rod 113 to repeatedly move, thereby effectively cutting the material placed on the placement table 116, and when the worker does not need to move the hydraulic lifting rod 113 to cut, the worker can move the rotary handle 310 towards the direction inside the rotary track 320, so that the first engaging teeth 319 are engaged with the second engaging teeth 321 arranged on the rotary track 320, thereby moving the placement table 116 when the worker rotates the rotary handle 310, and the worker can not drive the hydraulic lifting rod 113 to move when moving the placement table 116, so as to reduce the switch required when the worker operates the device, thereby reducing the working strength of the worker, reducing the operating parts of the device, reducing the overall manufacturing price of the device body 100, and improving the economic benefit of a factory.

Working principle: when preparing environment-friendly materials, the worker places the required materials on the placement table 116, then the worker rotates the rotary grip 217 through rotating the rotary screw rod 216 to drive the lower pressing block 210 to move downwards so as to fix the materials placed on the placement table 116 by the worker, then the worker rotates the cutting blade 114 through starting the rotary motor 118 to drive the rotary motor 118 through starting the rotary motor 118, so as to effectively fix the materials fixed on the placement table 116, then the worker drives the cutting blade 114 to move downwards through starting the hydraulic lifting rod 113, so that the cutting blade 114 is mutually attached to the placement table 116, the cutting blade 114 is enabled to cut the materials placed by the worker through rotating the rotary grip 310, then the worker drives the rotary crawler 320 to rotate through rotating the rotary grip 310, so as to move the placement table 116 to the lower side of the cutting blade 114, thereby facilitating the worker to cut the materials placed on the placement table 116, the worker moves on the placement table to move on the specified position through the rotary grip 314, and the first sleeve joint is enabled to rotate along the rotary grip 314 to the first sleeve-joint surface of the rotary grip 315, so that the first sleeve joint is enabled to be influenced by rotating the rotary grip 314, the rotary grip is enabled to rotate along the first sleeve-joint surface of the rotary grip 315, the rotary grip is enabled to rotate along the rotary axis 314, and the rotary crawler is enabled to rotate along the rotary grip 315 is enabled to rotate along the rotary track 315, the rotating screw 112 drives the hydraulic lifting rod 113 to move, so that the cutting blade 114 can cut the material on the operation table 110 more fully, the auxiliary rod 213 arranged on one side of the pressing block 210 can limit the width of the material required by the worker, thereby facilitating the later cutting of the environment-friendly material by the worker, and when the worker needs to cut materials with different widths by using the operation table 110, the worker can detach the mounting rod 215 provided with the auxiliary rod 213, and then the worker can fix the mounting rod 215 replaced by the worker by clamping the clamping ball 222 into the fixing groove 224, so that the pressing block 210 fixes the mounting rod 215 replaced by the worker.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (5)

1. Cutting device with location structure for environmental protection material preparation, including device main part (100), its characterized in that: the device comprises a device body (100), wherein the device body comprises an operation table (110), a mounting frame (111) is mounted at the top end of the operation table (110), a rotary screw (112) is mounted in an internal thread of the mounting frame (111), one end of the rotary screw (112) extends to the outer side of the mounting frame (111), a hydraulic lifting rod (113) is mounted on the outer surface of the rotary screw (112) in a sleeved mode, one end of the hydraulic lifting rod (113) extends to the outer side of the mounting frame (111), a cutting blade (114) is mounted at the bottom end of the hydraulic lifting rod (113), a rotary motor (118) is mounted at one side of the bottom end of the hydraulic lifting rod (113), an output end of the rotary motor (118) extends to the inside of the hydraulic lifting rod (113) and is connected with the cutting blade (114), a moving mechanism (300) is mounted at the inside of the operation table (110), a mounting metal block (115) is mounted at the top end of the moving mechanism (300), a placing table (116) is mounted at the top end of the mounting metal block (115), first fixing rods (117) are mounted at two sides of the top end of the placing table (116), first fixing rods (117) are mounted at two sides, and the first fixing rods (117) are all connected with the first fixing rods (117).

The moving mechanism (300) comprises a rotating crawler belt (320), the rotating crawler belt (320) is arranged in the operating platform (110), a first meshing tooth (319) is arranged in the rotating crawler belt (320) at the upper end and the lower end of the first meshing tooth (319), a second meshing tooth (321) is arranged in the rotating crawler belt (320) at the upper end and the lower end of the first meshing tooth (319), a rotating grip (310) is arranged at one side of the first meshing tooth (319), one end of the rotating grip (310) extends to the outer side of the operating platform (110), an auxiliary frame (311) is arranged at one side of the operating platform (110) at the bottom end of the rotating grip (310), a second fixed rod (312) is arranged at the top end of the auxiliary frame (311), a sleeved circular ring (313) is arranged at the top end of the second fixed rod (312), a second shaft (318) is sleeved on the outer surface of the rotating crawler belt (310), a second shaft (318) is arranged at one end of the rotating screw (112) at the outer side of the mounting frame (111), a first shaft (318) is sleeved on the outer surface of the rotating grip (310), a first shaft (314) is sleeved on the outer surface of the rotating grip (314) near the first shaft (314), the outer surface of the fixed ring (315) is provided with a circle of meshing ruler (316), one side, close to the rotary handle (310), of the first sleeving shaft (314) is provided with a circle of first meshing teeth (319), and the volume of the fixed ring (315) is smaller than that of the first sleeving shaft (314) and can be sleeved by the fixed ring (315);

one side, close to the meshing ruler (316), of the first sleeving shaft (314) is provided with a containing block (324), the inside of the rotating crawler belt (320) is provided with a fixed spring (325), and the other end of the fixed spring (325) is provided with a fixed metal block (322);

connecting rods (323) are arranged on one sides of the sleeving circular rings (313) at the upper end and the lower end of the rotary handle (310) close to the first sleeving shafts (314), and the other ends of the connecting rods (323) are connected with the first sleeving shafts (314).

2. The cutting device with a positioning structure for preparing environment-friendly materials as claimed in claim 1, wherein: the extrusion mechanism (200) comprises a lower pressing block (210), wherein the lower pressing block (210) is arranged in the first fixing rod (117), sliding blocks (214) are arranged on one side of the lower pressing block (210), mounting rods (215) are arranged on one side, close to the sliding blocks (214), of the inner wall of the first fixing rod (117), rotating screw rods (216) are arranged on the top ends of the lower pressing block (210) in a threaded mode, the rotating screw rods (216) extend to the outer sides of the top ends of the first fixing rod (117), rotating handles (217) are arranged on the top ends of the rotating screw rods (216) on the outer sides of the first fixing rod (117), sleeve joint rings (218) are arranged on the outer surfaces of the rotating screw rods (216) on the top ends of the first fixing rod (117) in a sleeved mode, sliding grooves (211) are arranged on one sides, close to each other, sliding blocks (212) are arranged in a sliding mode, one end, far away from the sliding blocks (214), of each sliding block (215) is arranged on the other, and auxiliary rods (215) are arranged on the outer surfaces of the top ends of the first fixing rod (117).

3. The cutting device with a positioning structure for preparing environment-friendly materials as claimed in claim 2, wherein: the sliding block (212) is close to one side of the sliding block (214) and is provided with a containing groove (220), an ejection spring (221) is arranged in the containing groove (220), the other end of the ejection spring (221) is provided with a clamping ball (222), one side of the lower pressing block (210) close to the clamping ball (222) is provided with a fixing groove (224), and the clamping ball (222) extends into the fixing groove (224).

4. A cutting device with positioning structure for preparing environment-friendly materials as claimed in claim 3, wherein: the side of the clamping ball (222) far away from the ejection spring (221) is arc-shaped, and the shape of a fixing groove (224) formed on the lower pressing block (210) is the same as the shape of the clamping ball (222).

5. A cutting device with positioning structure for preparing environment-friendly materials as claimed in claim 3, wherein: the friction rollers (223) are arranged on one sides of the clamping balls (222) away from the ejection springs (221).