CN217669606U - Cutting equipment for processing based on inorganic non-metallic material - Google Patents

Abstract

The utility model relates to a cutting equipment technical field, more specifically relate to a cutting equipment based on processing of inorganic non-metallic material, including the cutting structure, the cutting structure includes the cutting piece, cutting power hole has all been seted up with the back to the front portion of cutting piece, the back of cutting piece is equipped with the cutting power post, the anterior fixedly connected with cutting meshing gear of cutting power post, the back fixedly connected with cutting fastening dish of cutting power post, the back of cutting fastening dish is equipped with four construction bolts, the back of cutting fastening dish is equipped with the cutting knife, four cutting fastening dug holes have been seted up at the back of cutting knife the front portion of cutting piece is equipped with the cutting motor, through being equipped with cutting fastening dish, can make things convenient for the change of blade disc to it, can make it freely rotatory through being equipped with revolution mechanic, prevents that the article quality from greatly causing rotatory article inconvenient, causes user's health fatigue.

Description

Cutting equipment for processing based on inorganic non-metallic material

Technical Field

The utility model relates to a cutting equipment technical field, more specifically relate to a based on cutting equipment is used in processing of inorganic non-metallic material.

Background

The cutting equipment is an instrument for cutting materials to be cut according to required size, size and length, and is often applied to industries needing cutting treatment, such as material processing and the like.

The cutting of inorganic non-metallic materials is generally performed by a cutter cutting machine in a cutting and segmenting mode, the traditional cutter cutting machine is generally fixed in size and height, requirements and limits are placed on the size of an article to be cut, the cutting size is greatly limited, and the cutting machine cannot work continuously when facing a large object.

The problems caused are as follows:

first, the conventional cutting equipment for processing inorganic non-metallic materials generally has a small volume, and cannot work well on large cut objects.

Secondly, the traditional cutting equipment for processing inorganic non-metallic materials can not move generally during working, and needs to be manually moved to cut objects, so that users of the traditional cutting equipment are difficult to carry when the objects are large in size.

Thirdly, the traditional cutting equipment for processing inorganic non-metallic materials generally can not rotate the cutter part, so that the cutting of the object needing to change the direction can only rotate to cut the object, and the quality of the object is large, the rotation is inconvenient, and the working efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above-mentioned defect of prior art, the utility model provides a cutting equipment is used in processing based on inorganic non-metallic material to solve the problem that exists among the above-mentioned background art.

The utility model provides a following technical scheme: a cutting device for processing based on an inorganic non-metallic material comprises a cutting structure, wherein the cutting structure comprises a cutting block, cutting power holes are formed in the front and the back of the cutting block, a cutting power column is arranged on the back of the cutting block, a cutting meshing gear is fixedly connected to the front of the cutting power column, a cutting fastening disc is fixedly connected to the back of the cutting power column, four dismounting bolts are arranged on the back of the cutting fastening disc, a cutting knife is arranged on the back of the cutting fastening disc, four cutting fastening holes are formed in the back of the cutting knife, a cutting motor is arranged on the front of the cutting block, a cutting motor gear is fixedly connected to the back of the cutting motor, a rotating structure is fixedly connected to the top of the cutting structure and comprises a rotating top disc, and a fastening hole is formed in the front of the rotating top disc, the rotary top disc is internally provided with a rotary groove, the rotary top disc is internally fixedly connected with a rotary ring, the bottom of the rotary ring is fixedly connected with a connecting disc, the bottom of the connecting disc is fixedly connected with a cutting column, the front part of the rotary top disc is provided with a fastening bolt, the top of the rotary structure is fixedly connected with a telescopic structure, the telescopic structure comprises a cross beam, the front part and the rear part of the top part of the cross beam are respectively provided with two main openings, the tops of the two main openings are respectively provided with a main fixing bolt, the top of the cross beam is provided with a hydraulic motor, the top of the hydraulic motor is provided with a hydraulic protective cover, the bottom of the cross beam is fixedly connected with a hydraulic bottom barrel, the bottom of the hydraulic bottom barrel is provided with a hydraulic telescopic rod, the bottom of the telescopic structure is fixedly connected with a moving structure, and the cutting fastening disc is arranged to facilitate the replacement of a cutter head, can select the most suitable blade disc and cut article, improve the efficiency of cutting, can make it rotate freely through being equipped with revolution mechanic, prevent that the article quality from great causing rotatory article inconvenient, cause user's health tired, can highly carry out free regulation to its cutting through being equipped with extending structure, prevent that article volume is great to cause can not cut the problem and take place.

Further, the moving structure comprises two moving columns, moving roller skids are arranged at the bottoms of two sides of the two moving columns, power blocks are fixedly connected to the bottoms of the two moving columns, four moving fixing bolts are arranged at the tops of the two power blocks, power tracks are arranged at the bottoms of the two power blocks, four power holes are formed in the top of one side of each of the two power tracks, driven gears are arranged on one sides of the insides of the two power tracks, driven rotating shafts are fixedly connected to the front portions of the two driven gears, moving bases are arranged at the bottoms of the two moving columns, power drill holes are formed in the outer sides of the two moving bases, motor rotating shafts are arranged at the front portions of the two power drill holes, moving fixing bolts are fixedly connected to the back portions of the two motor rotating shafts, motor motors are fixedly connected to the front portions of the two motor rotating shafts, moving grooves are formed in the tops of the two moving bases, two roller moving grooves are formed in two sides of the moving grooves, sliding grooves are formed in the bottoms of the two moving grooves, the moving structure can move the cutting machine freely, when an object is cut by people, and the object is prevented from being moved excessively, and a user can stop the machine from being used conveniently, and the user can stop the whole.

Furthermore, the size of the cutting power column is matched with the size of a cutting power hole formed in the front part and the back part of the cutting block, the size of the dismounting bolt is matched with the size of a cutting fastening digging hole, and the size of the cutting power column is matched with the size of the cutting power hole formed in the front part and the back part of the cutting block, so that the power of a cutting blade can be stably output, and the cutting efficiency is ensured.

Furthermore, the size of the connecting disc is matched with the maximum size of the rotating ring, the minimum size of the fastening bolt is matched with the size of the fastening hole, the connecting disc is matched with the maximum size of the rotating ring, stable and fixed connection between the connecting disc and the rotating ring is guaranteed, and safety of an instrument in use is guaranteed.

Furthermore, the size of the two main fixing bolts is matched with the size of a main opening formed in the front part and the rear part of the top of the cross beam, so that the moving structure at the bottom of the main fixing bolts can be stably connected with the telescopic structure, and the equipment is prevented from being dangerous during operation.

Furthermore, the size of the two movable columns is matched with the size of the movable grooves formed in the tops of the two movable bases, and the movable columns can freely move in the movable grooves through the matching of the movable columns and the movable grooves, so that the cutting efficiency is improved.

The utility model discloses a technological effect and advantage:

1. the utility model discloses a be equipped with the removal structure, it is rotatory through making it rotatory with two motor shaft circular telegrams, two motor shaft rotation drive two motor shaft rotations, two motor shaft rotation drive anterior driving gear rotations, two driving gear rotation drive power track rotations, two power track movements, four removal fixing bolt fixed connection at the top at power track are passed through to two power blocks, so two power track movements drive two power blocks and move in the sliding tray, two power block movements drive the removal post that two power block tops are connected and move in removing the fluting, two removal post movements drive two removal post front portions and the bottom fixed connection's at rear portion removal wheel slip and move in the gyro wheel shifting chute that two removal fluting both sides were seted up, two removal post movements drive wholly, be favorable to can freely removing its cutting machine through being equipped with the removal structure, prevent that the cutting object from needing artificially to remove cutting article when too big, prevent to cause the excessive tired of people's health, can make its whole freely move and stop through being equipped with two power motors, the person uses.

2. The utility model discloses a be equipped with extending structure, make its hydraulic motor carry out work through giving electric hydraulic motor, hydraulic motor work makes its hydraulic telescoping rod remove, makes its blade disc carry out the up-and-down motion, is favorable to carrying out free regulation to its cutting height through being equipped with extending structure, prevents that the great cutting problem that leads to the fact of article volume from taking place.

3. The utility model discloses a be equipped with revolution mechanic, make it no longer through the fastening hole withstand rotatory ring through the pine fastening bolt of unscrewing, make its rotatory ring can be at the rotary tank free rotation motion, it is rotatory to rotate rotatory drive connection pad, the rotatory cutting post that drives of connection pad is rotatory, the rotatory cutting structure that makes of cutting post can rotate, when rotatory demand position, it makes it withstand rotatory ring through the fastening hole to screw up fastening bolt, make its fixed no longer rotatory, be favorable to making it can freely rotate through being equipped with revolution mechanic, it is inconvenient to prevent that the article quality from leading to the fact rotatory article greatly, cause user's health fatigue.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic diagram of the moving structure of the present invention.

Fig. 3 is a schematic view of the telescopic structure of the present invention.

Fig. 4 is a schematic view of the rotating structure of the present invention.

Fig. 5 is a schematic view of the cutting structure of the present invention.

The reference signs are: 1. a moving structure; 101. moving the column; 102. moving the roller skate; 103. a motor shaft; 104. a driving gear; 105. a power motor; 106. moving the fixing bolt; 107. a driven shaft; 108. a driven gear; 109. a power track; 110. a power block; 111. dynamic hole opening; 112. moving and slotting; 113. a roller moving groove; 114. moving the base; 115. dynamic drilling; 116. a sliding groove; 2. a telescopic structure; 201. a primary fixing bolt; 202. main hole opening; 203. a hydraulic protective cover; 204. a hydraulic motor; 205. a hydraulic bottom barrel; 206. a hydraulic telescopic rod; 207. a cross beam; 3. a rotating structure; 301. fastening a bolt; 302. rotating the top plate; 303. fastening holes; 304. a rotating tank; 305. a rotating ring; 306. connecting the disc; 307. cutting the column; 4. cutting the structure; 401. cutting the block; 402. cutting a power hole; 403. cutting the fastening disc; 404. disassembling the bolt; 405. a cutting knife; 406. cutting a fastening hole; 407. cutting the power column; 408. cutting the meshing gear; 409. cutting a motor gear; 410. a cutting motor.

Detailed Description

The technical solution of the present invention will be clearly and completely described below with reference to the accompanying drawings in the present invention, and the forms of the structures described in the following embodiments are merely examples, and the cutting device for processing based on inorganic non-metallic materials according to the present invention is not limited to the structures described in the following embodiments, and all other embodiments obtained by a person skilled in the art without creative work belong to the scope of the present invention.

Referring to fig. 1 to 5, the present invention provides a cutting apparatus for processing based on inorganic non-metallic materials, comprising a cutting structure 4, wherein the cutting structure 4 comprises a cutting block 401, the front and back of the cutting block 401 are both provided with cutting power holes 402, the back of the cutting block 401 is provided with a cutting power post 407, the front of the cutting power post 407 is fixedly connected with a cutting meshing gear 408, the back of the cutting power post 407 is fixedly connected with a cutting fastening disk 403, the back of the cutting fastening disk 403 is provided with four detaching bolts 404, the back of the cutting fastening disk 403 is provided with a cutting knife 405, the back of the cutting knife 405 is provided with four cutting fastening digging holes 406, the front of the cutting block 401 is provided with a cutting motor 410, the back of the cutting motor 410 is fixedly connected with a cutting motor gear 409, the top of the cutting structure 4 is fixedly connected with a rotating structure 3, the rotating structure 3 comprises a rotating top disk 302, the front of the rotating top disk 302 is provided with a fastening hole 303, the inside of the rotating top disk 302 is provided with a rotating groove 304, the inside of the rotating top disk 305 is fixedly connected with a connecting disk 306, the bottom of the rotating ring 306 is connected with two hydraulic cross beams 202, the top of the rotating structure 202 is provided with a top cross beam 202, the top of the rotating cross beam 207, the rotating cross beam 202, the rotating cross beam is provided with two hydraulic cross beam 207, the top cross beam 202 is provided with a bottom cross beam 202, the rotating cross beam 207 is provided with a bottom cross beam 202, the bottom of hydraulic pressure end bucket 205 is equipped with hydraulic telescoping rod 206, the bottom fixedly connected with moving structure 1 of extending structure 2, through being equipped with cutting fastening disc 403, can make things convenient for the change of blade disc to it, can select the most suitable blade disc and cut article, improve the efficiency of cutting, can make it rotate freely through being equipped with revolution mechanic 3, it is inconvenient to prevent that the article quality from leading to the fact rotatory article greatly, cause user's health fatigue, can highly carry out free regulation to its cutting through being equipped with extending structure 2, prevent that the article volume is great to cause can not cut the problem and take place.

In a preferred embodiment, the moving structure 1 includes two moving columns 101, moving roller skids 102 are disposed at bottoms of two sides of the two moving columns 101, power blocks 110 are fixedly connected to bottoms of the two moving columns 101, four moving fixing bolts 106 are disposed at tops of the two power blocks 110, power tracks 109 are disposed at bottoms of the two power blocks 110, four power holes 111 are disposed at tops of one sides of the two power tracks 109, driven gears 108 are disposed at one sides of inner portions of the two power tracks 109, driven rotating shafts 107 are fixedly connected to front portions of the two driven gears 108, moving bases 114 are disposed at bottoms of the two moving columns 101, power drill holes 115 are disposed at outer sides of the two moving bases 114, motor rotating shafts 103 are disposed at front portions of the two power drill holes 115, moving fixing bolts 106 are fixedly connected to back portions of the two motor rotating shafts 103, power motors 105 are fixedly connected to front portions of the two motor rotating shafts 103, moving base 112 is disposed at tops of the two moving bases 114, two roller moving grooves 113 are disposed at two sides of the moving columns 112, moving grooves 112 are disposed at back portions of the moving columns 103, and a moving motor sliding groove 112 is disposed to prevent a user from being able to cut a large object when the moving grooving structure is used, and the object, which the object can be cut freely.

In a preferred embodiment, the size of the cutting power column (407) is matched with the size of a cutting power hole (402) formed in the front part and the back part of the cutting block (401), the size of four detaching bolts (404) is matched with the size of four cutting fastening excavation holes (406), and the cutting power of the cutting blade can be stably output and the cutting efficiency is ensured by matching the size of the cutting power column (407) with the size of the cutting power hole (402) formed in the front part and the back part of the cutting block (401).

In a preferable embodiment, the size of the connecting disc (306) is matched with the maximum size of the rotating ring (305), the minimum size of the fastening bolt (301) is matched with the size of the fastening hole (303), and the size of the connecting disc (306) is matched with the maximum size of the rotating ring (305), so that stable and fixed connection of the connecting disc (306) and the rotating ring is ensured, and safety of the device in use is ensured.

In a preferred embodiment, the size of the two main fixing bolts (201) is matched with the size of the main opening (202) formed in the front part and the rear part of the top of the cross beam (207), so that the moving structure (1) at the bottom of the main fixing bolts can be stably connected with the telescopic structure (2), and the equipment is prevented from being dangerous during operation.

In a preferred embodiment, the sizes of the two movable columns (101) are matched with the sizes of the movable slots (112) formed in the tops of the two movable bases (114), and the movable columns (101) can freely move in the movable slots (112) by matching the movable columns (101) with the movable slots (112), so that the cutting efficiency is improved.

The utility model discloses a theory of operation: whether the equipment is normal is checked firstly, the cut articles are placed under a cutting machine, when the cutting position needs to be adjusted, the two motor rotating shafts (103) are electrified to rotate, the two motor rotating shafts (103) rotate to drive the two motor rotating shafts (103) to rotate, the two motor rotating shafts (103) rotate to drive the driving gear (104) at the front part to rotate, the two driving gear (104) rotate to drive the power crawler (109) to rotate, the two power crawlers (109) move, because the two power blocks (110) are fixedly connected to the top of the power crawler (109) through the four movable fixing bolts (106) at the top, the two power crawlers (109) move to drive the two power blocks (110) to move in the sliding grooves (116), the two power blocks (110) move to drive the movable columns (101) connected to the tops of the two power blocks (110) to move in the movable grooving grooves (112), the two movable columns (101) move to drive the movable roller pulleys (113) fixedly connected to the front parts and the rear parts of the two movable columns (101) to move in the roller moving grooves (113) arranged at two sides of the two movable columns (112), and the grooving positions are moved integrally, and the two movable columns (101) move to move, and the grooving positions are adjusted and the grooving positions are completed.

When the height needs to be adjusted, the hydraulic motor (204) works by supplying the electric hydraulic motor (204), the hydraulic motor (204) works to move the hydraulic telescopic rod (206) to enable the cutter head to move up and down, and when the height is adjusted to a required position, the hydraulic motor (204) is powered off to enable the cutter head not to stretch and retract any more, so that the adjustment is completed.

When the cutter head needs to be rotated, the fastening bolt (301) is loosened to enable the fastening bolt to be not propped against the rotating ring (305) through the fastening hole (303), the rotating ring (305) can freely rotate in the rotating groove (304), the rotating ring (305) rotates to drive the connecting disc (306) to rotate, the connecting disc (306) rotates to drive the cutting column (307) to rotate, the cutting column (307) rotates to enable the cutting structure (4) to rotate, when the cutter head rotates to a required position, the fastening bolt (301) is screwed to enable the fastening bolt to be propped against the rotating ring (305) through the fastening hole (303), the cutter head is enabled to be fixed and not rotate, and rotation is completed.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," "connecting," and "connecting" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be directly connected, and "upper," "lower," "left," and "right" are only used to indicate relative positional relationships, and when the absolute position of the object to be described is changed, the relative positional relationships may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the present invention, only the structures related to the disclosed embodiments are referred to, and other structures can refer to the common design, and under the condition of no conflict, the same embodiment and different embodiments of the present invention can be combined with each other;

and finally: the above description is only for the preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A cutting equipment for processing based on inorganic non-metallic materials, which comprises a cutting structure (4), and is characterized in that: the cutting structure (4) comprises a cutting block (401), cutting power holes (402) are formed in the front and the back of the cutting block (401), cutting power columns (407) are arranged on the back of the cutting block (401), cutting meshing gears (408) are fixedly connected with the front of each cutting power column (407), a cutting fastening disc (403) is fixedly connected with the back of each cutting power column (407), four dismounting bolts (404) are arranged on the back of each cutting fastening disc (403), a cutting knife (405) is arranged on the back of each cutting fastening disc (403), four cutting fastening excavation holes (406) are formed in the back of each cutting knife (405), a cutting motor (410) is arranged on the front of the cutting block (401), a cutting motor gear (409) is fixedly connected with the back of the cutting motor (410), a rotating structure (3) is fixedly connected with the top of the cutting structure (4), the rotating structure (3) comprises a rotating top disc (302), a fastening hole (303) is formed in the front of the rotating top disc (302), a rotating top disc (302) is internally provided with a groove (304), a rotating ring (305) is fixedly connected with the bottom of the rotating top disc (306), and a rotating ring (306) is fixedly connected with the bottom of the rotating ring (306), the front portion of rotatory top dish (302) is equipped with fastening bolt (301), top fixedly connected with extending structure (2) of revolution mechanic (3), extending structure (2) are including crossbeam (207), two main trompil (202), two have all been seted up with the rear portion to the front portion at crossbeam (207) top the top of main trompil (202) all is equipped with main fixing bolt (201), the top of crossbeam (207) is equipped with hydraulic motor (204), the top of hydraulic motor (204) is equipped with hydraulic pressure safety cover (203), bottom fixedly connected with hydraulic pressure end bucket (205) of crossbeam (207), the bottom of hydraulic pressure end bucket (205) is equipped with hydraulic telescoping rod (206), the bottom fixedly connected with moving structure (1) of extending structure (2).

2. The cutting device for processing based on the inorganic non-metallic material as claimed in claim 1, wherein: the movable structure (1) comprises two movable columns (101), movable roller skids (102) are arranged at the bottoms of two sides of the two movable columns (101), power blocks (110) are fixedly connected to the bottoms of the two movable columns (101), four movable fixing bolts (106) are arranged at the tops of the two power blocks (110), power tracks (109) are arranged at the bottoms of the two power blocks (110), four power holes (111) are formed in the tops of one sides of the two power tracks (109), driven gears (108) are arranged on one side of the inner parts of the two power tracks (109), driven rotating shafts (107) are fixedly connected to the front parts of the two driven gears (108), movable bases (114) are arranged at the bottoms of the two movable columns (101), power drill holes (115) are formed in the outer sides of the two movable bases (114), motor rotating shafts (103) are arranged at the front parts of the two power drill holes (115), driving gears (104) are fixedly connected to the front parts of the two motor rotating shafts (103), movable fixing bolts (106) are fixedly connected to the backs of the two motor rotating shafts (105), and grooved motors (112) are arranged at the tops of the movable bases (114), two roller moving grooves (113) are formed in two sides of the two moving grooves (112), and sliding grooves (116) are formed in the bottoms of the two moving grooves (112).

3. The cutting device for processing based on the inorganic non-metallic material as claimed in claim 1, wherein: the size of the cutting power column (407) is matched with the size of a cutting power hole (402) formed in the front portion and the back portion of the cutting block (401), and the size of the four dismounting bolts (404) is matched with the size of the four cutting fastening digging holes (406).

4. The cutting device for processing based on the inorganic non-metallic material as claimed in claim 1, wherein: the size of the connecting disc (306) is matched with the maximum size of the rotating ring (305), and the minimum size of the fastening bolt (301) is matched with the size of the fastening hole (303).

5. The cutting device for processing based on the inorganic non-metallic material as claimed in claim 1, wherein: the sizes of the two main fixing bolts (201) are matched with the sizes of main openings (202) formed in the front part and the rear part of the top of the cross beam (207).

6. The cutting device for processing based on the inorganic non-metallic material as claimed in claim 2, wherein: the sizes of the two movable columns (101) are matched with the sizes of movable grooves (112) formed in the tops of the two movable bases (114).

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