CN215469533U - Numerical control cutting device is used in steel mould processing - Google Patents

Abstract

The utility model discloses a numerical control cutting device for processing a steel die, which comprises: the shell mechanism comprises a fixed base, a support column and a top beam, wherein the support column is arranged on the top of the fixed base, and the top beam is integrally formed on the top of the support column; the cleaning mechanism comprises a first sliding groove arranged on the outer side of the fixed base and a sliding block arranged in the first sliding groove and capable of axially sliding; and the second driving mechanism comprises a second sliding groove formed in the surface of the top beam, a second screw rod arranged in the second sliding groove and penetrating through the second sliding groove to extend out of the top beam, and a rotating handle arranged on one side, far away from the second sliding groove, of the second screw rod. This numerical control cutting device is used in steel mould processing can accurate control and by distance and position between the steel mould of cutting through first actuating mechanism and second actuating mechanism, and can be convenient for wash the residue after the cutting is accomplished, has improved whole security.

Description

Numerical control cutting device is used in steel mould processing

Technical Field

The utility model belongs to the technical field of numerical control cutting, and particularly relates to a numerical control cutting device for machining a steel die.

Background

The numerical control cutting device is one of intelligent cutting devices, carries out location and cutting work through program instructions, mainly carries out the cutting work of sheet metal through equipment such as numerical control flame, plasma, laser and water sword, is essential apparatus in the industrial processing.

The numerical control cutting device who uses at present can't accurate control cutting head and the distance between the steel film in the use, leads to the cutting inaccuracy, and cuts the back cutting mesa and can have the steel fillings after accomplishing, and the user of being not convenient for cleans.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a numerical control cutting device for machining a steel die, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a numerical control cutting device is used in steel mould processing, includes: the shell mechanism comprises a fixed base, a support column and a top beam, wherein the support column is arranged on the top of the fixed base, and the top beam is integrally formed on the top of the support column;

the cleaning mechanism comprises a first sliding groove arranged on the outer side of the fixed base and a sliding block arranged in the first sliding groove and capable of axially sliding;

and the second driving mechanism comprises a second sliding groove formed in the surface of the top beam, a second screw rod arranged in the second sliding groove and penetrating through the second sliding groove to extend out of the top beam, and a rotating handle arranged on one side, far away from the second sliding groove, of the second screw rod.

Preferably, first spout all is provided with two with the slider, slider top integrated into one piece has the slide that the level is higher than fixed baseplate, and the handle is installed in the slider extension section outside, the slide is close to fixed baseplate one side and installs the cleaning brush head, and the cleaning brush head is a plurality of.

Preferably, the bearing housing has been cup jointed in the second screw rod outside, the bearing housing outside is provided with the fixed block, the fixed block outside is connected with the bearing plate, the bearing plate outside is provided with first actuating mechanism, first actuating mechanism includes: the bearing plate comprises a guide rod and a first screw rod, wherein the surface of the bearing plate is vertically provided with the first screw rod, and the surface of the bearing plate is provided with the guide rod which is parallel to the first screw rod in an equal distance.

Preferably, the top of the first screw is provided with an electromechanical box, and a first driving motor which is connected with the first screw in a matching manner is arranged in the electromechanical box.

Preferably, the outer side of the first screw rod is rotatably sleeved with a screw rod sleeve, and a connecting block connected with the guide rod is arranged on the outer side of the screw rod sleeve.

Preferably, the connecting block outside is provided with the backup pad, one side of keeping away from first screw rod in the backup pad is provided with second driving motor, second driving motor power take off end cooperation is connected with the cutting wheel, and the backup pad surface sets up and supplies cutting wheel pivoted recess.

The utility model has the technical effects and advantages that: according to the numerical control cutting device for machining the steel die, the second screw rod is driven to rotate through the rotating handle, the bearing sleeve drives the fixed block to move so as to drive the bearing plate to move, the cutting wheel can be moved according to the actual placing position of an object, the screw rod sleeve is limited in rotation through the connecting block, the screw rod sleeve slides linearly on the surface of the first screw rod, the cutting wheel is driven to move in the vertical direction, the distance between the cutting wheel and the steel die can be changed according to the actual distance, the structure is simple, and the use is convenient; the cleaning brush head is in contact with the surface of the fixed base, so that steel scraps falling on the surface of the fixed base after cutting are cleaned, and the phenomenon of hanging injury during later manual cleaning is avoided; this numerical control cutting device is used in steel mould processing can accurate control and by distance and position between the steel mould of cutting through first actuating mechanism and second actuating mechanism, and can be convenient for wash the residue after the cutting is accomplished, has improved whole security.

Drawings

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

FIG. 2 is a schematic structural diagram of a first driving mechanism according to the present invention;

FIG. 3 is a schematic structural diagram of a second driving mechanism of the present invention;

fig. 4 is an enlarged schematic view of the structure at a in fig. 2 according to the present invention.

In the figure: 100. a housing mechanism; 101. a fixed base; 102. a support pillar; 103. a top beam; 200. a cleaning mechanism; 201. a handle; 202 a sliding block; 203. a slide plate; 204. cleaning the brush head; 300. a first drive mechanism; 301. a guide rod; 302. a first screw; 303. an electromechanical housing; 304. a screw rod sleeve; 305. connecting blocks; 306. a support plate; 307. a cutting wheel; 308. a second drive motor; 400. a second drive mechanism; 401. rotating the handle; 402. a second screw; 403. a second chute; 404. a bearing plate.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

In order to ensure the overall stability during cutting, referring to fig. 1, the cutting device comprises a housing mechanism 100, which comprises a fixed base 101, a supporting column 102 installed on the top of the fixed base 101, and a top beam 103 integrally formed on the top of the supporting column 102, wherein the supporting column 102 and the integrally formed top beam 103 are integrally square, so that the overall stress is uniform during cutting, and the overall stability is increased.

In order to facilitate the cleaning of the fixed base 101 after cutting, refer to fig. 1, including cleaning mechanism 200, including offering the first spout in the fixed base 101 outside and setting up gliding slider 202 of axial in the first spout, first spout all is provided with two with slider 202, slider 202 top integrated into one piece has slide 203 that the level is higher than fixed base 101, and slider 202 extension section outside installs handle 201, slide 203 is close to fixed base 101 one side and installs clean brush head 204, and clean brush head 204 is a plurality of, surface contact through clean brush head 204 and fixed base 101, the steel fillings that fall on fixed base 101 surface after will cutting is accomplished clean, the phenomenon of scratch appears when avoiding later stage manual cleaning.

In order to change the cutting direction of the cutting wheel 307, referring to fig. 1, 2 and 3, the cutting device includes a second driving mechanism 400, which includes a second chute 403 disposed on the surface of the top beam 103, a second screw 402 disposed in the second chute 403 and extending out of the top beam 103 through the second chute 403, and a rotating handle 401 mounted on one side of the second screw 402 away from the second chute 403, a bearing sleeve is sleeved on the outer side of the second screw 402, a fixing block is disposed on the outer side of the bearing sleeve, a bearing plate 404 is connected to the outer side of the fixing block, and the rotating handle 401 drives the second screw 402 to rotate, so that the bearing sleeve (not shown in the figure) drives the fixing block (not shown in the figure) to move so as to drive the bearing plate 404 to move, so that the cutting wheel 307 can be moved according to the actual placement position of an object.

In order to facilitate the change of the distance from the steel mold, referring to fig. 2, 3 and 4, a first driving mechanism 300 is disposed outside the bearing plate 404, and the first driving mechanism 300 includes: the surface of the bearing plate 404 is vertically provided with a first screw 302, the surface of the bearing plate 404 is provided with guide rods 301 which are parallel to and equidistant from the first screw 302, the top of the first screw 302 is provided with an electromechanical box 303, the electromechanical box 303 is internally provided with a first driving motor which is matched and connected with the first screw 302, the outer side of the first screw 302 is rotatably sleeved with a screw sleeve 304, the outer side of the screw sleeve 304 is provided with a connecting block 305 which is connected with the guide rods 301, the outer side of the connecting block 305 is provided with a supporting plate 306, one side of the supporting plate 306 far away from the first screw 302 is provided with a second driving motor 308, the power output end of the second driving motor 308 is matched and connected with a cutting wheel 307, the surface of the supporting plate 306 is provided with a groove for the rotation of the cutting wheel 307, the rotation of the screw sleeve 304 is driven by the rotation of the first screw 302, the rotation of the screw sleeve 304 is limited by the connecting block 305, so that the screw sleeve 304 can linearly slide on the surface of the first screw 302, thereby drive the removal of the vertical direction of cutting wheel 307, can change according to the distance of reality and steel mould, simple structure, convenient to use.

The working principle is as follows: firstly, the rotating handle 301 is rotated to rotate the second screw 402, so that the bearing sleeve drives the bearing plate 404 to move, the cutting direction is changed according to actual needs, after the bearing sleeve is moved to the required cutting direction, the first driving motor is electrified to drive the first screw 302 to rotate, the screw rod sleeve 304 is driven to rotate, the bearing sleeve is connected with the guide rod 301 through the connecting block 305, the screw rod sleeve 304 is rotatably limited, the screw rod sleeve 304 is made to move up and down on the surface of the first screw 302, the purpose of driving the supporting plate 306 to move is achieved, the second driving motor 308 is electrified to drive the cutting wheel 307 to rotate to cut a steel die, after the cutting is completed, the handle 201 is pulled, the sliding block 202 is driven to slide in the first sliding groove, the sliding plate 203 is made to move on the surface of the fixed base 101, and therefore the surface of the fixed base 101 is cleaned.

Finally, it should be noted that: the above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention.

Claims (6)

1. The utility model provides a steel mould processing is with numerical control cutting device which characterized in that includes:

the shell mechanism (100) comprises a fixed base (101), a supporting column (102) arranged on the top of the fixed base (101) and a top beam (103) integrally formed on the top of the supporting column (102);

the cleaning mechanism (200) comprises a first sliding groove arranged on the outer side of the fixed base (101) and a sliding block (202) arranged in the first sliding groove and capable of axially sliding;

and the second driving mechanism (400) comprises a second sliding groove (403) formed in the surface of the top beam (103), a second screw rod (402) arranged in the second sliding groove (403) and penetrating through the second sliding groove (403) to extend out of the top beam (103), and a rotating handle (401) arranged on one side, away from the second sliding groove (403), of the second screw rod (402).

2. The numerical control cutting device for steel die processing according to claim 1, characterized in that: first spout all is provided with two with slider (202), slider (202) top integrated into one piece has slide (203) that the level is higher than fixed baseplate (101), and slider (202) extension outside installs handle (201), slide (203) are close to fixed baseplate (101) one side and install cleaning brush head (204), and cleaning brush head (204) are a plurality of.

3. The numerical control cutting device for steel die processing according to claim 2, characterized in that: the bearing housing has been cup jointed in second screw rod (402) outside, the bearing housing outside is provided with the fixed block, the fixed block outside is connected with bearing plate (404), the bearing plate (404) outside is provided with first actuating mechanism (300), first actuating mechanism (300) include: the screw rod assembly comprises a guide rod (301) and a first screw rod (302), wherein the first screw rod (302) is vertically arranged on the surface of a bearing plate (404), and the guide rod (301) which is parallel to and equidistant from the first screw rod (302) is arranged on the surface of the bearing plate (404).

4. The numerical control cutting device for steel die processing according to claim 3, characterized in that: an organic electric box (303) is arranged at the top of the first screw rod (302), and a first driving motor which is connected with the first screw rod (302) in a matched mode is arranged in the organic electric box (303).

5. The numerical control cutting device for steel die processing according to claim 4, characterized in that: the outer side of the first screw rod (302) is rotatably sleeved with a screw rod sleeve (304), and a connecting block (305) connected with the guide rod (301) is arranged on the outer side of the screw rod sleeve (304).

6. The numerical control cutting device for steel die processing according to claim 5, characterized in that: the outer side of the connecting block (305) is provided with a supporting plate (306), one side, away from the first screw (302), of the supporting plate (306) is provided with a second driving motor (308), the power output end of the second driving motor (308) is connected with a cutting wheel (307) in a matching mode, and a groove for the cutting wheel (307) to rotate is formed in the surface of the supporting plate (306).

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