CN218224853U - Mechanical cutting device for hardware machining - Google Patents

Abstract

The utility model discloses a mechanical cutting device for hardware processing, which comprises a base, a supporting mechanism, a moving mechanism, a cutting mechanism and a clamping mechanism; the supporting rod is fixed on the base; a guide rail is fixed at the upper end of the support rod, and a rack is fixed on one side of the guide rail; the sliding block is arranged above the guide rail, the rotating disc is rotatably fixed at one end of the sliding block, and the guide rod is fixed on the rotating disc; the fixed shaft is fixed on the guide rod sleeve, the second motor is fixed on the fixed shaft, and the cutting blade is fixed at the shaft end of the second motor; the lifting platform is arranged on the base; the clamps are symmetrically arranged on the lifting platform; the driving rod is rotatably arranged on the lifting platform; the threaded rod is rotatably arranged on the base and penetrates through the lifting platform; the beneficial effects are that: the cutting machine is more stable when different types of workpieces are cut simultaneously, and the clamp is arranged to prevent the workpieces from being scratched while the workpieces are fixed.

Description

Mechanical cutting device for hardware machining

Technical Field

The utility model relates to a five metals cutting technical field especially relates to a mechanical cutting device for hardware processing.

Background

The traditional hardware product, also called as 'small hardware', refers to five metals of gold, silver, copper, iron and tin, and can be made into artworks or metal devices such as knives and swords through manual processing. The hardware in modern society is more extensive, for example hardware tool, hardware spare part, daily hardware, building hardware and security articles for use etc. little hardware product is mostly not final consumer goods, so need a hardware cutting processing machine for this reason. Cutting machine is used in five metals cutting at present accomplishes the cutting through translation work piece on the cutting bed when the cutting, removes the in-process because the work piece rocks or shakes and produces the cutting deviation at the work piece, influences cutting efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is just to provide a mechanical cutting device for hardware processing in order to solve above-mentioned problem.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

a mechanical cutting device for hardware processing comprises a base, a supporting mechanism, a moving mechanism, a cutting mechanism and a clamping mechanism;

the supporting mechanism comprises a supporting rod, a guide rail and a rack; the two supporting rods are symmetrically fixed on the base; the guide rail is fixed at the upper end of the support rod, and the rack is fixed on one side of the guide rail;

the moving mechanism comprises a sliding block, a first motor, a gear, a rotating disk, two guide rods and two guide rod sleeves; the sliding block is movably arranged on the guide rail; the first motor is fixed on the sliding block; the gear is fixed on an output shaft of the first motor and is meshed with the rack; the rotating disc is rotatably fixed at one end of the sliding block, the guide rods are symmetrically fixed on the rotating disc, and the two guide rod sleeves are sleeved on the guide rods in a one-to-one corresponding sliding manner;

the cutting mechanism comprises a fixed shaft, a cutting blade, a second motor and a handle; two ends of the fixed shaft are respectively fixed on the two guide rod sleeves, the handle is fixed on the fixed shaft, the second motor is fixed on the fixed shaft, and the cutting blade is fixed at the shaft end of the second motor;

the clamping mechanism comprises a lifting platform, a clamp, a driving rod and a lifting structure; the lifting platform is arranged on the base in a manner of moving up and down; the driving rod is rotatably arranged on the lifting platform; a plurality of groups of screw convex groups are arranged on the driving rod; each screw boss group comprises two sections of screw bosses with opposite screw directions; the number of the clamps is multiple, and the clamps are uniformly distributed on the driving rod; the clamps correspond to the screw convex groups one by one; the clamp comprises two symmetrically arranged clamping plates, and the two clamping plates correspond to the thread bulges of each screw bulge group one by one; the lower end of the clamping plate is sleeved on the driving rod and is matched with the corresponding thread bulge in a threaded manner; the lifting structure comprises a transmission belt and two threaded rods which are symmetrically arranged; the threaded rod is vertically arranged, the lower end of the threaded rod is rotatably installed on the base, the upper end of the threaded rod penetrates through the lifting platform, and the threaded rod is in threaded fit with the lifting platform; a transmission wheel is fixed on the threaded rod; the transmission belt is arranged on the outer sides of the two threaded rods; the transmission belt is in meshing transmission with the transmission wheel.

Preferably, a shield is provided on the base outside the cutting mechanism.

Preferably, a plurality of pulleys are arranged on the clamping plates, and the pulleys are rotatably arranged on the clamping plates and positioned between the two clamping plates.

Preferably, an operation window is arranged on the protective cover.

Preferably, the clamping plate is an arc-shaped plate.

Preferably, one end of the driving rod is provided with a rotating handle.

In the structure, when a hardware workpiece is machined, the workpiece is fixed on the clamp firstly, the workpiece is clamped by rotating the driving rod, then the lifting table is driven to move by rotating the threaded rod, the lifting table is adjusted to a proper cutting position, then the second motor is started, the second motor drives the cutting blade to rotate, and the cutting blade slides along the direction of the guide rod by pushing the handle to complete the cutting of the workpiece; the rotating disc is rotated to adjust the cutting angle, the first motor is started to drive the gear to rotate, the gear drives the sliding block to move to a proper position along the guide rail to stop moving when rotating, the workpiece is cut under the pushing of the handle, and stable cutting of different positions and angles of the workpiece is completed.

Has the advantages that: the height of the lifting table is adjusted to obtain a proper position for cutting a large-diameter workpiece, and after the workpiece is fixed by the clamp, the handle is pushed to enable the cutting blade to slide along the guide rod so as to cut the workpiece, so that the workpiece is prevented from shaking in cutting to influence the cutting accuracy; the rotating disc is rotated to adjust the cutting angle, the position of the sliding block on the guide rail is moved to adjust the cutting position, the pulley is arranged between the two clamping plates, the workpiece is prevented from being scratched while the workpiece is fixed, and the pulley is horizontally arranged so that the workpiece can move in the direction of rotation of the pulley.

Drawings

Fig. 1 is a schematic structural diagram of a mechanical cutting device for hardware processing according to the present invention;

fig. 2 is a schematic structural diagram of a cutting mechanism of the mechanical cutting device for hardware processing according to the present invention;

FIG. 3 is a side view of a mechanical cutting device for hardware processing according to the present invention;

fig. 4 is a side sectional view of the mechanical cutting device for hardware processing of the present invention.

The reference numerals are illustrated below:

1. a base; 2. a support bar; 3. a guide rail; 4. a gear; 5. a rack; 6. a first motor; 7. a second motor; 8. rotating the disc; 9. a guide bar; 10. a fixed shaft; 11. cutting the slices; 12. a handle; 13. a guide rod sleeve; 14. a slider; 15. a lifting platform; 16. a protective cover; 17. a clamp; 18. a drive rod; 19. a threaded rod; 20. a transmission belt.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

as shown in fig. 1 to 4, a mechanical cutting device for hardware processing comprises a base 1, a supporting mechanism, a moving mechanism, a cutting mechanism and a clamping mechanism;

the supporting mechanism comprises a supporting rod 2, a guide rail 3 and a rack 5; two support rods 2 are arranged, and the two support rods 2 are symmetrically fixed on the base 1; the guide rail 3 is fixed at the upper end of the support rod 2, and the rack 5 is fixed at one side of the guide rail 3; a moving mechanism and a sliding mechanism are supported by the support rod 2 and the guide rail 3;

the moving mechanism comprises a sliding block 14, a first motor 6, a gear 4, a rotating disk 8, two guide rods 9 and two guide rod sleeves 13; the slide block 14 is movably arranged on the guide rail 3; the first motor 6 is fixed on the sliding block 14; the gear 4 is fixed on an output shaft of the first motor 6, and the gear 4 is meshed with the rack 5; the rotating disc 8 can be rotatably fixed at one end of the sliding block 14, the guide rods 9 are symmetrically fixed on the rotating disc 8, and the two guide rod sleeves 13 are sleeved on the guide rods 9 in a one-to-one corresponding sliding manner; the cutting mechanism can stably move and rotate under the action of the moving mechanism;

the cutting mechanism comprises a fixed shaft 10, a cutting blade 11, a second motor 7 and a handle 12; two ends of the fixed shaft 10 are respectively fixed on the two guide rod sleeves 13, the handle 12 is fixed on the fixed shaft 10, the second motor 7 is fixed on the fixed shaft 10, and the cutting blade 11 is fixed at the shaft end of the second motor 7; the cutting blade 11 rotates under the action of the second motor 7 to cut the workpiece;

the clamping mechanism comprises a lifting platform 15, a clamp 17, a driving rod 18 and a lifting structure; the lifting platform 15 is arranged on the base 1 in a way of moving up and down; the driving rod 18 is rotatably arranged on the lifting platform 15; a plurality of groups of screw convex groups are arranged on the driving rod 18; each group of the screw boss groups comprises two sections of screw bosses with opposite screw directions; the number of the clamps 17 is multiple, and the plurality of clamps 17 are uniformly distributed on the driving rod 18; the clamps 17 correspond to the screw convex groups one by one; the clamp 17 comprises two symmetrically arranged clamping plates, and the two clamping plates correspond to the thread bulges of each group of the thread bulges one by one; the lower end of the clamping plate is sleeved on the driving rod 18 and is in threaded fit with the corresponding threaded bulge; the lifting structure comprises a transmission belt 20 and two threaded rods 19 which are symmetrically arranged; the threaded rod 19 is vertically arranged, the lower end of the threaded rod is rotatably arranged on the base 1, the upper end of the threaded rod penetrates through the lifting platform 15, and the threaded rod 19 is in threaded fit with the lifting platform 15; a driving wheel is fixed on the threaded rod 19; the transmission belt 20 is arranged outside the two threaded rods 19; the transmission belt 20 is in meshing transmission with the transmission wheel; the workpiece is fixed by the clamp 17, and the fixed workpiece is moved to a proper position under the action of the lifting platform 15 so as to ensure the stability of the workpiece during subsequent cutting.

Preferably, the protective cover 16 is arranged on the base 1 and is positioned outside the cutting mechanism, so as to prevent sparks from splashing randomly during the cutting process; the clamping plates are provided with a plurality of pulleys, the pulleys are rotatably arranged on the clamping plates and are positioned between the two clamping plates, so that the workpiece is prevented from being scratched when being clamped, and the workpiece is convenient to move; an operation window is arranged on the protective cover 16, so that the operation and observation are convenient; the clamping plate is an arc-shaped plate; a rotating handle is arranged at one end of the driving rod 18, so that labor is saved when the driving rod 18 is rotated.

In the structure, when a hardware workpiece is machined, the workpiece is fixed on a clamp 17, the workpiece is clamped by rotating a driving rod 18, then a lifting table 15 is driven to move by rotating a threaded rod 19, the lifting table 15 is adjusted to a proper cutting position, then a second motor 7 is started, the second motor 7 drives a cutting blade 11 to rotate, and the cutting blade 11 slides along the direction of a guide rod 9 by pushing a handle 12 to complete the cutting of the workpiece; the rotating disc 8 is rotated to adjust the cutting angle, the first motor 6 is started to drive the gear 4 to rotate, the gear 4 drives the sliding block 14 to move to a proper position along the guide rail 3 to stop moving when rotating, and at the moment, the workpiece is cut under the pushing of the handle 12, so that the stable cutting of different positions and angles of the workpiece is completed.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a mechanical cutting device for hardware processing which characterized in that: the cutting machine comprises a base (1), a supporting mechanism, a moving mechanism, a cutting mechanism and a clamping mechanism;

the supporting mechanism comprises a supporting rod (2), a guide rail (3) and a rack (5); the number of the supporting rods (2) is two, and the two supporting rods (2) are symmetrically fixed on the base (1); the guide rail (3) is fixed at the upper end of the support rod (2), and the rack (5) is fixed on one side of the guide rail (3);

the moving mechanism comprises a sliding block (14), a first motor (6), a gear (4), a rotating disk (8), two guide rods (9) and two guide rod sleeves (13); the sliding block (14) is movably arranged on the guide rail (3); the first motor (6) is fixed on the sliding block (14); the gear (4) is fixed on an output shaft of the first motor (6), and the gear (4) is meshed with the rack (5); the rotating disc (8) is rotatably fixed at one end of the sliding block (14), the guide rods (9) are symmetrically fixed on the rotating disc (8), and the two guide rod sleeves (13) are sleeved on the guide rods (9) in a one-to-one corresponding sliding manner;

the cutting mechanism comprises a fixed shaft (10), a cutting blade (11), a second motor (7) and a handle (12); two ends of the fixed shaft (10) are respectively fixed on the two guide rod sleeves (13), the handle (12) is fixed on the fixed shaft (10), the second motor (7) is fixed on the fixed shaft (10), and the cutting blade (11) is fixed at the shaft end of the second motor (7);

the clamping mechanism comprises a lifting table (15), a clamp (17), a driving rod (18) and a lifting structure; the lifting platform (15) is arranged on the base (1) in a manner of moving up and down; the driving rod (18) is rotatably arranged on the lifting platform (15); a plurality of groups of screw convex groups are arranged on the driving rod (18); each group of the screw bosses comprises two sections of screw bosses with opposite spiral directions; the number of the clamps (17) is multiple, and the multiple clamps (17) are uniformly distributed on the driving rod (18); the clamps (17) correspond to the screw convex groups one by one; the clamp (17) comprises two symmetrically arranged clamping plates, and the two clamping plates correspond to the thread bulges of each thread bulge group one by one; the lower end of the clamping plate is sleeved on the driving rod (18) and is matched with the corresponding thread bulge in a thread manner; the lifting structure comprises a transmission belt (20) and two threaded rods (19) which are symmetrically arranged; the threaded rod (19) is vertically arranged, the lower end of the threaded rod is rotatably installed on the base (1), the upper end of the threaded rod penetrates through the lifting platform (15), and the threaded rod (19) is in threaded fit with the lifting platform (15); a driving wheel is fixed on the threaded rod (19); the transmission belt (20) is arranged on the outer sides of the two threaded rods (19); the transmission belt (20) is in meshing transmission with the transmission wheel.

2. The mechanical cutting device for hardware processing as claimed in claim 1, wherein: the protective cover (16) is arranged on the base (1) and is positioned outside the cutting mechanism.

3. The mechanical cutting device for hardware processing of claim 1, characterized in that: the clamping plates are provided with a plurality of pulleys, and the pulleys are rotatably arranged on the clamping plates and are positioned between the two clamping plates.

4. The mechanical cutting device for hardware processing of claim 2, characterized in that: an operation window is arranged on the protective cover (16).

5. The mechanical cutting device for hardware processing of claim 1, characterized in that: the clamping plate is an arc-shaped plate.

6. The mechanical cutting device for hardware processing as claimed in claim 1, wherein: one end of the driving rod (18) is provided with a rotating handle.

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