CN113042715A

CN113042715A - Copper carving shedder for precision casting

Info

Publication number: CN113042715A
Application number: CN202110301404.4A
Authority: CN
Inventors: 李江
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-03-22
Filing date: 2021-03-22
Publication date: 2021-06-29

Abstract

The invention relates to a demoulding device, in particular to a copper carving demoulding device for precision casting. The technical problem is as follows: the utility model provides a can carry out the drawing of patterns to the copper carving fast, and can carry out abluent precision casting to the copper carving shedder of drawing of patterns. The utility model provides a copper carving shedder for precision casting, including: the supporting plate is used for supporting the whole device; the trackless cylinders are respectively arranged on two sides of the upper part of the supporting plate; the demolding mechanism is arranged on the supporting plate; and the manual material pouring mechanism is arranged on the demolding mechanism. The invention achieves the effects that the copper carving can be rapidly demoulded and the demoulded copper carving can be cleaned; cooperate through pushing away ball and dysmorphism push pedal for the second sliding sleeve drives water pipe and shower nozzle and removes about, thereby the shower nozzle washes the copper carving after the drawing of patterns.

Description

Copper carving shedder for precision casting

Technical Field

The invention relates to a demoulding device, in particular to a copper carving demoulding device for precision casting.

Background

The copper carving is generally manufactured by several important processes of metal smelting, forging, carving, gold plating, polishing, reddening and the like, and the processes are relatively complex.

People can make the copper carving through the mould method, and after the preparation is accomplished, need break the mould to the copper carving of inside takes out. People generally place the mold on a workbench in a manual mode, then use a tool to break the mold, and then take out the copper carving in the mold and clean the mold. Therefore, the speed of demoulding the copper carving is lower.

Therefore, need design one kind and can carry out the drawing of patterns to the copper carving fast, and can carry out abluent precision casting to the copper carving shedder of drawing of patterns.

Disclosure of Invention

In order to overcome the defect that the speed is slow when the copper carving is manually demolded, the technical problem is as follows: the utility model provides a can carry out the drawing of patterns to the copper carving fast, and can carry out abluent precision casting to the copper carving shedder of drawing of patterns.

The technical scheme is as follows: the utility model provides a copper carving shedder for precision casting, including: the supporting plate is used for supporting the whole device; the trackless cylinders are respectively arranged on two sides of the upper part of the supporting plate; the demolding mechanism is arranged on the supporting plate; and the manual material pouring mechanism is arranged on the demolding mechanism.

Further, the demolding mechanism includes: the first fixing columns are respectively arranged on two sides of the upper part of the supporting plate; the demolding box is arranged between the first fixing columns; the first rotating shafts are rotatably arranged in the demolding box, and the number of the first rotating shafts is two; the first straight gear is arranged on the first rotating shaft on one side; the first racks are all arranged on the trackless cylinder and are meshed with the first straight gear; the belt is arranged between the first rotating shafts on the two sides; the bull stick, the bull stick all sets up on first pivot.

Further, manual mechanism of falling material is including: the first sliding rods are symmetrically arranged at the bottom of the supporting plate and are connected with the demolding box; the first sliding sleeves are all arranged on the first sliding rod; the first spring is arranged between the first sliding rod and the first sliding sleeve; the second rotating shaft is rotatably arranged between the first sliding sleeves; the supporting plate is arranged on the second rotating shaft.

Further, still including automatic mechanism of falling material, automatic mechanism of falling material is including: the second fixing columns are symmetrically arranged on the demolding box; the third rotating shaft is rotatably arranged on the second fixing column; a reel disposed on the third rotating shaft; the guide wheels are symmetrically arranged at the lower part of the supporting plate; the pull rope is arranged between the first sliding sleeve and the reel and bypasses the guide wheel; the second rack is arranged between the trackless cylinders; the one-way gears are arranged on the third rotating shaft and are meshed with the second rack.

Further, still including shake the mechanism, shake the mechanism including: the cams are all arranged on the third rotating shaft; the sliding rail is arranged at the lower part of the supporting plate; the collecting frame is arranged in the sliding rail in a sliding manner; the push rods are respectively arranged on two sides of the collecting frame and are in contact fit with the cam; the second spring is arranged between the collecting frame and the sliding rail.

Further, still including dashing the material mechanism, dash the material mechanism including: the third fixing columns are symmetrically arranged on one side of the supporting plate; the water tank is arranged between the third fixing columns on the two sides; the special-shaped push plates are arranged on the second rack; the water pipe is arranged at the lower part of the water tank; the spray head is arranged on one side, close to the collecting frame, of the water pipe; the second sliding rod is arranged on one side, close to the water pipe, of the supporting plate; the second sliding sleeve is arranged on the second sliding rod in a sliding manner and is connected with the water pipe; the pushing ball is arranged on the second sliding sleeve and is in contact fit with the special-shaped push plate; and the third spring is arranged between the two sides of the second sliding sleeve and the second sliding rod.

Further, still including tilting mechanism, tilting mechanism is including: the connecting rods are respectively arranged on two sides of the demolding box; the third racks are all arranged on the connecting rod; and the second straight gear is arranged on the second rotating shaft and is meshed with the third rack.

Further, the water pipe is a hose.

The beneficial effects are that: 1. the invention achieves the effects that the copper carving can be rapidly demoulded and the demoulded copper carving can be cleaned;

2. the copper carving needing to be demoulded is placed in the demoulding box, and the rotating rods on the two sides rotate continuously, so that the mould can be automatically broken, and the effect of quickly demoulding the mould can be realized;

3. cooperate through pushing away ball and dysmorphism push pedal for the second sliding sleeve drives water pipe and shower nozzle and removes about, thereby the shower nozzle washes the copper carving after the drawing of patterns.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the demolding mechanism of the present invention.

Fig. 3 is a schematic perspective view of the manual material pouring mechanism of the present invention.

Fig. 4 is a schematic perspective view of the automatic material pouring mechanism of the present invention.

Fig. 5 is a schematic perspective view of a shaking mechanism according to the present invention.

Fig. 6 is a schematic perspective view of the punching mechanism of the present invention.

Fig. 7 is a schematic perspective view of the turnover mechanism of the present invention.

Part names and serial numbers in the figure: 1_ support plate, 2_ trackless cylinder, 3_ demoulding mechanism, 31_ first fixed column, 32_ demoulding box, 33_ first rotating shaft, 34_ first straight gear, 35_ first rack, 36_ belt, 37_ rotary rod, 4_ manual material pouring mechanism, 41_ first sliding rod, 42_ first sliding sleeve, 43_ first spring, 44_ second rotating shaft, 45_ supporting plate, 5_ automatic material pouring mechanism, 51_ second fixed column, 52_ third rotating shaft, 53_ reel, 54_ pull rope, 55_ guide wheel, 56_ second rack, 57_ one-way gear, 6_ shaking mechanism, 61_ cam, 62_ collection frame, 63_ push rod, 64_ slide rail, 65_ second spring, 7_ blanking mechanism, 71_ third fixed column, 72_ water tank, 73_ push plate, 74_ water pipe, 75_ spray head, 76_ second sliding sleeve, 77_ push ball, 78_ second spring, 79_ third spring, 8_ turnover mechanism, 81_ connecting rod, 82_ third rack, 83_ second spur gear.

Detailed Description

The technical scheme of the invention is further explained by combining the attached drawings.

Example 1

A copper carving demoulding device for precision casting is shown in figure 1 and comprises a supporting plate 1, a trackless cylinder 2, a demoulding mechanism 3 and a manual material pouring mechanism 4, wherein the trackless cylinder 2 is arranged on the left side and the right side of the upper portion of the supporting plate 1, the demoulding mechanism 3 is arranged on the supporting plate 1, and the manual material pouring mechanism 4 is arranged on the demoulding mechanism 3.

When the user need carry out the drawing of patterns to the copper carving, can use this equipment, at first open trackless cylinder 2, drive demoulding mechanism 3's part through trackless cylinder 2 and move for demoulding mechanism 3 carries out the drawing of patterns to the copper carving, and the back is accomplished in the drawing of patterns, takes out the copper carving through manual material mechanism 4 that falls, when the user need not carry out the drawing of patterns to the copper carving, can close trackless cylinder 2.

Example 2

On the basis of embodiment 1, as shown in fig. 2-3, the demolding mechanism 3 includes first fixing columns 31, a demolding box 32, first rotating shafts 33, first straight gears 34, first racks 35, belts 36, and rotating rods 37, two first fixing columns 31 are disposed on both left and right sides of the upper portion of the supporting plate 1, the demolding box 32 is connected between the first fixing columns 31, two first rotating shafts 33 are rotatably disposed in the demolding box 32, two first straight gears 34 are disposed on the first rotating shafts 33 on the rear side, the first racks 35 are disposed on the trackless cylinder 2, the first racks 35 are engaged with the first straight gears 34, the belts 36 are connected between the first rotating shafts 33 on both sides, and the rotating rods 37 are disposed on the first rotating shafts 33.

The user can place the copper carving that the drawing of patterns will be carried out in drawing of patterns case 32, and trackless cylinder 2 drives first rack 35 and removes, meshes with first straight gear 34 through first rack 35 for first straight gear 34 drives the first pivot 33 of rear side and rotates, drives the first pivot 33 of front side through belt 36 and rotates, thereby the bull stick 37 of both sides can access to the rotation, thereby can beat the mould on the copper carving and break up.

The manual material pouring mechanism 4 comprises a first sliding rod 41, a first sliding sleeve 42, a first spring 43, a second rotating shaft 44 and a supporting plate 45, wherein the first sliding rod 41 is arranged at the bottom of the supporting plate 1 in a bilateral symmetry mode, the first sliding rod 41 is connected with the demolding box 32, the first sliding rod 41 is provided with the first sliding sleeve 42, the first spring 43 is connected between the first sliding rod 41 and the first sliding sleeve 42, the first rotating shaft 44 is arranged between the first sliding sleeve 42 in a rotating mode, and the supporting plate 45 is arranged on the second rotating shaft 44.

When the user needs to take out the bronze sculpture, the user can stimulate the first sliding sleeve 42 of both sides downwards, and first spring 43 is compressed to second pivot 44 and layer board 45 move down, and the user can take out the bronze sculpture on layer board 45 upper portion, no longer exerts force to first sliding sleeve 42 afterwards, and under the reset action of first spring 43, first sliding sleeve 42 drives second pivot 44 and layer board 45 and upwards moves.

Example 3

In addition to the embodiment 2, as shown in fig. 4 to 7, the automatic material pouring device further includes an automatic material pouring mechanism 5, the automatic material pouring mechanism 5 includes a second fixing column 51, a third rotating shaft 52, a winding wheel 53, a pulling rope 54, a guide wheel 55, a second rack 56 and a one-way gear 57, the second fixing column 51 is arranged on the demolding box 32 in a bilateral symmetry manner, the third rotating shaft 52 is arranged on the second fixing column 51 in a rotating manner, the winding wheel 53 is arranged on the third rotating shaft 52, the guide wheel 55 is arranged on the lower portion of the supporting plate 1 in a bilateral symmetry manner, the pulling rope 54 is connected between the first sliding sleeve 42 and the winding wheel 53, the pulling rope 54 passes around the guide wheel 55, the second rack 56 is connected between the trackless cylinders 2, the one-way gears 57 are arranged on the third rotating shaft 52, and the one-.

When the trackless cylinder 2 drives the second rack 56 to move, the second rack 56 and the one-way gear 57 are rotated, so that the one-way gear 57 drives the third rotating shaft 52 and the reel 53 to rotate, so that the pull rope 54 can pull the first sliding sleeves 42 on two sides downwards, the first sliding sleeves 42 are not required to be manually moved downwards, after the trackless cylinder 2 drives the second rack 56 to move backwards, the one-way gear 57 cannot rotate at the moment, and the first sliding sleeves 42 automatically reset.

Still including shake mechanism 6, shake mechanism 6 is equipped with slide rail 64 including cam 61, collection frame 62, push rod 63, slide rail 64 and

second spring

65, and 1 lower part in the backup pad is equipped with slide rail 64, and the slidingtype is equipped with collects frame 62 in the slide rail 64, collects and is connected with second spring 65 between frame 62 and the slide rail 64, all is equipped with cam 61 on the third pivot 52, collects the frame 62 left and right sides and all is equipped with push rod 63, and push rod 63 and cam 61 contact cooperation.

The copper sculpture broken by the die can fall in the collecting frame 62, the third rotating shaft 52 rotates to drive the cam 61 to rotate, the cam 61 rotates intermittently to contact with the push rod 63, so that the push rod 63 drives the collecting frame 62 to move back and forth, and the second spring 65 deforms intermittently and resets at the moment.

The punching mechanism 7 is further included, the punching mechanism 7 comprises a third fixed column 71, a water tank 72, a special-shaped push plate 73, a water pipe 74, a spray head 75, a second sliding sleeve 76, a push ball 77, a second sliding rod 78 and a third spring 79, the third fixed column 71 is connected to the rear side of the support plate 1 in a bilateral symmetry mode, the water tank 72 is connected between the third fixed columns 71 on the two sides, the special-shaped push plate 73 is connected to the second rack 56, the water pipe 74 is arranged on the lower portion of the water tank 72, the spray head 75 is arranged on the front side of the water pipe 74, the second sliding rod 78 is arranged on the rear side of the support plate 1, the second sliding sleeve 76 is arranged on the second sliding rod 78 in a sliding mode, the second sliding sleeve 76 is connected with the water pipe 74, the third spring 79 is connected between the left side and the right side of the second sliding sleeve 76 and the second sliding rod 78.

The user can pour into a certain amount of water into water tank 72, water in the water tank 72 passes through water pipe 74 and flows to shower nozzle 75, wash the mould in collecting frame 62 through shower nozzle 75, second rack 56 moves to the front side and drives special-shaped push pedal 73 to the front side, special-shaped push pedal 73 intermittent type nature promotes pushball 77 left this moment, make the third spring 79 intermittent type nature of both sides take place to deform and reset thereupon, second sliding sleeve 76, water pipe 74 and shower nozzle 75 move about this moment, thereby can wash the mould in collecting frame 62 more omnidirectional.

Still including tilting mechanism 8, tilting mechanism 8 is including connecting rod 81, third rack 82 and second spur gear 83, and the drawing of patterns case 32 left and right sides all is equipped with connecting rod 81, all is equipped with third rack 82 on the connecting rod 81, all is equipped with second spur gear 83 on the second pivot 44, and second spur gear 83 meshes with third rack 82.

Second pivot 44 drives second spur gear 83 and moves down, through second spur gear 83 and the meshing of third rack 82 for second spur gear 83 drives second pivot 44 and rotates, and then makes layer board 45 rotate, so need not artifical manual mould of cracking on layer board 45 upper portion and remove to collecting frame 62.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. The utility model provides a copper carving shedder for precision casting which characterized in that, including:

the supporting plate (1), the supporting plate (1) is used for supporting the whole device;

the trackless cylinders (2) are respectively arranged on two sides of the upper part of the supporting plate (1);

the demolding mechanism (3), the demolding mechanism (3) is arranged on the supporting plate (1);

and the manual material pouring mechanism (4) is arranged on the demoulding mechanism (3).

2. The apparatus for removing copper carving molds as set forth in claim 1 wherein the mold-removing mechanism (3) comprises:

the first fixing columns (31), the first fixing columns (31) are respectively arranged on two sides of the upper part of the supporting plate (1);

a demolding box (32), wherein the demolding box (32) is arranged between the first fixing columns (31);

the first rotating shafts (33), the first rotating shafts (33) are rotatably arranged in the demolding box (32), and the number of the first rotating shafts (33) is two;

the first straight gear (34), the first straight gear (34) is set in the first rotating shaft (33) of one side;

the first racks (35) are arranged on the trackless cylinder (2), and the first racks (35) are meshed with the first straight gear (34);

the belt (36), the belt (36) is set up between the first spindle (33) of both sides;

the rotating rods (37) and the rotating rods (37) are all arranged on the first rotating shaft (33).

3. The apparatus for removing copper carving pattern in precision casting as claimed in claim 2, characterized in that the manual material pouring mechanism (4) comprises:

the first sliding rod (41), the first sliding rod (41) is symmetrically arranged at the bottom of the supporting plate (1), and the first sliding rod (41) is connected with the demoulding box (32);

the first sliding sleeves (42), the first sliding sleeves (42) are all arranged on the first sliding rods (41);

a first spring (43), the first spring (43) being arranged between the first sliding rod (41) and the first sliding sleeve (42);

the second rotating shaft (44), the second rotating shaft (44) is rotatably arranged between the first sliding sleeves (42);

and the supporting plate (45), and the supporting plate (45) is arranged on the second rotating shaft (44).

4. The copper carving stripping device for the precision casting as claimed in claim 3 further comprising an automatic pouring mechanism (5), wherein the automatic pouring mechanism (5) comprises:

the second fixing column (51), the second fixing column (51) is symmetrically arranged on the demoulding box (32);

the third rotating shaft (52), the third rotating shaft (52) is rotatably arranged on the second fixing column (51);

a reel (53), the reel (53) being provided on the third rotating shaft (52);

the guide wheels (55), the guide wheels (55) are symmetrically arranged at the lower part of the support plate (1);

the pull rope (54), the pull rope (54) is arranged between the first sliding sleeve (42) and the reel (53), and the pull rope (54) bypasses the guide wheel (55);

the second rack (56), the second rack (56) is set up between the trackless cylinder (2);

the one-way gears (57) are arranged on the third rotating shaft (52), and the one-way gears (57) are meshed with the second rack (56).

5. The copper carving stripping device for precision casting according to claim 4, characterized in that, also include shaking mechanism (6), shaking mechanism (6) including:

the cams (61), the cams (61) are all arranged on the third rotating shaft (52);

the sliding rail (64), the sliding rail (64) is set up in the inferior part of the shoe plate (1);

the collecting frame (62), the collecting frame (62) is arranged in the sliding rail (64) in a sliding way;

the push rods (63), the push rods (63) are respectively arranged on two sides of the collecting frame (62), and the push rods (63) are in contact fit with the cam (61);

and the second spring (65), and the second spring (65) is arranged between the collecting frame (62) and the sliding rail (64).

6. The copper carving stripping device for the precision casting as claimed in claim 5, characterized in that the device further comprises a punching mechanism (7), wherein the punching mechanism (7) comprises:

the third fixing columns (71), the third fixing columns (71) are symmetrically arranged on one side of the supporting plate (1);

the water tank (72) is arranged between the third fixing columns (71) on the two sides of the water tank (72);

the special-shaped push plates (73), and the special-shaped push plates (73) are all arranged on the second rack (56);

the water pipe (74), the water pipe (74) is set up in the inferior part of the water tank (72);

the spray head (75) is arranged on one side, close to the collecting frame (62), of the water pipe (74);

the second sliding rod (78), the second sliding rod (78) is arranged on one side of the supporting plate (1) close to the water pipe (74);

the second sliding sleeve (76), the second sliding sleeve (76) is slidably arranged on the second sliding rod (78), and the second sliding sleeve (76) is connected with the water pipe (74);

the push ball (77) is arranged on the second sliding sleeve (76), and the push ball (77) is in contact fit with the special-shaped push plate (73);

and the third spring (79), and the third spring (79) is arranged between both sides of the second sliding sleeve (76) and the second sliding rod (78).

7. The copper carving stripping device for precision casting as claimed in claim 6 further comprising a turnover mechanism (8), wherein the turnover mechanism (8) comprises:

the connecting rods (81), the connecting rods (81) are respectively arranged at two sides of the demoulding box (32);

the third racks (82), the third racks (82) are all arranged on the connecting rod (81);

and the second straight gear (83) are arranged on the second rotating shaft (44), and the second straight gear (83) is meshed with the third rack (82).

8. The apparatus for copper carving stripping as claimed in claim 6 wherein the water pipe (74) is a hose.