CN210607980U - Pulling force type electrode sand carving machine - Google Patents

Abstract

The utility model relates to the technical field of auxiliary devices for electrode production, in particular to a pulling force type electrode sand carving machine which can reduce the labor intensity of workers, reduce the number of workers, reduce the production cost of electrodes and improve the production efficiency; the on-line screen storage device comprises a base, two sets of bracing pieces, two sets of fixed axles, two sets of pull rods, two sets of positioning spring, two sets of locating pieces, the revolving frame, maintain the blade, left side motor, right side motor, left stay cord, right stay cord, left spool, right spool, multiunit left side gag lever post and multiunit right gag lever post, be provided with two sets of fixed orificess on revolving frame left side wall and the right side wall respectively, be provided with two sets of first ball bearing between two sets of fixed axles and the two sets of fixed orificess inner walls respectively, be provided with left speed reducer and right speed reducer on left side motor and the right motor respectively, left stay cord and right stay cord one end twine respectively fixedly to multiunit left gag lever post and multiunit right gag lever post on, and the left.

Description

Pulling force type electrode sand carving machine

Technical Field

The utility model relates to a technical field of electrode production auxiliary device especially relates to a pulling force formula electrode machine of carving sand.

Background

As is known, when the motor is produced, the motor is synthesized by extruding asphalt and calcined coke, the surface of the electrode is easy to bond with rubber powder in the roasting process, the cleaning difficulty is high, the conventional cleaning method is manual cleaning, a large number of workers are needed, the labor intensity of the workers is high, and the production efficiency of the electrode is greatly reduced.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a can reduce workman's intensity of labour, reduce staff's quantity, reduce electrode manufacturing cost, improve production efficiency's pulling force formula electrode sand carving machine.

The utility model relates to a pulling force type electrode sand carving machine, which comprises a base, two groups of support rods, two groups of fixed shafts, two groups of pull rods, two groups of positioning springs, two groups of positioning blocks, a rotating frame, a trimming blade, a left motor, a right motor, a left pull rope, a right pull rope, a left scroll, a right scroll, a plurality of groups of left limiting rods and a plurality of groups of right limiting rods, wherein the bottoms of the two groups of support rods are respectively arranged at the left half region and the right half region of the top of the base, the two groups of fixed shafts are respectively arranged at the top ends of the two groups of support rods, two groups of through holes are respectively arranged on the two groups of fixed shafts, two groups of fixing holes are respectively arranged on the left side wall and the right side wall of the rotating frame, the two groups of fixed shafts respectively pass through the two groups of fixing holes, two groups of, and be provided with two sets of pulling handles respectively at two sets of pull rod other ends, two sets of positioning spring both ends respectively with two sets of locating pieces and revolving frame inner wall connection, it installs the bottom in the revolving frame to maintain the blade, left side motor and right-hand member motor are installed respectively in base top left half region and right half region to be provided with left speed reducer and right speed reducer respectively on left motor and right motor, left side spool and right spool are installed respectively at left speed reducer and right speed reducer output end department, multiunit left side gag lever post and multiunit right gag lever post one end are installed respectively on revolving frame left side wall and right side wall, left side stay cord and right stay cord one end are twined respectively and are fixed to on multiunit left gag lever post and the multiunit right gag lever post to left stay cord and right stay cord other end are twined respectively and are fixed to left spool and right spool.

The utility model discloses a pull formula electrode sand carving machine still includes two sets of positioning seats, two sets of positioning seats are all installed at the base top to be provided with two sets of constant head tanks on two sets of positioning seats respectively, be provided with two sets of second ball bearing in the two sets of constant head tanks respectively, left side spool and right spool insert respectively and fix to in two sets of second ball bearing.

The utility model discloses a pull formula electrode sand carving machine still includes left ring baffle and right ring baffle, left ring baffle and right ring baffle are passed respectively to two sets of fixed axles, the left gag lever post of multiunit and the right gag lever post other end of multiunit are connected with left ring baffle and right ring baffle respectively.

The utility model discloses a pull formula electrode sand carving machine still includes multiunit locating lever and multiunit pulley, multiunit locating lever both ends are connected with top and multiunit pulley in the rotating frame respectively.

The utility model discloses a sand machine is carved to pulling force formula electrode still includes two sets of slipmats, two sets of slipmats are installed respectively on two sets of locating pieces.

The utility model discloses a pull formula electrode sand carving machine still includes two sets of blotters, two sets of blotters are installed respectively on two sets of through-hole inner walls, two sets of pull rods respectively with two sets of blotters contact.

The utility model discloses a sand machine is carved to pull formula electrode still includes two sets of spacing framves and two sets of spacing rings, two sets of spacing framves both ends are connected with two sets of spacing rings and base top respectively, left side stay cord and right stay cord pass two sets of spacing rings respectively.

The utility model discloses a sand machine is carved to pulling force formula electrode still includes two sets of protection pads, two sets of protection pads are installed respectively on two sets of spacing ring inner walls to two sets of protection pads contact with left stay cord and right stay cord respectively.

Compared with the prior art, the beneficial effects of the utility model are that: two groups of pulling handles can be pulled to enable two groups of pull rods to drive two groups of positioning blocks to move, the distance between the two groups of positioning blocks is increased, electrodes to be processed are moved between the two groups of positioning blocks, the two groups of pulling handles are loosened, the two groups of positioning blocks clamp and fix the positions of the electrodes under the elastic force action of two groups of positioning springs, the electrodes are in contact with the dressing blade, the left motor is driven to enable the left scroll to rotate and wind the left pull rope onto the left scroll, so that a plurality of groups of left limiting rods and a rotating frame are driven to rotate, the dressing blade is in contact with the outer wall of the electrodes, so that the rubber powder adhered to the outer wall of the electrodes can be cleaned, after the cleaning is finished, the left motor is turned off, the electrodes are taken down and replaced, the right motor is driven to enable the right scroll to rotate and wind the right pull rope onto the right scroll, so that the electrodes can be conveniently processed continuously, the right pull rope is loosened from the right scroll and wound on the multiple right limiting rods, so that the labor intensity of workers can be conveniently reduced, the number of workers is reduced, the production cost of the electrode is reduced, and the production efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

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

FIG. 3 is an enlarged view of a portion A of FIG. 1;

FIG. 4 is a partial enlarged view of portion B of FIG. 1;

in the drawings, the reference numbers: 1. a base; 2. a support bar; 3. a fixed shaft; 4. a pull rod; 5. a positioning spring; 6. positioning blocks; 7. rotating the frame; 8. trimming the blade; 9. a left motor; 10. a right motor; 11. a left pull rope; 12. a right pull rope; 13. a left reel; 14. a right reel; 15. a left stop lever; 16. a right stop lever; 17. a first ball bearing; 18. a left speed reducer; 19. a right speed reducer; 20. positioning seats; 21. a second ball bearing; 22. a left annular baffle; 23. a right annular baffle; 24. positioning a rod; 25. a pulley; 26. a non-slip mat; 27. a cushion pad; 28. a limiting frame; 29. a limiting ring; 30. and (6) a protective pad.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in fig. 1 to 4, the pulling force type electrode sand carving machine of the present invention comprises a base 1, two sets of support rods 2, two sets of fixing shafts 3, two sets of pull rods 4, two sets of positioning springs 5, two sets of positioning blocks 6, a rotating frame 7, a trimming blade 8, a left motor 9, a right motor 10, a left pull rope 11, a right pull rope 12, a left reel 13, a right reel 14, a plurality of sets of left limiting rods 15 and a plurality of sets of right limiting rods 16, wherein the bottom ends of the two sets of support rods 2 are respectively installed in the left half region and the right half region of the top of the base 1, the two sets of fixing shafts 3 are respectively installed at the top ends of the two sets of support rods 2, and the two sets of fixing shafts 3 are respectively provided with two sets of through holes, the left side wall and the right side wall of the rotating frame are respectively provided with two sets of fixing holes, the two, one end of each of the two groups of pull rods 4 respectively penetrates through the two groups of through holes and is connected with the two groups of positioning blocks 6, the other end of each of the two groups of pull rods 4 is respectively provided with two groups of pulling handles, the two ends of each of the two groups of positioning springs 5 are respectively connected with the two groups of positioning blocks 6 and the inner wall of the rotating frame 7, the trimming blade 8 is arranged at the bottom in the rotating frame 7, the left motor 9 and the right motor are respectively arranged in the left half area and the right half area of, a left speed reducer 18 and a right speed reducer 19 are respectively arranged on the left motor 9 and the right motor 10, a left scroll 13 and a right scroll 14 are respectively arranged at the output ends of the left speed reducer 18 and the right speed reducer 19, one ends of a plurality of groups of left limiting rods 15 and a plurality of groups of right limiting rods 16 are respectively arranged on the left side wall and the right side wall of the rotating frame 7, one ends of a left pull rope 11 and a right pull rope 12 are respectively wound and fixed on the plurality of groups of left limiting rods 15 and the plurality of groups of right limiting rods 16, and the other ends of the left pull rope 11 and the right pull rope 12 are respectively wound and fixed on a left reel 13 and a right reel 14; two groups of pulling handles can be pulled to enable two groups of pull rods to drive two groups of positioning blocks to move, the distance between the two groups of positioning blocks is increased, electrodes to be processed are moved between the two groups of positioning blocks, the two groups of pulling handles are loosened, the two groups of positioning blocks clamp and fix the positions of the electrodes under the elastic force action of two groups of positioning springs, the electrodes are in contact with the dressing blade, the left motor is driven to enable the left scroll to rotate and wind the left pull rope onto the left scroll, so that a plurality of groups of left limiting rods and a rotating frame are driven to rotate, the dressing blade is in contact with the outer wall of the electrodes, so that the rubber powder adhered to the outer wall of the electrodes can be cleaned, after the cleaning is finished, the left motor is turned off, the electrodes are taken down and replaced, the right motor is driven to enable the right scroll to rotate and wind the right pull rope onto the right scroll, so that the electrodes can be conveniently processed continuously, the right pull rope is loosened from the right scroll and wound on the multiple right limiting rods, so that the labor intensity of workers can be conveniently reduced, the number of workers is reduced, the production cost of the electrode is reduced, and the production efficiency is improved.

The utility model discloses a pulling force formula electrode sand carving machine still includes two sets of positioning seats 20, and two sets of positioning seats 20 are all installed at the base top, and are provided with two sets of constant head tanks respectively on two sets of positioning seats 20, are provided with two sets of second ball bearings 21 in two sets of constant head tanks respectively, and left reel 13 and right reel 14 insert respectively and are fixed to two sets of second ball bearings 21; can conveniently support left spool and right spool through two sets of positioning seats.

The utility model discloses a pulling force formula electrode sand carving machine, still include left annular baffle 22 and right annular baffle 23, two sets of fixed axles 3 pass left annular baffle 22 and right annular baffle 23 respectively, the other end of multiunit left gag lever post 15 and multiunit right gag lever post 16 is connected with left annular baffle 22 and right annular baffle 23 respectively; the left pull rope and the right pull rope which are wound and fixed on the multiple groups of left limiting rods and the multiple groups of right limiting rods can be limited by the multiple groups of annular baffles and the right annular baffles.

The utility model discloses a pulling force type electrode sand carving machine, which also comprises a plurality of groups of positioning rods 24 and a plurality of groups of pulleys 25, wherein two ends of the plurality of groups of positioning rods 24 are respectively connected with the top part in the rotating frame 7 and the plurality of groups of pulleys 25; the positions of the plurality of groups of pulleys can be fixed through the plurality of groups of positioning rods, and when the rotating frame is rotated, the relative positions between the rotating frame and the electrode can be conveniently limited through the rotation of the plurality of groups of pulleys along the surface of the electrode.

The utility model discloses a pulling force type electrode sand carving machine, which also comprises two groups of anti-slip mats 26, wherein the two groups of anti-slip mats 26 are respectively arranged on the two groups of positioning blocks 6; when the friction between the two sets of positioning blocks and the motor needing to be fixed is improved through the two sets of anti-slip pads, the fixing capacity of the motor can be improved.

The utility model discloses a pulling force type electrode sand carving machine, which also comprises two groups of cushion pads 27, wherein the two groups of cushion pads 27 are respectively arranged on the inner walls of the two groups of through holes, and the two groups of pull rods 4 are respectively contacted with the two groups of cushion pads 27; the stability of the two groups of pull rods moving left and right at the two groups of through holes can be improved through the two groups of cushion pads.

The utility model discloses a pulling force formula electrode sand carving machine, still include two sets of spacing 28 and two sets of spacing rings 29, two ends of two sets of spacing 28 are connected with two sets of spacing rings 29 and base 1 top respectively, and left stay cord 11 and right stay cord 12 pass two sets of spacing rings 29 respectively; the positions of the two sets of limiting rings can be fixed through the two sets of limiting frames, so that the moving directions of the left pull rope and the right pull rope can be adjusted through the two sets of limiting rings.

The utility model discloses a pulling force type electrode sand carving machine, which also comprises two groups of protection pads 30, wherein the two groups of protection pads 30 are respectively arranged on the inner walls of the two groups of limit rings 29, and the two groups of protection pads 30 are respectively contacted with the left pull rope 11 and the right pull rope 12; the abrasion between the left pull rope and the two groups of limiting rings when the left pull rope and the right pull rope pass through the two groups of limiting rings can be reduced through the two groups of protection pads.

The utility model discloses a pulling force formula electrode sand carving machine, it is at work, can stimulate two sets of pulling handles, make two sets of pull rods drive two sets of locating pieces and remove, make the distance between the two increase, and move the electrode that needs to be handled to between two sets of locating pieces, and loosen two sets of pulling handles, under the elastic force effect of two sets of positioning springs two sets of locating pieces clamp and fix the position of electrode, and make electrode and repairing blade contact, and drive left motor, make left scroll rotate and twine left stay cord to left scroll, thereby drive multiunit left gag lever post and revolving frame rotation, make repairing blade and electrode outer wall contact, thereby can clear up the rubber powder that its outer wall bondd, after clearing up, close left motor, take off the electrode and change, drive right motor this moment, make right scroll rotate, and twine right stay cord to right scroll, thereby facilitating the continuous processing of the electrode, when the left scroll winds the left stay cord, the right stay cord is loosened from the right scroll and winds to a plurality of groups of right limiting rods, thereby conveniently reducing the labor intensity of workers, reducing the number of workers, reducing the production cost of the electrode, improving the production efficiency, conveniently supporting the left scroll and the right scroll through two groups of positioning seats, playing a certain limiting role on the left stay cord and the right stay cord which are wound and fixed on a plurality of groups of left limiting rods and a plurality of groups of right limiting rods through a plurality of groups of annular baffles and a plurality of groups of right limiting rods, fixing the position of a plurality of groups of pulleys through a plurality of groups of positioning rods, conveniently limiting the relative position between the rotating frame and the electrode through the rotation of the plurality of groups of pulleys along the surface of the electrode when the rotating frame is rotated, improving the friction between two groups of positioning blocks and the motor which needs to be fixed, can improve the stability that two sets of pull rods controlled about two sets of through-hole departments through two sets of blotters, can be through the position of two sets of spacing fixed two sets of spacing rings to can reduce the wearing and tearing between the two sets of spacing rings when passing through of left stay cord and right stay cord in two sets of spacing rings through two sets of fender pads to the moving direction of left stay cord and right stay cord through two sets of spacing rings.

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

Claims (8)

1. A pulling force type electrode sand carving machine is characterized by comprising a base (1), two groups of supporting rods (2), two groups of fixing shafts (3), two groups of pull rods (4), two groups of positioning springs (5), two groups of positioning blocks (6), a rotating frame (7), a trimming blade (8), a left motor (9), a right motor (10), a left pull rope (11), a right pull rope (12), a left scroll (13), a right scroll (14), a plurality of groups of left limiting rods (15) and a plurality of groups of right limiting rods (16), wherein the bottom ends of the two groups of supporting rods (2) are respectively arranged in a left half area and a right half area of the top of the base (1), the two groups of fixing shafts (3) are respectively arranged at the top ends of the two groups of supporting rods (2), two groups of through holes are respectively arranged on the two groups of fixing shafts (3), two groups of fixing holes are respectively arranged on the left side wall and the right side wall of the, two groups of first ball bearings (17) are respectively arranged between two groups of fixed shafts (3) and the inner walls of the two groups of fixed holes, one ends of two groups of pull rods (4) respectively penetrate through two groups of through holes and are connected with two groups of positioning blocks (6), the other ends of the two groups of pull rods (4) are respectively provided with two groups of pulling handles, two ends of two groups of positioning springs (5) are respectively connected with the inner walls of the two groups of positioning blocks (6) and the rotating frame (7), the trimming blade (8) is arranged at the inner bottom of the rotating frame (7), the left motor (9) and the right motor are respectively arranged in the left half area and the right half area of the top of the base (1), a left speed reducer (18) and a right speed reducer (19) are respectively arranged on the left motor (9) and the right motor (10), the left scroll (13) and the right scroll (14) are respectively arranged at the output ends of the left speed reducer, the utility model discloses a rotating frame, including rotatory frame (7), left gag lever post (15) and right gag lever post (16), left stay cord (11) and right stay cord (12) one end are installed respectively on rotatory frame (7) left side wall and right side wall, wind respectively on left stay cord (11) and right stay cord (12) one end are fixed to multiunit left gag lever post (15) and multiunit right gag lever post (16) to left stay cord (11) and right stay cord (12) other end are wound respectively and are fixed to left spool (13) and right spool (14).

2. A pulling type electrode sand carving machine as claimed in claim 1 further comprising two sets of positioning seats (20), wherein said two sets of positioning seats (20) are installed on the top of the base, and two sets of positioning grooves are respectively disposed on said two sets of positioning seats (20), two sets of second ball bearings (21) are respectively disposed in said two sets of positioning grooves, and said left reel (13) and said right reel (14) are respectively inserted into and fixed to said two sets of second ball bearings (21).

3. The pulling type electrode sand carving machine as claimed in claim 2, further comprising a left annular baffle plate (22) and a right annular baffle plate (23), wherein the two sets of fixing shafts (3) respectively penetrate through the left annular baffle plate (22) and the right annular baffle plate (23), and the other ends of the multiple sets of left limiting rods (15) and the multiple sets of right limiting rods (16) are respectively connected with the left annular baffle plate (22) and the right annular baffle plate (23).

4. A pulling type electrode sand carving machine as claimed in claim 3 further comprising a plurality of sets of positioning rods (24) and a plurality of sets of pulleys (25), wherein both ends of the plurality of sets of positioning rods (24) are respectively connected with the top of the inside of the rotating frame (7) and the plurality of sets of pulleys (25).

5. A pulling-type electrode sand carving machine as claimed in claim 4 further comprising two sets of anti-slip pads (26), wherein said two sets of anti-slip pads (26) are respectively mounted on said two sets of positioning blocks (6).

6. A pulling type electrode sand carving machine as claimed in claim 5 further comprising two sets of cushions (27), wherein said two sets of cushions (27) are respectively mounted on the inner walls of said two sets of through holes, and said two sets of tie rods (4) are respectively in contact with said two sets of cushions (27).

7. A pulling force type electrode sand carving machine as claimed in claim 6 further comprising two sets of limiting frames (28) and two sets of limiting rings (29), wherein two ends of the two sets of limiting frames (28) are respectively connected with the two sets of limiting rings (29) and the top of the base (1), and the left pulling rope (11) and the right pulling rope (12) respectively penetrate through the two sets of limiting rings (29).

8. A pulling force type electrode sand carving machine as claimed in claim 7 further comprising two sets of protection pads (30), wherein the two sets of protection pads (30) are respectively installed on the inner walls of the two sets of limiting rings (29), and the two sets of protection pads (30) are respectively contacted with the left pulling rope (11) and the right pulling rope (12).

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