CN217604659U - Energy-saving induction furnace for manufacturing automobile parts - Google Patents

Abstract

The utility model belongs to the technical field of the automobile parts production, especially, energy-conserving response stove is used in automobile parts manufacturing, to current problem, the following scheme is proposed at present, it includes energy-conserving response stove, the bottom fixedly connected with headstock of energy-conserving response stove, the bottom symmetry of energy-conserving response stove is rotated and is connected with drive wheel and directive wheel, and the quantity of drive wheel and directive wheel is two, the drive wheel is located the left side of directive wheel, the same fixed axle of one side fixedly connected with that two drive wheels are close to each other, and the fixed axle runs through the headstock, one side that two drive wheels are close to each other all is equipped with nine locating holes, the bottom inner wall fixedly connected with motor of headstock, drive control mechanism through the motor, the starter motor has been realized, the automatic unblock of drive wheel is rotatory, conveniently drive energy-conserving response stove and remove, the effect of the flexibility of energy-conserving response stove has been promoted, and easy operation, and convenient use, and good practicality and convenience have.

Description

Energy-saving induction furnace for manufacturing automobile parts

Technical Field

The utility model relates to an automobile parts production technical field especially relates to an energy-conserving induction furnace is used in automobile parts manufacturing.

Background

In the prior art, when the energy-saving induction furnace for manufacturing the automobile parts is actually used, due to the fact that the energy-saving induction furnace is large in size, the energy-saving induction furnace is poor in flexibility, inconvenient to move and inconvenient to use, the energy-saving induction furnace for manufacturing the automobile parts is provided for solving the problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, the utility model provides an energy-saving induction furnace for manufacturing automobile parts.

In order to realize the purpose, the utility model adopts the technical proposal that.

The utility model provides an automobile parts makes and uses energy-conserving induction furnace, includes energy-conserving induction furnace, the bottom fixedly connected with headstock of energy-conserving induction furnace, the bottom symmetry of energy-conserving induction furnace is rotated and is connected with drive wheel and directive wheel, and the quantity of drive wheel and directive wheel is two, and the drive wheel is located the left side of directive wheel, and the same fixed axle of one side fixedly connected with that two drive wheels are close to each other, and the fixed axle runs through the headstock, and one side that two drive wheels are close to each other all is equipped with nine locating holes, and the locating hole is the annular and arranges, the bottom inner wall fixedly connected with motor of headstock, the left side fixedly connected with gear of the output shaft of motor, the left side fixedly connected with telescopic link of gear, the inner wall of headstock is equipped with control mechanism.

As preferred, control mechanism includes rack, control panel, unlocking lever, sliding block, trace, reset plate, locating piece, drive rod, catch bar, transmission bevel gear and supplementary bevel gear, and the quantity of trace, reset plate and locating piece is two, rack sliding connection is at the bottom inner wall of headstock, and rack and gear mesh mutually, control panel fixed connection is in the rear side of rack, unlocking lever rotates the front side at the control panel, sliding block sliding connection is at the bottom inner wall of headstock, and the rear side of sliding block and the front side of unlocking lever rotate to be connected, trace rotating connection is in the left side of sliding block, reset plate sliding connection is at the inner wall of headstock, and the one side that two locating pieces are close to each other is connected with one side fixed connection that two reset plates kept away from each other respectively, and drive rod rotating connection is at the top of control panel, catch bar sliding connection is at the bottom inner wall of headstock, and the right side of catch bar rotates with the left side of drive rod to be connected, transmission bevel gear fixed connection is at the left side of telescopic link and supplementary bevel gear adaptation.

Preferably, the inner wall of the bottom of the power box is fixedly connected with a compression spring, and the rear side of the control plate is fixedly connected with the front side of the compression spring.

Preferably, the inner wall of the power box is symmetrically and fixedly connected with two return springs, the number of the return springs is two, and one side, close to each other, of the two return plates is fixedly connected with one side, far away from each other, of the two return springs.

Preferably, the inner wall of the bottom of the power box is provided with a sliding groove, and the bottom of the sliding block is in sliding connection with the inner wall of the sliding groove.

Preferably, the outer wall of the telescopic rod is rotatably connected with a rotating ring, and the top of the push rod is fixedly connected with the bottom of the rotating ring.

Has the advantages that: the energy-saving induction furnace is characterized in that an output shaft of a motor rotates to drive a telescopic rod, a gear and a transmission bevel gear to rotate, a rack pushes a control plate to pull an unlocking rod, a sliding block moves rightwards and pulls a linkage rod, the linkage rod pulls a reset plate, a positioning block moves in a direction close to each other under the pulling of the reset plate, the positioning block is separated from a positioning hole at the moment, a driving wheel loses limitation, the driving rod moves along with the linkage rod and pushes the pushing rod, the telescopic rod extends the transmission bevel gear to move to be in contact with an auxiliary bevel gear at the moment, and a fixed shaft and the driving wheel are driven to rotate through the matching of the transmission bevel gear and the auxiliary bevel gear, so that the effect of conveniently moving the energy-saving induction furnace is realized;

through motor drive control mechanism, realized starter motor, the automatic unblock of drive wheel is rotatory, conveniently drives energy-conserving induction furnace and removes, has promoted the effect of the flexibility of energy-conserving induction furnace, and easy operation, and it is convenient to use, has good practicality and convenience.

Drawings

Fig. 1 is a schematic structural view of a main view of an energy-saving induction furnace for manufacturing automobile parts according to the present invention;

fig. 2 is a schematic structural diagram of a power box and a driving wheel of the energy-saving induction furnace for manufacturing automobile parts according to the present invention from top view;

fig. 3 is a schematic structural diagram of a local overlooking of an energy-saving induction furnace for manufacturing automobile parts according to the present invention;

fig. 4 is a three-dimensional view of a driving wheel of the energy-saving induction furnace for manufacturing automobile parts according to the present invention.

In the figure: 1. an energy-saving induction furnace; 2. a steering wheel; 3. a drive wheel; 4. a power box; 5. a motor; 6. a gear; 7. a rack; 8. a control panel; 9. an unlocking lever; 10. a slider; 11. a linkage rod; 12. a reset plate; 13. positioning a block; 14. a return spring; 15. a fixed shaft; 16. positioning holes; 17. a compression spring; 18. driving the rod; 19. a push rod; 20. a transmission bevel gear; 21. an auxiliary bevel gear; 22. a telescopic rod.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

Referring to fig. 1-4, an energy-saving induction furnace for manufacturing automobile parts comprises an energy-saving induction furnace 1, a power box 4 is fixedly connected to the bottom of the energy-saving induction furnace 1, a driving wheel 3 and a steering wheel 2 are symmetrically and rotatably connected to the bottom of the energy-saving induction furnace 1, the number of the driving wheel 3 and the number of the steering wheel 2 are two, the driving wheel 3 is located on the left side of the steering wheel 2, the driving wheel 3 plays a role of conveniently pushing the energy-saving induction furnace 1 to move, the steering wheel 2 is used for conveniently steering the energy-saving induction furnace 1 and improving the flexibility of the energy-saving induction furnace 1, one side, close to each other, of the two driving wheels 3 is fixedly connected with a same fixed shaft 15, the fixed shaft 15 penetrates through the power box 4, nine positioning holes 16 are formed in one side, the two sides, close to each other, of the two driving wheels 3 are annularly arranged, a motor 5 is fixedly connected to the inner wall of the bottom of the power box 4, a gear 6 is fixedly connected to the left side of an output shaft of the motor 5, a telescopic rod 22 is fixedly connected to the gear 6, and a telescopic rod 22 is matched with the telescopic rod 22 and the gear 6, and a mechanism is arranged on the inner wall of the telescopic rod 4;

the control mechanism comprises a rack 7, a control panel 8, an unlocking rod 9, a sliding block 10, a linkage rod 11, a reset plate 12, a positioning block 13, a driving rod 18, a pushing rod 19, a transmission bevel gear 20 and an auxiliary bevel gear 21, the linkage rod 11, the number of the reset plate 12 and the positioning block 13 is two, the rack 7 is slidably connected to the inner wall of the bottom of the power box 4, the rack 7 is meshed with the gear 6, the control panel 8 is fixedly connected to the rear side of the rack 7, the action of driving the unlocking rod 9 to move while rotating the gear 6 is achieved by the cooperation of the rack 7, the gear 6 and the control panel 8, the unlocking rod 9 is rotatably connected to the inner wall of the bottom of the power box 4, the rear side of the sliding block 10 is rotatably connected to the front side of the unlocking rod 9, the unlocking rod 9 is rotatably connected to the inner wall of the bottom of the power box 4 by the cooperation of the unlocking rod 9 and the sliding rod 10, the action of conveniently pulling the locking rod 10 to move while knowing the movement of the locking rod 9 is achieved by the linkage rod 9, the linkage rod 11 is connected to the inner wall of the left side of the positioning block 10, the sliding block 12 and the linkage rod 12, the linkage rod 12 is connected to the side of the positioning block 12, the linkage rod 12 and the two interlocking rod 12, the linkage rod 13 are connected to the side of the positioning block 12, the control panel 13, and the interlocking rod 12, and the interlocking rod 13, and the interlocking rod 12 are connected to each other side of the interlocking rod 12, the right side of the push rod 19 is rotatably connected with the left side of the driving rod 18, the push rod 19 is matched with the driving rod 18 to conveniently drive the push rod 19 to move while the driving rod 18 moves, the transmission bevel gear 20 is fixedly connected to the left side of the telescopic rod 22, the auxiliary bevel gear 21 is fixedly connected to the outer wall of the fixed shaft 15, the auxiliary bevel gear 21 is matched with the transmission bevel gear 20 to conveniently drive the auxiliary bevel gear 21, the fixed shaft 15 and the driving wheel 3 to rotate while the transmission bevel gear 20 rotates, the inner wall of the bottom of the power box 4 is fixedly connected with the compression spring 17, the rear side of the control panel 8 is fixedly connected with the front side of the compression spring 17, the control panel 8 is conveniently reset by utilizing the elasticity of the compression spring 17, the reset springs 14 are symmetrically and fixedly connected to the inner wall of the power box 4, the number of the reset springs 14 is two, the sides of the two reset plates 12 which are close to each other are respectively fixedly connected with the sides of the two reset springs 14, the sides of the reset plates 12 are respectively connected with the inner wall of the push rod 19 which is matched with the sliding chute 10, the sliding block which is conveniently connected with the sliding chute 10, and the sliding block which is connected with the sliding chute 22, and the sliding chute.

In the present invention, in actual use, by starting the motor 5, at this time, the output shaft of the motor 5 rotates and drives the telescopic rod 22 to rotate with the gear 6 and the transmission bevel gear 20, at this time, the rack 7 moves backward and pushes the control board 8, the compression spring 17 is compressed by thrust, the control board 8 moves while pulling the unlocking rod 9, at this time, the sliding block 10 moves rightward and pulls the linkage 11, the linkage 11 pulls the reset board 12, at this time, the reset spring 14 is compressed by pressure, the positioning block 13 moves in a direction approaching each other under the pulling of the reset board 12, at this time, the positioning block 13 is separated from contact with the positioning hole 16, the driving rod 18 moves along with the pushing rod 19, at this time, the telescopic rod 22 extends, the transmission bevel gear 20 moves left and contacts with the auxiliary bevel gear 21, the fixing shaft 15 and the driving wheel 3 rotate by the cooperation of the transmission bevel gear 20 and the auxiliary bevel gear 21, the effect of conveniently moving the energy-saving induction furnace 1 is achieved, by stopping the motor 5, the output shaft of the motor 5 stops rotating, the compression spring 17 loses the restriction of pushing the control board 8 and resets the rack 7, at this time, at the sliding block 9 loses the pushing of the sliding block 10 by the thrust of the control board 8, the reset spring 14, the positioning block 13 is removed, the positioning rod 13 is removed by the driving rod 19, the auxiliary bevel gear, the driving rod 19, the positioning rod 19, the retraction effect of the driving rod 21 is achieved, the positioning rod 21.

The above, only be the embodiment of the preferred of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, which are designed to be replaced or changed equally, all should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides an automobile parts makes and uses energy-conserving induction furnace, includes energy-conserving induction furnace (1), a serial communication port, the bottom fixed connection of energy-conserving induction furnace (1) has headstock (4), and the bottom symmetry of energy-conserving induction furnace (1) is rotated and is connected with drive wheel (3) and directive wheel (2), and drive wheel (3) are two with the quantity of directive wheel (2), and drive wheel (3) are located the left side of directive wheel (2), and two drive wheel (3) are close to each other one side fixedly connected with same fixed axle (15), and fixed axle (15) run through headstock (4), and two drive wheel (3) are close to each other one side all be equipped with nine locating hole (16), and locating hole (16) are the annular array, the bottom inner wall fixedly connected with motor (5) of headstock (4), the left side fixedly connected with gear (6) of the output shaft of motor (5), the left side fixedly connected with telescopic link (22) of gear (6), the inner wall of headstock (4) is equipped with control mechanism.

2. The energy-saving induction furnace for manufacturing the automobile parts as claimed in claim 1, wherein the control mechanism comprises a rack (7), a control plate (8), an unlocking rod (9), a sliding block (10), a linkage rod (11), a reset plate (12), a positioning block (13), a driving rod (18), a pushing rod (19), a transmission bevel gear (20) and an auxiliary bevel gear (21), the number of the linkage rod (11), the number of the reset plate (12) and the number of the positioning block (13) are two, the rack (7) is slidably connected to the inner wall of the bottom of the power box (4), the rack (7) is meshed with the gear (6), the control plate (8) is fixedly connected to the rear side of the rack (7), the unlocking rod (9) is rotatably connected to the front side of the control plate (8), the sliding block (10) is slidably connected to the inner wall of the bottom of the power box (4), the rear side of the sliding block (10) is rotatably connected to the front side of the unlocking rod (9), the linkage rod (11) is rotatably connected to the left side of the reset plate (10), the sliding block (12) is slidably connected to the inner wall of the power box (4), one side of the positioning block (13), one side of the two positioning block (13) is respectively connected to one side of the positioning block (16) and the other side of the positioning block (13), one side that two reset plate (12) are close to each other rotates with one side that two trace (11) kept away from each other respectively and is connected, drive pole (18) rotate the top of connecting at control panel (8), catch bar (19) sliding connection is at the bottom inner wall of headstock (4), and the right side of catch bar (19) rotates with the left side of driving pole (18) to be connected, transmission bevel gear (20) fixed connection is in the left side of telescopic link (22), supplementary bevel gear (21) fixed connection is at the outer wall of fixed axle (15), and supplementary bevel gear (21) and transmission bevel gear (20) looks adaptation.

3. The energy-saving induction furnace for manufacturing the automobile parts as claimed in claim 2, wherein a compression spring (17) is fixedly connected to the inner wall of the bottom of the power box (4), and the rear side of the control plate (8) is fixedly connected with the front side of the compression spring (17).

4. The energy-saving induction furnace for manufacturing the automobile parts as claimed in claim 2, wherein the inner wall of the power box (4) is symmetrically and fixedly connected with two return springs (14), and one side of each two return plates (12) close to each other is fixedly connected with one side of each two return springs (14) far away from each other.

5. The energy-saving induction furnace for manufacturing the automobile parts is characterized in that a sliding groove is formed in the inner wall of the bottom of the power box (4), and the bottom of the sliding block (10) is in sliding connection with the inner wall of the sliding groove.

6. The energy-saving induction furnace for manufacturing automobile parts as claimed in claim 2, wherein a rotating ring is rotatably connected to the outer wall of the telescopic rod (22), and the top of the push rod (19) is fixedly connected with the bottom of the rotating ring.

Images