CN214517347U - Damping spring processingequipment - Google Patents

Abstract

The utility model relates to a spring processing equipment field, more specifically the damping spring processingequipment that says so, a damping spring processingequipment, including jack catch, cantilever and roll-over stand, the cantilever symmetry is installed in the roll-over stand both sides, cantilever and roll-over stand sliding connection install the jack catch on the cantilever, be connected with the telescopic link between jack catch and the cantilever, the jack catch extends to corresponding position after, two cantilevers slide to the centre, behind the chucking spring, the jack catch is retreated, take off the spring from the axle, and overturn the opposite side through the roll-over stand, still include the mount, the mount both sides are provided with stand and perpendicular slide, the slide is connected with the crossbearer, install the pivot in the middle of the crossbearer, connect the motor, the pivot is rotatable, still include the dabber, the dabber sets up in the pivot, be connected with the pivot through the connecting plate.

Description

Damping spring processingequipment

Technical Field

The utility model relates to a spring processing equipment field, more specifically the damping spring processingequipment that says so.

Background

Damping spring is the elasticity original paper commonly used, wide application in various vibration equipment, it is good to have stability, the noise is low, the vibration isolation is effectual, advantages such as long service life, damping spring has compression spring, rubber spring, compound spring, air bag spring etc. and steel wire compression spring uses the most common elasticity original paper, steel wire compression spring is the coil spring who bears axial pressure, the material cross-section that it used is mostly circular, the spring generally is the equidistance, compression spring's shape has: it is cylindrical, conical, well convex and well spill and a small amount of non-circular etc, there is certain clearance between compression spring's circle and the circle, spring shrinkage deformation when receiving external load, store the deformation ability, in the steel wire compression spring course of working, need take off from the machine and transfer to other department and carry out the quenching treatment after the shaping, current spring adds man-hour, this process adopts manual transfer mostly, manual transfer is consuming time, influence quenching effect, and the spring is the high temperature state all the time at the transfer in-process, there is danger to operating personnel.

SUMMERY OF THE UTILITY MODEL

The utility model provides a damping spring processingequipment, its beneficial effect does the utility model discloses can press from both sides the spring after the shaping and get and shift the spring and quench.

The utility model provides a damping spring processingequipment, includes jack catch, cantilever and roll-over stand, the cantilever symmetry is installed in the roll-over stand both sides, and cantilever and roll-over stand sliding connection install two-way telescopic link between two cantilevers, and the two-way telescopic link stiff end is installed on the roll-over stand, installs the jack catch on the cantilever, is connected with the telescopic link between jack catch and the cantilever, and the jack catch of two symmetry installations accompanies the spring in.

The flexible spring of getting different length that can conveniently press from both sides of jack catch is got, and the roll-over stand drives jack catch, cantilever and spring upset to the opposite side, is convenient for handle the spring on next step, connects the cantilever through the telescopic link and can drive the jack catch motion, is convenient for according to the diameter of spring, adjusts the distance between two jack catches for the jack catch tightly blocks the spring.

The clamping jaw is provided with a groove.

The clamping effect on the spring can be increased by arranging the grooves on the clamping jaws.

The roll-over stand is arranged on the bottom frame and is connected with the bottom frame through a hinge.

The chassis provides the support for the roll-over stand, avoids the roll-over stand to drop, and articulated connection provides the prerequisite for the upset of roll-over stand simultaneously.

The fixing frame is characterized by further comprising a fixing frame, stand columns are arranged on two sides of the fixing frame, a guide rail is arranged at the bottom of the fixing frame, and the bottom frame slides on the guide rail of the fixing frame.

The mount provides a sliding track for the chassis while defining a sliding direction and travel.

The turnover device is characterized by further comprising a connecting rod, one end of the connecting rod is connected with the upright post hinge on the fixing frame, and the other end of the connecting rod is connected with one side of the turnover frame.

Through the slip of chassis, the connecting rod drives the roll-over stand and overturns, and roll-over stand and mount are connected to the connecting rod, prevent that the roll-over stand from inclining.

The utility model relates to a damping spring processingequipment's beneficial effect does:

the utility model discloses can press from both sides the spring and get, make things convenient for the spring to take out from the make-up machine, can overturn simultaneously, be convenient for shift the spring and carry out corresponding quenching treatment.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first schematic view of an embodiment of a damping spring machining apparatus;

FIG. 2 is a second schematic view of an embodiment of a damping spring machining apparatus;

fig. 3 is a schematic view of the gripping section;

FIG. 4 is a schematic view of an inverted portion;

FIG. 5 is a schematic structural view of the roll-over stand;

FIG. 6 is a schematic view of a spring hanger;

fig. 7 is a schematic structural view of the fixing frame.

In the figure:

a claw 101;

a cantilever 102;

a roll-over stand 201;

a chassis 202;

a fixed mount 301;

a connecting rod 302;

a cross frame 401;

a rotating shaft 402;

a mandrel 403.

Detailed Description

Detailed description with reference to fig. 1, 2 and 3:

the clamping jaw 101 is connected with the cantilever 102 through the telescopic rod, the clamping jaw 101 can move forwards or backwards through the telescopic rod, and can be properly adjusted according to the length of the spring, so that the spring can be clamped more accurately, and the clamping jaw 10 is prevented from being incapable of clamping the spring stably;

furthermore, the cross section of one side, close to the spring, of the clamping jaw 101 is an arc, the inner wall of the clamping jaw is provided with a thread groove, the spring can be attached to the clamping jaw 101, the clamping jaw 101 can clamp the spring and limit the spring forwards and backwards at the same time, and the spring is prevented from sliding out of the clamping jaw 101;

furthermore, the turning frame 201 is symmetrically provided with cantilevers 102, the cantilevers 102 are connected with the turning frame 201 in a sliding manner, a telescopic rod is arranged between the two cantilevers 102, a rod body of the telescopic rod is connected to the turning frame 201, two ends of the telescopic rod are connected with the two cantilevers 102, the telescopic rod is a bidirectional telescopic rod, the two ends of the telescopic rod can be synchronously telescopic under the control of a motor, the cantilevers 102 are driven to slide, the positions of the cantilevers 102 can be conveniently adjusted, the distance between the two clamping jaws 101 can be changed, the clamping force of the clamping jaws 101 on the spring can be enhanced, and the spring can be prevented from falling;

furthermore, the telescopic rod connects the two cantilevers 102 together, and limits the cantilevers 102 at the same time, so that the cantilevers 102 can be prevented from being deviated in the overturning process;

further, before clamping, the two cantilevers 102 move towards two sides under the driving of the two-way telescopic rod respectively, the distance between the two claws 101 increases until the maximum position of the stroke, then the telescopic rod connected between the claws 101 and the cantilevers 102 starts to extend, the claws 101 move forwards and gradually approach to the spring, when the claws 101 extend to the position meeting the clamping condition, the extension is stopped, the two-way telescopic rod contracts to drive the two cantilevers 102 to move towards the middle, the distance between the two claws 101 gradually decreases until the claws 101 completely clamp the spring, the two-way telescopic rod stops contracting, the telescopic rod between the claws 101 and the cantilevers 102 starts to contract until the spring is separated from the forming machine, and the clamping process is completed.

Detailed description with reference to fig. 1, 4 and 5:

the turnover frame 201 is of a U-shaped structure, two sides of the turnover frame 201 are connected to the bottom frame 202, the turnover frame 201 can rotate, the turnover frame can turn over under the action of stress, a sliding groove is formed in one side of the turnover frame 201, and limiting blocks are arranged on two sides of the sliding groove to prevent the cantilever 102 from sliding out of the turnover frame; the roll-over stand 201 is entirely high-strength steel, and the roll-over stand 201 is prevented from being broken in the process of turning over.

The detailed description is described with reference to fig. 1 and 7:

the fixed frame 301 is connected with the bottom frame 202 in a sliding mode, the fixed frame 301 is integrally fixed, a sliding rail is mounted on the fixed frame 301, the turnover frame 201 is connected with the upright posts on the fixed frame 301 through the connecting rods 302 connected to the two sides, the upright posts are arranged on the two sides of the fixed frame 301, one end of each connecting rod 302 is connected with the turnover frame 201, the other end of each connecting rod 302 is connected with the upright posts, the connecting rods 302 are connected with the turnover frame 301 through hinges, and the connecting rods 302 are connected with the upright posts on the fixed frame 301 through hinges;

further, the requirement of upset has not only been satisfied in the setting of connecting rod 302, and simultaneously, connecting rod 302 is all installed to roll-over stand 201 both sides and can prevent that roll-over stand 201 from taking place to heel in the upset process.

Detailed description with reference to fig. 1 and 2:

when the clamping is not performed, the clamping jaws 101, the cantilever 102 and the connected telescopic rod are all on one side away from the forming machine, when the clamping is performed, the bottom frame 202 slides backwards along the slide ways on the fixed frame 301, the overturning frame 201 is driven by the bottom frame 202 to tend to move backwards, but the overturning frame 201 is connected with the connecting rod 302 at the same time, because the other end of the connecting rod 302 is connected to the fixed upright post, the moving mode of the connecting rod 302 can only rotate, the bottom frame 202 moves backwards, the connecting rod 302 rotates in the opposite direction, and simultaneously the overturning frame 201 is driven to overturn, and when the overturning frame 201 overturns 180 degrees, the bottom frame 202 stops moving and starts to perform the clamping;

further, after the clamping is completed, the chassis 202 moves backwards along the slide rail on the fixed frame 301, the connecting rod 302 rotates in the opposite direction, the connecting rod 302 drives the roll-over stand 201 to turn over, after the roll-over stand 201 returns to the initial position, the chassis 202 stops moving, the turning over is completed, and the spring is transferred to the other side of the forming machine.

Detailed description with reference to fig. 1 and 6:

the fixed frame 301 is provided with a cross frame 401, the rear side of the upright post of the fixed frame 301 is provided with a vertical slide rail, the cross frame 401 slides on the slide rail, the cross frame 401 is provided with a plurality of mandrels 403, when the mandrels 403 are arranged, the cross frame 401 is provided with a rotating shaft 402, the rotating shaft 402 penetrates through the cross frame 401, one side of the rotating shaft is provided with a connecting plate, the connecting plate is provided with a plurality of mandrels 403, and the lower part of the cross frame 401 is provided with a quenching bath.

Further, after the turning is finished, the jaws 101 extend forwards through the telescopic rods, when the spring completely penetrates through the mandrel 403, the extension is stopped, the cantilever 102 moves towards two sides under the driving of the bidirectional telescopic rods, the springs are gradually loosened by the two jaws 101, after the spring completely separates from the jaws 101, the jaws 101 are retracted, the hanging of the spring is finished, then the cross frame 401 slides downwards until the spring is completely immersed in the quenching tank below the cross frame 401, the sliding is stopped, and after the spring is quenched, the cross frame 401 slides upwards to wait for the next process; when a plurality of mandrels 403 are arranged, after the springs are hung, the rotating shaft 402 is rotated to enable the mandrels 403 with the springs to be lowered to the lowest point, and then the cross frame 401 slides downwards until the springs are completely immersed in the quenching bath;

furthermore, the mandrel 403 is convenient for hanging and placing in and taking out the spring before and after quenching, meanwhile, the spring can be prevented from shrinking and breaking in the quenching process, the mandrel 403 can be replaced according to the diameter of the spring, and the mandrel 403 is also provided with an anti-skidding device for preventing the spring from sliding off the mandrel 403 in the moving process;

furthermore, the rotating shaft 402 is arranged, so that manual operation is not needed before and after quenching, the misoperation risk is reduced, meanwhile, when a plurality of springs are quenched, the quenched springs can be taken out in time through rotation of the rotating shaft 402, the un-quenched springs are placed into a quenching tank in time, and the processing efficiency is improved.

Claims (10)

1. The utility model provides a damping spring processingequipment, includes jack catch (101), cantilever (102) and roll-over stand (201), its characterized in that: cantilever (102) symmetry is installed in roll-over stand (201) both sides, and cantilever (102) and roll-over stand (201) sliding connection install two-way telescopic link between two cantilever (102), and two-way telescopic link stiff end is installed on roll-over stand (201), installs jack catch (101) on cantilever (102), is connected with the telescopic link between jack catch (101) and cantilever (102), and the jack catch (101) of two symmetry installations are built-in to accompany the spring.

2. The damper spring processing apparatus according to claim 1, wherein: the clamping jaw (101) is provided with a groove.

3. The damper spring processing apparatus according to claim 1, wherein: the turnover frame (201) is installed on the bottom frame (202), and the turnover frame (201) is connected with the bottom frame (202) in a hinged mode.

4. A damper spring processing apparatus according to claim 3, wherein: the fixing frame is characterized by further comprising a fixing frame (301), stand columns are arranged on two sides of the fixing frame (301), guide rails are arranged at the bottom of the fixing frame (301), and the bottom frame (202) slides on the guide rails of the fixing frame (301).

5. The damper spring processing apparatus according to claim 4, wherein: the turnover frame is characterized by further comprising a connecting rod (302), one end of the connecting rod (302) is connected with the upright post hinge on the fixing frame (301), and the other end of the connecting rod (302) is connected with one side of the turnover frame (201).

6. The damper spring processing apparatus according to claim 5, wherein: and a transverse frame (401) is arranged on the fixed frame (301).

7. The damper spring processing apparatus according to claim 6, wherein: and a hanging device is arranged on the transverse frame (401).

8. The damper spring processing apparatus according to claim 7, wherein: the hanging device comprises a mandrel (403), and the mandrel (403) is arranged on the cross frame.

9. The damper spring processing apparatus according to claim 7, wherein: the hanging device comprises a rotating shaft (402) and a mandrel (403), a connecting plate is arranged between the rotating shaft (402) and the mandrel (403), and one end of the rotating shaft (402) is installed on the transverse frame (401).

10. The damper spring processing apparatus according to claim 9, wherein: a quenching tank is arranged on the lower side of the transverse frame (401), and a mandrel (403) positioned at the lower end is immersed in the quenching tank.

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