CN213104262U - Rotary tray device applied to spring forced compression equipment - Google Patents

Abstract

The utility model discloses a be applied to rotatory tray device of spring forced compression equipment, including rotatory tray main part, be equipped with a plurality of fretwork grooves in the rotatory tray main part, the fretwork inslot is fixed to be provided with forced compression and carries a mechanism, and forced compression carries a mechanism and includes and carry a main part with fretwork groove looks fixed coordination, and the detachable closing cap, carries to be equipped with a plurality of loading trench in the seat main part, can dismantle in the arbitrary loading trench and be provided with forced compression central siphon, and the spacing setting of forced compression central siphon is at the closing cap and is carried between the seat main part to be equipped with the through hole way on the closing cap. The bearing mechanism can realize the replaceable carrying of a plurality of strong-pressure shaft tubes through strong pressure, meet the strong-pressure matching requirements of springs of different specifications, further meet the synchronous strong-pressure requirements of the springs of different specifications, is more flexible to apply, and saves the bearing cost. Adopt and carry the seat main part and can reduce the machining requirement to the rotating tray, satisfy the position accuracy of high-pressure central siphon, can satisfy the disposable locking demand of a plurality of high-pressure central siphon through the closing cap design simultaneously, convenient operation is high-efficient.

Description

Rotary tray device applied to spring forced compression equipment

Technical Field

The utility model relates to a be applied to rotatory tray device of spring forced compression equipment belongs to the technical field of rotatory tray.

Background

The spring pressure treatment is a process for compressing the spring to a stable geometric size so as to improve the bearing capacity of the spring, and the spring is compressed by a certain stroke so as to meet the stability of the spring.

The spring specification is more, and traditional spring press adopts manual material loading and the mode of long-time forced compression design to realize, leads to the forced compression production efficiency very low. To some bigger specification springs, there are some semi-automatization crimping equipment, design rotatory tray promptly and carry out the bearing material, carry out the high pressure operation through crimping portion through rotatory mode, and the passageway of bearing spring is directly machine-shaping on rotatory tray, require to bear the weight of the passageway and possess higher straightness and diameter stability of hanging down, otherwise the spring can have the straightness that hangs down and warp and the impaired phenomenon of spring, the present case design is used for miniature spring that electronic product such as cell-phone used, it is higher to the precision requirement of high pressure passageway, the direct machine-shaping on rotatory tray hardly ensures the precision of high pressure passageway. In addition, the forced passage is directly formed on the rotary tray, the diameter of the forced passage is fixed, and the forced passage can not meet the forced matching requirements of springs with different specifications.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the not enough of above-mentioned prior art, directly lead to the fixed and unable guarantee problem of precision of specification at rotatory tray to the shaping of traditional forced passage, propose the rotatory tray device of being applied to spring forced compression equipment.

In order to achieve the above purpose, the utility model discloses the technical scheme who adopts is:

the rotary tray device applied to the spring forced compression equipment comprises a rotary tray main body, wherein a plurality of hollow-out grooves are uniformly arranged on the rotary tray main body at intervals in the circumferential direction,

a strong pressure carrier mechanism is fixedly arranged in any hollow groove and comprises a carrier main body fixedly matched with the hollow groove and a sealing cover detachably arranged on the carrier main body,

carry and be equipped with a plurality of loading trench in the seat main part, arbitrary can dismantle in the loading trench and be provided with the forced draught tube, the spacing setting of forced draught tube is in the closing cap with carry between the seat main part, and be equipped with on the closing cap with forced draught tube one-to-one complex link up the pore.

Preferably, the loading slot comprises a cylindrical channel and an annular sinking groove formed in the top end of the cylindrical channel, and the strong pressure shaft tube comprises an annular outer edge arranged in the annular sinking groove in a limiting mode and a tube wall main body extending to the cylindrical channel.

Preferably, the cover and the carrier body are in bolt locking connection.

Preferably, the fretwork groove is the rectangular channel, and the periphery in fretwork groove is equipped with heavy slot part, it sets up including spacing to carry the seat main part the outer fringe part in heavy slot part.

Preferably, the outer edge part and the sink groove part are in interference fit and/or welded and fixed.

Preferably, the carrier main body is provided with a peripheral limiting convex edge for limiting the periphery of the sealing cover.

Preferably, the through-going duct is a conical guide duct.

Preferably, the top end of the strong pressure shaft tube is provided with a wide-mouth guide part matched with the conical guide hole.

The beneficial effects of the utility model are mainly embodied in that:

1. the bearing mechanism can realize the replaceable carrying of a plurality of strong-pressure shaft tubes through strong pressure, meet the strong-pressure matching requirements of springs of different specifications, further meet the synchronous strong-pressure requirements of the springs of different specifications, is more flexible to apply, and saves the bearing cost.

2. Adopt and carry the seat main part and can reduce the machining requirement to the rotating tray, satisfy the position accuracy of high-pressure central siphon, can satisfy the disposable locking demand of a plurality of high-pressure central siphon through the closing cap design simultaneously, convenient operation is high-efficient.

3. The requirement of batched spring forced compression operation is met, and the forced compression operation efficiency is improved.

Drawings

Fig. 1 is a schematic structural view of a rotary tray device applied to a spring strong pressure device.

Fig. 2 is a schematic sectional view of the strong ballast seat mechanism in the rotary tray device according to the present invention.

Detailed Description

The utility model provides a be applied to rotatory tray device of spring forced compression equipment. The technical solution of the present invention will be described in detail below with reference to the accompanying drawings so as to be easier to understand and grasp.

Be applied to rotatory tray device of spring equipment of forcing, as shown in fig. 1 and fig. 2, including rotatory tray main part 1, be equipped with a plurality of fretwork grooves 2 of circumference evenly spaced on the rotatory tray main part 1, arbitrary fretwork groove 2 internal fixation is provided with the seat mechanism that bears the weight of.

The strong pressure loading seat mechanism comprises a loading seat main body 3 fixedly matched with the hollow groove 2 and a sealing cover 4 detachably arranged on the loading seat main body 3.

Carry and be equipped with a plurality of loading trench 5 in the seat main part 3, can dismantle in the arbitrary loading trench 5 and be provided with the forced draught tube 6, the spacing setting of forced draught tube 6 is between closing cap 4 and carrier main part 3 to be equipped with on the closing cap 4 with the forced draught tube 6 one-to-one complex link up pore 7.

The specific implementation process and principle are described as follows:

traditionally, the forced channel is directly machined and formed on the rotary tray main body 1, the precision of the forced channel is difficult to guarantee, the diameter of the forced channel is fixed, and the universality is poor.

In the present case, through the design of strong pressure carrier seat mechanism, only need at rotatory tray main part 1 machine tooling shaping fretwork groove 2, through the fretwork groove 2 realize carrying on carrier seat main part 3 can, it is lower to the machining precision requirement of fretwork groove 2, and can satisfy with fretwork groove 2 cooperation demand through the precision machining of carrier seat main part 3, satisfy the precision of loading trench 5 simultaneously.

And carry and possess a plurality of loading trench 5 on the seat main part 3, all can set up forced draft tube 6 in every loading trench 5, realize the forced draft operation through the pipeline of forced draft tube 6, and a plurality of forced draft tube 6 carry on spacingly through closing cap 4, and the crimping lock solid of whole forced draft tube 6 is realized to one performance, and the 6 operation of replacement forced draft tube can satisfy the requirement of different diameter specification springs forced draft, can satisfy the operation of multistation forced draft simultaneously.

In one embodiment, the loading slot 5 includes a cylindrical channel 51 and an annular recessed groove 52 disposed at the top end of the cylindrical channel, and the high-pressure shaft tube 6 includes an annular outer edge 61 disposed in the annular recessed groove 52 and a tube wall main body 62 extending to the cylindrical channel 51.

That is, the cylindrical channel 51 is used for axially limiting the tube wall main body 62, the annular sunken groove 52 is matched with the annular outer edge 61 for vertically supporting, and the sealing cover 4 is pressed and matched with the annular sunken groove 52 for locking the annular outer edge 61, so that the carrying stability of the strong-pressure tube 6 is ensured.

In one embodiment, the cover 4 and the carrier body 3 are bolted to each other.

The detachable carrying fit of the sealing cover 4 is met in a bolt locking and matching mode, and the operation is convenient.

In a specific embodiment, the hollow groove 2 is a rectangular groove, and the periphery of the hollow groove 2 is provided with a sunken groove portion 21, and the carrier body 3 includes an outer edge portion 31 disposed on the sunken groove portion 21. The outer edge 31 and the sink portion 21 are fixed by interference fit and/or welding.

The design increases the matching precision between the carrier body 3 and the hollow groove 2. The matching stability between the two is satisfied. The load seat main body 3 is not easy to loose, and the service life of the load seat main body 3 is prolonged.

In one embodiment, the carrier body 3 is provided with a peripheral limiting ledge 32 for peripherally limiting the cover 4. The design meets the alignment requirement when the sealing cover 4 is pressed, ensures that the screw hole is aligned reliably and the strong pressure shaft tube 6 and the through hole channel 7 are aligned accurately.

In one embodiment, the through going duct 7 is a conical guiding duct. The top end of the strong pressure shaft tube 6 is provided with a wide-mouth guide part which is matched with the conical guide hole. The matching can realize certain alignment guidance in the process of strong pressure.

Can discover through the above description, the utility model discloses be applied to the rotatory tray device of spring forced compression equipment, carry a seat mechanism through the forced compression and can realize carrying on a plurality of forced compression central siphon's replaceable, satisfy different specification springs forced compression cooperation demand, still satisfy the synchronous forced compression demand of different specification springs, use more in a flexible way, practiced thrift simultaneously and carried a cost. Adopt and carry the seat main part and can reduce the machining requirement to the rotating tray, satisfy the position accuracy of high-pressure central siphon, can satisfy the disposable locking demand of a plurality of high-pressure central siphon through the closing cap design simultaneously, convenient operation is high-efficient. The requirement of batched spring forced compression operation is met, and the forced compression operation efficiency is improved.

The above technical solutions of the present invention have been fully described, and it should be noted that the present invention is not limited by the above description, and all technical solutions formed by equivalent transformation or equivalent transformation adopted by the spirit of the present invention in the aspects of structure, method or function by those of ordinary skill in the art all fall within the protection scope of the present invention.

Claims (8)

1. Be applied to rotatory tray device of spring equipment of forcing, its characterized in that:

comprises a rotary tray main body, a plurality of hollow-out grooves which are evenly spaced in the circumferential direction are arranged on the rotary tray main body,

a strong pressure carrier mechanism is fixedly arranged in any hollow groove and comprises a carrier main body fixedly matched with the hollow groove and a sealing cover detachably arranged on the carrier main body,

carry and be equipped with a plurality of loading trench in the seat main part, arbitrary can dismantle in the loading trench and be provided with the forced draught tube, the spacing setting of forced draught tube is in the closing cap with carry between the seat main part, and be equipped with on the closing cap with forced draught tube one-to-one complex link up the pore.

2. The rotary tray device applied to a spring strong pressure equipment according to claim 1, characterized in that:

the loading slot comprises a cylindrical channel and an annular sinking groove formed in the top end of the cylindrical channel, and the strong pressure shaft tube comprises an annular outer edge arranged in the annular sinking groove in a limiting mode and a tube wall main body extending to the cylindrical channel.

3. The rotary tray device applied to a spring strong pressure equipment according to claim 1, characterized in that:

the seal cover and the carrier body are in bolt locking connection.

4. The rotary tray device applied to a spring strong pressure equipment according to claim 1, characterized in that:

the hollow groove is a rectangular groove, a sink groove part is arranged on the periphery of the hollow groove, and the load seat main body comprises an outer edge part which is arranged on the sink groove part in a limiting mode.

5. The rotary tray device applied to a spring strong pressure device according to claim 4, wherein:

the outer edge part and the sink groove part are in interference fit and/or welded and fixed.

6. The rotary tray device applied to a spring strong pressure equipment according to claim 1, characterized in that:

the carrying seat body is provided with a peripheral limiting convex edge for limiting the periphery of the sealing cover.

7. The rotary tray device applied to a spring strong pressure equipment according to claim 1, characterized in that:

the through hole channel is a conical guide hole channel.

8. The rotary tray device applied to a spring strong pressure equipment according to claim 7, characterized in that:

the top end of the strong pressure shaft tube is provided with a wide-mouth guide part which is used for being matched with the conical guide hole.

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