CN208662983U - A kind of stubborn spring feeding structure for diverter kludge - Google Patents

Abstract

The utility model discloses a kind of stubborn spring feeding structures for diverter kludge, including kludge ontology, twist spring feed mechanism, second horizontal air cylinder and the 4th vertical cylinder, workpiece transfer disk is provided on the kludge ontology, the stubborn spring feed mechanism is mounted on kludge ontology, the first vertical cylinder is provided in the stubborn spring feed mechanism, first level cylinder is provided in the stubborn spring feed mechanism, second horizontal air cylinder and the first vertical cylinder are connected, third horizontal air cylinder is provided in the stubborn spring feed mechanism, and third vertical cylinder is provided with below third horizontal air cylinder, 4th vertical cylinder is mounted in stubborn spring feed mechanism, and it twists in spring feed mechanism and is provided with the 4th horizontal air cylinder.This is used for the stubborn spring feeding structure of diverter kludge, and structure design is more reasonable, for torsional spring, is able to carry out more efficient feeding, the degree of automation is higher, has effectively increased the efficiency of diverter overall package.

Description

A kind of stubborn spring feeding structure for diverter kludge

Technical field

The utility model relates to diverter technical field of processing equipment, specially a kind of stubborn spring for diverter kludge Feeding structure.

Background technique

Automobile steering device is one of structure important in automobile, with the continuous development of science and technology, the processing of diverter Technology is also gradually grown up, and usually assembles each components in diverter using kludge, and is twisted on spring Material structure be then kludge important component, but existing feeding structure to stubborn spring carry out feeding when there is knots Structure design is unreasonable, and specific aim is not strong, so the disadvantage that loading efficiency is lower.In view of the above-mentioned problems, being badly in need of in original feeding knot Innovative design is carried out on the basis of structure.

Utility model content

It is above-mentioned to solve the purpose of this utility model is to provide a kind of stubborn spring feeding structure for diverter kludge For existing feeding structure when carrying out feeding to stubborn spring, there is unreasonable structural designs, specific aim is not strong in background technique, So the problem that loading efficiency is lower.

To achieve the above object, the utility model provides the following technical solutions: a kind of stubborn spring for diverter kludge Feeding structure, including kludge ontology, stubborn spring feed mechanism, the second horizontal air cylinder and the 4th vertical cylinder, the kludge sheet Workpiece transfer disk is provided on body, the stubborn spring feed mechanism is mounted on kludge ontology, and is twisted and be arranged in spring feed mechanism There is feeding device, and feeding device is connected with material path, the first vertical cylinder, and are provided in the stubborn spring feed mechanism One vertical cylinder is mounted on sliding block, is provided with first level cylinder in the stubborn spring feed mechanism, and first level cylinder Avris is provided with the second vertical cylinder, and second horizontal air cylinder and the first vertical cylinder are connected, in the stubborn spring feed mechanism It is provided with third horizontal air cylinder, and is provided with third vertical cylinder below third horizontal air cylinder, the 4th vertical cylinder peace In stubborn spring feed mechanism, and twists in spring feed mechanism and be provided with the 4th horizontal air cylinder.

Preferably, the feeding device is vibrating disc, and the discharge end of feeding device is connected with the feed end of material path.

Preferably, the avris of the material path is equipped with the full arresting gear of material, and is connected with below material path and is mounted on stubborn spring Straight vibration in feed mechanism assists feeding.

Preferably, the sliding block is embedded in sliding rail, and sliding rail is horizontal distribution, and the end of sliding rail is equipped with first Buffer.

Preferably, the bottom end of second vertical cylinder is connected with workpiece clamp, and workpiece clamp is vertical distribution.

Preferably, the top of second horizontal air cylinder is provided with the second buffer.

Compared with prior art, the utility model has the beneficial effects that this is used for the stubborn spring feeding knot of diverter kludge Structure, structure design is more reasonable, for torsional spring, is able to carry out more efficient feeding, the degree of automation is higher, effectively increases The efficiency of diverter overall package；

1. material expires the use of arresting gear and straight vibration auxiliary feeder equipment, can make torsional spring during conveying more Orderly stablize；

2. using multiple groups cylinder and sliding rail and sliding block, convenient for carrying out feeding, effect to torsional spring by way of automatic control Rate is higher simultaneously, more stable；

3. the use of buffer, the noise generated when can effectively reduce mechanism overall operation, it is more reasonable to design.

Detailed description of the invention

Fig. 1 is the utility model kludge ontology overlooking structure diagram；

Fig. 2 is that the utility model twists spring feed mechanism structural schematic diagram；

Fig. 3 is enlarged structure schematic diagram at A in the utility model Fig. 2；

Fig. 4 is enlarged structure schematic diagram at B in the utility model Fig. 2.

In figure: 1, kludge ontology；2, workpiece transfer disk；3, spring feed mechanism is twisted；4, feeding device；5, material path；51, expect Full arresting gear；52, straight vibration auxiliary feeding；6, the first vertical cylinder；61, sliding block；62, sliding rail；63, the first buffer；7, One horizontal air cylinder；8, the second vertical cylinder；81, workpiece clamp；9, the second horizontal air cylinder；91, the second buffer；10, third is horizontal Cylinder；11, third vertical cylinder；12, the 4th vertical cylinder；13, the 4th horizontal air cylinder.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-4 is please referred to, the utility model provides a kind of technical solution: a kind of stubborn spring feeding for diverter kludge Structure, including kludge ontology 1, workpiece transfer disk 2, twist spring feed mechanism 3, feeding device 4, material path 5, the first vertical cylinder 6, First level cylinder 7, the second vertical cylinder 8, the second horizontal air cylinder 9, third horizontal air cylinder 10, third vertical cylinder the 11, the 4th Vertical cylinder 12 and the 4th horizontal air cylinder 13 are provided with workpiece transfer disk 2 on kludge ontology 1, twist spring feed mechanism 3 and are mounted on It on kludge ontology 1, and twists in spring feed mechanism 3 and is provided with feeding device 4, and feeding device 4 is connected with material path 5, twist It is provided with the first vertical cylinder 6 in spring feed mechanism 3, and the first vertical cylinder 6 is mounted on sliding block 61, twists spring feed mechanism 3 In be provided with first level cylinder 7, and the avris of first level cylinder 7 is provided with the second vertical cylinder 8, the second horizontal air cylinder 9 It is connected with the first vertical cylinder 6, twists in spring feed mechanism 3 and be provided with third horizontal air cylinder 10, and under third horizontal air cylinder 10 Side is provided with third vertical cylinder 11, and the 4th vertical cylinder 12 is mounted in stubborn spring feed mechanism 3, and twists in spring feed mechanism 3 It is provided with the 4th horizontal air cylinder 13.

Feeding device 4 is vibrating disc, and the discharge end of feeding device 4 is connected with the feed end of material path 5, can be by artificial Mode torsional spring is poured into feeding device 4, feeding device 4 run, torsional spring is delivered in material path 5 by way of vibration.

The avris of material path 5 is equipped with the full arresting gear 51 of material, and the lower section of material path 5 is connected with and is mounted on stubborn spring feed mechanism Straight vibration in 3 assists feeding 52, and straight vibration auxiliary feeding 52 pushes material to go forward, until torsional spring reaches the discharge port of material path 5, material is full The use of arresting gear 51, can achieve power saving, reduce noise, reduces straight vibration and feeding 52 and feeding device 4 is assisted to resonate Possibility, while avoiding the material in material path 5 from crossing senior general because of crowded power and expecting that 5 material of extrusion manifold expires arresting gear 51 and uses correlation light Fine inductor, after 5 material of material path is full, material stops the optical signal of one edge emitting of optical fiber, and optical fiber another side can not receive light letter Number, inductive signal is transmitted to vibrating disk control box by inductor, and vibrating disk controls box control vibrating disc and stops vibration feed, on the contrary , because it is the prior art, concrete operating principle figure and control model are not described in detail in the text.

Sliding block 61 is embedded in sliding rail 62, and sliding rail 62 is horizontal distribution, and the end of sliding rail 62 is equipped with first and delays Device 63 is rushed, in such a way that sliding block 61 is mobile in sliding rail 62, the movement of the first vertical cylinder 6 can be made more stable.

The bottom end of second vertical cylinder 8 is connected with workpiece clamp 81, and workpiece clamp 81 is vertical distribution, and workpiece clamp 81 is second Under the drive of vertical cylinder 8, it can move downward and clamp material.

The top of second horizontal air cylinder 9 is provided with the second buffer 91, using multiple buffers, can effectively reduce the knot The vibrating noise that structure generates at runtime.

Working principle: as shown in Figs 1-4, torsional spring can be poured into feeding device 4 by artificial mode, feeding device 4 Torsional spring, is delivered in material path 5 by operation by way of vibration, and when material is located in material path 5, straight vibration auxiliary feeding 52 pushes object Material is gone forward, until torsional spring reaches the discharge port of material path 5, is expected the use of full arresting gear 51, be can achieve power saving, reduce and make an uproar Sound reduces a possibility that straight vibration assists feeding 52 and feeding device 4 to resonate, while avoiding the material in material path 5 excessive because squeezing power It will expect extrusion manifold 5, downwards, first level cylinder 7 provokes forward torsional spring to the first vertical cylinder 6, and the clamping of the second vertical cylinder 8 is turned round Spring, upwards, the second horizontal air cylinder 9 pushes forward the first vertical cylinder 6, and the first vertical cylinder 6 downwards, control by the second vertical cylinder 8 Workpiece clamp 81 processed is transferred on torsional spring to mold, and third horizontal air cylinder 10 clamps torsional spring, and the 4th horizontal air cylinder 13 is revolved with dynamic model group It turning 90 degrees, third vertical cylinder 11 moves upwards, and the 4th vertical cylinder 12 clamps torsional spring, and cylinder C pulls open torsional spring feeler, and first The control of vertical cylinder 6 rises, and the second horizontal air cylinder 9 pushes forward, the decline of the first vertical cylinder 6, the decentralization of the 4th vertical cylinder 12 To rotary table mould, workpiece transfer disk 2 rotates torsional spring, and torsional spring is transferred to other processes.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. a kind of stubborn spring feeding structure for diverter kludge, including kludge ontology (1), twist spring feed mechanism (3), the Two horizontal air cylinders (9) and the 4th vertical cylinder (12), it is characterised in that: be provided with workpiece transfer on the kludge ontology (1) Disk (2), the stubborn spring feed mechanism (3) are mounted on kludge ontology (1), and twist in spring feed mechanism (3) and be provided with feed Device (4), and feeding device (4) is connected with material path (5), is provided with the first vertical gas in the stubborn spring feed mechanism (3) Cylinder (6), and the first vertical cylinder (6) is mounted on sliding block (61), is provided with first level gas in the stubborn spring feed mechanism (3) Cylinder (7), and the avris of first level cylinder (7) is provided with the second vertical cylinder (8), second horizontal air cylinder (9) and first Vertical cylinder (6) is connected, and is provided with third horizontal air cylinder (10) in the stubborn spring feed mechanism (3), and third horizontal air cylinder (10) it being provided with below third vertical cylinder (11), the 4th vertical cylinder (12) is mounted in stubborn spring feed mechanism (3), And it twists in spring feed mechanism (3) and is provided with the 4th horizontal air cylinder (13).

2. a kind of stubborn spring feeding structure for diverter kludge according to claim 1, it is characterised in that: the confession Expect that device (4) are vibrating disc, and the discharge end of feeding device (4) is connected with the feed end of material path (5).

3. a kind of stubborn spring feeding structure for diverter kludge according to claim 1, it is characterised in that: the material It is full arresting gear (51) that the avris in road (5) is equipped with material, and is connected with below material path (5) and is mounted on stubborn spring feed mechanism (3) In straight vibration assist feeding (52).

4. a kind of stubborn spring feeding structure for diverter kludge according to claim 1, it is characterised in that: the cunning Block (61) is embedded in sliding rail (62), and sliding rail (62) is horizontal distribution, and the end of sliding rail (62) is equipped with the first buffering Device (63).

5. a kind of stubborn spring feeding structure for diverter kludge according to claim 1, it is characterised in that: described The bottom end of two vertical cylinders (8) is connected with workpiece clamp (81), and workpiece clamp (81) is vertical distribution.

6. a kind of stubborn spring feeding structure for diverter kludge according to claim 1, it is characterised in that: described The top of two horizontal air cylinders (9) is provided with the second buffer (91).