CN214030754U - Automatic derailleur reset spring subassembly production line spring feeding mechanism - Google Patents

Abstract

The utility model discloses an automatic derailleur reset spring subassembly production line spring feed mechanism, including the spring feed support body, install the intermittent type unloading controlling means that is used for exporting the coil spring in the storage mechanism intermittent type in proper order on the spring feed support body, the feed opening department of intermittent type unloading controlling means corresponds and is provided with the rotatory temporary storage device of disk that collects the coil spring that exports intermittently in proper order, the feed opening department of the rotatory temporary storage device of disk corresponds and is provided with the pipe guide discharging device that is used for guiding a plurality of coil springs of collecting to the spring assembling die simultaneously; the utility model discloses well adoption intermittent type unloading, annular accumulation, the mode of once deriving, arrange coil spring and form spring ring group, at this in-process, not only spring assembly mould need not rotate, has reduced coil spring's overall unloading time simultaneously, and production efficiency obtains obviously improving, and the degree of automation of equipment is high, has effectively reduced artifical intensity of labour, and manufacturing cost reduces.

Description

Automatic derailleur reset spring subassembly production line spring feeding mechanism

Technical Field

The utility model relates to a reset spring subassembly production line especially relates to an automatic gearbox reset spring subassembly production line spring feed mechanism.

Background

The return spring assembly is an indispensable component on the automatic transmission, and plays a role in shifting return in the automatic transmission. Referring to fig. 4 and 5, the return spring assembly comprises two annular sheets and a plurality of spiral springs which are circumferentially and annularly and uniformly distributed and connected between the two annular sheets, one end of each spiral spring is connected with one annular sheet in a riveting mode, the other end of each spiral spring is connected with the other annular sheet in a plugging mode, for convenience of description, the annular sheet to be riveted is defined as an annular riveting sheet, and the annular sheet to be plugged is defined as an annular plugging sheet.

The assembly process of the reset spring assembly mainly comprises riveting and inserting, and the specific flow of the assembly process is as shown in fig. 6: firstly, uniformly arranging spiral springs in an annular shape to form a spring annular group 24, then concentrically assembling annular riveting sheets 25 to the top end of the spring annular group 24, entering a riveting station, pressing the annular riveting sheets 25 downwards through a press head of a forming machine to realize the riveting connection between the annular riveting sheets 25 and the spring annular group 24, and forming a pre-assembly component; then the pre-assembly is turned 180 degrees to the insertion station, namely the riveted spring annular group 24 and the riveted annular riveting sheet 25 are turned 180 degrees to the insertion station, then the annular insertion sheet 26 is concentrically assembled to the top end of the turned pre-assembly, namely the top end of the turned spring annular group 24, and finally the annular insertion sheet 26 is pressed downwards by a press head of the forming machine to realize the insertion connection between the annular insertion sheet 26 and the spring annular group 24.

Work is arranged to coil spring's annular equipartition among the prior art, mainly inserts coil spring respectively to spring assembling die's spring assembling post by the manual work, because coil spring's the less and installation quantity of size is more, adopts manual operation to make reset spring subassembly assembling process production efficiency low, and the manual operation degree of difficulty is great, leads to manufacturing cost higher.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an automatic transmission reset spring subassembly production line spring feeding mechanism that degree of automation is high, production efficiency is high is provided.

In order to solve the technical problem, the technical scheme of the utility model is that: automatic derailleur reset spring subassembly production line spring feeding mechanism for form spring ring group on with the automatic supply of the coil spring in the storage mechanism to spring assembly mould, including the spring feed support body, install on the spring feed support body and be used for the intermittent type unloading controlling means who derives the coil spring in the storage mechanism intermittent type in proper order with storage mechanism intercommunication, intermittent type unloading controlling means's feed opening department corresponds and is provided with the rotatory temporary storage device of disk that collects the coil spring that derives intermittent type in proper order, the corresponding a plurality of coil springs that are used for collecting that are provided with of feed opening department of the rotatory temporary storage device of disk guides extremely simultaneously pipe guide discharging device on the spring assembly mould.

As a preferable technical proposal, the intermittent blanking control device comprises a blanking control cylinder fixedly arranged on the spring feeding frame body, a blanking control seat is fixed at the cylinder rod end of the blanking control cylinder, a blanking pipe mounting seat is also fixed on the spring feeding frame body, a blanking pipe mounting hole correspondingly communicated with the disc type rotary temporary storage device is arranged in the blanking pipe mounting seat, the upper end of the blanking pipe mounting hole is provided with a spring blanking pipe communicated with the material storage mechanism, the lower end of the blanking pipe mounting hole is provided with an intermittent blanking control plate which horizontally slides and is used for cutting off a passage between the spring blanking pipe and the disc type rotary temporary storage device, the intermittent blanking control plate is fixed on the blanking control seat, and an intermittent blanking control hole for communicating a passage between the spring blanking pipe and the disc type rotary temporary storage device is formed in the surface of the intermittent blanking control plate.

According to the preferable technical scheme, an intermittent blanking horizontal sliding rail is fixedly mounted on the blanking control seat, the other end of the intermittent blanking horizontal sliding rail is slidably mounted on the blanking pipe mounting seat, and an intermittent blanking reset spring is sleeved outside the intermittent blanking horizontal sliding rail between the blanking control seat and the blanking pipe mounting seat.

As a preferred technical scheme, a blanking pipe detector is correspondingly arranged outside the spring blanking pipe.

As a preferred technical scheme, the disk-type rotary temporary storage device comprises a rotary temporary storage disk which is horizontally and rotatably mounted on the spring feeding frame body and a temporary storage disk driving device which drives the rotary temporary storage disk to horizontally rotate, a plurality of spring temporary storage holes which are annularly arranged and used for temporarily storing the helical springs are formed in the rotary temporary storage disk, a temporary storage guide pipe which is used for guiding the helical springs at the feeding port of the intermittent blanking control device into the spring temporary storage holes is further arranged on the spring feeding frame body, and a temporary storage disk control device which can reciprocate and horizontally slide and is used for intermittently plugging the bottom ends of the spring temporary storage holes is arranged at the bottom end of the rotary temporary storage disk.

As the preferred technical scheme, a guide tube detector is arranged outside the temporary storage guide tube.

According to the technical scheme, the temporary storage disk control device comprises a temporary storage disk horizontal sliding rail fixedly mounted on the spring feeding frame body, a temporary storage blocking flat plate used for blocking the bottom end of the spring temporary storage hole is slidably mounted on the temporary storage disk horizontal sliding rail, and a blocking plate driving cylinder used for driving the temporary storage blocking flat plate to slide along the temporary storage disk horizontal sliding rail is connected between the temporary storage blocking flat plate and the spring feeding frame body.

According to the preferable technical scheme, the guide pipe guide discharging device comprises two guide pipe mounting discs which are oppositely arranged, the two guide pipe mounting discs are fixedly mounted through a mounting disc connecting rod, one guide pipe mounting disc is fixed on the spring feeding frame body, the other guide pipe mounting disc is located right above the spring assembling die, a plurality of spring guide pipes are fixedly mounted between the guide pipe mounting discs, the top ends of the spring guide pipes are communicated with a discharging opening of the intermittent discharging control device, and the bottom ends of the spring guide pipes correspond to the spring assembling die.

Due to the adoption of the technical scheme, the spring feeding mechanism of the automatic transmission reset spring assembly production line is used for automatically feeding the spiral springs in the material storage mechanism to the spring assembly die to form a spring annular group and comprises a spring feeding frame body, wherein an intermittent blanking control device communicated with the material storage mechanism and used for intermittently leading out the spiral springs in the material storage mechanism in sequence is installed on the spring feeding frame body, a disc type rotary temporary storage device for sequentially collecting the intermittently led out spiral springs is correspondingly arranged at a blanking port of the intermittent blanking control device, and a guide pipe guide discharging device for simultaneously guiding the collected spiral springs to the spring assembly die is correspondingly arranged at a blanking port of the disc type rotary temporary storage device; the utility model has the advantages that: the utility model discloses in adopt intermittent type unloading controlling means with the rotatory temporary storage device cooperation of disk is at first with coil spring intermittent type unloading and annular accumulation, range, then pass through once derive to on the spring assembling die of pipe guide discharging device, form the annular group of spring, at this in-process, not only spring assembling die need not rotate, has simplified spring assembling die's control mode, has reduced coil spring's overall unloading time simultaneously, and production efficiency obtains obviously improving, and the degree of automation of equipment is high, has effectively reduced artifical intensity of labour, and manufacturing cost reduces.

Drawings

The drawings are only intended to illustrate and explain the present invention and do not limit the scope of the invention. Wherein:

fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural view of another angle of the embodiment of the present invention;

fig. 3 is a usage state diagram of the embodiment of the present invention;

FIG. 4 is a schematic structural view of a return spring assembly;

FIG. 5 is a disassembled view of the return spring assembly;

FIG. 6 is a flow chart of the assembly of the return spring assembly;

in the figure: 1-spring feeding frame body; 2-a blanking control cylinder; 3-a blanking control seat; 4-a blanking pipe mounting seat; 5-spring blanking pipe; 6-intermittent blanking control panel; 7-intermittent blanking control holes; 8-blanking the horizontal sliding rail intermittently; 9-intermittent blanking return spring; 10-a blanking tube detector; 11-rotating the temporary storage disk; 12-a temporary storage disk drive; 13-temporary spring storage holes; 14-temporary storage guide tube; 15-a guide tube probe; 16-a temporary storage disk horizontal sliding rail; 17-temporarily storing a plugging flat plate; 18-the plugging plate drives the cylinder; 19-a catheter mounting plate; 20-mounting a disc link; 21-a spring guide tube; 22-spring assembly mould; 23-spring assembly posts; 24-annular set of springs; 25-annular rivet tabs; 26-annular patch.

Detailed Description

The invention is further explained below with reference to the drawings and examples. In the following detailed description, certain exemplary embodiments of the present invention have been described by way of illustration only. Needless to say, a person skilled in the art will recognize that the described embodiments can be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and not intended to limit the scope of the claims.

As shown in fig. 1 to fig. 3, the spring feeding mechanism of the automatic transmission return spring assembly production line is used for automatically supplying the coil springs in the storage mechanism to the spring assembling die 22 to form a spring ring group 24, and includes a spring feeding frame body 1, an intermittent blanking control device communicated with the storage mechanism and used for intermittently guiding the coil springs in the storage mechanism in sequence is installed on the spring feeding frame body 1, a disc-type rotary temporary storage device for sequentially collecting the intermittently guided coil springs is correspondingly arranged at a blanking port of the intermittent blanking control device, and a guide pipe guiding and discharging device for simultaneously guiding the collected coil springs to the spring assembling die is correspondingly arranged at a blanking port of the disc-type rotary temporary storage device. When the intermittent feeding device works, the spiral springs in the storage mechanism can enter the intermittent feeding control device, the intermittent feeding control device can lead the spiral springs to the disc type rotary temporary storage device in sequence in an intermittent mode, the spiral springs can fall onto the disc type rotary temporary storage device after the intermittent feeding control device discharges the spiral springs once, then the disc type rotary temporary storage device rotates horizontally to collect the next spiral spring discharged by the intermittent feeding control device, the intermittent feeding control device stops feeding until the disc type rotary temporary storage device is fully collected, the disc type rotary temporary storage device is opened at the moment, and all the spiral springs collected at the moment all fall onto the spring assembling die 22 through the guide pipe to guide the discharging device, so that the annular spring group 24 is formed.

If the coil springs are directly guided to the spring assembly mold 22 each time, not only the spring assembly mold 22 needs to rotate by itself, but also the blanking path of each coil spring is long, only the next coil spring can start blanking after the blanking of one coil spring is completed, so that the blanking speed of the equipment is slow, and the efficiency is low, however, the intermittent blanking control device and the disc type rotary temporary storage device are adopted in the utility model to cooperate to firstly intermittently blank and annularly accumulate and arrange the coil springs, and then the coil springs are guided out to the spring assembly mold 22 once through the guide pipe to form the spring annular group 24, in the process, not only the spring assembly mold 22 does not need to rotate, the control mode of the spring assembly mold 22 is simplified, meanwhile, the total blanking time of the coil springs is reduced, and the production efficiency is obviously improved, and the automation degree of the equipment is high, the labor intensity of workers is effectively reduced, and the production cost is reduced.

The utility model discloses still include control system, each part electricity is connected to control system, be provided with the PLC controller in the control system for the orderly automatic operation of whole mechanism.

Referring to fig. 1 and 2, the intermittent discharging control device comprises a discharging control cylinder 2 fixedly mounted on the spring feeding frame body 1, a blanking control seat 3 is fixed at the cylinder rod end of the blanking control cylinder 2, a blanking pipe mounting seat 4 is also fixed on the spring feeding frame body 1, a blanking pipe mounting hole correspondingly communicated with the disc type rotary temporary storage device is arranged in the blanking pipe mounting seat 4, the upper end of the blanking pipe mounting hole is provided with a spring blanking pipe 5 communicated with the material storage mechanism, the lower end of the blanking pipe mounting hole is provided with an intermittent blanking control plate 6 which horizontally slides and is used for cutting off a passage between the spring blanking pipe 5 and the disc type rotary temporary storage device, the intermittent blanking control plate 6 is fixed on the blanking control seat 3, and an intermittent blanking control hole 7 for communicating a passage between the spring blanking pipe 5 and the disc type rotary temporary storage device is formed in the surface of the intermittent blanking control plate 6. When the cylinder rod of the blanking control cylinder 2 extends, the blanking control seat 3 and the intermittent blanking control plate 6 are driven to slide towards the blanking pipe mounting seat 4, so that the intermittent blanking control hole 7 is correspondingly communicated with the spring blanking pipe 5, and at the moment, a spiral spring in the spring blanking pipe 5 can sequentially enter the disc type rotary temporary storage device through the spring blanking pipe 5 and the intermittent blanking control hole 7; when the cylinder rod of the blanking control cylinder 2 is shortened, the blanking control seat 3 and the intermittent blanking control plate 6 are driven to slide in the direction away from the blanking pipe mounting seat 4, so that the intermittent blanking control hole 7 does not correspond to the spring blanking pipe 5 any more, at the moment, the intermittent blanking control plate 6 cuts off a passage between the spring blanking pipe 5 and the disc type rotary temporary storage device, and at the moment, a spiral spring in the spring blanking pipe 5 cannot enter the disc type rotary temporary storage device. The intermittent blanking process of the spiral spring is controlled by the blanking control cylinder 2, and the device is simple in structure and convenient and fast to control. The inner diameters of the spring blanking pipe 5 and the intermittent blanking control hole 7 correspond to the outer diameter of the spiral spring, so that the spiral spring is orderly arranged and is blanked intermittently in sequence.

The blanking control seat 3 is fixedly provided with an intermittent blanking horizontal slide rail 8, the other end of the intermittent blanking horizontal slide rail 8 is slidably arranged on the blanking pipe installation seat 4 and is positioned between the blanking control seat 3 and the blanking pipe installation seat 4, and an intermittent blanking reset spring 9 is sleeved outside the intermittent blanking horizontal slide rail 8. When the cylinder rod of the blanking control cylinder 2 extends, the elasticity of the intermittent blanking reset spring 9 is overcome, the intermittent blanking control plate 6 is pushed to slide towards the blanking pipe mounting seat 4, so that the intermittent blanking control hole 7 corresponds to the spring blanking pipe 5, and after the spiral spring is discharged, the power source of the blanking control cylinder 2 disappears, the cylinder rod of the blanking control cylinder 2 retracts, the elasticity of the intermittent blanking reset spring 9 recovers, the blanking control seat 3 and the cylinder rod of the blanking control cylinder 2 can be pushed to retract rapidly, and the purpose of rapidly plugging the spring blanking pipe 5 is achieved.

In the present embodiment, two spring discharging pipes 5 are provided for discharging two coil springs at the same time, and of course, the more the number of spring discharging pipes 5 is, the higher the spring discharging efficiency is.

And a blanking pipe detector 10 is correspondingly arranged outside the spring blanking pipe 5. The blanking pipe detector 10 is used for detecting whether a sufficient amount of spiral springs exist in the spring blanking pipe 5, when the blanking pipe detector 10 detects that the number of the spiral springs in the spring blanking pipe 5 is not enough, signals can be transmitted to the control system, the control system can transmit the signals to the material storage mechanism, and the material storage mechanism can discharge the springs to enter the spring blanking pipe 5 to ensure that the spring blanking pipe 5 always has the sufficient amount of springs.

The disc type rotary temporary storage device comprises a rotary temporary storage disc 11 and a temporary storage disc driving device 12, wherein the rotary temporary storage disc 11 and the rotary temporary storage disc driving device are horizontally and rotatably installed on a spring feeding support body 1, a plurality of spring temporary storage holes 13 are formed in the rotary temporary storage disc 11 and are annularly arranged and used for temporarily storing spiral springs, the spring feeding support body 1 is further provided with a temporary storage guide pipe 14, the spiral springs of a blanking opening of the intermittent blanking control device are guided to the temporary storage guide pipe 14 in the spring temporary storage holes 13, and the bottom end of the rotary temporary storage disc 11 is provided with a temporary storage disc control device which can reciprocate to horizontally slide and is used for intermittently plugging the spring temporary storage holes 13. Before the coil springs are fed intermittently and sequentially, the temporary storage control device plugs the bottoms of all the spring temporary storage holes 13, at the moment, a coil spring is discharged from a feed opening of the intermittent discharge control device and falls into the spring temporary storage holes 13 through the falling of the temporary storage guide tube 14, then the temporary storage disk driving device 12 works to drive the rotary temporary storage disk 11 to rotate, so that the next non-vacant spring temporary storage hole 13 rotates to the position below the temporary storage guide tube 14, at the moment, the next coil spring is discharged from the feed opening of the intermittent discharge control device and falls into the corresponding spring temporary storage hole 13 through the temporary storage guide tube 14, and along with the continuous sequential and intermittent rotation of the rotary temporary storage disk 11, all the coil springs are filled in the spring temporary storage holes 13, at the moment, the temporary storage control device acts to open the bottoms of all the spring temporary storage holes 13, all the coil springs are led out at once.

The temporary storage disk driving device 12 includes a temporary storage disk rotating motor, a power end of the temporary storage disk rotating motor is in transmission connection with a fixed shaft at the center of the rotating temporary storage disk 11 through a belt pulley and a belt, and when the temporary storage disk rotating motor rotates, the rotating temporary storage disk 11 is driven to rotate horizontally.

The quantity of the temporary storage guide pipes 14 corresponds to the quantity of the spring discharging pipes 5, the top ends of the temporary storage guide pipes 14 are fixed on the spring feeding frame body 1, and the bottom ends of the temporary storage guide pipes 14 are indirectly fixed on the spring feeding frame body 1 through the support.

A guide tube detector 15 is installed outside the temporary storage guide tube 14, and the guide tube detector 15 is used for detecting whether a spiral spring is normally discharged or not in the temporary storage guide tube 14.

The temporary storage disk control device comprises a temporary storage disk horizontal sliding rail 16 fixedly mounted on the spring feeding support body 1, a temporary storage disk horizontal sliding rail 16 is slidably mounted with a temporary storage blocking flat plate 17 arranged at the bottom end of the spring temporary storage hole 13, and a temporary storage blocking flat plate 17 and the spring feeding support body 1 are connected with each other to drive the temporary storage blocking flat plate 17 to follow the temporary storage disk horizontal sliding rail 16 to slide to block a blocking plate driving cylinder 18. The cylinder body of the plugging plate driving cylinder 18 is fixed on the spring feeding frame body 1, the cylinder rod of the plugging plate driving cylinder 18 is fixedly connected to the temporary storage plugging flat plate 17, when the cylinder rod of the plugging plate driving cylinder 18 extends, the temporary storage plugging flat plate 17 is driven to slide outwards along the temporary storage disc horizontal slide rail 16, namely to move towards the direction far away from the temporary spring storage holes 13, at the moment, the bottom ends of all the temporary spring storage holes 13 are all opened, and the spiral springs in the temporary spring storage holes 13 can fall into the guide pipe discharging device; when the cylinder rod of the blocking plate driving cylinder 18 is in a shortened state, the temporary storage blocking flat plate 17 is just positioned below the temporary spring storage holes 13 to block the bottom ends of all the temporary spring storage holes 13, so that the spiral springs in the temporary spring storage holes 13 cannot enter the guide pipe discharging device.

Pipe guide discharging device includes two relative pipe mounting discs 19 that set up, two pipe mounting discs 19 pass through mounting disc connecting rod 20 fixed mounting, one of them pipe mounting disc 19 is fixed on spring feed support body 1, another pipe mounting disc 19 is located directly over spring equipment mould 22, two fixed mounting has many spring guide tubes 21 between the pipe mounting disc 19, spring guide tube 21's top with intermittent type unloading controlling means's feed opening intercommunication, spring guide tube 21's bottom with spring equipment mould 22 corresponds. The number of the spring guide tubes 21 is the same as the number of the temporary spring storage holes 13, and when the coil springs in the temporary spring storage holes 13 enter the spring guide tubes 21, the coil springs fall down along the spring guide tubes 21 to the spring assembly mold 22 and are sleeved outside the spring assembly columns 23.

The number of the spring guide tubes 21 corresponds to the number of the spring assembling columns 23 in the spring assembling die 22, and may be completely the same or multiple, for example, if there are 30 spring assembling columns 23 in the spring assembling die 22, the number of the spring guide tubes 21 and the spring temporary storage holes 13 may be 30 or 15, and when there are 30 spring assembling columns, the 30 spring temporary storage holes 13 in one spring feeding mechanism collect 30 spiral springs and then discharge the collected springs at the next time, so as to form a spring ring group 24; when the number of the springs is 15, two spring feeding mechanisms are needed, 15 spiral springs are collected in 15 spring temporary storage holes 13 in one spring feeding mechanism and then are discharged to the spring assembling die 22 at one time, the 15 spiral springs are sleeved on the spring assembling column 23 at intervals, the spring assembling die 22 rotates to the next station, 15 spiral springs are collected again in 15 spring temporary storage holes 13 in the next spring feeding mechanism and then are discharged to the spring assembling die 22 again, and the 15 spiral springs are arranged on the spring assembling column 23 at intervals to finally form a spring annular group 24; the multiple relation can be used for processing the spiral springs with different adjacent spiral directions, namely 15 spiral springs discharged for the first time are all in left-hand rotation, and 15 spiral springs discharged for the second time are all in right-hand rotation.

The basic principles, main features and advantages of the present invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. Automatic derailleur reset spring subassembly production line spring feeding mechanism for form the annular group of spring on with the automatic supply of the coil spring in the storage mechanism to spring assembly die, including spring feed support body, its characterized in that: the intermittent discharging control device is characterized in that the spring feeding frame body is provided with an intermittent discharging control device which is communicated with the storage mechanism and used for leading out the spiral springs in the storage mechanism in sequence intermittently, the discharging opening of the intermittent discharging control device is correspondingly provided with a disc type rotating temporary storage device which collects the spiral springs intermittently in sequence, and the discharging opening of the disc type rotating temporary storage device is correspondingly provided with a guide pipe guiding and discharging device which is used for guiding a plurality of collected spiral springs to the spring assembling die at the same time.

2. The automatic transmission return spring assembly line spring feed mechanism of claim 1, wherein: the intermittent blanking control device comprises a blanking control cylinder fixedly arranged on the spring feeding frame body, a blanking control seat is fixed at the cylinder rod end of the blanking control cylinder, a blanking pipe mounting seat is also fixed on the spring feeding frame body, a blanking pipe mounting hole correspondingly communicated with the disc type rotary temporary storage device is arranged in the blanking pipe mounting seat, the upper end of the blanking pipe mounting hole is provided with a spring blanking pipe communicated with the material storage mechanism, the lower end of the blanking pipe mounting hole is provided with an intermittent blanking control plate which horizontally slides and is used for cutting off a passage between the spring blanking pipe and the disc type rotary temporary storage device, the intermittent blanking control plate is fixed on the blanking control seat, and an intermittent blanking control hole for communicating a passage between the spring blanking pipe and the disc type rotary temporary storage device is formed in the surface of the intermittent blanking control plate.

3. The automatic transmission return spring assembly line spring feed mechanism of claim 2, wherein: the blanking control seat is fixedly provided with an intermittent blanking horizontal sliding rail, the other end of the intermittent blanking horizontal sliding rail is slidably arranged on the blanking pipe mounting seat, and an intermittent blanking reset spring is sleeved outside the intermittent blanking horizontal sliding rail between the blanking control seat and the blanking pipe mounting seat.

4. The automatic transmission return spring assembly line spring feed mechanism of claim 2, wherein: and a blanking pipe detector is correspondingly arranged outside the spring blanking pipe.

5. The automatic transmission return spring assembly line spring feed mechanism of claim 1, wherein: the rotary temporary storage device of disk type includes that the horizontal rotation is installed rotatory temporary storage disk and drive on the spring feed support body rotatory temporary storage disk drive arrangement of rotatory temporary storage disk horizontal rotation, be provided with a plurality of spring temporary storage holes that are the annular and arrange and be used for keeping in coil spring on the rotatory temporary storage disk, still be provided with on the spring feed support body be used for with the coil spring guide of intermittent type unloading controlling means feed opening extremely downthehole temporary storage guiding tube of spring temporary storage, the bottom of rotatory temporary storage disk is provided with reciprocal horizontal slip and is used for the intermittent type shutoff temporary storage disk controlling means of spring temporary storage hole bottom.

6. The automatic transmission return spring assembly line spring feed mechanism of claim 5, wherein: and a guide pipe detector is arranged outside the temporary storage guide pipe.

7. The automatic transmission return spring assembly line spring feed mechanism of claim 5, wherein: the temporary storage disk control device comprises a temporary storage disk horizontal sliding rail fixedly mounted on the spring feeding frame body, a temporary storage disk horizontal sliding rail is slidably mounted with a temporary storage blocking plate used for blocking the bottom end of the spring temporary storage hole, a temporary storage blocking plate is connected with the spring feeding frame body and driven to temporarily store the blocking plate, and the temporary storage disk horizontal sliding rail slides on the blocking plate.

8. The automatic transmission return spring assembly line spring feed mechanism according to any one of claims 1 to 7, characterized in that: the pipe guide discharging device comprises two opposite pipe mounting discs, the two pipe mounting discs are fixedly mounted through mounting disc connecting rods, one pipe mounting disc is fixed on the spring feeding frame body, the other pipe mounting disc is located right above the spring assembling die, two spring guide pipes are fixedly mounted between the pipe mounting discs, the top ends of the spring guide pipes are communicated with a discharging opening of the intermittent discharging control device, and the bottom ends of the spring guide pipes correspond to the spring assembling die.

Images