CN221313198U - Automatic press-fitting structure of spring - Google Patents

Abstract

A spring automatic press-fitting structure comprises a vibration disc, an inclined trough, a rotating device, a carrying device, a turntable and a pre-pressing device; one end of the inclined trough is connected with the discharge end of the vibration disc, and the other end of the inclined trough faces the rotating device; the rotating device, the carrying device and the pre-pressing device are arranged along the periphery of the turntable, and a plurality of product jigs are arranged on the top surface of the turntable; the spring enters into rotary device from the vibration dish through oblique silo, and rotary device is used for rotatory to vertical state with the spring of slope, and handling device is used for carrying the spring of vertical state to the product tool of carousel, and the carousel is used for rotating the product tool that has put the spring to pre-compaction device, and pre-compaction device is used for carrying the spring pre-compaction into the product of product tool. According to the utility model, the spring automatic press-fitting structure is provided, so that the spring can be efficiently pressed into the door lock main body, and the assembly efficiency of the door lock structure is improved.

Description

Automatic press-fitting structure of spring

Technical Field

The utility model relates to the technical field of spring assembly, in particular to an automatic spring press-fitting structure.

Background

The spring is a mechanical part which works by utilizing elasticity, and the part made of elastic materials deforms under the action of external force and returns to the original state after the external force is removed. The spring is generally made of spring steel, and the types of springs are complex and various, and are divided into spiral springs, scroll springs, plate springs, special springs and the like according to the shape.

Springs are used in door lock structures of many household appliances, for example, door lock structures of dish washers generally comprise a door lock main body, an upper swing arm and a spring, and in the prior art, the door lock main body, the upper swing arm and the spring are assembled manually, so that the efficiency is quite low by means of manual assembly.

Disclosure of utility model

The utility model aims to provide an automatic spring press-fitting structure which can efficiently press a spring into a door lock main body and improve the assembly efficiency of the door lock structure compared with the door lock structure assembled manually in the prior art.

To achieve the purpose, the utility model adopts the following technical scheme:

A spring automatic press-fitting structure comprises a vibration disc, an inclined trough, a rotating device, a carrying device, a turntable and a pre-pressing device;

One end of the inclined trough is connected to the discharge end of the vibration disc, and the other end of the inclined trough faces the rotating device;

the rotating device, the carrying device and the pre-pressing device are arranged along the periphery of the turntable, and a plurality of product jigs are arranged on the top surface of the turntable;

The spring is followed the vibration dish is through oblique silo gets into rotary device, rotary device is used for rotatory to vertical state with the spring of slope, handling device is used for with vertical state's spring transport to the product tool of carousel, the carousel is used for rotating the product tool that puts the spring to pre-compaction device, pre-compaction device is used for carrying the spring pre-compaction into the product of product tool.

Further, the device also comprises a material separating cylinder, wherein a material separating shaft is arranged at the end part of the output end of the material separating cylinder; the material separating cylinder is arranged at the top of the inclined trough and is used for driving the material separating shaft to enter or leave the inside of the inclined trough so as to separate or discharge the springs in the inclined trough.

Further, the automatic feeding device also comprises a material distributing cylinder, wherein a material distributing shaft is arranged at the end part of an output shaft of the material distributing cylinder; the material distributing cylinder is arranged at the bottom of the inclined trough and is used for driving the material distributing shaft to enter or leave the inside of the inclined trough so as to separate or distribute springs in the inclined trough.

Further, the rotating device comprises a first base, a first rotating cylinder, a rotating shaft and a receiving shaft; the first rotary cylinder is arranged on the first base, the rotary shaft is arranged at the output end of the first rotary cylinder, the material receiving shaft is radially arranged on the rotary shaft, and the end part of the material receiving shaft faces the discharge hole of the inclined trough.

Further, the carrying device comprises a second base, a transverse moving cylinder, an upper cylinder, a lower cylinder, a secondary upper cylinder, a secondary lower cylinder, a second rotating cylinder, a clamp cylinder, a first sliding rail, a first sliding block, a second sliding rail, a second sliding block, a third sliding block, a first cylinder seat, a second cylinder seat and a support;

the first sliding rail is transversely arranged at the top of the second base, the transverse moving air cylinder is arranged at the top of the second base, the first sliding block is slidably arranged on the first sliding rail, the support is vertically arranged on the first sliding block, and the output end of the transverse moving air cylinder is connected to the side edge of the support;

The second sliding rail is vertically arranged on the support, and the second sliding block and the third sliding block are both slidably arranged on the second sliding rail;

the upper and lower cylinders are arranged at the top of the support;

The first cylinder seat is arranged on the second sliding block, and the second cylinder seat is arranged on the third sliding block;

The secondary upper and lower cylinders are arranged on the first cylinder seat, and the second rotary cylinder is arranged on the second cylinder seat;

The output ends of the upper cylinder and the lower cylinder are connected to the first cylinder seat, the output ends of the secondary upper cylinder and the secondary lower cylinder are connected to the second cylinder seat, and the clamp cylinder is arranged at the output end of the second rotary cylinder.

Further, the product jig comprises a clamping cylinder and a jig seat body;

The jig base is fixed on the top surface of the turntable, and the clamping cylinder is arranged at one end of the jig base.

Further, the motor also comprises a divider and a speed regulating motor;

The divider is arranged at the bottom of the turntable, and the output end of the speed regulating motor is connected with the divider.

Further, the pre-pressing device comprises a third base, a pushing cylinder, a pressing cylinder and an oblique angle cylinder;

The third base comprises a base body, a top mounting seat and an inclined mounting seat, wherein the top mounting seat is arranged at the top of the base body, and the inclined mounting seat is arranged at one end of the top of the base body;

The propelling cylinder is transversely arranged on the base body, the pressing cylinder is vertically arranged on the top mounting seat, and the oblique angle cylinder is obliquely arranged on the oblique mounting seat.

Further, a propelling piece is arranged at the end part of the output shaft of the propelling cylinder, a pressing piece is arranged at the end part of the output shaft of the pressing cylinder, and a diagonal pressing piece is arranged at the end part of the output shaft of the diagonal angle cylinder.

Compared with the prior art, the technical scheme of the utility model has the following beneficial effects:

When the device is used, the vibration disc is internally provided with a plurality of springs, the vibration disc vibrates the springs from the discharge end of the vibration disc to the inclined trough in a vibration mode, the springs are conveyed to the rotating device through the inclined trough, the rotating device needs to rotate the springs from the inclined springs to a vertical state, then the carrying device carries the springs in the vertical state to products to be assembled of the product jig of the turntable, the turntable rotates the product jig with the springs to a station where the pre-pressing device is located, and the pre-pressing device pre-presses the springs.

Compared with the prior art that the door lock structure is assembled manually, the spring automatic press-fitting structure can effectively press the spring into the door lock main body, and improves the assembly efficiency of the door lock structure.

Drawings

FIG. 1 is a schematic diagram of one embodiment of the present utility model;

FIG. 2 is a top view of one embodiment of the present utility model;

FIG. 3 is a cross-sectional view taken along the X-X' direction of FIG. 2;

FIG. 4 is an enlarged view of a portion at A of FIG. 3;

FIG. 5 is a partial schematic view of one embodiment of the present utility model;

FIG. 6 is a schematic view of a handling device according to one embodiment of the present utility model;

FIG. 7 is a schematic view of the structure of a turntable according to one embodiment of the utility model;

FIG. 8 is a schematic view of the structure of a turntable according to one embodiment of the utility model;

Fig. 9 is a schematic structural view of a pre-pressing device according to one embodiment of the present utility model.

Wherein: a vibration plate 1; a chute 2, a material separation cylinder 21, a material separation shaft 211, a material separation cylinder 22 and a material separation shaft 221; the rotary device 3, the first base 31, the first rotary cylinder 32, the rotary shaft 33 and the receiving shaft 34; the conveying device 4, the second base 41, the traversing cylinder 42, the up-down cylinder 43, the secondary up-down cylinder 44, the second rotating cylinder 45, the clip cylinder 46, the clip 461, the first slide rail 47, the first slide block 48, the second slide rail 49, the second slide block 410, the third slide block 411, the first cylinder block 412, the second cylinder block 413, and the support 414; turntable 5, product jig 51, clamping cylinder 511, jig base 512, divider 52, speed regulating motor 53; the pre-pressing device 6, the base body 611, the top mounting seat 612, the inclined mounting seat 613, the pushing cylinder 62, the pushing piece 621, the pushing cylinder 63, the pushing piece 631, the inclined cylinder 64 and the inclined pressing piece 641; a sensor 7; and a spring 8.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the drawings, are merely for convenience in describing the present utility model and simplify the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, features defining "first", "second" may include one or more such features, either explicitly or implicitly, for distinguishing between the descriptive features, and not sequentially, and not lightly. In the description of the present utility model, unless otherwise indicated, the meaning of "plurality" is two or more.

As shown in fig. 1-9, the spring automatic press-fitting structure comprises a vibration disc 1, a chute 2, a rotating device 3, a carrying device 4, a turntable 5 and a pre-pressing device 6;

One end of the inclined trough 2 is connected to the discharge end of the vibration disc 1, and the other end of the inclined trough 2 faces the rotating device 3;

The rotating device 3, the carrying device 4 and the pre-pressing device 6 are arranged along the periphery of the turntable 5, and a plurality of product jigs 51 are arranged on the top surface of the turntable 5;

The springs 8 enter the rotating device 3 from the vibrating plate 1 through the inclined material grooves 2, the rotating device 3 is used for rotating the inclined springs 8 to a vertical state, the carrying device 4 is used for carrying the springs 8 in the vertical state to the product jig 51 of the rotary plate 5, the rotary plate 5 is used for rotating the product jig 51 with the springs 8 to the prepressing device 6, and the prepressing device 6 is used for carrying the springs 8 into products of the product jig 51.

When in use, the vibration plate 1 is provided with a plurality of springs 8, the vibration plate 1 vibrates the springs 8 from the discharge end thereof into the inclined trough 2 in a vibrating manner, the springs 8 are conveyed to the rotating device 3 through the inclined trough 2, and the rotating device 3 needs to rotate the springs 8 from the inclined springs 8 to a vertical state because the inclined trough 2 is obliquely arranged, and then the carrying device 4 carries the springs 8 in the vertical state into a product to be assembled of the springs 8 of the product fixture 51 of the turntable 5.

The product that this embodiment indicates is current lock structure, and this kind of lock structure is assembled by lock main part, last swing arm and spring 8, goes up the swing arm and articulates in the lock main part, consequently needs place spring 8 earlier in the installation department of lock main part, go up swing arm and lock main part again, because spring 8 is placed in the installation department of lock main part, go up the in-process that swing arm and lock main part closed, need overcome spring 8's elasticity, if adopt the mode of manual closure, then the production efficiency can be very low, so when handling device 4 carries the spring 8 of vertical state to in the product of waiting to assemble spring 8 of the product tool 51 of carousel 5, carousel 5 will put the product tool 51 of spring 8 rotates to the pre-compaction device 6 place the pre-compaction device 6 can carry out spring 8 to in with spring 8 effectively pressing the lock main part, in order to improve lock structure's packaging efficiency.

Compared with the prior art that the door lock structure is assembled manually, the spring automatic press-fitting structure can effectively press the spring 8 into the door lock main body, and the assembly efficiency of the door lock structure is improved.

Further, as shown in fig. 4, the device further comprises a material separating cylinder 21, wherein a material separating shaft 211 is arranged at the end part of the output end of the material separating cylinder 21;

The material separating cylinder 21 is installed at the top of the inclined trough 2, and the material separating cylinder 21 is used for driving the material separating shaft 211 to enter or leave the inside of the inclined trough 2 so as to separate or discharge the springs 8 in the inclined trough 2.

In this embodiment, when the number of springs 8 in the chute 2 is sufficient, the spacer cylinder 21 drives the spacer shaft 211 to extend, so as to block more springs 8 from being discharged; when the number of springs 8 in the inclined groove 2 is insufficient, the material separating cylinder 21 drives the material separating shaft 211 to retract, so that more springs 8 are discharged.

Further, the device also comprises a material distributing cylinder 22, wherein a material distributing shaft 221 is arranged at the end part of an output shaft of the material distributing cylinder 22;

The material distributing cylinder 22 is installed at the bottom of the inclined chute 2, and the material distributing cylinder 22 is used for driving the material distributing shaft 221 to enter or leave the inside of the inclined chute 2 so as to separate or distribute the springs 8 in the inclined chute 2.

In this embodiment, the distributing cylinder 22 is located obliquely below the separating cylinder 21, and when the distributing cylinder 22 needs to distribute materials, the distributing cylinder 22 drives the distributing shaft 221 to retract, so that the spring 8 distributes materials to the rotating device 3; when no material is required to be distributed, the material distributing cylinder 22 drives the material distributing shaft 221 to extend, so that the springs 8 positioned in the inclined material chute 2 are separated.

Only one spring 8 will drop to the rotating device 3 at a time by the cooperation of the separating cylinder 21 and the distributing cylinder 22, so that the rotating operation of each spring 8 can be effectively performed in turn.

Of course, some existing sensors 7 are provided for detecting the position of the springs 8 to determine when to perform the operations of separating, discharging, and rotating the rotating device 3; for example, in the present embodiment, the sensor 7 is provided above the chute 2, specifically, the distributing cylinder 22, and the sensor 7 is also provided on the first base 31 of the rotating device 3. The specific structure and working principle of the sensor 7 in the prior art are not described herein, and how to set the number and positions of the sensors 7 can be determined according to actual use conditions.

Further, as shown in fig. 5, the rotating device 3 includes a first base 31, a first rotating cylinder 32, a rotating shaft 33, and a receiving shaft 34;

The first rotary cylinder 32 is mounted on the first base 31, the rotary shaft 33 is mounted on the output end of the first rotary cylinder 32, the receiving shaft 34 is radially mounted on the rotary shaft 33, and the end portion of the receiving shaft 34 faces the discharge port of the chute 2.

The rotating device 3 needs to rotate the inclined spring 8 to a vertical state, specifically, the spring 8 falls from the inclined trough 2 to the receiving shaft 34, the diameter of the receiving shaft 34 is smaller than that of the spring 8, and the spring 8 can be smoothly sleeved into the receiving shaft 34; then, the first rotary cylinder 32 rotates the rotary shaft 33, and the rotary shaft 33 drives the material receiving shaft 34 to rotate from the inclined state to the vertical state, so that the spring 8 is rotated from the inclined state to the vertical state.

Further, as shown in fig. 6, the carrying device 4 includes a second base 41, a traversing cylinder 42, an up-down cylinder 43, a secondary up-down cylinder 44, a second rotating cylinder 45, a clamping cylinder 46, a first slide rail 47, a first slide block 48, a second slide rail 49, a second slide block 410, a third slide block 411, a first cylinder block 412, a second cylinder block 413, and a support 414;

The first sliding rail 47 is transversely mounted on the top of the second base 41, the traversing cylinder 42 is mounted on the top of the second base 41, the first sliding block 48 is slidably mounted on the first sliding rail 47, the support 414 is vertically mounted on the first sliding block 48, and the output end of the traversing cylinder 42 is connected to the side edge of the support 414;

The second sliding rail 49 is vertically mounted on the support 414, and the second slider 410 and the third slider 411 are slidably mounted on the second sliding rail 49;

the upper and lower cylinders 43 are mounted on top of the support 414;

The first cylinder block 412 is mounted on the second slider 410, and the second cylinder block 413 is mounted on the third slider 411;

The secondary up-down cylinder 44 is mounted on the first cylinder block 412, and the second rotary cylinder 45 is mounted on the second cylinder block 413;

The output end of the up-down cylinder 43 is connected to the first cylinder block 412, the output end of the secondary up-down cylinder 44 is connected to the second cylinder block 413, and the clamp cylinder 46 is mounted to the output end of the second rotary cylinder 45.

When the carrying device 4 carries the spring 8 in a vertical state to the product fixture 51 of the turntable 5, specifically, the upper and lower air cylinders 43 drive the first air cylinder seat 412 to descend and drive the second upper and lower air cylinders 44 to descend, then the second upper and lower air cylinders 44 drive the second air cylinder seat 413 to descend and drive the second rotating air cylinder 45 and the clip air cylinder 46 to descend, and after the clip 461 of the clip air cylinder 46 clips the vertical spring 8 positioned in the rotating device 3; then the upper and lower air cylinders 43 and the secondary upper and lower air cylinders 44 are reset to drive the spring 8 to rise; the traversing cylinder 42 retracts to drive the support 414 to traverse to the upper part of the turntable 5, the second revolving cylinder 45 rotates by a certain angle, the upper and lower cylinder 43 drives the first cylinder seat 412 to descend again to drive the second upper and lower cylinder 44 to descend, and the clamp 461 of the clamp cylinder 46 is opened to put the spring 8 into the door lock main body of the product jig 51.

In addition, although in fig. 6, the output end of the traversing cylinder 42 does not appear to be connected to the side of the support 414, in use, the output end of the traversing cylinder 42 is connected to the side of the support 414, so that when the traversing cylinder 42 is retracted, the support 414 is driven to traverse above the turntable 5.

In this embodiment, two stages of lifting cylinders, namely the up-down cylinder 43 and the secondary up-down cylinder 44, are provided, because the rotating device 3 and the product fixture 51 are at different levels, when the spring 8 is clamped, two stages of lifting is required, and the clamping cylinder 46 can smoothly clamp the spring 8; when the spring 8 is put into the door lock main body of the product jig 51, the first-stage height is required to be lowered; the second rotary cylinder 45 is provided to match the structure of the door lock body, so that the clamped spring 8 can rotate by a certain angle, and is easier to be put into the door lock body.

Further, as shown in fig. 7, the product fixture 51 includes a clamping cylinder 511 and a fixture seat 512;

The jig base 512 is fixed to the top surface of the turntable 5, and the clamping cylinder 511 is mounted at one end of the jig base 512.

The product fixture 51 is mainly used for placing and fixing a product, the product in this embodiment is a door lock main body, the door lock main body is placed on the fixture base 512, and then the clamping jaw of the clamping cylinder 511 can clamp the door lock main body to fix the door lock main body.

Further, as shown in fig. 8, a divider 52 and a speed regulating motor 53 are further included;

The divider 52 is installed at the bottom of the turntable 5, and the output end of the speed regulating motor 53 is connected to the divider 52.

Through the cooperation of the speed regulating motor 53 and the divider 52, the turntable 5 can smoothly rotate by a certain amplitude to drive the product jig 51 to perform station conversion. The product fixture 51 of the present embodiment has a plurality of product fixtures distributed circumferentially and equally spaced on the top surface of the turntable 5. The divider 52 and the speed-adjusting motor 53 are existing, and therefore the structure and principle thereof are not described herein.

Further, as shown in fig. 9, the pre-pressing device 6 includes a third base, a pushing cylinder 62, a pressing cylinder 63, and a bevel cylinder 64;

The third base comprises a base body 611, a top mounting seat 612 and an inclined mounting seat 613, wherein the top mounting seat 612 is arranged at the top of the base body 611, and the inclined mounting seat 613 is arranged at one end of the top of the base body 611;

the pushing cylinder 62 is transversely mounted on the base body 611, the pressing cylinder 63 is vertically mounted on the top mounting seat 612, and the oblique angle cylinder 64 is obliquely mounted on the oblique mounting seat 613.

Further, a pushing member 621 is mounted to the output shaft end of the pushing cylinder 62, a pushing member 631 is mounted to the output shaft end of the pushing cylinder 63, and a diagonal pressing member 641 is mounted to the output shaft end of the diagonal cylinder 64.

When the pre-pressing device 6 pre-presses the spring 8, specifically, the lower pressing cylinder 63 drives the lower pressing piece 631 to press down to an upper swing arm of the door lock structure, so that the upper swing arm is slightly pressed down, and the bottom of the upper swing arm contacts with the top of the spring 8, so that the spring 8 is slightly compressed; the pushing cylinder 62 drives the pushing piece 621 to push to the outer wall of the spring 8, so that the spring 8 is slightly inclined, and the top surface of the spring 8 is attached to the bottom surface of the upper swing arm; finally, the bevel pressing piece 641 is driven by the bevel cylinder 64 to be pressed down on the top surface of the upper swing arm, so that the spring is further compressed, and the subsequent pre-pressing is finally realized. The shapes of the pushing member 621, the lower pressing member 631 and the bias pressing member 641 of the present embodiment are as shown in fig. 9, and the shapes of the pushing member 621, the lower pressing member 631 and the bias pressing member 641 may be determined according to the actual product shape.

While embodiments of the present utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (9)

1. The utility model provides an automatic press-fit structure of spring which characterized in that: comprises a vibration disc, an inclined trough, a rotating device, a carrying device, a turntable and a pre-pressing device;

One end of the inclined trough is connected to the discharge end of the vibration disc, and the other end of the inclined trough faces the rotating device;

the rotating device, the carrying device and the pre-pressing device are arranged along the periphery of the turntable, and a plurality of product jigs are arranged on the top surface of the turntable;

The spring is followed the vibration dish is through oblique silo gets into rotary device, rotary device is used for rotatory to vertical state with the spring of slope, handling device is used for with vertical state's spring transport to the product tool of carousel, the carousel is used for rotating the product tool that puts the spring to pre-compaction device, pre-compaction device is used for carrying the spring pre-compaction into the product of product tool.

2. The spring automatic press-fitting structure according to claim 1, wherein: the device also comprises a material separating cylinder, wherein a material separating shaft is arranged at the end part of the output end of the material separating cylinder;

The material separating cylinder is arranged at the top of the inclined trough and is used for driving the material separating shaft to enter or leave the inside of the inclined trough so as to separate or discharge the springs in the inclined trough.

3. The spring automatic press-fitting structure according to claim 2, wherein: the device also comprises a material distributing cylinder, wherein a material distributing shaft is arranged at the end part of an output shaft of the material distributing cylinder;

The material distributing cylinder is arranged at the bottom of the inclined trough and is used for driving the material distributing shaft to enter or leave the inside of the inclined trough so as to separate or distribute springs in the inclined trough.

4. The spring automatic press-fitting structure according to claim 1, wherein: the rotating device comprises a first base, a first rotating cylinder, a rotating shaft and a receiving shaft;

The first rotary cylinder is arranged on the first base, the rotary shaft is arranged at the output end of the first rotary cylinder, the material receiving shaft is radially arranged on the rotary shaft, and the end part of the material receiving shaft faces the discharge hole of the inclined trough.

5. The spring automatic press-fitting structure according to claim 1, wherein: the carrying device comprises a second base, a traversing cylinder, an up-down cylinder, a secondary up-down cylinder, a second rotary cylinder, a clamp cylinder, a first sliding rail, a first sliding block, a second sliding rail, a second sliding block, a third sliding block, a first cylinder seat, a second cylinder seat and a support;

the first sliding rail is transversely arranged at the top of the second base, the transverse moving air cylinder is arranged at the top of the second base, the first sliding block is slidably arranged on the first sliding rail, the support is vertically arranged on the first sliding block, and the output end of the transverse moving air cylinder is connected to the side edge of the support;

The second sliding rail is vertically arranged on the support, and the second sliding block and the third sliding block are both slidably arranged on the second sliding rail;

the upper and lower cylinders are arranged at the top of the support;

The first cylinder seat is arranged on the second sliding block, and the second cylinder seat is arranged on the third sliding block;

The secondary upper and lower cylinders are arranged on the first cylinder seat, and the second rotary cylinder is arranged on the second cylinder seat;

The output ends of the upper cylinder and the lower cylinder are connected to the first cylinder seat, the output ends of the secondary upper cylinder and the secondary lower cylinder are connected to the second cylinder seat, and the clamp cylinder is arranged at the output end of the second rotary cylinder.

6. The spring automatic press-fitting structure according to claim 1, wherein: the product jig comprises a clamping cylinder and a jig seat body;

The jig base is fixed on the top surface of the turntable, and the clamping cylinder is arranged at one end of the jig base.

7. The spring automatic press-fitting structure according to claim 1, wherein: the motor also comprises a divider and a speed regulating motor;

The divider is arranged at the bottom of the turntable, and the output end of the speed regulating motor is connected with the divider.

8. The spring automatic press-fitting structure according to claim 1, wherein: the pre-pressing device comprises a third base, a pushing cylinder, a pressing cylinder and an oblique angle cylinder;

The third base comprises a base body, a top mounting seat and an inclined mounting seat, wherein the top mounting seat is arranged at the top of the base body, and the inclined mounting seat is arranged at one end of the top of the base body;

The propelling cylinder is transversely arranged on the base body, the pressing cylinder is vertically arranged on the top mounting seat, and the oblique angle cylinder is obliquely arranged on the oblique mounting seat.

9. The spring automatic press-fitting structure according to claim 8, wherein: the propelling piece is installed at the end part of the output shaft of the propelling cylinder, the pressing piece is installed at the end part of the output shaft of the pressing cylinder, and the inclined pressing piece is installed at the end part of the output shaft of the inclined angle cylinder.