CN214239066U - Automatic material adding structure for tire production and processing - Google Patents

Abstract

The utility model discloses an automatic material structure that adds for tire production and processing relates to the relevant equipment technical field of tire production and processing. The utility model discloses a lifting box, lifting box's inside is provided with the lead screw that advances progressively, the lifting box downside is fixed with the install bin, the inside of install bin is fixed with the promotion motor, the cover is equipped with ball nut on the inside progressive lead screw table lateral wall of lifting box, the cover is equipped with the support ring on the ball nut table lateral wall, the right-hand position department that corresponds the support ring of lifting box outside is provided with adds the workbin, U template upside is fixed with revolving cylinder, the middle part position of adding the workbin inboard is provided with the baffle, the position department that adds the outside front side of workbin and corresponds the dwang is fixed with the rotation motor. The utility model discloses a work of progressive screw rod and revolving cylinder to adding the altitude mixture control of workbin, the staff of being convenient for adds the raw materials, drives the space separation that the baffle will add the workbin through rotating the motor simultaneously and becomes two parts, consequently guarantees adding the material in-process, prevents losing of material.

Description

Automatic material adding structure for tire production and processing

Technical Field

The utility model belongs to the technical field of the relevant equipment of tire production and processing, especially, relate to an automatic material structure that adds for tire production and processing.

Background

The tire is a circular ring elastic rubber product which is assembled on various vehicles or machines and rolls in a grounding way, the tire is often used under complicated and harsh conditions, and bears various deformation, load, force and high and low temperature effects during running, so that the tire has high bearing performance, traction performance and buffering performance, and simultaneously has high wear resistance, high yield resistance and low rolling resistance and heat generation, when the tire is produced and processed, when raw materials are added into tire production equipment, a material adding structure is required to be practical, and at present, the existing automatic material adding structure for tire production and processing has the following problems:

1. when the feeding structure is used, the height or the rotating angle cannot be adjusted, so that when the tire production equipment is too high, workers cannot perform feeding work, and the production efficiency of the tire is reduced;

2. when the material adding structure is used for adding raw materials in the tire production process, the raw materials in the material adding structure are easy to scatter and lose when the material adding structure moves, and the raw materials are wasted.

Therefore, the existing automatic material adding structure for tire production and processing cannot meet the requirement in practical use, so that an improved technology is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic material structure that adds for tire production and processing, through the work of progressive screw rod and revolving cylinder, and then drive and add the workbin and remove to can highly adjust the work of adding the workbin, and the staff of being convenient for adds the raw materials, drive the space separation that the baffle will add the workbin through rotating the motor simultaneously and become two parts, consequently guarantee adding the material in-process, prevent losing of material.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to an automatic material adding structure for tire production and processing, which comprises a lifting box, wherein a progressive screw rod is arranged in the lifting box, an installation box is fixed on the lower side of the lifting box, a lifting motor is fixed in the installation box, the lower side of the progressive screw rod passes through the installation box and is fixedly connected with the rotating shaft end of the lifting motor, a ball nut is sleeved on the progressive screw rod surface side wall in the lifting box, a support ring is sleeved on the surface side wall of the ball nut, a material adding box is arranged at the position corresponding to the support ring at the right side outside the lifting box, a connecting sleeve is fixed on the left side wall outside the material adding box, a U-shaped plate is arranged at the left side of the connecting sleeve, a rotary cylinder is fixed on the upper side of the U-shaped plate, the piston end of the rotary cylinder passes through the U-shaped plate, and when the connecting sleeve is placed in the U-shaped plate, therefore the connecting sleeve is when rotatory, and the rotation angle that reaches is drunk and falls to 180, and with connecting sleeve's inboard fixed connection, add the inboard middle part position of workbin and be provided with the baffle, the upper portion position of side all is fixed with the dwang around the baffle, the dwang rotates with the preceding lateral wall that adds the workbin to be connected, it corresponds to add the outside front side of workbin the position department of dwang is fixed with the rotation motor, and when rotating motor during operation, it drives dwang rotary work to rotate the motor, rotates the motor simultaneously and drives dwang pivoted maximum angle and be 90, and the dwang rotates and be anticlockwise rotation, therefore the baffle is anticlockwise rotation, and rotates the dwang end of motor and the dwang fixed connection who corresponds, the adding workbin upper end of baffle left side is fixed with charge-in pipeline, the mouth that drops has been seted up to the lateral wall under the adding workbin of baffle right side.

Furthermore, a rotating ring is fixed in the middle of the side wall of the ball nut meter, an annular groove is formed in the position, corresponding to the rotating ring, of the inner side wall of the support ring, the rotating ring limits the support ring, and therefore the position stability of the support ring is guaranteed, and the rotating ring is arranged in the annular groove.

Furthermore, a connecting plate is fixed on the right side wall of the supporting ring, reinforcing plates are fixed on the front portion and the rear portion of the right side of the connecting plate, the U-shaped plate is guaranteed to be stable and unchanged through the reinforcing plates and the connecting plate, and the right end of each reinforcing plate is fixed on the left side wall of the U-shaped plate.

Further, the right side of lifting box is fixed with the boxboard, the lateral wall of boxboard corresponds the position department of reinforcing plate has all seted up the promotion mouth, carries on spacingly through promoting the mouth to the reinforcing plate, guarantees the unanimity of reinforcing plate moving direction, the reinforcing plate sets up in the promotion mouth that corresponds.

Further, a placing plate is fixed on the surface side wall of the installation box on the lower side of the lifting box, a top plate is fixed on the upper side of the lifting box, the position stability of the stabilizer bar is guaranteed through the top plate and the placing plate, and the stabilizer bar is fixed on the front portion and the rear portion between the top plate and the placing plate on the right side of the lifting box.

Further, the middle part position of adding the workbin front and back side all is fixed with the mounting panel, the middle part position of mounting panel left side wall all is fixed with the backup pad, correspond on the lateral wall of backup pad the movable hole has all been seted up to the position department of stabilizer bar, and it is spacing that the stabilizer bar plays certain support to the backup pad, the backup pad all is on the stabilizer bar that corresponds through the movable hole cover.

The utility model discloses following beneficial effect has:

1. the utility model discloses a set up progressive screw and revolving cylinder, it rotates to drive progressive screw through promoting the motor, and then drive ball nut rebound, consequently, ball nut drives the support ring and removes, consequently, the support ring drives adding workbin longitudinal movement, consequently, will add the workbin and remove the high back of external equipment, work through revolving cylinder this moment, consequently, revolving cylinder drives adding workbin transverse rotation, consequently, can be according to the height of production facility, and then adjust the height that adds the workbin, and then the staff of being convenient for adds the raw materials, staff's work efficiency is improved.

2. The utility model discloses a set up rotation motor and baffle, in order to prevent when adding the raw materials, the condition that the raw materials were lost appears, it is rotatory consequently to drive the baffle through rotating the motor, with the baffle rotation to with add the bottom of the case lateral wall mutually perpendicular, and then the baffle will add the inside of workbin and fall into two parts, consequently after putting into the raw materials and adding the workbin, the baffle blocks the raw materials, and then when adding the position of workbin and adjusting, add the raw materials in the workbin and blocked by the baffle to avoid the raw materials condition of losing to appear.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of the internal structure of the present invention;

FIG. 2 is an external structural view of the present invention;

FIG. 3 is a view of the external connection of the lift box and the mounting box of FIG. 1 in accordance with the present invention;

FIG. 4 is a diagram illustrating a connection structure between the rotary cylinder and the material feeding box in FIG. 1 according to the present invention;

FIG. 5 is a view showing an internal structure of the material adding box of FIG. 1 according to the present invention;

fig. 6 is a connection structure view of the rotary cylinder of fig. 4 according to the present invention;

fig. 7 is a view showing a structure of connection between the elevating motor and the advancing screw of fig. 1 according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. lifting the box; 101. a top plate; 102. a boxboard; 103. a lifting port; 104. a stabilizer bar; 2. a rotating cylinder; 201. a U-shaped plate; 202. a support ring; 203. a ring groove; 204. a reinforcing plate; 205. a connecting plate; 3. a feeding box; 301. rotating the motor; 302. a support plate; 303. a feed conduit; 304. mounting a plate; 305. a movable hole; 306. a connecting sleeve; 307. a baffle plate; 308. rotating the rod; 309. a drop port; 4. a hoisting motor; 5. installing a box; 501. placing the plate; 6. a progressive screw rod; 601. a ball nut; 602. and (6) rotating the ring.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Please refer to fig. 1-7, the utility model relates to an automatic feeding structure for tire production and processing, comprising a lifting box 1, a progressive screw 6 is arranged inside the lifting box 1, a mounting box 5 is fixed on the lower side of the lifting box 1, a lifting motor 4 is fixed inside the mounting box 5, the lower side of the progressive screw 6 passes through the mounting box 5 and is fixedly connected with the rotating shaft end of the lifting motor 4, a ball nut 601 is sleeved on the surface side wall of the progressive screw 6 inside the lifting box 1, a support ring 202 is sleeved on the surface side wall of the ball nut 601, a feeding box 3 is arranged on the right side of the outer part of the lifting box 1 corresponding to the support ring 202, a connecting sleeve 306 is fixed on the left side wall of the outer part of the feeding box 3, a U-shaped plate 201 is arranged on the left side of the connecting sleeve 306, a baffle 307 is arranged at the middle position of the inner side of the feeding box 3, a feeding pipeline 303 is fixed on the upper end of the feeding box 3 on the left side of the baffle 307, when the material needs to be added in the tire production and processing, the material is put into the feeding pipeline 303, then the material is blocked by the baffle 307, at the moment, the lifting motor 4 is controlled to work, then the lifting motor 4 drives the progressive screw 6 to rotate, then the progressive screw 6 drives the ball nut 601 to move upwards, meanwhile, the ball nut 601 drives the support ring 202 to move upwards, then the support ring 202 drives the material adding box 3 to move upwards, and after the material adding box 3 moves to the position of external equipment, the lifting motor 4 stops working;

the upper side of the U-shaped plate 201 is fixed with a rotary cylinder 2, and the piston end of the rotary cylinder 2 passes through the U-shaped plate 201 and is fixedly connected with the inner side of a connecting sleeve 306, the lower side wall of an adding box 3 at the right side of a baffle 307 is provided with a dropping port 309, the rotary cylinder 2 is controlled to work, and then the rotary cylinder 2 works, so the rotary cylinder 2 drives the connecting sleeve 306 to rotate, and then the connecting sleeve 306 drives the adding box 3 to rotate, when the dropping port 309 on the adding box 3 rotates to the port of an external device, the rotary cylinder 2 stops working, the upper positions of the front side and the rear side of the baffle 307 are both fixed with rotary rods 308, the rotary rods 308 are rotatably connected with the front side wall of the adding box 3, the position of the front side outside the adding box 3 corresponding to the rotary rod 308 is fixed with a rotary motor 301, and the rotary rod ends of the rotary motor 301 are fixedly connected with the rotary rods 308 corresponding to work by controlling the rotary motor 301, therefore, the rotating motor 301 drives the baffle 307 to rotate, and the baffle 307 is controlled to rotate counterclockwise, so that the baffle 307 is attached to the upper side wall of the feeding box 3, at the moment, the raw material on the left side of the baffle 307 slides to the position of the dropping port 309 in the feeding box 3, and at the moment, the raw material drops into the external equipment in the dropping port 309 to perform tire processing work.

As shown in fig. 3, 4, 6, and 7, a rotating ring 602 is fixed in the middle of the surface sidewall of the ball nut 601, a circular groove 203 is formed in the position of the inner sidewall of the support ring 202 corresponding to the rotating ring 602, the rotating ring 602 is disposed in the circular groove 203, when the ball nut 601 rotates and moves, the ball nut 601 drives the rotating ring 602 to move in the circular groove 203 on the support ring 202, a connection plate 205 is fixed on the right sidewall of the support ring 202, reinforcing plates 204 are fixed on the front and rear portions of the right side of the connection plate 205, the right end of the reinforcing plate 204 is fixed on the left sidewall of the U-shaped plate 201, a box plate 102 is fixed on the right side of the lifting box 1, lifting ports 103 are formed in the positions of the sidewalls of the box plate 102 corresponding to the reinforcing plates 204, and when the support plate 302 moves upward, the support plate 302 drives the reinforcing plate 204 to move upward, so that the reinforcing plate 204 drives the lifting ports 103 to move upward, and the lifting ports 103 limit the reinforcing plate 204, the reinforcing plate 204 is disposed in the corresponding lift opening 103.

As shown in fig. 1, 3, and 4, a placing plate 501 is fixed on a surface side wall of a mounting box 5 on the lower side of a lifting box 1, a top plate 101 is fixed on the upper side of the lifting box 1, stabilizer bars 104 are fixed on front and rear portions between the top plate 101 on the right side of the lifting box 1 and the placing plate 501, mounting plates 304 are fixed on middle portions of front and rear sides of a material adding box 3, a support plate 302 is fixed on a middle portion of a left side wall of the mounting plate 304, movable holes 305 are formed in positions corresponding to the stabilizer bars 104 on a side wall of the support plate 302, and when the material adding box 3 moves upward, the material adding box 3 drives the support plate 302 to move upward, so that the movable holes 305 on the support plate 302 slide on the stabilizer bars 104, and the support plate 302 is sleeved on the corresponding stabilizer bars 104 through the movable holes 305.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, any technical solutions recorded in the foregoing embodiments are modified, and some technical features thereof are replaced with equivalent ones, and any modification, equivalent replacement, and improvement made thereby all belong to the protection scope of the present invention.

Claims (6)

1. An automatic material adding structure for tire production and processing comprises a lifting box (1), and is characterized in that: the inside of lifting box (1) is provided with progressive lead screw (6), the downside of lifting box (1) is fixed with install bin (5), the inside of install bin (5) is fixed with lift motor (4), install bin (5) is passed to the downside of progressive lead screw (6), and with lift motor (4) pivot end fixed connection, the cover is equipped with ball nut (601) on lifting box (1) inside progressive lead screw (6) table lateral wall, the cover is equipped with support ring (202) on the table lateral wall of ball nut (601), the right-hand correspondence of lifting box (1) outside the position department of support ring (202) is provided with adds workbin (3), be fixed with connecting sleeve (306) on adding workbin (3) outside left side wall, the left side of connecting sleeve (306) is provided with U template (201), the upside of U template (201) is fixed with revolving cylinder (2), and the piston end of revolving cylinder (2) passes U template (201), and with the inboard fixed connection of connecting sleeve (306), it is provided with baffle (307) to add the inboard middle part position of workbin (3), the upper portion position of side all is fixed with dwang (308) around baffle (307), dwang (308) and the preceding lateral wall rotation that adds workbin (3) are connected, it corresponds to add the outside front side of workbin (3) the position department of dwang (308) is fixed with rotation motor (301), and the pivot end of rotating motor (301) and dwang (308) fixed connection who corresponds, baffle (307) left side add workbin (3) upper end and be fixed with charge-in pipeline (303), baffle (307) right side adds workbin (3) lower lateral wall and has seted up mouth (309) that drops.

2. The automatic feeding structure for the tire production and processing as claimed in claim 1, wherein a rotating ring (602) is fixed in the middle of the surface side wall of the ball nut (601), a ring groove (203) is formed in the position, corresponding to the rotating ring (602), of the inner side wall of the supporting ring (202), and the rotating ring (602) is arranged in the ring groove (203).

3. The automatic material adding structure for the tire production and processing as claimed in claim 1, wherein a connecting plate (205) is fixed on the right side wall of the support ring (202), a reinforcing plate (204) is fixed on the front and rear parts of the right side of the connecting plate (205), and the right end of the reinforcing plate (204) is fixed on the left side wall of the U-shaped plate (201).

4. The automatic material adding structure for the tire production and processing is characterized in that a box plate (102) is fixed to the right side of the lifting box (1), lifting ports (103) are formed in positions, corresponding to the reinforcing plates (204), of the side walls of the box plate (102), and the reinforcing plates (204) are arranged in the corresponding lifting ports (103).

5. The automatic material adding structure for the tire production and processing is characterized in that a placing plate (501) is fixed on the surface side wall of a mounting box (5) at the lower side of the lifting box (1), a top plate (101) is fixed at the upper side of the lifting box (1), and stabilizer bars (104) are fixed at the front and rear parts between the top plate (101) at the right side of the lifting box (1) and the placing plate (501).

6. The automatic material feeding structure for the tire production and processing as claimed in claim 5, wherein the material feeding box (3) is fixed with a mounting plate (304) at the middle position of the front side and the rear side, the mounting plate (304) is fixed with a support plate (302) at the middle position of the left side wall, the side wall of the support plate (302) is provided with a movable hole (305) at the position corresponding to the stabilizer bar (104), and the support plate (302) is sleeved on the corresponding stabilizer bar (104) through the movable hole (305).

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