CN117484936A - Tire manufacturing mold capable of automatically demolding - Google Patents

Abstract

The invention provides a tire manufacturing mould capable of automatically demolding, which comprises a supporting table, wherein a moving mechanism is arranged on the supporting table in a sliding manner; the moving mechanism is clamped with an installing mechanism; a sliding mechanism is arranged on the supporting table; an extrusion mechanism is matched and slides on the supporting table; the extrusion mechanism is connected with the supporting mechanism in a matched manner; and the support mechanism is provided with a base. After the sliding mechanism and the mounting mechanism move out of the vulcanizing machine, the moving mechanism is opened, and the moving mechanism drives the mounting mechanism to slide, so that the mounting mechanism is conveniently separated from the sliding mechanism; when the sliding mechanism is separated from the mounting mechanism, the sliding mechanism is started, so that the sliding mechanism can move into the equipment; the base is provided with the supporting mechanism, the extrusion mechanism is started, the extrusion mechanism can slide into the supporting table from the supporting mechanism, and then the extrusion mechanism is enabled to abut against the tire in the mounting mechanism, so that the manufactured tire can be automatically demolded.

Description

Tire manufacturing mold capable of automatically demolding

Technical Field

The invention belongs to the technical field of tire production and manufacturing, and particularly relates to a tire manufacturing mold capable of automatically demolding.

Background

The vulcanizing machine is a machine for vulcanizing various rubber and plastic products, has the functions of timing mold locking, automatic pressure supplementing, automatic temperature control, automatic timing, time alarm and the like, has a plurality of types, is one of the types of vulcanizing machines, is a processing device for shaping and vulcanizing blank tires, and is one of the indispensable devices in the tire processing process.

However, when the tire is manufactured by the rubber tire vulcanizer, the vulcanized tire slides out of the equipment along with the sliding plate and the die set, when the die set is separated from the tire, the manufactured tire is stored in the sliding plate, and when the tire is disassembled, the bottom end of the tire is abutted by the sliding rod, so that one side of the tire is in a tilted state, and the other side of the tire is still in the sliding plate, and further, an operator is required to manually take out the tire, so that the use effect of the equipment is poor; the abutting force of the end part of the abutting rod to the tire is small, the acting force on the tire during extrusion is small, and the tire is not easy to slide out of the sliding plate.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a tire manufacturing mold capable of automatically demolding. The technical scheme adopted for solving the technical problems is as follows:

the tire manufacturing mould capable of automatically demoulding comprises a supporting table, wherein two moving mechanisms are arranged on the supporting table in a sliding manner; the two moving mechanisms are clamped with mounting mechanisms; a sliding mechanism is arranged on the supporting table; an extrusion mechanism is matched and slides on the supporting table; the extrusion mechanism is connected with the supporting mechanism in a matched manner; a base is arranged on the supporting mechanism;

the extrusion mechanism comprises hydraulic rods, two groups of hydraulic rods are symmetrically and fixedly arranged on the base, a tray is fixedly connected to the hydraulic rods, the tray is matched and slides on the supporting table, a plurality of supporting blocks are fixedly arranged on the tray, gaskets are adhered to the supporting blocks, and the supporting blocks and the gaskets are all in cambered surface arrangement.

Preferably, the supporting mechanism includes a supporting seat, and the base is fixedly connected with the supporting seat, and the supporting seat is fixedly provided with a bottom plate.

As the preference of this embodiment, be equipped with two sets of draw-in grooves of two on the bottom plate symmetry, draw-in groove position cooperation slip has hydraulic stem and tray, fixed connection between the flexible end of hydraulic stem and the tray.

Preferably, in this embodiment, the cross-sectional diameter of the slot is equal to the cross-sectional diameter of the tray, and the tray is connected to the bottom plate by being engaged with the bottom plate.

As the preference of this embodiment, the moving mechanism includes two groups of connecting rods (303) which are two groups, four groups of connecting rods are symmetrically and slidingly connected on the supporting table, the end parts of the connecting rods are fixedly connected with a retaining plate (302), and the retaining plate is in matched connection with the telescopic end of the hydraulic cylinder.

As the optimization of this embodiment, two groups connect with a mounting panel through the bolt on the connecting rod, fixedly connected with cardboard on the mounting panel, be equipped with the slot on the cardboard.

As the preference of this embodiment, the installation mechanism includes two fixture blocks, the slot part cooperation slides has the fixture block, two fixedly connected with backup pad between the fixture block.

As the preference of this embodiment, be equipped with the empty slot on the backup pad, four empty slot is two pair by pair symmetry setting.

As the preference of this embodiment, the cardboard is last to rotate and to be connected with the gyro wheel, roll and be connected between gyro wheel and the fixture block.

As the preference of this embodiment, slide mechanism includes the slide, sliding connection has the slide on the brace table, fixed plate is fixed mounting on the slide, two sets of mould pieces that are a set of are installed to the symmetry on the fixed plate.

Compared with the prior art, the invention has the following beneficial effects:

(1) According to the tire manufacturing mold capable of automatically demolding, the supporting table is fixed on the vulcanizing machine, the sliding plate can drive the fixing plate and the mold block to slide along the supporting table through the driving component arranged in the vulcanizing machine, and when the tire is vulcanized, the fixing plate and the supporting plate are in an abutting state, and the mold block moves to the empty groove part along with the fixing plate; before use, parameters such as temperature, pressure and the like are adjusted according to the set requirements of the tire vulcanizer; then putting the tire to be vulcanized into a vulcanization chamber, and ensuring the correct and stable placement position; starting an electric heating switch to preheat the hot plate to a required temperature; after finishing shaping time, closing an electric heating switch, after an upper pressing plate of a vulcanizing machine rises to the top, storing vulcanized tires in empty groove parts arranged in a supporting plate, driving a supporting plate and a sliding plate to slide out of equipment together by a driving assembly in the vulcanizing machine, when a die block and the supporting plate are separated, firstly opening a control switch of a hydraulic cylinder, fixedly connecting the hydraulic cylinder with the end parts of a retaining plate, symmetrically installing two groups of connecting rods on the retaining plate, and fixedly connecting the connecting rods with a mounting plate through bolts, clamping blocks are clamped on clamping plates fixed on the mounting plate, and fixedly connecting the two clamping blocks with the supporting plate, wherein the retaining plate drives the connecting rods to slide under the driving force of the hydraulic cylinder; the fixture block slides in the cardboard, is equipped with the slot on the cardboard, rotates on the cardboard to be connected with the gyro wheel, and when the backup pad was followed inside slip of equipment, can make the fixture block slide at slot position, and then make its contact with the gyro wheel when sliding, the gyro wheel rotates, can reduce the friction area between fixture block and the cardboard.

(2) According to the tire manufacturing mold capable of automatically demolding, when the supporting plate slides, tires manufactured at the empty groove parts can be separated from the mold blocks, a plurality of mold blocks are arranged on the fixed plate in pairs, the fixed plate is fixedly connected with the sliding plate, when the sliding plate is started, the sliding plate can slide into the equipment along the supporting table, the sliding plate drives the fixed plate to slide, and the fixed plate can drive the mold blocks to move into the equipment, so that the fixed plate and the sliding plate can be prevented from blocking the abutting blocks to abut against the bottom end of the tire.

(3) According to the tire manufacturing mold capable of automatically demolding, the supporting seat is arranged on the base, the supporting seat is fixedly connected with the bottom plate, the bottom plate is symmetrically provided with the two groups of clamping grooves, the base is fixedly provided with the hydraulic rod, the hydraulic rod is fixedly connected with the end part of the tray, the cross section diameter of the tray is equal to that of the clamping grooves, when the hydraulic rod is started, the tray can slide out of the bottom plate, the tray is fixedly provided with the plurality of abutting blocks, the abutting blocks are adhered with gaskets, the abutting blocks and the gaskets are all arranged in cambered surfaces, when the tray drives the abutting blocks to move upwards into the supporting table, the clamping plates and the supporting plate can be driven to move downwards when the hydraulic cylinder is opened again due to the fact that the fixing plate and the mold blocks are driven to move into the vulcanizing machine, when the supporting plate is not moved again, the abutting blocks are enabled to contact with the bottom end of a molded tire, the abutting blocks are enabled to abut against the bottom end of the supporting plate, the tire at the empty groove part is enabled to slide in the supporting plate under the upward abutting force, the tire can slide out of the empty groove part arranged in the supporting plate, and the tire can be enabled to slide out of the empty part arranged in the supporting plate, and automatic tire demolding is facilitated.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

FIG. 1 is a schematic view of the overall structure of an automatically releasable tire manufacturing mold provided by the present invention;

FIG. 2 is a schematic diagram of a connection structure between a clamping plate and a clamping block according to the present invention;

FIG. 3 is an enlarged schematic view of the portion A shown in FIG. 2;

FIG. 4 is a schematic view of the connection structure of the connecting rod and the mounting plate of the present invention;

FIG. 5 is an enlarged schematic view of the B-section structure shown in FIG. 4;

FIG. 6 is a schematic view of the connection structure of the hydraulic lever and the tray of the present invention;

FIG. 7 is an enlarged schematic view of the structure of the portion C shown in FIG. 6;

FIG. 8 is a schematic diagram of a connection structure between a base plate and a support base according to the present invention;

fig. 9 is a schematic diagram of a connection structure between a mounting plate and a clamping plate according to the present invention.

In the figure: 1. a support table; 2. a sliding mechanism; 201. a slide plate; 202. a fixing plate; 203. a mold block; 3. a moving mechanism; 301. a hydraulic cylinder; 302. a retaining plate; 303. a connecting rod; 304. a mounting plate; 305. a clamping plate; 306. a slot; 4. a mounting mechanism; 401. a clamping block; 402. a support plate; 403. a hollow groove; 404. a roller; 5. a support mechanism; 501. a bottom plate; 502. a support base; 503. a clamping groove; 6. an extrusion mechanism; 601. a hydraulic rod; 602. a tray; 603. abutting blocks; 604. a gasket; 7. and (5) a base.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 9, an embodiment of the present invention provides a tire manufacturing mold capable of automatically demolding, specifically comprising a support table 1, two moving mechanisms 3 sliding on the support table 1, mounting mechanisms 4 clamping on the two moving mechanisms 3, a sliding mechanism 2 arranged on the support table 1, an extrusion mechanism 6 sliding on the support table 1, a base 7 mounted on the support mechanism 5, and a mold assembly for manufacturing a tire with an automatic demolding function. The following describes the specific structure and functions of the slide mechanism 2, the moving mechanism 3, the mounting mechanism 4, the supporting mechanism 5, and the pressing mechanism 6 in this embodiment in detail.

Referring to fig. 1, the sliding mechanism 2 specifically includes a sliding plate 201, a sliding plate 201 is slidably connected to the supporting table 1, a fixing plate 202 is fixedly mounted on the sliding plate 201, and two sets of two mold blocks 203 are symmetrically mounted on the fixing plate 202. When the slide mechanism 2 is separated from the mounting mechanism 4, the slide mechanism 2 is activated so that the slide mechanism 2 can be moved into the inside of the apparatus.

In this embodiment, when the supporting plate 402 slides, the tires manufactured at the empty slots 403 can be separated from the mold blocks 203, and the mold blocks 203 are mounted on the fixed plate 202 in pairs, the fixed plate 202 is fixedly connected with the sliding plate 201, and when the sliding plate 201 starts, the supporting plate can slide into the device along the supporting table 1, the sliding plate 201 drives the fixed plate 202 to slide, so that the fixed plate 202 drives the mold blocks 203 to move into the device, which is beneficial to preventing the fixed plate 202 and the sliding plate 201 from blocking the abutting blocks 603 to collide with the bottom ends of the tires.

Referring to fig. 1 to 9, the moving mechanism 3 specifically includes two groups of two links 303, four groups of links 303 are symmetrically slidably connected to the supporting table 1, and ends of the links 303 are fixedly connected to the retaining plate 302. The retaining plate 302 is connected with the telescopic end of the hydraulic cylinder 301 in a matched mode, two groups of connecting rods 303 are connected with a mounting plate 304 through bolts, the mounting plate 304 is fixedly connected with a clamping plate 305, and the clamping plate 305 is provided with a slot 306.

Referring to fig. 1 to 4, the mounting mechanism 4 specifically includes two clamping blocks 401, the clamping blocks 401 are matched and slid on the slot 306, a support plate 402 is fixedly connected between the two clamping blocks 401, empty slots 403 are formed in the support plate 402, and four empty slots 403 are symmetrically arranged in pairs. The clamping plate 305 is rotatably connected with a roller 404, and the roller 404 is in rolling connection with the clamping block 401. After the sliding mechanism 2 and the mounting mechanism 4 move out of the vulcanizing machine, a control switch of the moving mechanism 3 can be turned on, and the moving mechanism 3 drives the mounting mechanism 4 to slide, so that the mounting mechanism 4 is convenient to separate from the sliding mechanism 2.

In this embodiment, firstly, since the supporting table 1 is fixed on the vulcanizing machine, the slide 201 can drive the fixing plate 202 and the mold block 203 to slide along the supporting table 1 through the driving component provided in the vulcanizing machine, and when the tire is vulcanized, the fixing plate 202 and the supporting plate 402 are in an abutting state, and the mold block 203 moves to the empty slot 403 along with the fixing plate 202; before use, parameters such as temperature, pressure and the like are adjusted according to the set requirements of the tire vulcanizer; then putting the tire to be vulcanized into a vulcanization chamber, and ensuring the correct and stable placement position; starting an electric heating switch to preheat the hot plate to a required temperature; after finishing shaping time, closing an electric heating switch, after an upper pressing plate of a vulcanizing machine rises to the top, storing vulcanized tires in empty slots 403 arranged in a supporting plate 402, driving a supporting plate 402 and a sliding plate 201 to slide out of equipment together by a driving component in the vulcanizing machine, when a die block 203 is separated from the supporting plate 402, firstly opening a control switch of a hydraulic cylinder 301, fixedly connecting ends of the hydraulic cylinder 301 and a supporting plate 302, symmetrically installing two groups of connecting rods 303 on the supporting plate 302, connecting the connecting rods 303 with a mounting plate 304 in a matched manner through bolts, clamping blocks 401 are clamped on clamping plates 305 fixed on the mounting plate 304, fixedly connecting the two clamping blocks 401 with the supporting plate 402, and driving the connecting rods 303 to slide under the driving force of the hydraulic cylinder 301, and as a supporting table 1 is fixed on the vulcanizing machine, driving the connecting rods 303 to slide in the supporting table 1 under the driving force of a telescopic end of the hydraulic cylinder 301 by the supporting plate 302, and enabling the clamping plates 305 to drive the clamping blocks 401 and the supporting plate 402 to displace when the connecting rods 303 drive the mounting plate 304 to slide, so that the supporting plate 402 and the die block 203 are separated, thereby facilitating subsequent demolding of the manufactured tires; the fixture block 401 slides in the clamping plate 305, the slot 306 is arranged on the clamping plate 305, the roller 404 is rotationally connected to the clamping plate 305, when the supporting plate 402 slides from the inside of the equipment, the fixture block 401 can slide at the slot 306, and then contacts with the roller 404 when sliding, and the roller 404 rotates, so that the friction area between the fixture block 401 and the clamping plate 305 can be reduced.

Referring to fig. 6 to 8, the supporting mechanism 5 specifically includes a supporting seat 502, the supporting seat 502 is fixedly connected to the base 7, a bottom plate 501 is fixedly mounted on the supporting seat 502, two groups of two clamping grooves 503 are symmetrically arranged on the bottom plate 501, the clamping grooves 503 are matched and slide with a hydraulic rod 601 and a tray 602, and a telescopic end of the hydraulic rod 601 is fixedly connected with the tray 602. The cross-sectional diameter of the clamping groove 503 is equal to the cross-sectional diameter of the tray 602, and the tray 602 is connected with the bottom plate 501 in a clamping way. The extrusion mechanism 6 specifically comprises a hydraulic rod 601, two groups of hydraulic rods 601 are symmetrically and fixedly arranged on a base 7, a tray 602 is fixedly connected to the hydraulic rods 601, the tray 602 is matched and slides on the supporting table 1, a plurality of supporting blocks 603 are fixedly arranged on the tray 602, gaskets 604 are adhered to the supporting blocks 603, and the supporting blocks 603 and the gaskets 604 are all cambered surfaces. The base 7 is provided with a supporting seat 502, the supporting seat 502 is fixedly connected with the bottom plate 501, two groups of clamping grooves 503 are symmetrically formed in the bottom plate 501, the base 7 is fixedly provided with a hydraulic rod 601, the hydraulic rod 601 is fixedly connected with the end part of a tray 602, and the diameter of the section of the tray 602 is equal to that of the clamping grooves 503. In this embodiment, the support mechanism 5 is mounted on the base 7, and the pressing mechanism 6 is started to slide from the support mechanism 5 into the support table 1, so that the pressing mechanism 6 can press against the tire in the mounting mechanism 4, and the manufactured tire can be automatically demolded.

Specifically, in this embodiment, when the hydraulic rod 601 is started, the tray 602 slides out from the bottom plate 501, a plurality of abutting blocks 603 are fixedly installed on the tray 602, a gasket 604 is adhered on the abutting blocks 603, the abutting blocks 603 and the gasket 604 are all in cambered surface arrangement, when the tray 602 drives the abutting blocks 603 to move upwards in the supporting table 1, the sliding plate 201 drives the fixing plate 202 and the mold block 203 to move into the vulcanizing machine, when the hydraulic cylinder 301 is opened again, the clamping plate 305 can drive the clamping block 401 and the supporting plate 402 to move downwards, when the supporting plate 402 is not moved, the abutting blocks 603 move to the bottom end of the supporting plate 402, further the top of the abutting blocks 603 contacts the bottom end of the formed tire and collides with the bottom end of the formed tire, the tire at the empty groove 403 part slides in the supporting plate 402 under the upward collision force, and the manufactured tire can slide out from the empty groove 403 part arranged in the supporting plate 402, so that the tire can be automatically demolded.

The following technical description is made on the working principle of the embodiment: when the tire vulcanizing machine is used, firstly, as the supporting table 1 is fixed on the vulcanizing machine, the sliding plate 201 can drive the fixed plate 202 and the mold block 203 to slide along the supporting table 1 through the driving component arranged in the vulcanizing machine, and when the tire is vulcanized, the fixed plate 202 and the supporting plate 402 are in an abutting state, and the mold block 203 moves to the empty groove 403 along with the fixed plate 202; before use, parameters such as temperature, pressure and the like are adjusted according to the set requirements of the tire vulcanizer; then putting the tire to be vulcanized into a vulcanization chamber, and ensuring the correct and stable placement position; starting an electric heating switch to preheat the hot plate to a required temperature; after finishing shaping time, closing an electric heating switch, after an upper pressing plate of a vulcanizing machine rises to the top, storing vulcanized tires in empty slots 403 arranged in a supporting plate 402, driving a supporting plate 402 and a sliding plate 201 to slide out of equipment together by a driving component in the vulcanizing machine, when a die block 203 is separated from the supporting plate 402, firstly opening a control switch of a hydraulic cylinder 301, fixedly connecting ends of the hydraulic cylinder 301 and a supporting plate 302, symmetrically installing two groups of connecting rods 303 on the supporting plate 302, connecting the connecting rods 303 with a mounting plate 304 in a matched manner through bolts, clamping blocks 401 are clamped on clamping plates 305 fixed on the mounting plate 304, fixedly connecting the two clamping blocks 401 with the supporting plate 402, and driving the connecting rods 303 to slide under the driving force of the hydraulic cylinder 301, and as a supporting table 1 is fixed on the vulcanizing machine, driving the connecting rods 303 to slide in the supporting table 1 under the driving force of a telescopic end of the hydraulic cylinder 301 by the supporting plate 302, and enabling the clamping plates 305 to drive the clamping blocks 401 and the supporting plate 402 to displace when the connecting rods 303 drive the mounting plate 304 to slide, so that the supporting plate 402 and the die block 203 are separated, thereby facilitating subsequent demolding of the manufactured tires; the fixture block 401 slides in the clamping plate 305, the slot 306 is arranged on the clamping plate 305, the roller 404 is rotationally connected to the clamping plate 305, when the supporting plate 402 slides from the inside of the equipment, the fixture block 401 can slide at the slot 306, and then contacts with the roller 404 when sliding, and the roller 404 rotates, so that the friction area between the fixture block 401 and the clamping plate 305 can be reduced.

When the supporting plate 402 slides, the tire manufactured at the empty slot 403 position can be separated from the mold blocks 203, a plurality of mold blocks 203 are arranged on the fixed plate 202 in pairs, the fixed plate 202 is fixedly connected with the sliding plate 201, when the sliding plate 201 starts, the sliding plate 201 can slide into the equipment along the supporting table 1, the sliding plate 201 drives the fixed plate 202 to slide, and the fixed plate 202 can drive the mold blocks 203 to move into the equipment, so that the interference of the fixed plate 202 and the sliding plate 201 to the bottom end of the tire is prevented.

The base 7 is provided with the supporting seat 502, the supporting seat 502 and the bottom plate 501 are fixedly connected, the bottom plate 501 is symmetrically provided with two groups of clamping grooves 503, the base 7 is fixedly provided with the hydraulic rod 601, the hydraulic rod 601 is fixedly connected with the end part of the tray 602, the section diameter of the tray 602 is equal to the section diameter of the clamping groove 503, when the hydraulic rod 601 is started, the tray 602 can slide out of the bottom plate 501, a plurality of abutting blocks 603 are fixedly arranged on the tray 602, the abutting blocks 603 are adhered with gaskets 604, the abutting blocks 603 and the gaskets 604 are arranged in cambered surfaces, when the tray 602 drives the abutting blocks 603 to move upwards into the supporting table 1, as the sliding plate 201 drives the fixing plate 202 and the mould block 203 to move into the vulcanizing machine, when the hydraulic cylinder 301 is opened again, the clamping plate 305 can drive the clamping block 401 and the supporting plate 402 to move downwards, when the supporting plate 402 does not move, the abutting blocks 603 further enable the tops of the abutting blocks 603 to contact the bottom ends of the formed tires and collide with the bottom ends of the tires, the empty groove portions 403 are enabled to slide in the supporting plate 402 under upward collision force, and then the tires 403 can slide in the supporting plate 402 automatically, and the empty portions can be conveniently slipped out of the tires 403 from the supporting plates 403.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (10)

1. Tyre manufacturing mould capable of being automatically demoulded, comprising a supporting table (1), characterized in that: two moving mechanisms (3) are arranged on the supporting table (1) in a sliding manner; the two moving mechanisms (3) are clamped with mounting mechanisms (4); a sliding mechanism (2) is arranged on the supporting table (1); an extrusion mechanism (6) is matched and slides on the supporting table (1); the extrusion mechanism (6) is connected with the supporting mechanism (5) in a matching way; a base (7) is arranged on the supporting mechanism (5);

the extrusion mechanism (6) comprises a hydraulic rod (601), two groups of hydraulic rods (601) are symmetrically and fixedly arranged on a base (7), a tray (602) is fixedly connected to the hydraulic rods (601), the tray (602) is matched and slides on the supporting table (1), a plurality of supporting blocks (603) are fixedly arranged on the tray (602), gaskets (604) are adhered to the supporting blocks (603), and the supporting blocks (603) and the gaskets (604) are all cambered surfaces.

2. The automatically releasable tire manufacturing mold of claim 1, wherein: the supporting mechanism (5) comprises a supporting seat (502), the supporting seat (502) is fixedly connected to the base (7), and a bottom plate (501) is fixedly installed on the supporting seat (502).

3. The automatically releasable tire manufacturing mold of claim 2, wherein: two groups of clamping grooves (503) are symmetrically formed in the bottom plate (501), a hydraulic rod (601) and a tray (602) are matched and slide at the positions of the clamping grooves (503), and the telescopic end of the hydraulic rod (601) is fixedly connected with the tray (602).

4. An automatically releasable tire manufacturing mold as in claim 3, wherein: the cross-section diameter of the clamping groove (503) is equal to the cross-section diameter of the tray (602), and the tray (602) is connected with the bottom plate (501) in a clamping way.

5. The automatically releasable tire manufacturing mold of claim 1, wherein: the moving mechanism (3) comprises two groups of connecting rods (303), four groups of connecting rods (303) are symmetrically and slidably connected on the supporting table (1), the end parts of the connecting rods (303) are fixedly connected with the retaining plates (302), and the retaining plates (302) are matched and connected with the telescopic ends of the hydraulic cylinders (301).

6. The automatically releasable tire manufacturing mold of claim 5, wherein: two groups of connecting rods (303) are connected with a mounting plate (304) through bolts, clamping plates (305) are fixedly connected to the mounting plate (304), and slots (306) are formed in the clamping plates (305).

7. The automatically releasable tire manufacturing mold of claim 6, wherein: the mounting mechanism (4) comprises two clamping blocks (401), the clamping blocks (401) are matched and slide at the positions of the slots (306), and a supporting plate (402) is fixedly connected between the two clamping blocks (401).

8. The automatically releasable tire manufacturing mold of claim 7, wherein: the support plates (402) are provided with empty slots (403), and four empty slots (403) are symmetrically arranged in pairs.

9. The automatically releasable tire manufacturing mold of claim 8, wherein: the clamping plate (305) is rotatably connected with a roller (404), and the roller (404) is in rolling connection with the clamping block (401).

10. The automatically releasable tire manufacturing mold of claim 1, wherein: the sliding mechanism (2) comprises a sliding plate (201), the sliding plate (201) is connected to the supporting table (1) in a sliding mode, a fixing plate (202) is fixedly installed on the sliding plate (201), and two groups of two die blocks (203) which are in a group are symmetrically installed on the fixing plate (202).