CN115321793A

CN115321793A - Glass insulator production mould with quick cooling shaping function

Info

Publication number: CN115321793A
Application number: CN202210985261.8A
Authority: CN
Inventors: 王鹏田; 石宇奇; 王国忠
Original assignee: SHANDONG RUITAI GLASS INSULATOR CO Ltd
Current assignee: SHANDONG RUITAI GLASS INSULATOR CO Ltd
Priority date: 2022-08-17
Filing date: 2022-08-17
Publication date: 2022-11-11

Abstract

The invention relates to the technical field of glass insulator production equipment, in particular to a glass insulator production mold with a rapid cooling and forming function, which comprises a base, wherein a mold pressing mechanism is arranged on the base, a protection mechanism is arranged on the mold pressing mechanism, the mold pressing mechanism is connected with a cooling mechanism, a filtering mechanism is arranged on the mold pressing mechanism, the mold pressing mechanism is connected with a control mechanism, and a connecting mechanism is arranged on the mold pressing mechanism; through the convenient finished product suppression that carries on of die pressing mechanism, and make things convenient for the dismouting to maintain, cooperation through cooling body and filtering mechanism, be favorable to filtering debris to the cooling water, and fine carry out the shaping of cooling fast to the finished product after the suppression, through the drive control of die pressing mechanism to control mechanism, thereby realize cooling water flow control, cool off shaping work, be favorable to making die pressing mechanism suppression finished product make die pressing mechanism top also can cool off under the effect through coupling mechanism, the cooling effect has been improved.

Description

Glass insulator production mould with quick cooling shaping function

Technical Field

The invention relates to the technical field of glass insulator production equipment, in particular to a glass insulator production mold with a rapid cooling and forming function.

Background

A device for supporting a wire and insulating the wire is called an insulator, the insulator device is made of glass and called a glass insulator, in the production process of the glass insulator, glass solution is led into a mold to be extruded, the traditional insulator production mold is single in structure and lacks of a cooling circulation system, and therefore the cooling efficiency of the glass insulator is reduced.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a glass insulator production mold with a rapid cooling and forming function.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a glass insulator production mould with quick cooling shaping function, includes the base, install moulding-die mechanism on the base, the last protection machanism that installs of moulding-die mechanism, the last cooling body that is connected with of moulding-die mechanism, the last filtering mechanism that installs of moulding-die mechanism, be connected with control mechanism in the moulding-die mechanism, the last coupling mechanism that installs of moulding-die mechanism.

The die pressing mechanism comprises a lower die, a lower die is connected to the base in a clamping mode, an upper die is connected to the lower die top in a clamping mode, symmetrical clamping pins are connected to the inner side of the bottom of the lower die in a sliding mode, the clamping pins are of an L-shaped structure, a drive plate is connected to the inner side of the bottom of the lower die in a sliding mode, one end of the drive plate is fixedly connected with one side of the top of one of the clamping pins, a screw rod is connected to the lower die in an internal rotating mode, threads at two ends of the screw rod are opposite in direction, one end of the screw rod is connected with the inner portion of the drive plate in a threaded mode, the other end of the clamping pin is connected with the other end of the screw rod in a threaded mode, a nut is installed at the other end of the screw rod and extends to the outer side of the lower die, and the nut is connected with the lower die in a rotating mode, and two ends of the clamping pins are respectively clamped with the inner portion of the side wall of the base.

Specifically, the vertical fixedly connected with in lower mould top is a plurality of guide arms that are the annular and distribute, it is equipped with a plurality of guide slots to go up mould bottom edge, guide arm and the inside sliding connection of guide slot.

Specifically, the center of the interior of the lower die is provided with a pressing block, the bottom of the pressing block is connected with the interior of the lower die in a sliding mode through a pressure reducing spring, and the top of the pressing block extends to the outer side of the lower die.

Specifically, protection machanism includes the roof, lower mould one side internally mounted has the roof, the roof is "7" font structure, the roof is through conflict spring and the inside sliding connection of lower mould, roof top one end extends to the lower mould outside, install the ejector pad on the roof, the roof bottom is dentate structure, annular rack is installed to the nut lateral wall, the rack is connected through the nut rotation with lower mould is inside, the roof bottom is contradicted with the rack.

Specifically, cooling body includes the connecting block, lower mould one side threaded connection has the connecting block, threaded connection has the inlet tube on the connecting block, lower mould opposite side threaded connection has the outlet pipe, the inside first cooling bath that is "S" shape and encircles that is equipped with of lower mould, first cooling bath both ends through the guide slot with inlet tube and play water piping connection.

Specifically, filtering mechanism includes the aqua storage tank, lower mould one side is equipped with the aqua storage tank, the supporting shoe is installed to inside one side of aqua storage tank, connecting block one end threaded connection has the filter screen, the filter screen is the tubbiness structure, inside filter screen one end extends to the aqua storage tank, filter screen one end is contradicted with the supporting shoe, one of them guide slot one end and the inside intercommunication of aqua storage tank, filter screen internally mounted has a plurality of baffles, the contained angle is 30 degrees between baffle and the filter screen.

Specifically, control mechanism includes the leather plug, lower mould one side internally mounted has the leather plug, the leather plug passes through compression spring and the inside sliding connection of lower mould and guide slot, be equipped with the intercommunication groove on the leather plug, the inside sliding connection of lower mould has the depression bar, depression bar bottom and leather plug top fixed connection, the depression bar top runs through and extends to the outside in the guide arm.

Concretely, coupling mechanism includes the pipe, the perpendicular threaded connection of lower mould edge has two pipes, two the pipe bottom is passed through the guide slot and is connected with first cooling bath both ends, go up the inside second cooling bath that is "S" shape and encircle that is equipped with of mould, it has the piston to go up mould both ends internally mounted, the piston passes through reset spring and the inside sliding connection of last mould, the inside logical groove that is equipped with of piston, it is "7" font structure to lead to the groove, the second cooling bath both ends are connected with the piston lateral wall through the guiding gutter respectively, it is equipped with two spread grooves to go up mould bottom edge, spread groove and logical groove bottom intercommunication, the inside sliding connection of pipe top and spread groove.

The beneficial effects of the invention are:

(1) The glass insulator production mold with the rapid cooling and forming function is beneficial to being conveniently disassembled and assembled with a base through a mold pressing mechanism, is convenient for subsequent maintenance and replacement, enables the mold pressing mechanism to be stably installed under the cooperation of a protection mechanism, and is convenient for glass insulator mold production under the action of the mold pressing mechanism, namely: make things convenient for and equipment demountable installation under the effect through the base, and the convenience is installed to lower mould block, under the effect of bayonet lock, make the lower mould firm stable after being connected with the base block, difficult pine takes off, through rotating the nut, make the lead screw at the inside rotation of lower mould, because lead screw both ends screw thread opposite direction, screw drive plate and bayonet lock reverse slip, thereby make two bayonet locks spacing with the inside separation contact of base, the convenience is dismantled with the base to lower mould, make things convenient for follow-up maintenance to change, under the effect through guide arm and guide slot, the effect of guiding orientation has been played when being favorable to going up mould and lower mould block, prevent to go up mould and lower mould skew, and connect stably, make the briquetting have the elasticity inside the lower mould through the effect of decompression spring, the effect of decompression buffering has been played, be favorable to contradicting the decompression when going up mould gliding and lower mould block, prevent to go up mould and lower mould striking wearing and tearing, make the roof bottom contradict the rack under the effect through the conflict spring, make the nut at the unable rotation of lower mould lateral wall, thereby make the lead screw stable inside the lower mould, break away from the ejector pad, drive with the rack separation under the effect of spring, thereby make the lead screw be convenient to be driven to the nut to be controlled.

(2) The glass insulator production mold with the rapid cooling and forming function is beneficial to filtering sundries in cooling water and preventing pipelines from being blocked by matching the cooling mechanism with the filtering mechanism, and well performs rapid cooling and forming on a pressed finished product, namely: the effect through the inlet tube is convenient under with the water piping connection of cooler, and make the cooling water can get into inside the first cooling tank through the guide slot, and discharge through the outlet pipe, through the circulation of cooling water in inside the first cooling tank, be favorable to cooling off fast the lower mould, be favorable to making the insulator after the moulding-die can the rapid cooling shaping, installation through the filter screen, be favorable to filtering the cooling water that gets into, and make the cooling water after filtering deposit in the aqua storage tank is inside, simultaneously inside leading-in guide slot, be favorable to supporting stable difficult not hard up to the filter screen under the effect of supporting shoe, be favorable to cooling water conservancy diversion under the effect of a plurality of baffles, and prevent filterable debris backward flow, the effect of protection has been played, take out connecting block and filter screen through rotating the connecting block, make filter screen and connecting block separation through rotating the filter screen, the convenience is cleared up the debris inside the filter screen.

(3) According to the glass insulator production mold with the rapid cooling and forming function, the driving control of the control mechanism is realized through the mold pressing mechanism, so that cooling water flows at the pressing moment, the rapid cooling and forming is realized, however, the cooling water cannot flow during charging, and the charging operation at normal temperature is facilitated, namely: make the leather plug block up the guide slot under compression spring's effect, make the unable circulation of cooling water, when suppressing through last mould and lower mould block, the guide arm gets into the inside back of guide slot, it can contradict the depression bar to go up the mould, depression bar drive leather plug breaks away from sliding under compression spring's the effect, thereby make the leather plug drive the intercommunication groove and switch on the guide slot, make the cooling water can circulate and carry out cooling work, rise through last mould, the leather plug restores to the throne under compression spring's effect and blocks up the guide slot, make the unable circulation of cooling water, be favorable to follow-up material loading work.

(4) The glass insulator production mold with the rapid cooling and forming function is beneficial to enabling a pressing mechanism to press finished products to enable the top of the pressing mechanism to be cooled through the effect of the connecting mechanism, and the cooling effect is improved, namely: during gliding moulding-die through the lower mould, inside two spread grooves were inserted respectively to two pipes, and contradict bottom the pipe, when the upper mould continues gliding and lower mould block, the depression bar is contradicted the drive, the pipe is contradicted the piston simultaneously, the piston breaks away from sliding under reset spring's the effect, make logical groove one end and guiding gutter intercommunication, when making the cooling water flow through depression bar drive piston, the cooling water passes through inside the pipe gets into the second cooling tank, and discharge into inside the derivation of outlet pipe through another pipe, realize carrying out cooling work to the last mould, go up mould and lower mould after-separating, the cooling water stops circulating, pipe and spread groove separation, the piston contradicts under reset spring's effect and resets, make the guiding gutter jam, be favorable to making the cooling water can not spill over, make things convenient for follow-up continuation circulative cooling work.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic overall structural diagram of a preferred embodiment of a glass insulator production mold with a rapid cooling and forming function according to the present invention;

FIG. 2 is a schematic view of a connection structure of a base and a lower mold according to the present invention;

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

FIG. 4 is an enlarged view of the structure of the part C shown in FIG. 3;

FIG. 5 is an enlarged view of the part B shown in FIG. 2;

FIG. 6 is a schematic view showing a connection structure of an upper mold and a second cooling bath according to the present invention;

fig. 7 is an enlarged view of the structure of the portion D shown in fig. 6.

In the figure: 1. a base; 2. a die pressing mechanism; 201. a lower die; 202. an upper die; 203. a guide bar; 204. briquetting; 205. a pressure reducing spring; 206. a screw rod; 207. a nut; 208. a drive plate; 209. a bayonet lock; 2010. positioning a groove; 3. a cooling mechanism; 301. connecting blocks; 302. a water outlet pipe; 303. a water inlet pipe; 304. a first cooling tank; 305. a guide groove; 4. a filtering mechanism; 401. a filter screen; 402. a guide plate; 403. a water storage tank; 404. a support block; 5. a control mechanism; 501. a pressure lever; 502. a communicating groove; 503. a plug of leather; 504. a compression spring; 6. a connecting mechanism; 601. a conduit; 602. a second cooling tank; 603. connecting grooves; 604. a through groove; 605. a diversion trench; 606. a return spring; 607. a piston; 7. a protection mechanism; 701. a push block; 702. against the spring; 703. a top plate; 704. a rack.

Detailed Description

The present invention will be further described with reference to the following detailed description so that the technical means, the creation features, the achievement purposes and the effects of the present invention can be easily understood.

As shown in fig. 1-7, the glass insulator production mold with rapid cooling and forming functions comprises a base 1, wherein a mold pressing mechanism 2 is installed on the base 1, a protection mechanism 7 is installed on the mold pressing mechanism 2, a cooling mechanism 3 is connected to the mold pressing mechanism 2, a filtering mechanism 4 is installed on the mold pressing mechanism 2, a control mechanism 5 is connected to the mold pressing mechanism 2, and a connecting mechanism 6 is installed on the mold pressing mechanism 2.

Specifically, moulding press 2 includes lower mould 201, the block is connected with lower mould 201 on base 1, lower mould 201 top block is connected with mould 202, the inboard sliding connection in lower mould 201 bottom has the bayonet 209 of symmetry, bayonet 209 is "L" shape structure, the inboard sliding connection in lower mould 201 bottom has drive plate 208, drive plate 208 one end and one of them bayonet 209 top one side fixed connection, the inside rotation of lower mould 201 is connected with lead screw 206, lead screw 206 both ends screw thread opposite direction, lead screw 206 one end and the inside threaded connection of drive plate 208, another bayonet 209 top and the screw 206 other end threaded connection, nut 207 is installed to the lead screw 206 other end, nut 207 extends to the lower mould 201 outside, nut 207 rotates with lower mould 201 to be connected, two bayonet 209 bottom respectively with the inside block of base 1 lateral wall, through make things convenient for the equipment demountable installation under base 1's the effect, and convenient right lower mould 201 block installation, make under bayonet 209's the effect lower mould 201 with firm stability after base 1 block is connected, difficult pine takes off, through rotating nut 207 makes the drive plate 206 change bayonet 206 the inside screw thread 206, make the lead screw 201 and the inside screw thread contact of base 209, make the screw 201 and the screw 201 reverse screw drive plate 201, the screw 201, thereby make the inside reverse screw thread separation of base 201 and the bayonet 209.

Specifically, the perpendicular fixedly connected with in lower mould 201 top is a plurality of guide arms 203 that are the annular and distribute, it is equipped with a plurality of constant head tanks 2010 to go up mould 202 bottom edge, guide arm 203 and the inside sliding connection of constant head tank 2010, through the guide arm 203 with under the effect of constant head tank 2010, be favorable to go up mould 202 with when the lower mould 201 block play guiding orientation's effect, prevent go up mould 202 with the lower mould 201 takes place the skew to the connection is stable.

Specifically, 201 inside center department of lower mould installs briquetting 204, briquetting 204 bottom is through

decompression spring

205 and 201 inside sliding connection of lower mould, briquetting 204 top extends to the 201 outside of lower mould, through make under the effect of decompression spring 205 briquetting 204 is in 201 inside has the elasticity of lower mould, has played the effect of decompression buffering, and is favorable to right go up mould 202 gliding with conflict decompression during the lower mould 201 block is placed go up mould 202 with 201 striking wearing and tearing of lower mould.

Specifically, the protection mechanism 7 includes a top plate 703, a top plate 703 is installed inside one side of the lower mold 201, the top plate 703 is of a 7-shaped structure, the top plate 703 is slidably connected with the inside of the lower mold 201 through a collision spring 702, one end of the top plate 703 extends to the outside of the lower mold 201, a push block 701 is installed on the top plate 703, the bottom of the top plate 703 is of a toothed structure, an annular rack 704 is installed on the side wall of the nut 207, the rack 704 is rotatably connected with the inside of the lower mold 201 through the nut 207, the bottom of the top plate 703 is collided with the rack 704, the bottom of the top plate 703 is enabled to be collided with the rack 704 under the action of the collision spring 702, so that the nut 207 cannot rotate on the side wall of the lower mold 201, the lead screw 206 is stabilized inside the lower mold 201, and the push block 701 is pushed to drive the top plate 703 to disengage from the rack 704 under the action of the collision spring 702, so that the nut 207 is conveniently driven to rotate, and the drive control of the lead screw 206 is realized.

Specifically, cooling body 3 includes connecting

block

301, 201 one side threaded connection of lower mould has connecting block 301, threaded connection has inlet tube 303 on the connecting

block

301, 201 opposite side threaded connection of lower mould has

outlet pipe

302, 201 inside being equipped with of lower mould is the first cooling tank 304 that "S" shape encircleed, first cooling tank 304 both ends are passed through guide slot 305 and are connected with inlet tube 303 and outlet pipe 302, through convenient inlet tube 303 with the cooler is connected under the effect of inlet tube 303, and make the cooling water pass through guide slot 305 gets into inside the first cooling tank 304, and pass through outlet pipe 302 discharges, is in through the cooling water the inside circulation of first cooling tank 304, be favorable to right lower mould 201 cools off fast, is favorable to making the insulator after the moulding-die can cool off the shaping fast.

It is specific, filtering mechanism 4 includes aqua storage tank 403, lower mould 201 one side is equipped with aqua storage tank 403, supporting shoe 404 is installed to the inside one side of aqua storage tank 403, connecting block 301 one end threaded connection has filter screen 401, filter screen 401 is the tubbiness structure, filter screen 401 one end extends to inside aqua storage tank 403, filter screen 401 one end is contradicted with supporting shoe 404, one of them guide slot 305 one end and the inside intercommunication of aqua storage tank 403, filter screen 401 internally mounted has a plurality of baffle 402, the contained angle is 30 degrees between baffle 402 and the filter screen 401, through the installation of filter screen 401 is favorable to filtering the cooling water that gets into, and makes the cooling water after filtering deposit inside aqua storage tank 403, simultaneously leading-in inside the guide slot 305 be favorable to under the effect of supporting shoe 404 right filter screen 401 supports and is difficult not hard up, a plurality of be favorable to the cooling water conservancy diversion under the effect of baffle 402 to prevent the backward flow of filterable debris, played the effect of protection, through rotating connecting block 301 is right connecting block 301 with filter screen 401 takes out, through rotating filter screen 401 makes the filter screen 301 with the separation of connecting block 401 is convenient to the clear up the inside debris of filter screen 401.

Specifically, the control mechanism 5 includes a leather plug 503, a leather plug 503 is installed inside one side of the lower die 201, the leather plug 503 is connected with the lower die 201 and the guide groove 305 in a sliding manner through a compression spring 504, a communication groove 502 is formed in the leather plug 503, a pressure lever 501 is connected inside the lower die 201 in a sliding manner, the bottom of the pressure lever 501 is fixedly connected with the top of the leather plug 503, the top of the pressure lever 501 penetrates through a guide rod 203 and extends to the outside, the pressure lever 501 enables the leather plug 503 to block the guide groove 305 under the action of the compression spring 504, so that cooling water cannot flow through the leather plug 503, the upper die 202 is clamped and pressed with the lower die 201, the guide rod 203 enters the guide groove 305, the upper die 202 abuts against the pressure lever 501, the leather plug 503 drives the leather plug 503 to slide under the action of the compression spring 504, so that the leather plug 503 drives the communication groove 502 to conduct the guide groove 305, cooling water can flow through the guide groove 305, the upper die 202 ascends, and the leather plug 503 is reset under the action of the compression spring 504 to block the guide groove 305, so that the cooling water cannot flow through the guide groove 305, and the subsequent feeding work is facilitated.

Specifically, the connecting mechanism 6 includes a conduit 601, two conduits 601 are vertically screwed to the edge of the lower mold 201, bottoms of the two conduits 601 are connected to two ends of the first cooling tank 304 through a guide groove 305, a second cooling tank 602 surrounded in an "S" shape is disposed inside the upper mold 202, pistons 607 are mounted inside two ends of the upper mold 202, the pistons 607 are slidably connected to the inside of the upper mold 202 through a return spring 606, a through groove 604 is disposed inside the piston 607, the through groove 604 is in a "7" shape, two ends of the second cooling tank 602 are respectively connected to the side wall of the piston 607 through a guide groove 605, two connecting grooves 603 are disposed at the edge of the bottom of the upper mold 202, the connecting grooves 603 are communicated with the bottom of the through groove 604, the top of the conduit 601 is slidably connected to the inside of the connecting grooves 603, when the lower mold of the lower mold 201 is slid, the two conduits 601 are respectively inserted into the two connecting grooves 603, the top of the conduit 601 is abutted to the bottom of the piston 607, when the upper mold 202 slides downward to engage with the lower mold 201, the conduit 501 is abutted against the lower mold 201 to drive the conduit 601 to separate the cooling water flowing through the return spring 605, the return water flows out of the lower mold 601, the cooling tank 601, the cooling water flows into the upper mold 202, and the cooling water outlet pipe 601, the cooling tank 601, the cooling water outlet pipe 501 is separated from the cooling tank 601, the cooling water outlet pipe 501, the cooling pipe 501, the diversion trench 605 is blocked, which is beneficial to preventing the cooling water from overflowing and facilitating the subsequent continuous circulating cooling work.

When the invention is used, firstly, the invention is convenient to be detachably installed with equipment under the action of the base 1, and is convenient to be clamped and installed on the lower die 201, under the action of the clamping pin 209, the lower die 201 is firmly and stably clamped and connected with the base 1 and is not easy to loosen, the screw rod 206 is rotated in the lower die 201 by rotating the screw cap 207, because the screw directions of the two ends of the screw rod 206 are opposite, the screw rod drives the driving plate 208 and the clamping pin 209 to reversely slide, so that the two clamping pins 209 are separated from the inside of the base 1 for contact and limit, the lower die 201 and the base 1 are convenient to be disassembled, the subsequent maintenance and replacement are convenient, under the action of the guide rod 203 and the positioning groove 2010, the invention is beneficial to play a role of guiding and positioning when the upper die 202 and the lower die 201 are clamped, the upper die 202 and the lower die 201 are prevented from being deviated, and the connection is stable, the pressing block 204 has the flexibility in the lower die 201 under the action of the pressure reducing spring 205, and plays a role of reducing and buffering, the push block 701 is pushed to drive the top plate 703 to separate from the rack 704 under the action of the collision spring 702, so that the nut 207 can be driven and rotated conveniently, the screw 206 can be connected with the water inlet pipe 303 of a cooling machine conveniently under the action of the water inlet pipe 303, cooling water can enter the first cooling groove 304 through the guide groove 305 and be discharged through the water outlet pipe 302, and the cooling water can circulate in the first cooling groove 304 to be beneficial to quickly cooling the lower die 201 and be beneficial to quickly cooling the molded insulator, through the installation of the filter screen 401, the filter of the entering cooling water is facilitated, the filtered cooling water is stored in the water storage tank 403, meanwhile, the filtered cooling water is guided into the guide groove 305, the filter screen 401 is supported stably and is not easy to loose under the action of the supporting block 404, the cooling water guide is facilitated under the action of the guide plates 402, the backflow of filtered sundries is prevented, the protection effect is achieved, the connecting block 301 and the filter screen 401 are taken out through rotating the connecting block 301, the filter screen 401 is separated from the connecting block 301 through rotating the filter screen 401, the sundries in the filter screen 401 are convenient to clean, the leather plug 503 is blocked to the guide groove 305 through the action of the compression spring 504, the cooling water cannot flow, when the upper die 202 and the lower die 201 are clamped and pressed, the guide rod 203 enters the guide groove 305, the upper die 202 can collide with the compression rod 501, the compression rod 501 drives the leather plug 503 to slide under the action of the compression spring 504, thereby leading the leather plug 503 to drive the communicating groove 502 to be communicated with the guide groove 305, leading cooling water to be capable of circulating for cooling work, rising through the upper die 202, the leather plug 503 is reset under the action of the compression spring 504 to block the guide groove 305, leading the cooling water not to circulate, being beneficial to the subsequent feeding work, when the lower sliding pressing die of the lower die 201, the two guide pipes 601 are respectively inserted into the two connecting grooves 603, the top of the guide pipe 601 is butted with the bottom of the piston 607, when the upper die 202 continuously slides downwards to be clamped with the lower die 201, the pressing rod 501 is butted and driven, meanwhile, the guide pipe 601 is butted with the piston 607, the piston 607 slides under the action of the reset spring 606, leading one end of the through groove 604 to be communicated with the guide groove 605, when the piston 607 is driven by the pressing rod 501 to flow the cooling water, the cooling water enters the second cooling groove 602 through the guide pipe 601, and is discharged into the water outlet pipe 302 through the other guide pipe 601 to be led out, the cooling operation of the upper die 202 is realized, after the upper die 202 is separated from the lower die 201, the cooling water stops flowing, the guide pipe 601 is separated from the connecting groove 603, the piston 607 is abutted and reset under the action of the reset spring 606, the diversion groove 605 is blocked, the cooling water cannot overflow, and the subsequent continuous circulating cooling operation is facilitated.

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 attributes 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 specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it is to be understood that all embodiments may be combined as appropriate by one of ordinary skill in the art to form other embodiments as will be apparent to those of skill in the art from the description herein.

Claims

1. A glass insulator production mold with a rapid cooling and forming function is characterized by comprising a base (1), wherein a mold pressing mechanism (2) is installed on the base (1), a protection mechanism (7) is installed on the mold pressing mechanism (2), a cooling mechanism (3) is connected to the mold pressing mechanism (2), a filtering mechanism (4) is installed on the mold pressing mechanism (2), a control mechanism (5) is connected to the mold pressing mechanism (2), and a connecting mechanism (6) is installed on the mold pressing mechanism (2);

the die pressing mechanism (2) comprises a lower die (201), the clamping is connected with a lower die (201) on the base (1), the clamping is connected with an upper die (202) on the top of the lower die (201), the inner side of the bottom of the lower die (201) is connected with symmetrical clamping pins (209) in a sliding mode, the clamping pins (209) are of an L-shaped structure, the inner side of the bottom of the lower die (201) is connected with a drive plate (208) in a sliding mode, one end of the drive plate (208) is fixedly connected with one side of the top of one clamping pin (209), the lower die (201) is connected with a lead screw (206) in an internal rotating mode, the thread directions of two ends of the lead screw (206) are opposite, one end of the lead screw (206) is connected with the internal thread of the drive plate (208) and the other end of the clamping pin (209) is connected with the other end of the lead screw (206), a nut (207) is installed at the other end of the lead screw (206), the nut (207) extends to the outer side of the lower die (201), and the nut (207) is connected with the lower die (201) in a rotating mode, and two bottoms of the clamping pins (209) are respectively connected with the internal clamping of the side wall of the base (1).

2. The glass insulator production mold with the rapid cooling and forming function according to claim 1, characterized in that: the top of the lower die (201) is vertically and fixedly connected with a plurality of guide rods (203) which are distributed in an annular mode, a plurality of positioning grooves (2010) are formed in the edge of the bottom of the upper die (202), and the guide rods (203) are connected with the insides of the positioning grooves (2010) in a sliding mode.

3. The mold for producing glass insulator with rapid cooling and forming function according to claim 1, wherein: a pressing block (204) is installed at the center of the interior of the lower die (201), the bottom of the pressing block (204) is connected with the interior of the lower die (201) in a sliding mode through a pressure reducing spring (205), and the top of the pressing block (204) extends to the outer side of the lower die (201).

4. The glass insulator production mold with the rapid cooling and forming function according to claim 1, characterized in that: protection machanism (7) include roof (703), lower mould (201) one side internally mounted has roof (703), roof (703) are "7" font structure, roof (703) are through conflict spring (702) and the inside sliding connection of lower mould (201), roof (703) top one end extends to the lower mould (201) outside, install ejector pad (701) on roof (703), roof (703) bottom is dentate structure, annular rack (704) are installed to nut (207) lateral wall, rack (704) are connected through nut (207) rotation with lower mould (201) is inside, roof (703) bottom is contradicted with rack (704).

5. The mold for producing glass insulator with rapid cooling and forming function according to claim 1, wherein: cooling body (3) are including connecting block (301), lower mould (201) one side threaded connection has connecting block (301), threaded connection has inlet tube (303) on connecting block (301), lower mould (201) opposite side threaded connection has outlet pipe (302), lower mould (201) inside is equipped with and is "S" shape first cooling tank (304) that encircle, first cooling tank (304) both ends pass through guide slot (305) and are connected with inlet tube (303) and outlet pipe (302).

6. The mold for producing glass insulator with rapid cooling forming function according to claim 5, wherein: filtering mechanism (4) include aqua storage tank (403), lower mould (201) one side is equipped with aqua storage tank (403), connecting block (301) one end threaded connection has filter screen (401), filter screen (401) are the tubbiness structure, inside filter screen (401) one end extends to aqua storage tank (403), one of them guide slot (305) one end and the inside intercommunication of aqua storage tank (403).

7. The mold for producing glass insulator with rapid cooling and forming function according to claim 6, wherein: a plurality of guide plates (402) are installed inside the filter screen (401), and an included angle between each guide plate (402) and the filter screen (401) is 30 degrees.

8. The mold for producing glass insulator with rapid cooling and forming function according to claim 7, wherein: a supporting block (404) is installed on one side inside the water storage tank (403), one end of the filter screen (401) is abutted to the supporting block (404), and the supporting block (404) is made of rubber materials.

9. The mold for producing glass insulator with rapid cooling forming function according to claim 5, wherein: control mechanism (5) include leather plug (503), lower mould (201) one side internally mounted has leather plug (503), leather plug (503) are through compression spring (504) and lower mould (201) and the inside sliding connection of guide slot (305), be equipped with intercommunication groove (502) on leather plug (503), lower mould (201) inside sliding connection has depression bar (501), depression bar (501) bottom and leather plug (503) top fixed connection, depression bar (501) top is run through and is extended to outside in guide arm (203).

10. The mold for producing glass insulator with rapid cooling and forming function according to claim 9, wherein: the connecting mechanism (6) comprises guide pipes (601), two guide pipes (601) are vertically connected to the edge of the lower die (201) in a threaded manner, the bottoms of the two guide pipes (601) are connected with the two ends of the first cooling tank (304) through guide grooves (305), a second cooling tank (602) which is S-shaped in a surrounding manner is arranged inside the upper die (202), pistons (607) are arranged inside the two ends of the upper die (202), the pistons (607) are connected with the inner portion of the upper die (202) in a sliding manner through reset springs (606), through grooves (604) are arranged inside the pistons (607), the through grooves (604) are of a 7-shaped structure, the two ends of the second cooling tank (602) are connected with the side wall of the piston (607) through guide grooves (605), two connecting grooves (603) are arranged on the edge of the bottom of the upper die (202), the connecting grooves (603) are communicated with the bottom of the through grooves (604), and the tops of the guide pipes (601) are connected with the inner portion of the connecting grooves (603) in a sliding manner.