阅读说明：本技术 一种水循环冷却的玻璃瓶罐模具 (Glass bottle and can mold cooled by water circulation ) 是由 李涛 于 2021-01-22 设计创作，主要内容包括：本发明公开了一种水循环冷却的玻璃瓶罐模具,包括模具主体、上阻块、水冷管、底模和背部拿取柱,所述模具主体的顶端固定安装有上阻块,所述模具主体的内部嵌合安装有水冷管,所述水冷管的顶端安装有固定头,且固定头位于模具主体的外侧,所述模具主体的下方安装有底模,且底模的顶端位于模具主体的内部,所述模具主体的背面固定安装有背部拿取柱。本发明通过安装有水冷管能够对模具主体进行冷却,在使用时避免模具主体温度过高而损坏,同时安装有上阻块,通过安装的上阻块来避免模具主体上的原料溢出,使成品产生瑕疵。(The invention discloses a water circulation cooling glass bottle and can mold which comprises a mold main body, an upper block, a water cooling pipe, a bottom mold and a back taking column, wherein the upper block is fixedly installed at the top end of the mold main body, the water cooling pipe is installed in the mold main body in an embedded mode, a fixing head is installed at the top end of the water cooling pipe and located on the outer side of the mold main body, the bottom mold is installed below the mold main body, the top end of the bottom mold is located inside the mold main body, and the back taking column is fixedly installed on the back of the mold main body. The water cooling pipe is arranged on the die body, so that the die body can be cooled, the die body is prevented from being damaged due to overhigh temperature when in use, and meanwhile, the upper blocking block is arranged, so that raw materials on the die body are prevented from overflowing through the upper blocking block, and the finished product is prevented from generating flaws.)

1. The utility model provides a water circulative cooling's glass bottle jar mould, includes mould main part (1), goes up stop block (2), water-cooled tube (3), die block (4) and back post (5) of taking, its characterized in that: the top fixed mounting of mould main part (1) has last stopper (2), water-cooled tube (3) are installed to the inside gomphosis of mould main part (1), fixed head (301) are installed on the top of water-cooled tube (3), and fixed head (301) are located the outside of mould main part (1), die block (4) are installed to the below of mould main part (1), and the top of die block (4) is located the inside of mould main part (1), the back fixed mounting of mould main part (1) has back post (5) of taking.

2. The water-cooled glass bottle and jar mold of claim 1 wherein: the mould is characterized in that an embedding groove (101) is formed in the mould main body (1), the embedding groove (101) is located above the water-cooling pipe (3), a reinforcing layer (102) is installed in the mould main body (1) in an embedded mode, the reinforcing layer (102) is located on the outer side of the water-cooling pipe (3), and an embedded buckle (103) is fixedly installed on the front face of the mould main body (1).

3. The water-cooled glass bottle and jar mold of claim 1 wherein: the outer side of the upper blocking block (2) is provided with a blocking piece (201), the inner part of the upper blocking block (2) is provided with a cooling ball (202), the lower part of the upper blocking block (2) is provided with an embedded head (203) in a welded mode, and the embedded head (203) is embedded in the die main body (1).

4. The water-cooled glass bottle and jar mold of claim 1 wherein: the outside of fixed head (301) is run through and is installed screw thread post (302), and the top of screw thread post (302) is installed and is pressed from both sides tight piece (303), and presss from both sides tight piece (303) and be located the inboard of fixed head (301), and presss from both sides tight piece (303) and be located the outside of water-cooled tube (3).

5. The water-cooled glass bottle and jar mold of claim 1 wherein: supporting blocks (401) are installed in the bottom die (4) in a welded mode, a plurality of fixing holes (402) are evenly formed in the bottom of the bottom die (4), magnetic blocks (403) are installed in the bottom die (4), and the magnetic blocks (403) are located above the fixing holes (402).

6. The water-cooled glass bottle and jar mold of claim 1 wherein: the outside parcel of post (5) is taken on the back installs heat insulating mattress (501), and the outside welded mounting of post (5) is taken on the back has pillar (502), and pillar (502) are located the outside of heat insulating mattress (501), and the outside welded mounting of pillar (502) has orifice plate (503).

Technical Field

The invention relates to the technical field of glass bottle manufacturing, in particular to a water circulation cooling glass bottle and tank mold.

Background

Glass bottles are traditional beverage packaging containers in China, glass is a historical packaging material, and under the condition that a plurality of packaging materials are introduced into the market, the glass containers still occupy an important position in beverage packaging, which is not distinguished from the packaging characteristics that other packaging materials cannot replace.

The existing glass bottle and can molds have the following defects:

1. in the use process of the existing glass bottle and can mold, because the temperature of raw materials is higher during the manufacture and the temperature of the mold is higher during the use, the mold can be damaged after long-time use;

2. the existing glass bottle and tank mold has the defects that raw materials overflow when the top of the existing glass bottle and tank mold is produced, and a finished product is damaged, and a large amount of treatment is needed in the later stage, so that the resource waste is caused.

Disclosure of Invention

The invention aims to provide a water circulation cooling glass bottle and can mold, which is used for solving the problems that the temperature is high during manufacturing, the mold is damaged after long-time use, and resources are wasted during post-treatment due to overflow of raw materials at the top during use, which are provided by the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a water circulative cooling's glass bottle jar mould, includes the mould main part, goes up the piece of hindering, water-cooled tube, die block and the back post of taking, the top fixed mounting of mould main part has last piece of hindering, the water-cooled tube is installed to the inside gomphosis of mould main part, the fixed head is installed on the top of water-cooled tube, and the fixed head is located the outside of mould main part, the die block is installed to the below of mould main part, and the top of die block is located the inside of mould main part, the back fixed mounting of mould main part has the back post of taking.

Preferably, the mould main body is internally provided with an embedding groove which is positioned above the water-cooling pipe, the mould main body is internally provided with a reinforcing layer in an embedding manner, the reinforcing layer is positioned on the outer side of the water-cooling pipe, and the front surface of the mould main body is fixedly provided with an embedding buckle.

Preferably, the outer side of the upper block is provided with a blocking sheet, the inner part of the upper block is provided with a cooling ball, the lower part of the upper block is welded with an embedding head, and the embedding head is embedded in the die main body.

Preferably, the outer side of the fixed head is provided with a threaded column in a penetrating manner, the top end of the threaded column is provided with a clamping piece, the clamping piece is located on the inner side of the fixed head, and the clamping piece is located on the outer side of the water-cooling tube.

Preferably, the supporting block is installed in the inside welding of die block, and the bottom of die block evenly is equipped with a plurality of fixed orificess, and the internally mounted of die block has the magnetic path, and the magnetic path is located the top of fixed orificess.

Preferably, the outside parcel of the post of taking of back is installed the heat insulating mattress, and the outside welded mounting of the post of taking of back has the pillar, and the pillar is located the outside of heat insulating mattress, and the outside welded mounting of pillar has the orifice plate.

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

1. the water cooling pipe is arranged, cooling water is introduced into the die body through the water cooling pipe when the water cooling pipe is used, the die body is cooled when the water cooling pipe is used, the damage of the die body caused by overhigh temperature when the water cooling pipe is used is avoided, the fixing head is arranged at the top end of the water cooling pipe, an external water pipe is connected to the fixing head when the water cooling pipe is used, the cooling water can conveniently enter the die body, the threaded column is arranged inside the fixing head, the clamping piece is arranged at the top end of the threaded column, the external water pipe is inserted into the fixing head when the water cooling pipe is used, the clamping piece is driven to rotate by rotating the threaded column, the external water pipe is fixed on the outer side of the water cooling pipe, and the stability when the water;

2. the upper stop block is arranged, redundant raw materials at the top of the die body can be stopped through the upper stop block when the die is used, the phenomenon that later-stage flaws are large due to accumulation of the raw materials at a die opening and the use is inconvenient is avoided, the stop block is arranged on the outer side of the upper stop block and made of metal materials, raw materials are prevented from overflowing through the stop block when the die is used, the temperature-reducing ball is arranged inside the upper stop block, the temperature of the upper stop block is reduced through the temperature-reducing materials inside the temperature-reducing ball when the die is used, the damage of the upper stop block due to overhigh temperature is avoided, the embedding head is welded below the upper stop block, the embedding head is embedded inside the die body when the die is used, the stability of the upper stop block is improved, the upper stop block can be conveniently detached, and the use convenience is improved.

Drawings

FIG. 1 is a schematic cross-sectional view of the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic view of the backside structure of the present invention;

fig. 4 is a schematic view of a fixing head structure according to the present invention.

In the figure: 1. a mold body; 101. a fitting groove; 102. a reinforcement layer; 103. a snap fastener; 2. an upper stop block; 201. a blocking sheet; 202. a cooling ball; 203. a fitting head; 3. a water-cooled tube; 301. a fixed head; 302. a threaded post; 303. a clamping piece; 4. bottom die; 401. a support block; 402. a fixing hole; 403. a magnetic block; 5. taking the column from the back; 501. a heat insulating pad; 502. a pillar; 503. there is an orifice plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, an embodiment of the present invention is shown: a water circulation cooling glass bottle mold comprises a mold main body 1, an upper block 2, a water-cooling pipe 3, a bottom mold 4 and a back taking column 5, wherein the upper block 2 is fixedly installed at the top end of the mold main body 1, the upper block 2 installed at the top end of the mold main body 1 can block raw materials and prevent the raw materials from being accumulated at the top end of the mold main body 1 to cause defects of products, the water-cooling pipe 3 is installed in the mold main body 1 in an embedded mode, external cooling water can be guided into the mold main body 1 through the water-cooling pipe 3 installed in the mold main body 1, the mold main body 1 is cooled when in use, the damage of the mold main body 1 caused by excessive heating is avoided, a fixing head 301 is installed at the top end of the water-cooling pipe 3 and located outside the mold main body 1, and the fixing head 301 is installed outside the mold main body 1, connect water-cooled tube 3, can be with external water piping connection in water-cooled tube 3's the outside, use the inside that introduces water-cooled tube 3 with the cooling water, stability when increasing the use, die block 4 is installed to the below of mould main part 1, and the top of die block 4 is located the inside of mould main part 1, installs die block 4 in the below of mould main part 1, protects the bottom of mould through die block 4, avoids the raw materials to pile up in the bottom, causes the product to damage, the back fixed mounting of mould main part 1 has back post 5 of taking, installs the back at the back of mould main part 1 with back post 5 of taking, can accomodate and take mould main part 1 when using, increases and collects the variety.

Furthermore, the inside of the main die body 1 is provided with an embedding groove 101, the embedding groove 101 is positioned above the water cooling pipe 3, the inside of the main die body 1 is embedded with a reinforcing layer 102, the reinforcing layer 102 is positioned outside the water cooling pipe 3, the front surface of the main die body 1 is fixedly provided with an embedding buckle 103, the upper block 2 can be fixed above the main die body 1 through the embedding groove 101 arranged inside the main die body 1, the stability is improved, the reinforcing layer 102 is embedded inside the main die body 1, the main die body 1 is reinforced through the reinforcing layer 102 when in use, the service strength of the main die body 1 is improved, the service life is prolonged, and the embedding buckle 103 arranged on the front surface of the main die body 1 can be embedded and fixed on the main die body 1 when in use, so that the raw materials inside the main die body 1 can be normally used.

Further, the outer side of the upper block 2 is provided with a blocking piece 201, the inner part of the upper block 2 is provided with a cooling ball 202, the lower part of the upper block 2 is provided with a welding head 203, the welding head 203 is embedded in the die body 1, the outer side of the upper block 2 is provided with the blocking piece 201, the blocking piece 201 is made of metal materials, the raw materials are prevented from overflowing through the blocking piece 201 when the upper block 2 is used, the cooling ball 202 is arranged in the upper block 2, the temperature of the upper block 2 is reduced through the cooling materials in the cooling ball 202 when the upper block 2 is used, the damage of the upper block 2 caused by overhigh temperature is avoided, the embedding head 203 is welded below the upper block 2, the embedding head 203 is embedded in the die body 1 when the upper block 2 is used, the stability of the upper block 2 is improved, the upper block 2 can be conveniently detached, and the use convenience is improved.

Further, the outside of fixed head 301 runs through and installs screw thread post 302, tight piece 303 of clamp is installed on the top of screw thread post 302, and it is located the inboard of fixed head 301 to press from both sides tight piece 303, and press from both sides tight piece 303 and be located the outside of water-cooled tube 3, install fixed head 301 on the top of water-cooled tube 3, on fixed head 301 is received external water pipe when using, be convenient for inside cooling water gets into mould main part 1, cool down mould main part 1, and internally mounted at fixed head 301 has screw thread post 302, will press from both sides tight piece 303 and install the top at screw thread post 302, insert the inside of fixed head 301 with external water pipe during the use, and drive through rotating screw thread post 302 and press from both sides tight piece 303 and rotate, fix the outside at water-cooled tube 3 with external water pipe, stability when increasing the use.

Further, supporting shoe 401 is installed in the inside welding of die block 4, the bottom of die block 4 evenly is equipped with a plurality of fixed orificess 402, the internally mounted of die block 4 has magnetic path 403, and magnetic path 403 is located the top of fixed orificess 402, internally mounted at die block 4 has supporting shoe 401, come to support the raw materials through supporting shoe 401, and be equipped with fixed orifices 402 in the bottom of die block 4, can fix die block 4 on the device through fixed orifices 402 when using, increase the stability of die block 4, die block 4 drops when avoiding using and causes the raw materials extravagant, and install magnetic path 403 in the top of fixed orificess 402, can pass through magnetic path 403 with better the fixing on apparatus for producing of die block 4 when using, increase the stability of die block 4.

Further, the heat insulating pad 501 is installed in the outside parcel of post 5 of taking on the back, the pillar 502 is installed in the outside welding of post 5 of taking on the back, and the pillar 502 is located the outside of heat insulating pad 501, the outside welding of pillar 502 is installed there is orifice plate 503, wrap up heat insulating pad 501 in the outside of post 5 of taking on the back, avoid the temperature of mould main part 1 to cause the influence to taking, pillar 502 is installed in the outside of post 5 of taking on the back simultaneously, and the outside welding of pillar 502 has orifice plate 503, can hang the mould main part 1 that uses up through orifice plate 503 when using, be convenient for accomodate the change.

The working principle is as follows: by installing the water-cooled tube 3, when in use, cooling water is introduced into the interior of the die body 1 through the water-cooled tube 3, when in use, the die body 1 is cooled, the damage of the die body 1 caused by overhigh temperature when in use is avoided, the top end of the water-cooled tube 3 is provided with the fixing head 301, when in use, an external water pipe is connected to the fixing head 301, the cooling water can conveniently enter the interior of the die body 1, the fixing head 301 is internally provided with the threaded column 302, the clamping sheet 303 is arranged at the top end of the threaded column 302, when in use, the external water pipe is inserted into the interior of the fixing head 301, the clamping sheet 303 is driven to rotate by rotating the threaded column 302, the external water pipe is fixed at the outer side of the water-cooled tube 3, the stability when in use is increased, and the upper blocking block 2 is arranged, when in use, redundant raw materials at the top of the die body 1 can be blocked, raw materials pile up at the mould mouth and cause the later stage flaw great when avoiding using, be not convenient for use, install in the outside of last piece 2 that blocks and block piece 201, it is the metal material to block that piece 201 uses, prevent the raw materials to spill over through blocking piece 201 when using, internally mounted at last piece 2 has cooling ball 202, come to reduce the temperature of last piece 2 through the inside cooling material of cooling ball 202 when using, it damages to avoid the high temperature to cause last piece 2 that blocks, the welding has the head 203 of gomphosis in the below of last piece 2, the head 203 gomphosis of will gomphosis is in the inside of mould main part 1 when using, increase the stability of last piece 2 that blocks, and can be convenient for dismantle last piece 2 that blocks, increase the convenience of use.

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.