CN115196859B

CN115196859B - Environment-friendly glass bottle blowing equipment

Info

Publication number: CN115196859B
Application number: CN202210894466.5A
Authority: CN
Inventors: 黄乐天; 王峥
Original assignee: Xi Jinghua Packaging Technology Co ltd
Current assignee: Xi Jinghua Packaging Technology Co ltd
Priority date: 2022-07-28
Filing date: 2022-07-28
Publication date: 2024-04-19
Anticipated expiration: 2042-07-28
Also published as: CN115196859A

Abstract

The invention relates to the technical field of glass processing, in particular to environment-friendly glass bottle blowing equipment which comprises a machine base, a blowing mechanism, side dies, power cavities, a control cavity and an extension cavity, wherein the blowing mechanism is fixedly arranged on the back surface of the machine base, the side dies are slidably arranged on two sides of the top of the machine base, the power cavities are formed in the back surface of the interior of the machine base, the control cavity is formed in the top of the machine base, and the extension cavity is formed in the interior of the machine base. According to the invention, the lubricating oil in the oil storage tank is pumped into the extension cavity in the upward moving process of the oil suction pipe, after the clamping block leaves the clamping groove, the sliding block is pushed back to the middle of the control cavity by the extrusion spring, so that the threaded pipe can rapidly move downwards, the oil suction pipe can move downwards at a lower speed under the pushing of the extension spring, and meanwhile, the lubricating oil is sprayed out of the nozzle, so that the lubricating oil fully sprays the inside of the side die, the lubricating oil is distributed more uniformly and more comprehensively in the side die, and the adhesion of the gob in the die is effectively prevented.

Description

Environment-friendly glass bottle blowing equipment

Technical Field

The invention relates to the technical field of glass processing, in particular to environment-friendly glass bottle blowing equipment.

Background

The glass bottle is a traditional beverage packaging container, and still occupies an important position in beverage packaging under the condition that a plurality of packaging materials are introduced into the market, and the glass bottle has packaging characteristics which cannot be replaced by other packaging materials, and the forming of the glass bottle can be divided into three types of manual blowing, mechanical blowing and extrusion forming according to a manufacturing method, wherein the mechanical blowing and the manual blowing are similar, and the glass bottle has the advantages of high production efficiency, uniform quality and the like.

When the existing environment-friendly glass blowing equipment is used, lubricating oil is sprayed into the mold from the bottom or the top of the mold, so that uneven distribution of the lubricating oil in the mold can be easily caused, gobs can be adhered in the mold to affect the quality of the blown glass bottles, meanwhile, the temperature in the mold is uneven, glass on one side with high temperature is cooled slowly, the glass is easily blown to be thin, and on the other side with low temperature is blown to be thick because the glass is cooled fast, and uneven thickness of the blown glass bottles can be caused.

For this purpose, an environment-friendly glass bottle blowing device is proposed.

Disclosure of Invention

The invention aims to provide an environment-friendly glass bottle blowing device, which is characterized in that lubricating oil in an oil storage tank is pumped into an extension cavity through upward movement of an oil suction pipe, after a clamping block leaves a clamping groove, a sliding block is pushed back to the middle of a control cavity by an extrusion spring, so that a threaded pipe rapidly moves downwards, the oil suction pipe can move downwards at a lower speed under the pushing of the extension spring, and meanwhile, the lubricating oil is sprayed out from a nozzle, so that the problems in the prior art are solved.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The utility model provides an environmental protection glass bottle blowing equipment, includes the machine base, blowing mechanism, fixed mounting is in the back of machine base, side mould, slidable mounting is in the both sides at machine base top, the power chamber, set up in the inside back of machine base, control chamber, set up in the top of machine base, extend the chamber, set up in the inside of machine base, and with the control chamber is linked together, extend the inside slidable mounting in chamber and have inside hollow oil suction pipe, oil suction pipe's inside fixed mounting has interior check valve, oil suction pipe's top runs through the machine base and extends to the outside of machine base, oil suction pipe's surface just is located the inside fixed mounting who extends the chamber has the sealing ring, oil suction pipe's top fixed mounting has the bed die, the surface of bed die and the internal surface swing joint of side mould, the equal fixed mounting in both sides of bed die inside has the spout, oil suction pipe is linked together with the spout, oil suction pipe's surface and the top slidable mounting who is located the sealing ring has the extension spring, the top of oil suction pipe has extension spring to take over the top, the top of extension spring and the inside of the round nut has the inside of the round nut, the round nut is connected with the inside of the control chamber, the round nut is screwed to the inside of the control mechanism.

Preferably, the both sides of control chamber inner wall are all fixed mounting to one side and are supported the piece, two control mechanism all includes the sliding block, two the inside of sliding block is all slidable mounting has the fixture block, the top of fixture block runs through the sliding block and extends to the outside of sliding block.

Preferably, the two sliding blocks are provided with through holes on one sides far away from each other, the two clamping blocks are provided with inclined grooves on one sides far away from each other, and the outer surfaces of the inclined supporting blocks are movably connected with the inner surfaces of the through holes and the inclined grooves.

Preferably, a return spring is fixedly arranged at the bottom of the clamping block, the bottom of the return spring is fixedly connected with the inner surface of the sliding block, a long rack is fixedly arranged on the right side of the sliding block and positioned on the left side, a tooth slot is formed in the outer surface of the round nut, and the long rack is meshed with the tooth slot.

Preferably, two sides that the sliding block kept away from each other all fixed mounting has extrusion spring, two one side that extrusion spring kept away from each other all with the inner wall fixed connection of control chamber, two the draw-in groove has all been seted up to the bottom of side mould, the internal surface of draw-in groove and the surface swing joint of fixture block.

Preferably, the inside fixed mounting of machine base has a deposit oil tank, the inside both sides of deposit oil tank are all fixed mounting has the reaction iron plate, the inner chamber of deposit oil tank rotates and installs the spliced pole, the both sides of spliced pole are all fixed mounting has reaction magnet.

Preferably, the top of the rotating column penetrates through the oil storage tank and extends to the outside of the oil storage tank, a connecting pipe is communicated with the left side of the oil storage tank, the left end of the connecting pipe penetrates through one side wall of the extending cavity and extends to the inside of the extending cavity, an outer one-way valve is fixedly arranged in the connecting pipe, only liquid in the oil storage tank is allowed to enter the inside of the extending cavity through the outer one-way valve, and only liquid in the extending cavity is allowed to enter the inside of the oil suction pipe through the inner one-way valve.

The two side dies move to two sides simultaneously to open, at the moment, the clamping blocks are clamped with the clamping grooves, the side dies simultaneously move together with the two sliding blocks at the bottom in the process of moving to two sides, the sliding block at the left side moves with the long rack, the round nut meshed with the long rack is driven to rotate through the tooth slot, the round nut rotates to enable the threaded pipe to move upwards, the threaded pipe moves upwards together with the oil suction pipe and the bottom die in the moving process, meanwhile, the sealing ring arranged at the bottom of the oil suction pipe can pump lubricating oil in the oil storage tank to the inside of the extending cavity through the outer one-way valve in the process of moving upwards of the oil suction pipe, when the side dies move to two sides with the sliding blocks, the inclined abutting blocks are inserted into the through holes and contact with the inclined grooves, the sliding blocks continue to move outwards to enable the inclined abutting blocks to pull the clamping blocks to the inside of the sliding blocks through the inclined grooves, after the fixture block leaves the draw-in groove, extrusion spring pushes back the sliding block in the middle of the control chamber again, long rack is in return's in-process with round nut reversal, make the quick downwardly moving of screwed pipe return extend the intracavity, and because the inside sealing ring below of extension chamber is taken out the lubricating oil of full reason, it can get into the inside of inhaling oil pipe and spout blowout from the spout through interior check valve to inhale the inside lubricating oil of oil pipe to inhale the promotion of spring, make lubricating oil fully spray the inside of side mould, make lubricating oil more even more comprehensive at side mould inside distribution, effectively prevent that the gob from taking place the adhesion at the mould inside, simultaneously can be after the glass bottle blowing is accomplished automatic release from the mould with the finished product, conveniently get the material, improve the work efficiency of glass bottle production.

Preferably, the bottoms of the two side dies are fixedly provided with extension plates in the power cavity, a motor is fixedly arranged in the power cavity, a power shaft is fixedly arranged at the output end of the motor, and a power bevel gear is fixedly arranged at the top end of the power shaft.

Preferably, threaded rods are rotatably mounted on two sides of the inside of the power cavity, one ends of the threaded rods, which are opposite, penetrate through the extension plate and extend to the outside of the extension plate, drive bevel gears are fixedly mounted on one ends of the threaded rods, which are opposite, and the drive bevel gears are meshed with the power bevel gears.

Preferably, the outer surface of the power shaft is provided with a driving belt through a driving wheel, and the outer surface of the rotating column is in driving connection with the inner surface of the driving belt through the driving wheel.

When the power shaft rotates, the rotating column is driven to rotate through the transmission belt, the reaction magnet on the rotating column and the reaction iron plates in the oil storage tank can rapidly generate relative displacement, the magnetic field penetrating through each reaction iron plate continuously changes, so that vortex is generated in each reaction iron plate, the reaction iron plates start to emit heat, lubricating oil in the oil storage tank is heated, the lubricating oil is sprayed in the die to have a certain temperature, the temperature in the die is balanced, and the phenomenon of uneven thickness and cold spots of glass bottles caused by temperature reduction in the die is prevented.

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

1. The inside of extension chamber is taken out to the inside lubricating oil that will store the oil tank at the in-process that inhales oil pipe upward movement, after the fixture block left the draw-in groove, extrusion spring pushed back the intermediate position in control chamber with the sliding block again, make quick downwardly moving of screwed pipe, inhale oil pipe and can move downwards with slower speed under extension spring's promotion, make lubricating oil spout blowout simultaneously, make lubricating oil fully spray the inside of side mould, make lubricating oil more even more comprehensive at side mould inside distribution, effectively prevent that the gob from taking place the adhesion at the mould inside.

2. The two side molds move to the two sides simultaneously to be opened, the two sliding blocks with the bottoms move together at the same time, the round nuts meshed with the long racks rotate, the round nuts rotate to enable the threaded pipe to move upwards, the threaded pipe can bring the oil suction pipe and the bottom mold to move upwards together in the moving process, a finished product can be automatically pushed out of the mold after glass bottle blowing is completed, material taking is facilitated, and the working efficiency of glass bottle production is improved.

3. When the power shaft rotates, the rotating column is driven to rotate through the transmission belt, the reaction magnet on the rotating column and the reaction iron plate in the oil storage tank can rapidly generate relative displacement, the reaction iron plate starts to emit heat, and the lubricating oil in the oil storage tank is heated, so that the lubricating oil is sprayed in the die to have a certain temperature, the temperature in the die is balanced, and the phenomenon of uneven thickness and surface cold spots of the glass bottle caused by the reduction of the temperature in the die is prevented.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

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

FIG. 3 is a schematic view of the internal structure of the present invention in an open state;

FIG. 4 is an enlarged view of the structure of FIG. 3A;

FIG. 5 is an enlarged view of the structure of FIG. 2B;

FIG. 6 is an enlarged view of the structure of FIG. 3C;

fig. 7 is a rear view of the internal structure of the present invention.

In the figure: the blowing machine comprises a machine base, a blowing mechanism, a 3 side mold, a 4 power cavity, a 5 control cavity, a 6 extension cavity, a 7 oil suction pipe, an 8 inner one-way valve, a 9 sealing ring, a 10 bottom mold, a 11 nozzle, a 12 threaded pipe, a 13 extension spring, a 14 round nut, a 15 control mechanism, a 16 oblique supporting block, a 17 sliding block, a 18 clamping block, a 19 through hole, a 20 chute, a 21 return spring, a 22 long rack, a 23 tooth socket, a 24 extrusion spring, a 25 clamping groove, a 26 oil storage tank, a 27 reaction iron plate, a 28 rotating column, a 29 reaction magnet, a 30 connecting pipe, a 31 outer one-way valve, a 32 extension plate, a 33 motor, a 34 power shaft, a 35 power bevel gear, a 36 threaded rod, a 37 transmission bevel gear and a 38 transmission belt.

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 7, the present invention provides an environment-friendly glass bottle blowing apparatus, which comprises the following technical schemes:

An environment-friendly glass bottle blowing device comprises a machine base 1, a blowing mechanism 2 fixedly arranged on the back surface of the machine base 1, side dies 3 slidably arranged on two sides of the top of the machine base 1, a power cavity 4 arranged on the back surface of the interior of the machine base 1, a control cavity 5 arranged on the top of the machine base 1, an extension cavity 6 arranged in the interior of the machine base 1 and communicated with the control cavity 5, an oil suction pipe 7 with a hollow interior and fixedly arranged in the extension cavity 6, an inner one-way valve 8 fixedly arranged in the interior of the oil suction pipe 7, a sealing ring 9 fixedly arranged on the outer surface of the oil suction pipe 7 and positioned in the interior of the extension cavity 6 and fixedly arranged on the top end of the oil suction pipe 7, a bottom die 10 fixedly arranged on the top end of the oil suction pipe 7, the outer surface of the bottom die 10 movably connected with the inner surface of the side dies 3, the nozzle 11 is fixedly arranged on both sides of the inside of the bottom die 10, the oil suction pipe 7 is communicated with the nozzle 11, the threaded pipe 12 is slidably arranged on the outer surface of the oil suction pipe 7 and positioned above the sealing ring 9, the extension spring 13 is sleeved on the outer surface of the oil suction pipe 7, the top of the extension spring 13 is fixedly connected with the bottom end of the threaded pipe 12, the bottom of the extension spring 13 is fixedly connected with the top of the sealing ring 9, the round nut 14 is rotatably arranged in the control cavity 5, the inner surface of the round nut 14 is in threaded transmission connection with the outer surface of the threaded pipe 12, the control mechanisms 15 are slidably arranged on both sides of the inside of the control cavity 5, the oblique abutting blocks 16 are fixedly arranged on both sides of the inner wall of the control cavity 5, the two control mechanisms 15 comprise sliding blocks 17, the interiors of the two sliding blocks 17 are slidably provided with clamping blocks 18, the tops of the clamping blocks 18 penetrate through the sliding blocks 17 and extend to the exteriors of the sliding blocks 17, the two sliding blocks 17 are provided with through holes 19 on the sides far away from each other, the two clamping blocks 18 are provided with inclined grooves 20 on the sides far away from each other, the outer surfaces of the inclined supporting blocks 16 are movably connected with the through holes 19 and the inner surfaces of the inclined grooves 20, the bottoms of the clamping blocks 18 are fixedly provided with return springs 21, the bottoms of the return springs 21 are fixedly connected with the inner surfaces of the sliding blocks 17, the right sides of the left sliding blocks 17 are fixedly provided with long racks 22, the outer surfaces of the round nuts 14 are provided with tooth grooves 23, the long racks 22 are meshed with the tooth grooves 23, the sides far away from each other of the two sliding blocks 17 are fixedly provided with extrusion springs 24, one side that two extrusion springs 24 kept away from each other all with the inner wall fixed connection of control chamber 5, draw-in groove 25 has all been seted up to the bottom of two side mould 3, the internal surface of draw-in groove 25 and the surface swing joint of fixture block 18, the inside fixed mounting of machine base 1 has a reservoir 26, the left side intercommunication of reservoir 26 has connecting pipe 30, the left end of connecting pipe 30 runs through the side wall of extension chamber 6 and extends to the inside of extension chamber 6, the inside fixed mounting of connecting pipe 30 has outer check valve 31, outer check valve 31 only allows the inside liquid of reservoir 26 to get into the inside of extension chamber 6, interior check valve 8 only allows the inside liquid of extension chamber 6 to get into the inside of inhaling oil pipe 7.

The two side dies 3 move to both sides simultaneously to open, the clamping blocks 18 are clamped with the clamping grooves 25, the side dies 3 simultaneously move together with the two sliding blocks 17 at the bottom in the process of moving to both sides, the sliding block 17 at the left side moves with the long toothed bar 22, the round nut 14 meshed with the long toothed bar 22 is driven to rotate through the tooth grooves 23, the round nut 14 rotates to enable the threaded pipe 12 to move upwards, the threaded pipe 12 moves together with the oil suction pipe 7 and the bottom die 10 in the process of moving, meanwhile, the sealing ring 9 arranged at the bottom of the oil suction pipe 7 pumps lubricating oil in the oil storage tank 26 into the extending cavity 6 through the outer one-way valve 31 in the process of moving upwards the oil suction pipe 7, the inclined abutting block 16 is inserted into the through hole 19 and contacted with the chute 20 in the process of moving the side dies 3 with the sliding block 17 to both sides, the inclined abutting block 16 is pulled inwards the sliding block 17 through the chute 20 by the inclined abutting block 16 continuously moving outwards, when the clamping block 18 leaves the clamping groove 25, the sliding block 17 is pushed back to the middle of the control cavity 5 by the extrusion spring 24, meanwhile, the long toothed bar 22 is reversed with the round nut 14 in the returning process, so that the threaded pipe 12 moves back into the extension cavity 6 quickly, the oil suction pipe 7 moves downwards under the pushing of the extension spring 13 due to the pumped lubricating oil in the extension cavity 6, so that the lubricating oil in the oil suction pipe 7 enters the interior of the oil suction pipe 7 through the inner one-way valve 8 and is sprayed out from the spray nozzle 11, the lubricating oil fully sprays the interior of the side mold 3, the lubricating oil is distributed more uniformly and comprehensively in the interior of the side mold 3, the adhesion of the material drops in the interior of the mold is effectively prevented, and meanwhile, a finished product can be automatically pushed out of the mold after the glass bottle blowing is finished, the material is conveniently taken, and the working efficiency of glass bottle production is improved.

As an embodiment of the present invention, referring to fig. 2 and 7, reaction iron plates 27 are fixedly installed at both sides of the inside of the oil storage tank 26, a rotation post 28 is rotatably installed at the inner cavity of the oil storage tank 26, reaction magnets 29 are fixedly installed at both sides of the rotation post 28, the top end of the rotation post 28 penetrates through the oil storage tank 26 and extends to the outside of the oil storage tank 26, extension plates 32 are fixedly installed at the bottoms of the two side molds 3 and located inside the power cavity 4, a motor 33 is fixedly installed inside the power cavity 4, a power shaft 34 is fixedly installed at the output end of the motor 33, a power bevel gear 35 is fixedly installed at the top end of the power shaft 34, threaded rods 36 are rotatably installed at both sides of the inside of the power cavity 4, opposite ends of the two threaded rods 36 penetrate through the extension plates 32 and extend to the outside of the extension plates 32, a transmission bevel gear 37 is fixedly installed at both opposite ends of the two threaded rods 36, the outer surface of the power shaft 34 is in transmission connection with the transmission wheel of the transmission belt 38 through a transmission belt 38.

When the power shaft 34 rotates, the rotating column 28 is driven to rotate through the transmission belt 38, the reaction magnet 29 on the rotating column 28 and the reaction iron plates 27 in the oil storage tank 26 can rapidly generate relative displacement, the magnetic field penetrating through each reaction iron plate 27 continuously changes, so that vortex flow is generated in the reaction iron plates 27, the reaction iron plates 27 start to emit heat, lubricating oil in the oil storage tank 26 is heated, the lubricating oil is sprayed in the die to have a certain temperature, the temperature in the die is balanced, and the phenomena of uneven thickness and cold spots of glass bottles caused by temperature reduction in the die are prevented.

Working principle: firstly, a worker starts a motor 33, so that the motor 33 drives a power bevel gear 35 to rotate through a power shaft 34, drives two threaded rods 36 to rotate simultaneously through a transmission bevel gear 37, drives two side dies 3 to move and open to two sides simultaneously through an extension plate 32, at the moment, a clamping block 18 is clamped with a clamping groove 25, the side dies 3 simultaneously move together with two sliding blocks 17 at the bottom in the process of moving to two sides, the sliding block 17 at the left side moves with a long rack 22, drives a round nut 14 meshed with the long rack 22 to rotate through tooth grooves 23, the round nut 14 rotates to enable a threaded pipe 12 to move upwards, the threaded pipe 12 drives an oil suction pipe 7 and a bottom die 10 to move upwards together in the process of moving, simultaneously a sealing ring 9 arranged at the bottom of the oil suction pipe 7 pumps lubricating oil in a reservoir 26 to the inside of the extension cavity 6 through an outer one-way valve 31 in the process of moving up the oil suction pipe 7, when the side mold 3 moves to two sides with the sliding block 17, the inclined abutting block 16 is inserted into the through hole 19 and contacts with the chute 20, the sliding block 17 moves outwards continuously to enable the inclined abutting block 16 to pull the clamping block 18 to the inside of the sliding block 17 through the chute 20, after the clamping block 18 leaves the clamping groove 25, the pressing spring 24 pushes the sliding block 17 back to the middle of the control cavity 5, meanwhile, the long rack 22 rotates reversely with the round nut 14 in the returning process, so that the threaded pipe 12 moves downwards quickly into the extension cavity 6, and due to the fact that the lubricating oil is pumped under the sealing ring 9 in the extension cavity 6, the oil suction pipe 7 moves downwards at a slower speed under the pushing of the stretching spring 13, so that the lubricating oil in the oil suction pipe 7 enters the inside of the oil suction pipe 7 through the inner one-way valve 8 and is sprayed out from the spray nozzle 11, the lubricating oil sprays the inside of the side mold 3 fully, when the oil suction pipe 7 moves back to the original position with the bottom mold 10, the gob is placed on the blowing mechanism 2, then the motor 33 reverses to drive the side mold 3 to move inwards at the same time, in the moving process, the side mold 3 presses the clamping block 18 downwards to enable the clamping block 18 to be clamped with the clamping groove 25 again, when the two side molds 3 are closed and cover the gob, the blowing mechanism 2 blows the gob to blow into a glass bottle, then the side mold 3 is opened to two sides, the bottom mold 10 lifts with the glass bottle and takes out a finished product, and when the motor 33 rotates with the power shaft 34, the rotating column 28 is driven to rotate through the driving belt 38, the reaction magnet 29 on the rotating column 28 and the reaction iron plate 27 in the oil storage tank 26 can generate relative displacement rapidly, the magnetic field penetrating through the inside each reaction iron plate 27 continuously changes, so that the inside the reaction iron plate 27 generates vortex heat, the lubricating oil in the oil storage tank 26 begins to emit heat, and the lubricating oil in the oil storage tank 26 is heated, so that the lubricating oil is sprayed in the mold has a certain temperature.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. An environment-friendly glass bottle blowing device comprises a machine base (1);

the blowing mechanism (2) is fixedly arranged on the back surface of the machine base (1);

side dies (3) which are slidably arranged on two sides of the top of the machine base (1);

a power cavity (4) which is arranged on the back surface inside the machine base (1);

The control cavity (5) is arranged at the top of the machine base (1);

The extension cavity (6) is arranged in the machine base (1) and is communicated with the control cavity (5);

The method is characterized in that: the inside of the extension cavity (6) is slidably provided with an oil suction pipe (7) with a hollow inside, an inner one-way valve (8) is fixedly arranged in the oil suction pipe (7), the top end of the oil suction pipe (7) penetrates through the machine base (1) and extends to the outside of the machine base (1), the outer surface of the oil suction pipe (7) is fixedly provided with a sealing ring (9) which is positioned in the extension cavity (6), the top end of the oil suction pipe (7) is fixedly provided with a bottom die (10), and the outer surface of the bottom die (10) is movably connected with the inner surface of the side die (3);

The automatic feeding device is characterized in that nozzles (11) are fixedly arranged on two sides of the inside of the bottom die (10), an oil suction pipe (7) is communicated with the nozzles (11), a threaded pipe (12) is slidably arranged on the outer surface of the oil suction pipe (7) and above a sealing ring (9), an extension spring (13) is sleeved on the outer surface of the oil suction pipe (7), the top of the extension spring (13) is fixedly connected with the bottom end of the threaded pipe (12), the bottom of the extension spring (13) is fixedly connected with the top of the sealing ring (9), a round nut (14) is rotatably arranged in the control cavity (5), the inner surface of the round nut (14) is in threaded transmission connection with the outer surface of the threaded pipe (12), and a control mechanism (15) is slidably arranged on two sides of the inside of the control cavity (5);

oblique propping blocks (16) are fixedly arranged on two sides of the inner wall of the control cavity (5), the two control mechanisms (15) comprise sliding blocks (17), clamping blocks (18) are slidably arranged in the two sliding blocks (17), and the tops of the clamping blocks (18) penetrate through the sliding blocks (17) and extend to the outside of the sliding blocks (17);

the two sliding blocks (17) are provided with through holes (19) on the sides far away from each other, the two clamping blocks (18) are provided with inclined grooves (20) on the sides far away from each other, and the outer surfaces of the inclined supporting blocks (16) are movably connected with the through holes (19) and the inner surfaces of the inclined grooves (20);

The two sliding blocks (17) are fixedly provided with extrusion springs (24) on the sides far away from each other, the sides far away from each other of the two extrusion springs (24) are fixedly connected with the inner wall of the control cavity (5), clamping grooves (25) are formed in the bottoms of the two side dies (3), and the inner surfaces of the clamping grooves (25) are movably connected with the outer surfaces of the clamping blocks (18);

the device is characterized in that an oil storage tank (26) is fixedly arranged in the machine base (1), reaction iron plates (27) are fixedly arranged on two sides of the interior of the oil storage tank (26), a rotating column (28) is rotatably arranged in an inner cavity of the oil storage tank (26), and reaction magnets (29) are fixedly arranged on two sides of the rotating column (28);

The top end of the rotating column (28) penetrates through the oil storage tank (26) and extends to the outside of the oil storage tank (26), a connecting pipe (30) is communicated with the left side of the oil storage tank (26), the left end of the connecting pipe (30) penetrates through one side wall of the extending cavity (6) and extends to the inside of the extending cavity (6), an outer one-way valve (31) is fixedly arranged in the connecting pipe (30), the outer one-way valve (31) only allows liquid in the oil storage tank (26) to enter the inside of the extending cavity (6), and the inner one-way valve (8) only allows liquid in the extending cavity (6) to enter the inside of the oil suction pipe (7);

The two bottom of side mould (3) and be located the inside fixed mounting of power chamber (4) have extension board (32), the inside fixed mounting of power chamber (4) has motor (33), the output fixed mounting of motor (33) has power shaft (34), the top fixed mounting of power shaft (34) has power bevel gear (35).

2. An environment-friendly glass bottle blowing apparatus as claimed in claim 1, wherein: the bottom of fixture block (18) fixed mounting has return spring (21), the bottom of return spring (21) is connected with the internal surface fixed of sliding block (17), is located the left side the right side fixed mounting of sliding block (17) has long rack (22), tooth's socket (23) have been seted up to the surface of round nut (14), long rack (22) are engaged with tooth's socket (23).

3. An environment-friendly glass bottle blowing apparatus as claimed in claim 1, wherein: threaded rods (36) are rotatably mounted on two sides of the inside of the power cavity (4), one ends of the threaded rods (36) which are opposite penetrate through the extension plate (32) and extend to the outside of the extension plate (32), driving bevel gears (37) are fixedly mounted on one ends of the threaded rods (36), and the driving bevel gears (37) are meshed with the power bevel gears (35).

4. An environment-friendly glass bottle blowing apparatus as claimed in claim 1, wherein: the outer surface of the power shaft (34) is provided with a driving belt (38) through driving wheels, and the outer surface of the rotating column (28) is in driving connection with the inner surface of the driving belt (38) through driving wheels.