CN210911114U - Seal integrative bottle blowing device of valve - Google Patents

Abstract

The utility model relates to a valve-sealing integrated bottle blowing device, which comprises a triple electromagnetic valve component and a sealing component, wherein one side of the sealing component is connected with one side of the triple electromagnetic valve component; the triple electromagnetic valve assembly comprises a high-pressure distribution block, a triple high-pressure valve body, a first electromagnetic valve assembly, a second electromagnetic valve assembly and a third electromagnetic valve assembly, the three electromagnetic valve assemblies have the same structure, a first air inlet and a first exhaust port are formed in the high-pressure distribution block, the triple high-pressure valve body is arranged on the high-pressure distribution block, and the three electromagnetic valve assemblies are respectively arranged on the triple high-pressure valve body; the first electromagnetic valve component comprises an electromagnetic valve switch, a cylinder body and a piston, a second air inlet and a second air outlet are formed in the cylinder body, the electromagnetic valve switch is arranged on the cylinder body, the cylinder body is arranged on the triple high-pressure valve body, and the piston is arranged between the cylinder body and the triple high-pressure valve body. By integrating the triple solenoid valve assembly with the seal assembly, gas waste is reduced.

Description

Seal integrative bottle blowing device of valve

Technical Field

The utility model relates to a bottle blowing equipment field especially relates to a seal integrative bottle blowing device of valve.

Background

The bottle blowing principle is that the bottle preform is blown and molded by heating the prefabricated bottle preform and then sealing the opening of the bottle preform, and in order to avoid air leakage, a sealing assembly is usually arranged at a position where a bottle opening is contacted to seal so as to achieve an airtight effect, so that waste of air is avoided. However, the electromagnetic valves in the market all adopt imported electromagnetic valves, and additional pipe fittings are needed to connect the sealing assembly and the electromagnetic valves, so that the equipment volume and the equipment cost are increased, and meanwhile, the volume of gas transmission can be increased by the additional pipe fittings, so that the additional volume emission and the energy consumption are caused, and the production cost is increased.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to solve the above problems in the prior art, the utility model provides a seal integrative bottle blowing device of valve, can reduction in production cost.

(II) technical scheme

In order to achieve the above object, the utility model discloses a main technical scheme include: a bottle blowing device with an integrated sealing valve comprises a triple electromagnetic valve component and a sealing component, wherein one side of the sealing component is connected with one side of the triple electromagnetic valve component;

the triple electromagnetic valve assembly comprises a high-pressure distribution block, a triple high-pressure valve body, a first electromagnetic valve assembly, a second electromagnetic valve assembly and a third electromagnetic valve assembly, the first electromagnetic valve assembly, the second electromagnetic valve assembly and the third electromagnetic valve assembly are identical in structure, a first air inlet and a first air outlet are formed in the high-pressure distribution block, the triple high-pressure valve body is arranged on the high-pressure distribution block, the first electromagnetic valve assembly, the second electromagnetic valve assembly and the third electromagnetic valve assembly are respectively arranged on the triple high-pressure valve body, the first electromagnetic valve assembly is used for controlling the sealing assembly to output high-pressure gas, the second electromagnetic valve assembly is used for controlling the recovery of the high-pressure gas, and the third electromagnetic valve assembly is used for controlling the discharge of the high-pressure gas;

first solenoid valve subassembly includes solenoid valve switch, cylinder body and piston, be equipped with second air inlet and second gas vent on the cylinder body, the solenoid valve switch set up in on the cylinder body and be used for control the business turn over gas of cylinder body, the cylinder body set up in on the trigeminy high-pressure valve body, the piston set up in between cylinder body and the trigeminy high-pressure valve body, just the piston forms two pressure air cavities with cylinder body and trigeminy high-pressure valve body respectively.

Furthermore, the piston is T-shaped, and the area of the top surface of the piston is larger than that of the bottom surface of the piston.

Further, first solenoid valve subassembly still includes solid fixed ring, gu fixed ring with piston looks adaptation, gu fixed ring set up in the below of piston.

Further, the first solenoid valve assembly further comprises a first sealing ring, and the first sealing ring is arranged at the joint of the piston and the fixing ring.

Further, the triple solenoid valve assembly further comprises a silencer, and the silencer is arranged on the first exhaust port.

Further, the triple solenoid valve assembly further comprises a valve sealing connecting block, and the valve sealing connecting block is arranged between the triple solenoid valve assembly and the sealing assembly.

Further, the device also comprises a pre-blowing assembly, wherein one side of the pre-blowing assembly is connected with the other side of the sealing assembly;

the pre-blowing assembly comprises a fourth solenoid valve assembly, a pre-blowing connecting seat and a control assembly, the fourth solenoid valve assembly is the same as the first solenoid valve assembly in structure, the fourth solenoid valve assembly is arranged on the pre-blowing connecting seat, and the control assembly is arranged on the other side of the pre-blowing assembly;

the control assembly comprises a throttling rotating shaft and a throttling plug, one end of the throttling plug is arranged in the inner portion of the other side of the pre-blowing connecting seat, the other end of the throttling plug is arranged outside the other side of the pre-blowing connecting seat and connected with one end of the throttling rotating shaft, and one end of the throttling rotating shaft can drive the throttling plug to rotate on the pre-blowing connecting seat and can enable one end of the throttling plug to move between two sides of the pre-blowing connecting seat when the throttling plug rotates and rotates.

Further, the control assembly still includes the pivot fixed block, the pivot fixed block set up in the opposite side of blowing the subassembly in advance, the one end of throttle pivot is passed the pivot fixed block with but blowing subassembly rotatable coupling in advance.

Further, the control assembly further comprises a position displayer, the position displayer is arranged on the rotating shaft fixing block, and one end of the throttling rotating shaft penetrates through the position displayer and the rotating shaft fixing block in sequence and is connected with the other end of the throttling plug.

Further, still include second sealing washer and third sealing washer, the second sealing washer set up in the junction of throttle pivot and throttle end cap, the third sealing washer set up in the throttle pivot with the junction of pivot fixed block.

(III) advantageous effects

The utility model has the advantages that: through forming an organic whole with trigeminy solenoid valve subassembly and seal the subassembly lug connection together, do not need extra pipe fitting to connect both, reduced equipment volume and equipment cost to reduce the gas volume of the circulation between trigeminy solenoid valve subassembly and the seal subassembly greatly, reduce gaseous extravagant, improved energy-conserving effect. In addition, the gas can be recycled, so that the gas can be continuously utilized, and the energy-saving effect is further improved.

(IV) supplementary explanation

The utility model discloses the high-pressure gas who mentions in is the gaseous brief writing method of high pressure, and on the same way, the low-pressure gas is the gaseous brief writing method of low pressure.

Drawings

FIG. 1 is a first structural diagram of a valve-sealing integrated bottle blowing device of the present invention;

FIG. 2 is a second schematic structural view of the valve-sealing integrated bottle blowing device of the present invention;

FIG. 3 is a side view of the sealing valve integrated bottle blowing device of the present invention;

FIG. 4 is an exploded view of a triple solenoid valve assembly of the valve-sealing integrated bottle blowing device of the present invention;

FIG. 5 is an exploded view of a pre-blowing assembly of the valve-sealing integrated bottle blowing device of the present invention;

[ description of reference ]

1. A triple solenoid valve assembly; 11. a first air inlet; 12. a muffler; 13. a high-pressure air distribution block; 14. a triple high pressure valve body; 15. a valve sealing connecting block; 16. a solenoid valve switch; 17. a cylinder body; 18. a piston; 19. a first seal ring; 110. a fixing ring; 111. a first solenoid valve assembly; 112. a second solenoid valve assembly; 113. a third solenoid valve assembly;

2. a seal assembly;

3. a pre-blow assembly; 31. a pre-blowing connecting seat; 32. a throttling plug; 33. a second seal ring; 34. a throttle shaft; 35. a third seal ring; 36. a rotating shaft fixing block; 37. a position display; 38. a fourth solenoid valve assembly.

Detailed Description

For a better understanding of the present invention, reference will now be made in detail to the present invention, examples of which are illustrated in the accompanying drawings.

Referring to fig. 1 to 5, a bottle blowing device with integrated sealing valve comprises a triple solenoid valve assembly and a sealing assembly, wherein one side of the sealing assembly is connected with one side of the triple solenoid valve assembly;

the triple electromagnetic valve assembly comprises a high-pressure distribution block, a triple high-pressure valve body, a first electromagnetic valve assembly, a second electromagnetic valve assembly and a third electromagnetic valve assembly, the first electromagnetic valve assembly, the second electromagnetic valve assembly and the third electromagnetic valve assembly are identical in structure, a first air inlet and a first air outlet are formed in the high-pressure distribution block, the triple high-pressure valve body is arranged on the high-pressure distribution block, the first electromagnetic valve assembly, the second electromagnetic valve assembly and the third electromagnetic valve assembly are respectively arranged on the triple high-pressure valve body, the first electromagnetic valve assembly is used for controlling the sealing assembly to output high-pressure gas, the second electromagnetic valve assembly is used for controlling the recovery of the high-pressure gas, and the third electromagnetic valve assembly is used for controlling the discharge of the high-pressure gas;

first solenoid valve subassembly includes solenoid valve switch, cylinder body and piston, be equipped with second air inlet and second gas vent on the cylinder body, the solenoid valve switch set up in on the cylinder body and be used for control the business turn over gas of cylinder body, the cylinder body set up in on the trigeminy high-pressure valve body, the piston set up in between cylinder body and the trigeminy high-pressure valve body, just the piston forms two pressure air cavities with cylinder body and trigeminy high-pressure valve body respectively.

The principle of the utility model is that: the electromagnetic valve switch achieves the effect of controlling the closing or opening of the electromagnetic valve by controlling whether the gas pressure of the pressure gas cavity on the upper part of the piston is larger than that on the lower part of the piston, before bottle blowing starts, a sealing assembly is used for sealing the opening part of a bottle blank, then high-pressure gas is blown in from a first gas inlet, the electromagnetic valve switch is in a closed state in an initial state, the gas pressure of the pressure gas cavity on the upper part of the piston is larger than that on the lower part of the piston, the electromagnetic valve switch is opened, so that the gas of the pressure gas cavity on the upper part of the piston of each electromagnetic valve assembly (namely a first electromagnetic valve assembly, a second electromagnetic valve assembly and a third electromagnetic valve assembly) is discharged from a second gas outlet, the gas pressure of the pressure gas cavity on the lower part of the piston is larger than that on the upper part of the piston, the piston moves upwards to enable the high-pressure gas not to be blocked and limited, after the bottle blank is molded, the electromagnetic valve switch is closed, the second electromagnetic valve component recovers the rest high-pressure gas from the second gas inlet of the exhaust cylinder of each electromagnetic valve component to the pressure gas cavity on the upper part of the piston for recycling, so that the gas pressure of the pressure gas cavity on the upper part of the piston is greater than that of the pressure gas cavity on the lower part of the piston, the piston moves downwards to enable the electromagnetic valve to be in a closed state, and finally the third electromagnetic valve component exhausts the rest high-pressure gas from the first exhaust port, so that the bottle blank is molded by blowing once.

From the above description, the beneficial effects of the present invention are: through forming an organic whole with trigeminy solenoid valve subassembly and seal the subassembly lug connection together, do not need extra pipe fitting to connect both, reduced equipment volume and equipment cost to reduce the gas volume of the circulation between trigeminy solenoid valve subassembly and the seal subassembly greatly, reduce gaseous extravagant, improved energy-conserving effect. In addition, the gas can be recycled, so that the gas can be continuously utilized, and the energy-saving effect is further improved.

Furthermore, the piston is T-shaped, and the area of the top surface of the piston is larger than that of the bottom surface of the piston.

From the above description, since the pressure formula is: the piston is characterized in that the piston is in a T-shaped shape, the top surface area of the piston is larger than the bottom surface area, high-pressure gas is introduced into the pressure gas cavity of the lower half part of the piston to blow and shape the bottle blank, and a proper amount of low-pressure gas is added into the pressure gas cavity of the upper half part of the piston to realize that the gas pressure of the pressure gas cavity of the upper half part of the piston is larger than that of the pressure gas cavity of the lower half part of the piston (namely, the top surface area of the piston at the upper half part of the piston is larger than that of the piston at the upper half part of the piston), so that the up-and-down movement of the piston can be controlled at a high speed by controlling the pumping and discharging of the low-pressure gas in the pressure gas cavity of the upper half part of the piston, and the.

Further, first solenoid valve subassembly still includes solid fixed ring, gu fixed ring with piston looks adaptation, gu fixed ring set up in the below of piston.

As apparent from the above description, by providing the fixing ring below the piston, the stability of the movement of the piston can be improved.

Further, the first solenoid valve assembly further comprises a first sealing ring, and the first sealing ring is arranged at the joint of the piston and the fixing ring.

From the above description, it can be known that the first sealing ring is arranged at the joint of the piston and the fixing ring, so that the sealing performance of the piston during movement can be improved.

Further, the triple solenoid valve assembly further comprises a silencer, and the silencer is arranged on the first exhaust port.

As can be seen from the above description, since the high pressure gas is discharged from the first port to generate a loud sound, thereby causing noise pollution, the provision of the silencer at the first exhaust port enables the sound of the high pressure gas to be greatly reduced, thereby greatly reducing the noise pollution.

Further, the triple solenoid valve assembly further comprises a valve sealing connecting block, and the valve sealing connecting block is arranged between the triple solenoid valve assembly and the sealing assembly.

As can be seen from the above description, the connection between the triple solenoid valve assembly and the seal assembly can be more stable by providing the seal connecting block between the triple solenoid valve assembly and the seal assembly.

Further, the device also comprises a pre-blowing assembly, wherein one side of the pre-blowing assembly is connected with the other side of the sealing assembly;

the pre-blowing assembly comprises a fourth solenoid valve assembly, a pre-blowing connecting seat and a control assembly, the fourth solenoid valve assembly is the same as the first solenoid valve assembly in structure, the fourth solenoid valve assembly is arranged on the pre-blowing connecting seat, and the control assembly is arranged on the other side of the pre-blowing assembly;

the control assembly comprises a throttling rotating shaft and a throttling plug, one end of the throttling plug is arranged in the inner portion of the other side of the pre-blowing connecting seat, the other end of the throttling plug is arranged outside the other side of the pre-blowing connecting seat and connected with one end of the throttling rotating shaft, and one end of the throttling rotating shaft can drive the throttling plug to rotate on the pre-blowing connecting seat and can enable one end of the throttling plug to move between two sides of the pre-blowing connecting seat when the throttling plug rotates and rotates.

From the above description, before the seal group lets in high-pressure gas to carry out high-pressure blowing to the bottle embryo, use the subassembly of blowing in advance to seal the group and let in low-pressure gas to blow in advance to the bottle embryo, avoid bottle embryo "fiercely" to receive high-pressure blowing and lead to the bottle embryo damage, through rotating throttle pivot control throttle end cap flexible in blowing in advance the connecting seat to control the gaseous flow size of low pressure, easy operation is convenient.

Further, the control assembly still includes the pivot fixed block, the pivot fixed block set up in the opposite side of blowing the subassembly in advance, the one end of throttle pivot is passed the pivot fixed block with but blowing subassembly rotatable coupling in advance.

As can be seen from the above description, by providing the shaft fixing block, the shaft can be rotated more stably, increasing stability.

Further, the control assembly further comprises a position displayer, the position displayer is arranged on the rotating shaft fixing block, and one end of the throttling rotating shaft penetrates through the position displayer and the rotating shaft fixing block in sequence and is connected with the other end of the throttling plug.

From the above description, it can be known that the rotation of the throttling rotating shaft can be more accurately controlled by arranging the position display on the rotating shaft fixing block, so that the flow of the gas can be accurately controlled, and the precision of the device is improved.

Further, still include second sealing washer and third sealing washer, the second sealing washer set up in the junction of throttle pivot and throttle end cap, the third sealing washer set up in the throttle pivot with the junction of pivot fixed block.

According to the above description, the arrangement of the second sealing ring and the third sealing ring improves the sealing performance of the throttling rotating shaft, the throttling plug and the rotating shaft fixing block, reduces the gas loss, and further saves the gas cost.

Example one

Referring to fig. 1 to 5, a bottle blowing device with integrated sealing valve includes a triple solenoid valve assembly 1 and a sealing assembly 2, wherein one side of the sealing assembly 2 is connected with one side of the triple solenoid valve assembly 1;

the triple solenoid valve assembly 1 comprises a high-pressure distribution block 13, a triple high-pressure valve body 14, a first solenoid valve assembly 111, a second solenoid valve assembly 112 and a third solenoid valve assembly 113, the structures of the first solenoid valve assembly 111, the second solenoid valve assembly 112 and the third solenoid valve assembly 113 are the same, the high-pressure distribution block 13 is provided with a first air inlet 11 and a first air outlet, the triple high-pressure valve body 14 is arranged on the high-pressure distribution block 13, the first solenoid valve assembly 111, the second solenoid valve assembly 112 and the third solenoid valve assembly 113 are respectively arranged on the triple high-pressure valve body 14, the first solenoid valve assembly 111 is used for controlling high-pressure gas output to the sealing assembly 2, the second solenoid valve assembly 112 is used for controlling high-pressure gas recovery, and the third solenoid valve assembly 113 is used for controlling high-pressure gas discharge;

first solenoid valve subassembly 111 includes solenoid valve switch 16, cylinder body 17 and piston 18, be equipped with second air inlet and second gas vent on the cylinder body 17, solenoid valve switch 16 set up in be used for controlling on the cylinder body 17 the business turn over gas of cylinder body 17, cylinder body 17 set up in on the trigeminy high pressure valve body 14, piston 18 set up in between cylinder body 17 and the trigeminy high pressure valve body 14, just piston 18 forms two pressure air chambers with cylinder body 17 and trigeminy high pressure valve body 14 respectively.

Specifically, the first solenoid valve assembly 111 is disposed on one side of the triple high-pressure valve body 14 close to the seal assembly 2, the third solenoid valve assembly 113 is disposed on one side of the triple high-pressure valve body 14 far from the seal assembly 2, the second solenoid valve assembly 112 is disposed between the first solenoid valve assembly 111 and the third solenoid valve assembly 113, and the first exhaust port is disposed on one side of the triple high-pressure valve body 14 far from the seal assembly 2; the function is as follows: the high-pressure gas can be more efficiently output to the opening closure assembly 2 by arranging the first solenoid valve assembly 111 close to the opening closure assembly 2, the high-pressure gas can be more efficiently distributed to the first solenoid valve assembly 111 and the third solenoid valve assembly 113 when the high-pressure gas is recovered by arranging the second solenoid valve assembly 112 between the first solenoid valve assembly 111 and the third solenoid valve assembly 113, and the gas discharge efficiency is improved by arranging the third solenoid valve assembly 113 close to the first gas discharge port;

in addition, the number of the first solenoid valve assembly 111, the second solenoid valve assembly 112 and the third solenoid valve assembly 113 is multiple, the number of the first solenoid valve assembly 111, the second solenoid valve assembly 112 and the third solenoid valve assembly 113 is matched with the number of the sealing assemblies 2, and the first solenoid valve assembly 111, the second solenoid valve assembly 112 and the third solenoid valve assembly 113 are arranged on the triple high-pressure valve body 14 side by side. Thereby can once only carry out the moulding of blowing of a plurality of bottle embryo, improve efficiency.

The piston 18 is in a T shape, and the area of the top surface of the piston 18 is larger than that of the bottom surface.

The first solenoid valve assembly 111 further includes a fixing ring 110, the fixing ring 110 is adapted to the piston 18, and the fixing ring 110 is disposed below the piston 18.

The first solenoid valve assembly 111 further includes a first sealing ring 19, and the first sealing ring 19 is disposed at a connection position of the piston 18 and the fixing ring 110.

Wherein, the triple solenoid valve assembly 1 further comprises a silencer 12, and the silencer 12 is arranged on the first exhaust port.

The triple electromagnetic valve assembly 1 further comprises a valve sealing connecting block 15, and the valve sealing connecting block 15 is arranged between the triple electromagnetic valve assembly 1 and the sealing assembly 2.

The sealing device also comprises a pre-blowing component 3, wherein one side of the pre-blowing component 3 is connected with the other side of the sealing component 2;

the pre-blowing assembly 3 comprises a fourth solenoid valve assembly 38, a pre-blowing connecting seat 31 and a control assembly, the fourth solenoid valve assembly 38 has the same structure as the first solenoid valve assembly 111, the fourth solenoid valve assembly 38 is arranged on the pre-blowing connecting seat 31, and the control assembly is arranged on the other side of the pre-blowing assembly 3;

the control assembly comprises a throttling rotating shaft 34 and a throttling plug 32, one end of the throttling plug 32 is arranged in the inner portion of the other side of the pre-blowing connecting seat 31, the other end of the throttling plug 32 is arranged in the outer portion of the other side of the pre-blowing connecting seat 31 and connected with one end of the throttling rotating shaft 34, one end of the throttling rotating shaft 34 can drive the throttling plug 32 to rotate on the pre-blowing connecting seat 31, and one end of the throttling plug 32 can move between two sides of the pre-blowing connecting seat 31 when the throttling plug 32 rotates.

The control assembly further comprises a rotating shaft fixing block 36, the rotating shaft fixing block 36 is arranged on the other side of the pre-blowing assembly 3, and one end of the throttling rotating shaft 34 penetrates through the rotating shaft fixing block 36 and the pre-blowing assembly 3 in a rotatable connection mode.

The control assembly further comprises a position display 37, the position display 37 is arranged on the rotating shaft fixing block 36, and one end of the throttling rotating shaft 34 sequentially penetrates through the position display 37 and the rotating shaft fixing block 36 and is connected with the other end of the throttling plug 32.

The throttling device further comprises a second sealing ring 33 and a third sealing ring 35, wherein the second sealing ring 33 is arranged at the joint of the throttling rotating shaft 34 and the throttling plug 32, and the third sealing ring 35 is arranged at the joint of the throttling rotating shaft 34 and the rotating shaft fixing block 36.

The principle of the utility model is that: before a sealing group is filled with high-pressure gas to blow a bottle blank at high pressure, a sealing assembly 2 is used for sealing the opening of the bottle blank, a pre-blowing assembly 3 is used for filling low-pressure gas into the sealing group to pre-blow the bottle blank, the bottle blank is prevented from being damaged by high-pressure blowing, then the high-pressure gas is blown in from a first gas inlet 11, because an electromagnetic valve is in a closed state, the gas pressure of a pressure gas cavity at the upper part of a piston 18 is greater than that of the pressure gas cavity at the lower part of the piston 18, an electromagnetic valve switch 16 is opened, so that the gas of the pressure gas cavity at the upper part of the piston 18 is discharged from a second gas outlet, the gas pressure of the pressure gas cavity at the lower part of the piston 18 is greater than that of the pressure gas cavity at the upper part of the piston 18, the piston 18 moves upwards, the first electromagnetic valve assembly 111 conveys the high-pressure gas to the sealing assembly 2 to blow and shape the bottle blank, and after the bottle blank The solenoid valve switch 16 is closed and the third solenoid valve assembly 113 discharges the residual high-pressure gas from the first exhaust port, thereby completing the blow molding of the bottle preform.

To sum up, the utility model provides a seal integrative bottle blowing device of valve forms integratively through with trigeminy solenoid valve subassembly and seal the subassembly lug connection together, does not need extra pipe fitting to connect both, has reduced equipment volume and equipment cost to the gas volume of the circulation between trigeminy solenoid valve subassembly and the seal subassembly has been reduced greatly, and it is extravagant to reduce gas, has improved energy-conserving effect. In addition, the gas can be recycled, so that the gas can be continuously utilized, and the energy-saving effect is further improved. In addition, before the sealing group is filled with high-pressure gas to blow the bottle blank at high pressure, the pre-blowing assembly is firstly used for filling low-pressure gas to blow the bottle blank in advance to the sealing group, so that the bottle blank is prevented from being damaged due to high-pressure blowing, the throttling plug is controlled to stretch out and draw back in the pre-blowing connecting seat by rotating the throttling rotating shaft, the flow of the low-pressure gas is controlled, and the operation is simple and convenient.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (10)

1. A bottle blowing device with an integrated sealing valve is characterized by comprising a triple electromagnetic valve component and a sealing component, wherein one side of the sealing component is connected with one side of the triple electromagnetic valve component;

the triple electromagnetic valve assembly comprises a high-pressure distribution block, a triple high-pressure valve body, a first electromagnetic valve assembly, a second electromagnetic valve assembly and a third electromagnetic valve assembly, the first electromagnetic valve assembly, the second electromagnetic valve assembly and the third electromagnetic valve assembly are identical in structure, a first air inlet and a first air outlet are formed in the high-pressure distribution block, the triple high-pressure valve body is arranged on the high-pressure distribution block, the first electromagnetic valve assembly, the second electromagnetic valve assembly and the third electromagnetic valve assembly are respectively arranged on the triple high-pressure valve body, the first electromagnetic valve assembly is used for controlling the sealing assembly to output high-pressure gas, the second electromagnetic valve assembly is used for controlling the recovery of the high-pressure gas, and the third electromagnetic valve assembly is used for controlling the discharge of the high-pressure gas;

first solenoid valve subassembly includes solenoid valve switch, cylinder body and piston, be equipped with second air inlet and second gas vent on the cylinder body, the solenoid valve switch set up in on the cylinder body and be used for control the business turn over gas of cylinder body, the cylinder body set up in on the trigeminy high-pressure valve body, the piston set up in between cylinder body and the trigeminy high-pressure valve body, just the piston forms two pressure air cavities with cylinder body and trigeminy high-pressure valve body respectively.

2. The valve-sealing integrated bottle blowing device according to claim 1, wherein the piston is T-shaped, and the area of the top surface of the piston is larger than that of the bottom surface.

3. The valve-sealing integrated bottle blowing device according to claim 1, wherein the first solenoid valve assembly further comprises a fixing ring, the fixing ring is fitted with the piston, and the fixing ring is disposed below the piston.

4. The valve-sealing integrated bottle blowing device according to claim 3, wherein the first solenoid valve assembly further comprises a first sealing ring, and the first sealing ring is arranged at the joint of the piston and the fixing ring.

5. The valve-sealing integrated bottle blowing device according to claim 1, wherein the triple solenoid valve assembly further comprises a silencer, and the silencer is disposed on the first exhaust port.

6. The valve-sealing integrated bottle blowing device according to claim 1, wherein the triple solenoid valve assembly further comprises a valve-sealing connecting block disposed between the triple solenoid valve assembly and the sealing assembly.

7. The valve-sealing integrated bottle blowing device according to any one of claims 1 to 4, further comprising a pre-blowing assembly, wherein one side of the pre-blowing assembly is connected with the other side of the sealing assembly;

the pre-blowing assembly comprises a fourth solenoid valve assembly, a pre-blowing connecting seat and a control assembly, the fourth solenoid valve assembly is the same as the first solenoid valve assembly in structure, the fourth solenoid valve assembly is arranged on the pre-blowing connecting seat, and the control assembly is arranged on the other side of the pre-blowing assembly;

the control assembly comprises a throttling rotating shaft and a throttling plug, one end of the throttling plug is arranged in the inner portion of the other side of the pre-blowing connecting seat, the other end of the throttling plug is arranged outside the other side of the pre-blowing connecting seat and connected with one end of the throttling rotating shaft, and one end of the throttling rotating shaft can drive the throttling plug to rotate on the pre-blowing connecting seat and can enable one end of the throttling plug to move between two sides of the pre-blowing connecting seat when the throttling plug rotates and rotates.

8. The valve-sealing integrated bottle blowing device according to claim 7, wherein the control assembly further comprises a rotating shaft fixing block, the rotating shaft fixing block is arranged on the other side of the pre-blowing assembly, and one end of the throttling rotating shaft penetrates through the rotating shaft fixing block to be rotatably connected with the pre-blowing assembly.

9. The valve-sealing integrated bottle blowing device according to claim 8, wherein the control assembly further comprises a position display, the position display is arranged on the rotating shaft fixing block, and one end of the throttling rotating shaft sequentially penetrates through the position display and the rotating shaft fixing block to be connected with the other end of the throttling plug.

10. The valve-sealing integrated bottle blowing device according to claim 8 or 9, further comprising a second sealing ring and a third sealing ring, wherein the second sealing ring is arranged at the joint of the throttling rotating shaft and the throttling plug, and the third sealing ring is arranged at the joint of the throttling rotating shaft and the rotating shaft fixing block.

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