CN218151282U - Integrated high-viscosity pneumatic pump - Google Patents

Abstract

The utility model provides an integrated type high viscosity pneumatic pump, including the pump frame, install the integrated package on the pump frame, switch and air-vent valve are all installed on the integrated package. Due to the integrated block, the installation space is saved, air can be supplied to all switches and pressure regulating valves by only one air inlet pipe, and the installation is very simple and convenient.

Description

Integrated high-viscosity pneumatic pump

Technical Field

The utility model relates to a pneumatic pump technical field specifically is an integrated type high viscosity pneumatic pump.

Background

The pneumatic pump is a novel conveying machine and is the most novel pump in China. The compressed air is used as power source, and can be used for pumping and completely absorbing various corrosive liquids, liquids with particles, high viscosity, easy volatilization, flammability and high toxicity.

Wherein the high viscosity pneumatic pump is a heart of a high viscosity media delivery system. The device is used for conveying high-viscosity substances such as grease, ink and the like.

The high-viscosity pneumatic pump needs to be provided with an air source switch to control the on-off of compressed air; a pressure regulating valve is also installed to regulate the air pressure. Traditional air supply switch and air-vent valve all are solitary installation pneumatic pump support's different positions, and solitary intake pipe all need be connected to its entry, and the installation space that not only needs is big, installs very loaded down with trivial details moreover.

SUMMERY OF THE UTILITY MODEL

For solving the technical problem in the background art, the utility model discloses an integrated type high viscosity pneumatic pump.

The utility model provides an integrated type high viscosity pneumatic pump, including the pump frame, install the integrated package on the pump frame, switch and air-vent valve are all installed on the integrated package.

Due to the integrated block, the installation space is saved, air can be supplied to all switches and pressure regulating valves by only one air inlet pipe, and the installation is very simple and convenient.

To illustrate the structure of the air passages in the manifold block, in the present embodiment, the manifold block includes an inlet, and the inlet is divided into a plurality of air passages connected in parallel. The method comprises the following specific steps:

the air passages comprise a first air passage, a second air passage and a third air passage which are connected in parallel;

a first pressure regulating valve and a first air source switch are connected in series on the first air passage, the first pressure regulating valve is used for regulating the air pressure of the air motor, and the first air source switch is used for switching on and off compressed air of the air motor;

the second air passage is led out from the first air passage, and is provided with a second pressure regulating valve for regulating the air pressure of the lifting cylinder;

the third air passage is led out from the first air passage and is provided with a pneumatic button for connecting or disconnecting the high-viscosity pneumatic pump with the charging barrel.

In order to explain the specific installation structure of the switch and the pressure regulating valve, in the scheme, one end of the integrated block is set as the inlet, and a second air source switch is installed;

the first air channel penetrates through two ends of the integrated block;

the other end of the integrated block is sequentially provided with the first pressure regulating valve and the first air source switch;

the second pressure regulating valve, the rotary valve and the pneumatic button are arranged on the side part of the integrated block.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a front view of the integrated package;

FIG. 3 is a left side view of the integrated package;

in the figure: 1. a pump frame; 2. integrating the blocks; 3. a first pressure regulating valve; 4. a first air supply switch; 5. an air motor; 6. a second pressure regulating valve; 7. rotating the valve; 8. a lifting cylinder; 9. a pneumatic button; 10. a second air source switch; 21. an inlet; 22. a first air passage; 23. a second air passage; 24. and a third air passage.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic drawings, which illustrate the basic structure of the present invention in a schematic manner, and thus show only the components related to the present invention.

As shown in fig. 1, the utility model relates to an integrated type high viscosity pneumatic pump, including pump bracket 1 and integrated package 2, integrated package 2 passes through the connecting plate to be installed on pump bracket 1.

As shown in fig. 2 and 3, the lower end of the manifold block 2 is provided with an inlet 21 for connecting a compressed air source, and a second air source switch 10 is installed for controlling the on-off of the compressed air main pipe. The upper end of the manifold block 2 is sequentially provided with a first pressure regulating valve 3 and a first air source switch 4, and the side part is provided with a second pressure regulating valve 6, a rotary valve 7 and a pneumatic button 9.

A first air duct 22 provided with an inlet 21 penetrates both ends of the manifold block 2. The first air duct 22 also leads out a second air duct 23 and a third air duct 24 connected in parallel.

The first pressure regulating valve 3 and the first air source switch 4 are connected in series on the first air passage 22, the first pressure regulating valve 3 is used for regulating the air pressure of the air motor 5, and the first air source switch 4 is used for controlling the on-off of the compressed air of the air motor 5.

The second air passage 23 is connected with the second pressure regulating valve 6, and the rotary valve 7 is used for controlling the second air passage 23 to be switched on and off, so that the lifting cylinder 8 is controlled to lift; the second pressure regulating valve 6 is used to regulate the air pressure of the lift cylinder 8.

The third air duct 24 is connected to the pneumatic push-button 9 for connecting or disconnecting the high viscosity pneumatic pump to the cartridge.

The manifold block 2 is also provided with two pressure gauges for respectively measuring the air pressure of the air motor 5 and the air pressure of the lifting cylinder 8.

The arrangement of the integrated block 2 not only saves the installation space, but also can ventilate all switches and pressure regulating valves by only one air inlet pipe, and the installation is very simple and convenient.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the description, and must be determined according to the scope of the claims.

Claims (2)

1. An integrated high viscosity pneumatic pump, includes pump frame (1), its characterized in that: an integrated block (2) is arranged on the pump frame (1), and a switch and a pressure regulating valve are arranged on the integrated block (2);

the manifold block (2) comprises an inlet (21), and the inlet (21) is divided into a plurality of parallel air passages;

the air passages comprise a first air passage (22), a second air passage (23) and a third air passage (24) which are connected in parallel;

a first pressure regulating valve (3) and a first air source switch (4) are connected in series on the first air passage (22), the first pressure regulating valve (3) is used for regulating the air pressure of an air motor (5), and the first air source switch (4) is used for switching on and off compressed air of the air motor (5);

the second air passage (23) is led out from the first air passage (22), is provided with a second pressure regulating valve (6) and is used for regulating the air pressure of the lifting cylinder (8), and the manifold block (2) is provided with a rotary valve (7) and is used for controlling the on-off of the second air passage (23) so as to control the lifting cylinder (8) to lift;

the third air channel (24) is led out from the first air channel (22) and is provided with a pneumatic button (9) for connecting or disconnecting the high-viscosity pneumatic pump with the charging barrel.

2. An integrated high viscosity pneumatic pump as set forth in claim 1, wherein: one end of the integrated block (2) is provided with the inlet (21) and is provided with a second air source switch (10);

the first air passage (22) penetrates through two ends of the integrated block (2);

the other end of the integrated block (2) is sequentially provided with the first pressure regulating valve (3) and the first air source switch (4);

the second pressure regulating valve (6), the rotary valve (7) and the pneumatic button (9) are arranged on the side part of the integrated block (2).

Images