CN216150487U - High-efficiency micro-power vacuumizing device - Google Patents

Abstract

The utility model provides a high-efficiency micro-power vacuum-pumping device, which comprises: the device comprises a device main body, a water tank, a vacuum tank and a pressure gauge, wherein the water tank is arranged below the right side of the device main body, the vacuum tank is arranged on the left side of the water tank, the pressure gauge is arranged above the right side of the front surface of the water tank, a first pump is arranged on the left side of a vacuum tube, a second pump is arranged below the first pump, a stabilizing support is arranged at the bottom of the vacuum tank, and a vacuumizing mechanism is arranged above the water tank. The vacuum pump and the water spraying valve are arranged, so that the pressure of water spraying can be improved, the water outlet efficiency is higher, and the vacuum pump is more suitable for the technical field of vacuum devices in actual use.

Description

High-efficiency micro-power vacuumizing device

Technical Field

The utility model belongs to the technical field of vacuum devices, and particularly relates to a high-efficiency micro-power vacuum pumping device.

Background

The vacuum pumping device comprises a machine, a chemical industry, a low-temperature device, a medicine, food, an industrial electric furnace, an electronic industry, a vacuum device, a chemical fertilizer, metallurgy, petroleum, a mine, thermal power and other fields, wherein the fields are required to be vacuumized by pumping gas, the fields can be roughly divided into three types of rough vacuum, high vacuum and ultrahigh vacuum according to the pressure for obtaining vacuum, the absolute pressure of the vacuum is generally in the range of 2-4 KPa, the fields are numerous industries, the service industry and daily life, the requirement for vacuum is the most, the device for pumping gas to be vacuumized is commonly used at present, the unit energy consumption of the pumped gas is high, the efficiency is low, and the water spraying efficiency is slow, so that the high-efficiency micro-power vacuumizing device is urgently needed to solve the problems.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide a high-efficiency micro-power vacuumizing device and solve the problems in the background technology.

The utility model is realized by the following technical scheme: high-efficient fine motion power evacuating device includes: the device comprises a device main body, a water tank, a vacuum tank and a pressure gauge, wherein the water tank is arranged below the right side of the device main body, the vacuum tank sets up in the water tank left side, the manometer sets up in the positive right side top of water tank, a pump sets up in the vacuum tube left side, No. two pumps set up in a pump below, the stabilizing support sets up in the vacuum tank bottom, evacuation mechanism sets up in the water tank top, the blast pipe sets up in the middle of evacuation mechanism right flank, the gassing hole is seted up in the middle of the vacuum tank left side, two water pump buttons are installed respectively in a pump and No. two pump right sides tops, the vacuum tube sets up in the vacuum tank top, the rotating machine sets up on water tank top right side, the water level table is established in the positive middle of the water tank, the outlet is seted up in water tank right flank below, rabbling mechanism sets up in the inside left side of water tank, the jet pump sets up in water tank back left side below, the water spray valve sets up on the jet pump right side.

As a preferred embodiment, the inside of the water tank is connected with a pressure gauge in actual use, the water tank is connected with the right end of the first pump through a connecting pipe in actual use, and the vacuumizing mechanism is connected with the left end of the first pump through a connecting pipe in actual use.

As a preferred embodiment, the water tank is connected with the right end of the second pump through a connecting pipe in actual use, and the vacuumizing mechanism is connected with the left end of the second pump through a connecting pipe in actual use.

In a preferred embodiment, the bottom of the vacuum tank is connected with the stabilizing bracket during actual use, the vacuum tank is connected with the left end of the vacuumizing mechanism through a vacuum pipe during actual use, and the water tank is connected with the lower end of the vacuumizing mechanism through a connecting pipe during actual use.

As a preferred embodiment, the water pump button is connected with the first pump through an electric wire during actual use, the water pump button is connected with the second pump through an electric wire during actual use, and the stirring mechanism is connected with the rotating machine during actual use.

In a preferred embodiment, the inside of the water tank is connected with a jet pump during actual use, the water jet valve is connected with the jet pump during actual use, the water outlet is communicated with the inside of the water tank during actual use, and the air vent is communicated with the inside of the vacuum tank during actual use.

After the technical scheme is adopted, the utility model has the beneficial effects that: the vacuum pump and the water spraying valve are arranged, so that the pressure of water spraying can be improved, the water outlet efficiency is higher, and the vacuum pump is more suitable for the technical field of vacuum devices in actual use.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic perspective view of the high-efficiency micropower vacuum extractor of the present invention.

Fig. 2 is a schematic front sectional structural view of a water tank of the high-efficiency micro-power vacuum extractor of the utility model.

FIG. 3 is a schematic diagram of a rear view of the water tank of the high-efficiency micropower vacuum extractor of the present invention.

FIG. 4 is a schematic top view of the pump button of the high-efficiency micro-power vacuum extractor of the present invention.

In the figure, 1-a device main body, 2-a water tank, 3-a vacuum tank, 4-a pressure gauge, 5-a pump, 6-a pump, 7-a stable support, 8-a vacuum pumping mechanism, 9-an exhaust pipe, 10-an air vent, 11-a water pump button, 12-a vacuum pipe, 13-a connecting pipe, 14-a rotating machine, 15-a water level gauge, 16-a water outlet, 17-a stirring mechanism, 18-an injection pump and 19-a water spraying valve.

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 to 4, the present invention provides a technical solution: high-efficient fine motion power evacuating device includes: the device comprises a device main body 1, a water tank 2, a vacuum tank 3 and a pressure gauge 4, wherein the water tank 2 is arranged below the right side of the device main body 1, the vacuum tank 3 is arranged on the left side of the water tank 2, the pressure gauge 4 is arranged above the right side of the front of the water tank 2, a first pump 5 is arranged on the left side of a vacuum pipe 12, a second pump 6 is arranged below the first pump 5, a stabilizing support 7 is arranged at the bottom of the vacuum tank 3, a vacuumizing mechanism 8 is arranged above the water tank 2, an exhaust pipe 9 is arranged in the middle of the right side of the vacuumizing mechanism 8, an air vent 10 is arranged in the middle of the left side of the vacuum tank 3, two water pump buttons 11 are respectively arranged above the right sides of the first pump 5 and the second pump 6, the vacuum pipe 12 is arranged above the vacuum tank 3, a rotating machine 14 is arranged on the right side of the top of the water tank 2, a water level meter 15 is arranged in the middle of the front of the water tank 2, a water outlet 16 is arranged below the right side of the water tank 2, a stirring mechanism 17 is arranged on the left side inside the water tank 2, the jet pump 18 is arranged below the left side of the back of the water tank 2, the water spraying valve 19 is arranged on the right side of the jet pump 18, the water spraying pressure can be increased by arranging the jet pump 18, and the liquid and the mixed raw materials can be stirred by arranging the stirring mechanism 17.

Inside being connected with manometer 4 in the time of in-service use of water tank 2, water tank 2 is connected with 5 right-hand members of a pump through connecting pipe 13 in the time of in-service use, and evacuation mechanism 8 is connected with 5 left ends of a pump through connecting pipe 13 in the time of in-service use, and manometer 4 can monitor 2 inside air pressure of water tank.

Water tank 2 is connected with No. two 6 right-hand members of pump through connecting pipe 13 in the time of in-service use, and evacuation mechanism 8 is connected with No. two 6 left ends of pump through connecting pipe 13 in the time of in-service use, and liquid can be stored to water tank 2.

The bottom of the vacuum tank 3 is connected with the stabilizing support 7 in the actual use process, the vacuum tank 3 is connected with the left end of the vacuumizing mechanism 8 through the vacuum pipe 12 in the actual use process, the water tank 2 is connected with the lower end of the vacuumizing mechanism 8 through the connecting pipe 13 in the actual use process, and the stabilizing support 7 can fix the vacuum tank 3.

The water pump button 11 is connected with the first pump 5 through an electric wire in actual use, the water pump button 11 is connected with the second pump 6 through an electric wire in actual use, the stirring mechanism 17 is connected with the rotating machine 14 in actual use, and the rotating machine 14 can drive the stirring mechanism 17 to operate.

The inside of the water tank 2 is connected to the jet pump 18 at the time of actual use, the water jet valve 19 is connected to the jet pump 18 at the time of actual use, the water discharge port 16 is communicated with the inside of the water tank 2 at the time of actual use, the air release hole 10 is communicated with the inside of the vacuum tank 3 at the time of actual use, and the water discharge port 16 is capable of discharging the liquid inside the water tank 2.

As an embodiment of the present invention: in actual use, a worker injects water into the water tank 2 through the water outlet 16, during the water injection process, the water level can be observed through the water level meter 15, when the water injection reaches a proper position, the water outlet 16 is closed, a power supply is connected to the vacuumizing mechanism 8, the vacuumizing mechanism 8 pumps the gas in the vacuum tank 3 to the vacuumizing mechanism 8 through the vacuum tube 12 and discharges the gas through the exhaust tube 9, the vacuumizing mechanism 8 can efficiently pump the air, the power supply is connected to the first pump 5 and the second pump 6, the first pump 5 and the second pump 6 are started by clicking the water pump button 11, the first pump 5 and the second pump 6 pump the liquid in the water tank 2 to the vacuumizing mechanism 8 through the connecting tube 13, the vacuumizing mechanism 8 pressurizes the liquid and transmits the liquid to the inside of the water tank 2 through the connecting tube 13, when a mixed raw material needs to be added into the water tank 2, the rotating machine 14 is opened, and the rotating machine 14 drives the stirring mechanism 17 to operate, the stirring mechanism 17 mixes liquid and mixed raw materials, connects into external water pipe to the water spray valve 19, and the jet pump 18 increases low flow liquid pressure and spouts through the water spray valve 19, through setting up manometer 4, can monitor the inside air pressure of water tank 2.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (6)

1. High-efficient fine motion power evacuating device includes: device main part (1), water tank (2), vacuum tank (3) and manometer (4), its characterized in that: the device is characterized in that a water tank (2) is arranged below the right side of a device main body (1), a vacuum tank (3) is arranged on the left side of the water tank (2), a pressure gauge (4) is arranged above the right side of the front of the water tank (2), a first pump (5) is arranged on the left side of a vacuum pipe (12), a second pump (6) is arranged below the first pump (5), a stabilizing support (7) is arranged at the bottom of the vacuum tank (3), a vacuumizing mechanism (8) is arranged above the water tank (2), an exhaust pipe (9) is arranged in the middle of the right side of the vacuumizing mechanism (8), an air vent hole (10) is arranged in the middle of the left side of the vacuum tank (3), two water pump buttons (11) are respectively arranged above the right sides of the first pump (5) and the second pump (6), the vacuum pipe (12) is arranged above the vacuum tank (3), a rotating machine (14) is arranged on the right side of the top of the water tank (2), a water level gauge (15) is arranged in the middle of the front of the water tank (2), the water outlet (16) is arranged below the right side face of the water tank (2), the stirring mechanism (17) is arranged on the left side inside the water tank (2), the jet pump (18) is arranged below the left side of the back face of the water tank (2), and the water jet valve (19) is arranged on the right side of the jet pump (18).

2. A high efficiency micropower evacuation device as in claim 1 wherein: manometer (4) and water tank (2) internal connection, a pump (5) right-hand member passes through connecting pipe (13) and is connected with water tank (2), a pump (5) left end passes through connecting pipe (13) and is connected with evacuation mechanism (8).

3. A high efficiency micropower evacuation device as in claim 1 wherein: the right end of the second pump (6) is connected with the water tank (2) through a connecting pipe (13), and the left end of the second pump (6) is connected with the vacuumizing mechanism (8) through the connecting pipe (13).

4. A high efficiency micropower evacuation device as in claim 1 wherein: the stabilizing support (7) is connected with the bottom of the vacuum tank (3), the left end of the vacuumizing mechanism (8) is connected with the vacuum tank (3) through a vacuum tube (12), and the lower end of the vacuumizing mechanism (8) is connected with the water tank (2) through a connecting tube (13).

5. A high efficiency micropower evacuation device as in claim 1 wherein: the water pump button (11) is connected with the first pump (5) and the second pump (6) through electric wires, and the rotating machine (14) is connected with the stirring mechanism (17).

6. A high efficiency micropower evacuation device as in claim 1 wherein: the jet pump (18) is connected with the inside of the water tank (2), the jet pump (18) is connected with the water spraying valve (19), the water outlet (16) is communicated with the inside of the water tank (2), and the air vent hole (10) is communicated with the inside of the vacuum tank (3).

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