CN210919405U - Novel intelligent metering micro-pump fluid conveying system - Google Patents

Abstract

The utility model provides a novel intelligent metering micropump fluid conveying system, which is characterized in that a handle is arranged above a micropump case, a liquid crystal touch screen is arranged on the front side of the case, a switch button, a heat dissipation port, a Wi-Fi module, a multi-machine connector, an RS485 communication interface, a power interface and a foot switch interface are arranged on the back side of the case, the power interface is connected with a power plug through a wire, the foot switch interface is connected with a foot switch through a wire, and a stepping motor is arranged in the case; the fluid flow control device has the beneficial effects that the structure is unique, the fluid flow can be accurately controlled, the fluid is isolated in the silicone tube and does not enter the pump body, the device is safe and reliable, the device can be used for fluid conveying in the fields of medical treatment, scientific research and industry, the device has very wide commercial prospect, the gap of related technologies can be filled, and great social benefit and economic benefit can be generated.

Description

Novel intelligent metering micro-pump fluid conveying system

Technical Field

The utility model relates to a micro pumping technical field especially relates to a novel intelligent metering micropump fluid conveying system.

Background

The micro pump is a novel industrial pump, is a product developed in modern industry, is widely applied to industries such as pharmacy, food, chemical industry and the like, and is used for conveying media which are sensitive, sticky, strong in corrosivity, have a grinding effect, have high purity requirements and contain certain granular materials. The silicone tube is a liquid receiving element in the micro pump, and the micro pump works by extruding the silicone tube through the rotor, which means that the micro pump can dry rotate, self-absorb and process high-viscosity and high-abrasion media. In addition, the silicone tube is used as an independent unit, and the pump body does not need to be sealed, has no leakage and is clean and sanitary. The output of a preset fixed flow rate is realized in each rotation, so that the micro pump has excellent performance in quantitative feeding application.

The micro pump works by means of pumping efficiency generated by alternately extruding and releasing a plurality of rotors along a silicone tube. When the flow output of the fluid extruded in the pipe is generated, the pipe is restored to the original state by the elasticity of the pipe after the pressure disappears, the volume is increased, vacuum is generated, the fluid is sucked, and the fluid enters the container through the silicone tube.

The laboratory carries out the chemical experiment now, carries out the bit test of solution, has many occasions to need accurate control flow or velocity of flow, and some chemicals are dangerous easy explosion still, need keep apart in the container.

Poor, the precision is low, the difficult scheduling problem of operation in order to solve now carrying out scientific research experiment, the utility model provides a novel intelligent measurement micropump fluid conveying system, its novel structure, the cost is lower, and the application scene is extensive, can satisfy scientific research experiment demand, also can satisfy industrial fluid transport and use.

Disclosure of Invention

In order to satisfy the demand of each side of society to intelligent fluid conveying equipment, controllable when carrying out the chemistry experiment, the utility model provides a novel intelligent metering micropump fluid conveying system, this system novel structure, the innovation is unique, adopts integrated structural design, and through silicone tube, micropump with raw materials cauldron and reation kettle intercommunication, the micropump carries out fluidic quantitative transport.

A novel intelligent metering micro-pump fluid conveying system is characterized in that a handle is arranged above a micro-pump case, a liquid crystal touch screen is arranged on the front face of the case, a switch button, a heat dissipation port, a Wi-Fi module, a multi-machine connector, an RS485 communication interface, a power interface and a foot switch interface are arranged on the back face of the case, the power interface is connected with a power plug through a wire, the foot switch interface is connected with a foot switch through a wire, and a stepping motor is arranged in the case;

an output shaft of the stepping motor is connected with a rotor in the micropump, a silicone tube penetrates through the micropump and is placed on the upper surface of the rotor of the micropump, one end of the silicone tube is connected to a discharge port on a barrel cover of the raw material kettle, and the silicone tube penetrates through the discharge port and enters the raw material kettle;

the discharge port is connected to the right middle of the outer side of the barrel cover through threads, the pressure gauge, the safety valve and the silencer are also connected to the outer side of the barrel cover through threads and distributed around the discharge port, the barrel cover is placed on the raw material kettle, the pin shaft penetrates through a ring hole at one end of the locking screw rod to fix the locking screw rod on the barrel body, one end of the locking screw rod with threads is matched with the hanging nut, and the barrel cover is fixed on the barrel body of the raw material kettle;

the other end of the silicone tube is connected to a feeding port on the reaction kettle barrel cover, the feeding port is connected to the reaction kettle barrel cover through threads, a nozzle is arranged on the inner side of the reaction kettle barrel cover, and the nozzle is communicated with the feeding port.

Furthermore, the liquid crystal touch screen is arranged on the front face of the micro-pump case for touch control, the Wi-Fi module is arranged on the back face of the micro-pump case for control through the mobile phone APP, and the foot switch is connected to the back face of the micro-pump case for pause and power-off control.

Furthermore, the silicone tube is tightly pressed and arranged on a rotor inside the micro pump, and the speed of the rotor controls the flow rate of fluid in the silicone tube.

Furthermore, one end of the silicone tube is connected to a feeding port of the reaction kettle and is communicated with a nozzle arranged on the inner side of the cover of the reaction kettle through the feeding port.

Furthermore, a nozzle is arranged on the inner side of the reaction kettle barrel cover, an annular groove is additionally arranged, a sealing ring is embedded in the annular groove, and a pressure gauge, a safety valve and a silencer are additionally arranged above the outer side of the reaction kettle barrel cover.

Furthermore, the other end of the silicone tube extends into the bottom of the raw material kettle through the discharge hole.

Furthermore, an annular groove is also formed in the inner side of the raw material kettle barrel cover, a sealing ring is embedded in the annular groove, and a pressure gauge, a safety valve and a silencer are arranged above the outer side of the raw material kettle barrel cover.

Compared with the prior art, the beneficial effects of the utility model are as follows: the liquid crystal touch screen control system has the advantages of high speed and high precision of fluid transmission, can be used for multiple operation modes, can be used for liquid crystal touch screen touch control, can be controlled by a mobile phone through a Wi-Fi module, can also be used for pause and finish process control through a foot switch, has wide application scenes, and can be used for laboratories, scientific research institutions, chemical pharmaceutical institutions and the like. Has very wide commercial prospect and can generate larger social benefit and economic benefit.

Drawings

Fig. 1 is a novel smart metering micropump fluid delivery system.

FIG. 2 is a sectional view of a reaction vessel.

Fig. 3 is a rear view of a micro-pump housing.

In fig. 1-3:

1. a power plug; 2. A foot switch; 3. A chassis;

4. a liquid crystal touch screen; 5. A pressure gauge; 6. A safety valve;

7. a muffler; 8. A barrel cover; 9. Hanging a nut;

10. a discharge port; 11. Locking the screw rod; 12. A pin shaft;

13. a raw material kettle; 14. A micro pump; 15. A silicone tube;

16. a feeding port; 17. A reaction kettle; 18. A seal ring;

19. a nozzle; 20. A heat dissipation port; 21. An RS485 communication interface;

22. a Wi-Fi module; 23. A foot switch interface; 24. A switch button;

25. a power interface; 26. A multi-machine connector.

Detailed Description

The embodiments of the present invention will be described with reference to the accompanying drawings, and the present invention will be described in detail with reference to fig. 1 to 3.

The utility model provides a novel intelligence measurement micropump fluid conveying system, includes power plug 1, foot switch 2, quick-witted case 3, liquid crystal touch screen 4, manometer 5, relief valve 6, muffler 7, bung 8, hang female 9, discharge gate 10, locking screw 11, round pin axle 12, raw materials cauldron 13, micropump 14, silicone tube 15, pan feeding mouth 16, reation kettle 17, sealing washer 18, nozzle 19, thermovent 20, RS485 communication interface 21, Wi-Fi module 22, foot switch interface 23, shift knob 24, power source 25, multimachine connector 26.

A handle is arranged right above the case 3, the liquid crystal touch screen 4 and the micropump 14 are arranged on the front side of the case 3, the switch button 24, the heat dissipation port 20, the Wi-Fi module 22, the multi-machine connector 26, the RS485 communication interface 21, the power interface 25 and the foot switch interface 23 are arranged on the back side of the case 3, the power interface 25 is connected with the power plug 1 through a wire, the foot switch interface 23 is connected with the foot switch 2 through a wire, and the stepping motor is arranged in the case 3.

An output shaft of the stepping motor is connected with a rotor in a micro pump 14, the micro pump 14 is installed right ahead of the case 3, a silicone tube 15 penetrates through the micro pump 14 and is placed on the rotor of the micro pump 14, one end of the silicone tube 15 is connected to a discharge port 10 on a barrel cover of the raw material kettle 13, and the silicone tube 15 penetrates through the discharge port 10 and enters the raw material kettle 13.

The discharge port 10 is connected to the right middle of the outer side of the barrel cover 8 through threads, the pressure gauge 5, the safety valve 6 and the silencer 7 are also connected to the outer side of the barrel cover 8 through threads and distributed around the discharge port 10, the barrel cover 8 is placed on the raw material kettle 13, and the pin shaft 12 penetrates through a ring hole at one end of the locking screw rod 11 to fix the locking screw rod 11 on the barrel body.

One end of the locking screw rod 11 with threads is matched with the hanging nut 9, the barrel cover 8 is fixed on the raw material kettle body, the other end of the silicone tube 15 is connected to a feeding port 16 on the barrel cover of the reaction kettle 17, the feeding port 16 is connected to the barrel cover of the reaction kettle 17 through threads, a nozzle 19 is additionally arranged on the inner side of the barrel cover of the reaction kettle 17, the nozzle 19 is communicated with the feeding port 16, and other parts of the reaction kettle 17 are arranged to be consistent with the raw material kettle 13.

The above, only be the preferred embodiment of the utility model discloses a it is not right the utility model discloses do any restriction, all according to the utility model discloses any modification, change and equivalent change to above embodiment are done to the entity all still belong to within the scope of protection of the technique of the utility model.

Claims (7)

1. A novel intelligent metering micro-pump fluid conveying system is characterized in that a handle is arranged above a micro-pump case, a liquid crystal touch screen is arranged on the front face of the case, a switch button, a heat dissipation port, a Wi-Fi module, a multi-machine connector, an RS485 communication interface, a power interface and a foot switch interface are arranged on the back face of the case, the power interface is connected with a power plug through a wire, the foot switch interface is connected with a foot switch through a wire, and a stepping motor is arranged in the case;

an output shaft of the stepping motor is connected with a rotor in the micropump, a silicone tube penetrates through the micropump and is placed on the upper surface of the rotor of the micropump, one end of the silicone tube is connected to a discharge port on a barrel cover of the raw material kettle, and the silicone tube penetrates through the discharge port and enters the raw material kettle;

the discharge port is connected to the right middle of the outer side of the barrel cover through threads, the pressure gauge, the safety valve and the silencer are also connected to the outer side of the barrel cover through threads and distributed around the discharge port, the barrel cover is placed on the raw material kettle, the pin shaft penetrates through a ring hole at one end of the locking screw rod to fix the locking screw rod on the barrel body, one end of the locking screw rod with threads is matched with the hanging nut, and the barrel cover is fixed on the barrel body of the raw material kettle;

the other end of the silicone tube is connected to a feeding port on the reaction kettle barrel cover, the feeding port is connected to the reaction kettle barrel cover through threads, a nozzle is arranged on the inner side of the reaction kettle barrel cover, and the nozzle is communicated with the feeding port.

2. The novel intelligent metering micropump fluid conveying system according to claim 1, wherein a liquid crystal touch screen is arranged on the front face of the micropump case for touch control, a Wi-Fi module is arranged on the back face of the micropump case for control through a mobile phone APP, and a foot switch is connected to the back face of the micropump case for pause and shutdown control.

3. The system of claim 1, wherein the silicone tubing is mounted in a compressed manner on a rotor inside the micropump, the rotor speed controlling the flow rate of the fluid in the silicone tubing.

4. The system of claim 1, wherein one end of the silicone tube is connected to a feeding port of the reaction vessel, and the feeding port is connected to a nozzle installed inside the lid of the reaction vessel.

5. The system as claimed in claim 1, wherein the nozzle is installed inside the tank cover of the reaction tank, the annular groove is formed in the nozzle, the sealing ring is embedded in the annular groove, and the pressure gauge, the safety valve and the silencer are installed above the outside of the tank cover of the reaction tank.

6. The system according to claim 1, wherein the other end of the silicone tube extends into the bottom of the raw material kettle through the discharge port.

7. The system of claim 1, wherein the inner side of the raw material kettle cover is also provided with an annular groove and a sealing ring embedded therein, and a pressure gauge, a safety valve and a silencer are arranged above the outer side of the raw material kettle cover.

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