CN108044782A

CN108044782A - A kind of piezoelectric ceramics production equipment with quantitative feeding and dehumidification function

Info

Publication number: CN108044782A
Application number: CN201711095280.9A
Authority: CN
Inventors: 蒙泽喜
Original assignee: Shenzhen Beiyoutong New Energy Technology Development Co Ltd
Current assignee: Zaozhuang Xuecheng Hongxiang Transportation Co ltd
Priority date: 2017-11-09
Filing date: 2017-11-09
Publication date: 2018-05-18
Anticipated expiration: 2037-11-09
Also published as: CN108044782B

Abstract

The present invention relates to a kind of piezoelectric ceramics production equipments with quantitative feeding and dehumidification function,Including shell,Feeding port and discharge port,Manufacture case is equipped in shell,Drier,Rabbling mechanism and quantitative mechanism,Drier includes drying box,Heater box,Connecting tube and air exhauster,Heating unit is equipped in heater box,Water pump and heating tube,Heating unit includes air blower,Air inlet pipe,Filter screen,Discharge pipe,Outlet housing and heating wire,Quantitative mechanism includes the second motor,Quantity tube and discharge nozzle,The piezoelectric ceramics production equipment with quantitative feeding and dehumidification function,Pass through quantitative mechanism,It being capable of automatic ration charging,Realize the automation of weighing and the addition of raw material,Reduce the time of piezoelectric ceramics production,Moreover,Pass through drier,The equipment directly can carry out dehumidification treatments to raw material,Reduce the equipment needed for production piezoelectric ceramics,Shorten the production time,Reduce manufacture cost.

Description

A kind of piezoelectric ceramics production equipment with quantitative feeding and dehumidification function

Technical field

The present invention relates to piezoelectric ceramics production equipment field, more particularly to a kind of pressure with quantitative feeding and dehumidification function Electroceramics production equipment.

Background technology

Piezoelectric ceramics is a kind of informational function ceramic material that can convert mechanical energy and electric energy mutually, and piezoelectric ceramics removes Outside with piezoelectricity, also with dielectricity, elasticity etc., medical imaging, sonic transducer, sonic transducer, super has been widely used in it Sound motor etc..Piezoelectric ceramics manufacturing process flow：Dispensing is mixed and finely ground, pre-burning, secondary levigate, is granulated, shaping, plastic removal, sintering Into porcelain, sharp processing, by electrode, high voltage polarization, burn-in test.

But existing piezoelectric ceramics production equipment can not automatic ration charging, the weighing and addition of raw material are both needed to very important person Work operates, and adds the time of piezoelectric ceramics production, reduces the production efficiency of existing piezoelectric ceramics production equipment, not only such as This, producing the raw material needed for piezoelectric ceramics needs to carry out dehumidification treatments, and existing piezoelectric ceramics production equipment can not be direct Raw material are dried, the dry of raw material needs other machine, increases manufacturing cost and the time.

The content of the invention

The technical problem to be solved by the present invention is to：It is a kind of with quantitative feeding in order to overcome the deficiencies of the prior art and provide With the piezoelectric ceramics production equipment of dehumidification function.

The technical solution adopted by the present invention to solve the technical problems is：A kind of pressure with quantitative feeding and dehumidification function Electroceramics production equipment, including shell, feeding port and discharge port, the feeding port is arranged on the top of shell, the discharge port The bottom of shell is arranged on, manufacture case, drier, rabbling mechanism and quantitative mechanism, the manufacture case are equipped in the shell Fixed bottom inside the shell, the quantitative mechanism are arranged on the top of manufacture case, and the rabbling mechanism is arranged on quantitative mechanism Top, the drier is arranged on the top of rabbling mechanism, and the drier is connected with rabbling mechanism, the mixer Structure is connected with quantitative mechanism, and the quantitative mechanism is connected with manufacture case, and the feeding port is connected with drier, the manufacture case It is connected by discharge port with the external of shell；

The drier includes drying box, heater box, connecting tube and air exhauster, and the heater box is fixed on drying box One side, the top of the connecting tube are fixed on the bottom of drying box, and the connecting tube is connected with drying box, the connecting tube it is another One end is connected with rabbling mechanism, and the air exhauster is arranged on the top of drying box, one end of the air exhauster and the outside of shell Connection, the other end of the air exhauster are connected with drying box, and the drying box is equipped with heat-transfer pipe, and the heat-transfer pipe is wrapped in dry On dry case, the heat-transfer pipe is upward along the axis spiral of drying box, and heating unit, water pump and heating are equipped in the heater box Pipe, the heating unit and water pump are separately positioned on the both sides of the bottom in heater box, the top of the heating tube and heat-transfer pipe One end connection, one end of the water pump connects with the other end of heat-transfer pipe, the other end of the water pump and the bottom of heating tube Connection, the drying box are connected by feeding port with the external of shell；

The heating unit includes air blower, air inlet pipe, filter screen, discharge pipe, outlet housing and heating wire, the air blower The bottom being fixed in heater box, one end of the discharge pipe are connected with the inside of shell, one end of the air blower and air inlet The other end connection of pipe, the other end of the air blower are connected with the bottom of discharge pipe, the top of the discharge pipe and outlet housing Connection, the top of the outlet housing are equipped with heating wire, filter screen are equipped in the air inlet pipe；

The quantitative mechanism includes the second motor, quantity tube and discharge nozzle, and top and the rabbling mechanism of the discharge nozzle connect It connects, the bottom of the discharge nozzle is connected with the top of quantity tube, and the bottom of the quantity tube is connected with the top of discharge nozzle, described The bottom of discharge nozzle is connected with manufacture case, and rotation axis and screw thread are equipped in the quantity tube, and second motor is passed with rotation axis Dynamic connection, the screw thread is upward along the axis spiral of rotation axis, the inner wall of the screw thread and quantity tube against.

Preferably, in order to enhance heating effect, the heating tube is equipped at least two heating plates, and the heating plate is equal It is even to be distributed in heating tube.

Preferably, in order to enhance temperature rise effect, the heat-transfer pipe is equipped at least two heat-conducting plates, and the heat-conducting plate is equal It is even to be distributed on heat-transfer pipe.

Preferably, in order to avoid dust is fallen on heating wire and influences the normal work of heating wire, the filter screen For activated charcoal strainer.

Preferably, in order to enhance heating effect, the shape of the outlet housing is tubaeform.

Preferably, in order to which raw material are uniformly mixed, the rabbling mechanism includes control unit, stirring pool, the first electricity Machine and feed pipe, first motor are arranged on the lower section of stirring pool, and described control unit is arranged on the one of the bottom of stirring pool Side, the top of the feed pipe are connected with stirring pool, and the bottom of the feed pipe is connected with the top of quantity tube, the stirring pool At least two paddles are inside equipped with, the paddle is circumferentially evenly distributed on the periphery of the output shaft of the first motor, first motor It is sequentially connected with paddle.

Preferably, in order to extend the service life of the first motor and the second motor, first motor and the second motor It is servomotor.

Preferably, in order to enhance mixing effect, the paddle is equipped at least two through holes, and the through hole is uniformly distributed In paddle.

Preferably, in order to which remaining raw materials particles on stirring pool inner wall are scraped, separate first electricity of the paddle The one side of machine output shaft is equipped with baffle, and the middle-end of the baffle is fixedly connected with paddle, and separate first motor of the baffle is defeated The one side of shaft and the inner wall of stirring pool against.

Preferably, in order to control inlet amount, described control unit includes air pump, cylinder, piston and movable plate, the gas Cylinder and air pump are each attached to the one side in shell, and the air pump is connected with cylinder, and one end of the piston is arranged in cylinder, institute The other end for stating piston is fixedly connected with movable plate, and the movable plate is arranged between feed pipe and stirring pool.

The invention has the advantages that piezoelectric ceramics production equipment that should be with quantitative feeding and dehumidification function, by fixed Measuring mechanism, can automatic ration charging, realize the automation of weighing and the addition of raw material, reduce piezoelectric ceramics production when Between, compared with traditional D-M (Determiner-Measure) construction, the charging precision of the quantitative mechanism is more increased, and both ensure that the piezoelectric ceramics produced Quality, and reduce production cost, moreover, by drier, which can directly dehumidify to raw material Processing reduces the equipment needed for production piezoelectric ceramics, shortens the production time, reduce manufacture cost, with traditional drying Mechanism compares, and faster, heating is more efficient, more preferable to the drying effect of raw material for the firing rate of the drier.

Description of the drawings

The present invention is further described with reference to the accompanying drawings and examples.

Fig. 1 is the structure diagram of the piezoelectric ceramics production equipment with quantitative feeding and dehumidification function of the present invention；

Fig. 2 is the knot of the drier of the piezoelectric ceramics production equipment with quantitative feeding and dehumidification function of the present invention Structure schematic diagram；

Fig. 3 is the structure of the heating unit of the piezoelectric ceramics production equipment with quantitative feeding and dehumidification function of the present invention Schematic diagram；

Fig. 4 is the structure of the rabbling mechanism of the piezoelectric ceramics production equipment with quantitative feeding and dehumidification function of the present invention Schematic diagram；

Fig. 5 is the knot of the quantitative mechanism of the piezoelectric ceramics production equipment with quantitative feeding and dehumidification function of the present invention Structure schematic diagram；

In figure：1. shell, 2. manufacture casees, 3. drying boxes, 4. connecting tubes, 5. heater boxes, 6. air exhausters, 7. water pumps, 8. add Heat pipe, 9. heat-transfer pipes, 10. heating plates, 11. heat-conducting plates, 12. air blowers, 13. air inlet pipe, 14. filter screens, 15. discharge pipes, 16. Outlet housing, 17. heating wire, 18. first motors, 19. paddles, 20. through holes, 21. stirring pools, 22. baffles, 23. feed pipes, 24. Air pump, 25. cylinders, 26. pistons, 27. movable plates, 28. second motors, 29. rotation axis, 30. screw threads, 31. quantity tubes, 32. go out Expects pipe, 33. feeding ports, 34. discharge ports.

Specific embodiment

In conjunction with the accompanying drawings, the present invention is further explained in detail.These attached drawings are simplified schematic diagram, only with Illustration illustrates the basic structure of the present invention, therefore it only shows composition related to the present invention.

As shown in Figure 1, a kind of piezoelectric ceramics production equipment with quantitative feeding and dehumidification function, including shell 1, feeds intake Mouth 33 and discharge port 34, the feeding port 33 are arranged on the top of shell 1, and the discharge port 34 is arranged on the bottom of shell 1, institute It states and manufacture case 2, drier, rabbling mechanism and quantitative mechanism is equipped in shell 1, the manufacture case 2 is fixed on the bottom in shell 1 Portion, the quantitative mechanism are arranged on the top of manufacture case 2, and the rabbling mechanism is arranged on the top of quantitative mechanism, the drying Mechanism is arranged on the top of rabbling mechanism, and the drier is connected with rabbling mechanism, and the rabbling mechanism connects with quantitative mechanism It connects, the quantitative mechanism is connected with manufacture case 2, and the feeding port 33 is connected with drier, and the manufacture case 2 passes through discharge port 34 connect with the external of shell 1；

By quantitative mechanism, the equipment can automatic ration charging, realize the automation of weighing and the addition of raw material, subtract The time of piezoelectric ceramics production is lacked, compared with traditional D-M (Determiner-Measure) construction, the charging precision of the quantitative mechanism is more increased, and is both ensured The quality for the piezoelectric ceramics produced, and reduce production cost, moreover, by drier, which can Dehumidification treatments directly are carried out to raw material, reduces the equipment needed for production piezoelectric ceramics, shortens the production time, reduce system This is caused, compared with traditional drier, faster, heating is more efficient, to raw material for the firing rate of the drier Drying effect is more preferable.

As shown in Fig. 2, the drier includes drying box 3, heater box 5, connecting tube 4 and air exhauster 6, the heater box 5 are fixed on the one side of drying box 3, and the top of the connecting tube 4 is fixed on the bottom of drying box 3, the connecting tube 4 and drying box 3 connections, the other end of the connecting tube 4 are connected with rabbling mechanism, and the air exhauster 6 is arranged on the top of drying box 3, the pumping One end of mechanism of qi 6 is connected with the external of shell 1, and the other end of the air exhauster 6 is connected with drying box 3, is set on the drying box 3 There is heat-transfer pipe 9, the heat-transfer pipe 9 is wrapped on drying box 3, and the heat-transfer pipe 9 is upward along the axis spiral of drying box 3, institute It states and heating unit, water pump 7 and heating tube 8 is equipped in heater box 5, the heating unit and water pump 7 are separately positioned in heater box 5 Bottom both sides, the top of the heating tube 8 connects with one end of heat-transfer pipe 9, one end and the heat-transfer pipe 9 of the water pump 7 The other end connects, and the other end of the water pump 7 is connected with the bottom of heating tube 8, and the drying box 3 passes through feeding port 33 and shell 1 external connection；

Liquid in heating unit heats heating tube 8, the hydrothermal solution in heating tube 8 is pressed into heat-transfer pipe 9 by water pump 7, to drying Case 3 realizes heating.

As shown in figure 3, the heating unit includes air blower 12, air inlet pipe 13, filter screen 14, discharge pipe 15, outlet housing 16 and heating wire 17, the air blower 12 is fixed on the bottom in heater box 5, and one end of the discharge pipe 15 is interior with shell 1 Portion connects, and one end of the air blower 12 is connected with the other end of air inlet pipe 13, the other end and discharge pipe of the air blower 12 15 bottom connection, the top of the discharge pipe 15 are connected with outlet housing 16, and the top of the outlet housing 16 is equipped with heating wire 17, Filter screen 14 is equipped in the air inlet pipe 13；

Air after 14 dedusting of filter screen is pressed into discharge pipe 15 by air blower 12 by air inlet pipe 13, then electric heating Silk 17 heats the air sprayed in outlet housing 16.

As shown in figure 5, the quantitative mechanism includes the second motor 28, quantity tube 31 and discharge nozzle 32, the discharge nozzle 32 Top be connected with rabbling mechanism, the bottom of the discharge nozzle 32 is connected with the top of quantity tube 31, the bottom of the quantity tube 31 End is connected with the top of discharge nozzle 32, and the bottom of the discharge nozzle 32 is connected with manufacture case 2, and rotation is equipped in the quantity tube 31 Axis 29 and screw thread 30, second motor 28 are sequentially connected with rotation axis 29, axis spiral shell of the screw thread 30 along rotation axis 29 Spin up, the inner wall of the screw thread 30 and quantity tube 31 against.

Second motor 28 driving rotation axis 29 rotates, and the screw thread 30 in rotation axis 29 is driven to rotate, and rotation axis 29 rotates one Week it can quantify and the raw material in quantity tube 31 are squeezed into discharge nozzle 32.

Preferably, in order to enhance heating effect, the heating tube 8 is equipped at least two heating plates 10, the heating Plate 10 is evenly distributed in heating tube 8.Heating tube 8, which is equipped at least two heating plates 10, can increase heating surface (area) (HS, improve and add The thermal efficiency, so as to enhance heating effect.

Preferably, in order to enhance temperature rise effect, the heat-transfer pipe 9 is equipped at least two heat-conducting plates 11, the heat conduction Plate 11 is evenly distributed on heat-transfer pipe 9.Heat-transfer pipe 9 is equipped at least two heat-conducting plates 11, can increase heat-conducting area, improves dry Rate of rise in temperature in dry case 3, so as to enhance temperature rise effect.

Preferably, in order to avoid dust is fallen on heating wire 17 and influences the normal work of heating wire 17, the mistake Strainer 14 is activated charcoal strainer.

Preferably, in order to enhance heating effect, the shape of the outlet housing 16 is tubaeform.The cross section of outlet housing 16 Shape for the tubaeform contact area that can increase hot-air and heating plate 10, so as to enhance heating effect.

As shown in figure 4, the rabbling mechanism includes control unit, stirring pool 21, the first motor 18 and feed pipe 23, it is described First motor 18 is arranged on the lower section of stirring pool 21, and described control unit is arranged on the one side of the bottom of stirring pool 21, it is described into The top of expects pipe 23 is connected with stirring pool 21, and the bottom of the feed pipe 23 is connected with the top of quantity tube 31, the stirring pool At least two paddles 19 are equipped in 21, the periphery of the circumferential output shaft for being evenly distributed on the first motor 18 of paddle 19 is described First motor 18 is sequentially connected with paddle 19.First motor 18 driving paddle 19 rotates, so as to by the raw material in stirring pool 21 It is uniformly mixed.

Preferably, in order to extend the service life of the first motor 18 and the second motor 28, first motor 18 and Two motors 28 are servomotor.

Preferably, in order to enhance mixing effect, the paddle 19 is equipped at least two through holes 20, and the through hole 20 is equal It is even to be distributed in paddle 19.

Preferably, in order to which remaining raw materials particles on 21 inner wall of stirring pool are scraped, the paddle 19 away from the The one side of one motor, 18 output shaft is equipped with baffle 22, and the middle-end of the baffle 22 is fixedly connected with paddle 19, the baffle 22 The inner wall of one side away from the first motor 18 output shaft and stirring pool 21 against.

Preferably, in order to control inlet amount, described control unit includes air pump 24, cylinder 25, piston 26 and movable plate 27, the cylinder 25 and air pump 24 are each attached to the one side in shell 1, and the air pump 24 is connected with cylinder 25, the piston 26 One end be arranged in cylinder 25, the other end of the piston 26 is fixedly connected with movable plate 27, and the movable plate 27 is arranged on Between feed pipe 23 and stirring pool 21.Cylinder 25 drives the unlatching of movable plate 27 and closure of feed pipe 23 by piston 26, so as to control Inlet amount processed.

The operation principle of the piezoelectric ceramics production equipment with quantitative feeding and dehumidification function：Drier is transported first It goes, the hydrothermal solution in heating tube 8 is pressed into heat-transfer pipe 9 by the liquid in heating unit heats heating tube 8, water pump 7, real to drying box 3 It now heats, then the second motor 28 driving rotation axis 29 rotates, and the screw thread 30 in rotation axis 29 is driven to rotate, rotation axis 29 rotates One week, it can quantify and the raw material stirred evenly by rabbling mechanism in quantity tube 31 are squeezed into discharge nozzle 32.

Compared with prior art, there should be the piezoelectric ceramics production equipment of quantitative feeding and dehumidification function, and pass through quantitative machine Structure, can automatic ration charging, realize the automation of weighing and the addition of raw material, reduce piezoelectric ceramics production time, Compared with traditional D-M (Determiner-Measure) construction, the charging precision of the quantitative mechanism is more increased, and both ensure that the piezoelectric ceramics produced Quality, and reduce production cost, moreover, by drier, which can directly carry out at dehumidifying raw material Reason reduces the equipment needed for production piezoelectric ceramics, shortens the production time, reduce manufacture cost, with traditional drying machine Structure is compared, and faster, heating is more efficient, more preferable to the drying effect of raw material for the firing rate of the drier.

Using above-mentioned desirable embodiment according to the invention as enlightenment, by above-mentioned description, relevant staff is complete Various changes and amendments can be carried out without departing from the scope of the technological thought of the present invention' entirely.The technology of this invention Property scope is not limited to the content on specification, it is necessary to determine its technical scope according to right.

Claims

1. a kind of piezoelectric ceramics production equipment with quantitative feeding and dehumidification function, which is characterized in that including shell (1), throw Material mouth (33) and discharge port (34), the feeding port (33) are arranged on the top of shell (1), and the discharge port (34) is arranged on outer The bottom of shell (1), the shell (1) is interior to be equipped with manufacture case (2), drier, rabbling mechanism and quantitative mechanism, the manufacture case (2) bottom being fixed in shell (1), the quantitative mechanism are arranged on the top of manufacture case (2), and the rabbling mechanism is arranged on The top of quantitative mechanism, the drier are arranged on the top of rabbling mechanism, and the drier is connected with rabbling mechanism, institute It states rabbling mechanism to be connected with quantitative mechanism, the quantitative mechanism is connected with manufacture case (2), the feeding port (33) and drier Connection, the manufacture case (2) are connected by discharge port (34) with the external of shell (1)；

The drier includes drying box (3), heater box (5), connecting tube (4) and air exhauster (6), and the heater box (5) is solid Be scheduled on the one side of drying box (3), the top of the connecting tube (4) is fixed on the bottom of drying box (3), the connecting tube (4) with Drying box (3) connects, and the other end of the connecting tube (4) is connected with rabbling mechanism, and the air exhauster (6) is arranged on drying box (3) top, one end of the air exhauster (6) are connected with the external of shell (1), the other end of the air exhauster (6) and drying Case (3) connects, and the drying box (3) is equipped with heat-transfer pipe (9), and the heat-transfer pipe (9) is wrapped on drying box (3), the biography Heat pipe (9) is upward along the axis spiral of drying box (3), and heating unit, water pump (7) and heating are equipped in the heater box (5) Pipe (8), the heating unit and water pump (7) are separately positioned on the both sides of the bottom in heater box (5), the heating tube (8) Top is connected with the one end of heat-transfer pipe (9), and one end of the water pump (7) is connected with the other end of heat-transfer pipe (9), the water pump (7) the other end is connected with the bottom of heating tube (8), and the drying box (3) is connected by feeding port (33) and the outside of shell (1) It is logical；

The heating unit include air blower (12), air inlet pipe (13), filter screen (14), discharge pipe (15), outlet housing (16) and Heating wire (17), the air blower (12) are fixed on the bottom in heater box (5), one end of the discharge pipe (15) and shell (1) inside connection, one end of the air blower (12) connects with the other end of air inlet pipe (13), the air blower (12) it is another One end is connected with the bottom of discharge pipe (15), and the top of the discharge pipe (15) is connected with outlet housing (16), the outlet housing (16) top is equipped with heating wire (17), and filter screen (14) is equipped in the air inlet pipe (13)；

The quantitative mechanism includes the second motor (28), quantity tube (31) and discharge nozzle (32), the top of the discharge nozzle (32) It is connected with rabbling mechanism, the bottom of the discharge nozzle (32) is connected with the top of quantity tube (31), the bottom of the quantity tube (31) End is connected with the top of discharge nozzle (32), and the bottom of the discharge nozzle (32) is connected with manufacture case (2), in the quantity tube (31) Equipped with rotation axis (29) and screw thread (30), second motor (28) is sequentially connected with rotation axis (29), screw thread (30) edge That the axis spiral of rotation axis (29) is upward, the inner wall of the screw thread (30) and quantity tube (31) against.

2. the piezoelectric ceramics production equipment with quantitative feeding and dehumidification function as described in claim 1, which is characterized in that institute Heating tube (8) is stated equipped at least two heating plates (10), the heating plate (10) is evenly distributed in heating tube (8).

3. the piezoelectric ceramics production equipment with quantitative feeding and dehumidification function as described in claim 1, which is characterized in that institute Heat-transfer pipe (9) is stated equipped at least two heat-conducting plates (11), the heat-conducting plate (11) is evenly distributed on heat-transfer pipe (9).

4. the piezoelectric ceramics production equipment with quantitative feeding and dehumidification function as described in claim 1, which is characterized in that institute Filter screen (14) is stated as activated charcoal strainer.

5. the piezoelectric ceramics production equipment with quantitative feeding and dehumidification function as described in claim 1, which is characterized in that institute The shape for stating outlet housing (16) is tubaeform.

6. the piezoelectric ceramics production equipment with quantitative feeding and dehumidification function as described in claim 1, which is characterized in that institute Stating rabbling mechanism includes control unit, stirring pool (21), the first motor (18) and feed pipe (23), and first motor (18) sets It puts in the lower section of stirring pool (21), described control unit is arranged on the one side of the bottom of stirring pool (21), the feed pipe (23) Top connected with stirring pool (21), the bottom of the feed pipe (23) is connected with the top of quantity tube (31), the stirring pool (21) at least two paddles (19) are equipped in, the paddle (19) is circumferentially evenly distributed on the outer of the output shaft of the first motor (18) Week, first motor (18) are sequentially connected with paddle (19).

7. the piezoelectric ceramics production equipment with quantitative feeding and dehumidification function as claimed in claim 6, which is characterized in that institute It is servomotor to state the first motor (18) and the second motor (28).

8. the piezoelectric ceramics production equipment with quantitative feeding and dehumidification function as claimed in claim 6, which is characterized in that institute Paddle (19) is stated equipped at least two through holes (20), the through hole (20) is evenly distributed in paddle (19).

9. the piezoelectric ceramics production equipment with quantitative feeding and dehumidification function as claimed in claim 6, which is characterized in that institute The one side away from the first motor (18) output shaft for stating paddle (19) is equipped with baffle (22), the middle-end and paddle of the baffle (22) (19) it is fixedly connected, the one side of separate first motor (18) output shaft of the baffle (22) and the inner wall of stirring pool (21) support It leans on.

10. the piezoelectric ceramics production equipment with quantitative feeding and dehumidification function as claimed in claim 6, which is characterized in that Described control unit includes air pump (24), cylinder (25), piston (26) and movable plate (27), the cylinder (25) and air pump (24) The one side being each attached in shell (1), the air pump (24) connect with cylinder (25), and one end of the piston (26) is arranged on gas In cylinder (25), the other end of the piston (26) is fixedly connected with movable plate (27), and the movable plate (27) is arranged on feed pipe (23) between stirring pool (21).