CN115179448B

CN115179448B - Handle area raw materials preparation facilities

Info

Publication number: CN115179448B
Application number: CN202210784261.1A
Authority: CN
Inventors: 高新亮; 裴振华; 张志斌; 代杰
Original assignee: BAODING HANDE NEW MATERIAL TECHNOLOGY CO LTD
Current assignee: BAODING HANDE NEW MATERIAL TECHNOLOGY CO LTD
Priority date: 2022-06-28
Filing date: 2022-06-28
Publication date: 2023-09-26
Anticipated expiration: 2042-06-28
Also published as: CN115179448A

Abstract

The invention relates to the technical field of raw material preparation, and provides a handle belt raw material preparation device which comprises a tank body and a stirring mechanism arranged on the tank body, wherein the tank body is provided with a stirring cavity, the working end of the stirring mechanism is positioned in the stirring cavity, the tank body is further provided with a feeding cavity, a communication port and a liquid outlet, the outside of the tank body of the feeding cavity is communicated through the liquid outlet, the feeding cavity is communicated with the stirring cavity through the communication port, the handle belt raw material preparation device further comprises a conveying part, the conveying part is arranged in the feeding cavity in a sliding manner in the vertical direction, the conveying part is provided with a supporting surface which is obliquely arranged and a plurality of liquid through holes which are vertically arranged, the supporting surface is positioned at the top of the conveying part, the liquid through holes are communicated with the supporting surface and the bottom of the conveying part, and the conveying part is arranged between the liquid outlet and the communication port in the vertical direction in a sliding manner. Through the technical scheme, the problem that dust cannot be removed effectively in the raw material preparation process in the prior art is solved.

Description

Handle area raw materials preparation facilities

Technical Field

The invention relates to the technical field of raw material preparation, in particular to a handle strip raw material preparation device.

Background

For the convenience of carrying, a handle belt is generally arranged on the gift boxes for carrying. The existing handle strips are mostly made of synthetic plastics (PP, PET and the like), granular raw materials are prepared into molten raw materials through heating and stirring in the preparation process of the PET and the PP, the raw materials are extruded and molded, dust is stained on the raw materials in the preparation process of the raw materials to influence the quality of final raw materials, the strength of the handle bags is reduced, and the problem of the industry is solved by how to increase the cleanliness of the raw materials in the preparation process.

There is therefore a need for a solution to the above problems.

Disclosure of Invention

The invention provides a handle belt raw material preparation device, which solves the problem that dust cannot be removed effectively in the raw material preparation process in the prior art.

The technical scheme of the invention is as follows:

the handle belt raw material preparation device comprises a tank body and a stirring mechanism arranged on the tank body, wherein the tank body is provided with a stirring cavity, the working end of the stirring mechanism is positioned in the stirring cavity, the tank body is also provided with a feeding cavity, a communication port and a liquid outlet, the feeding cavity is communicated with the outside of the tank body through the liquid outlet, the feeding cavity is communicated with the stirring cavity through the communication port,

the conveying piece is arranged in the feeding cavity in a sliding mode along the vertical direction, the conveying piece is provided with a bearing surface and a plurality of liquid through holes, the bearing surface is arranged at the top of the conveying piece, the liquid through holes are communicated with the bearing surface and the bottom of the conveying piece, and the conveying piece is arranged between the liquid outlet and the communicating port in a sliding mode along the vertical direction.

As a further technical scheme, the stirring mechanism comprises,

the driving shaft is rotatably arranged on the tank body,

stirring blades arranged on the driving shaft and rotating along with the driving shaft,

the driving motor is arranged on the tank body, and the output end of the driving motor is connected with the driving shaft.

As a further technical scheme, the driving shaft is provided with an external thread part, and further comprises,

the first connecting piece, the first connecting piece has the screw hole, external screw thread portion with the screw hole cooperation, the first connecting piece with the transport piece is connected, the transport piece has spacing portion, the inner wall in feeding chamber has the guide way that sets up along vertical direction, the guide part slides and sets up in the guide way, the drive shaft rotation drive the transport piece slides along vertical direction.

As a further technical scheme, the feeding cavity is circumferentially arranged along the stirring cavity, and the conveying piece is circumferentially arranged along the feeding cavity.

As a further technical scheme, the method also comprises the following steps,

the material stirring pieces are arranged on the tank body in a sliding mode along the circumferential direction of the feeding cavity, the material stirring pieces are in contact with the bottom and the bearing surface, two material stirring pieces are arranged, the two material stirring pieces are both close to or far away from the communication port in a sliding mode, and the material stirring pieces are used for conveying raw materials to the communication port.

As a further technical scheme, the method also comprises the following steps,

a drive gear disposed on the drive shaft, the drive gear rotating with the drive shaft,

the driven gears are rotationally arranged on the tank body, a plurality of driven gears are circumferentially distributed along the driving gear,

the second connecting piece, the second connecting piece has internal tooth portion, internal tooth portion with adjacent two driven gear meshing, the second connecting piece with the stirring piece is connected, driven gear rotates through the second connecting piece drive stirring piece is followed feeding chamber circumference direction slides.

As a further technical scheme, the stirring device further comprises a scraping plate, wherein the scraping plate is provided with a plurality of scraping plates, the scraping plates are arranged along the circumference of the driving shaft, the scraping plates rotate along with the driving shaft, and the scraping plates are in contact with the inner wall of the stirring cavity.

As a further technical scheme, the tank body is also provided with an air inlet and an air supply cavity, and the air inlet is communicated with the air supply cavity and the stirring cavity; also included is a method of manufacturing a semiconductor device,

the piston is arranged in the air supply cavity in a sliding way and is used for supplying air into the stirring cavity in a sliding way,

the heating net is arranged on the tank body and is positioned at the air inlet.

As a further technical scheme, the method also comprises the following steps,

the connecting rod, connecting rod one end with driven gear connects, the connecting rod eccentric setting is in on the driven gear, the connecting rod other end with the piston is connected, driven gear rotation drive the piston slides and sets up in the air supply chamber.

The working principle and the beneficial effects of the invention are as follows:

in the invention, during operation, granular raw materials enter a feeding cavity from a hopper and fall onto a conveying member, the conveying member is arc-shaped, the feeding member slides in the arc-shaped feeding cavity along the vertical direction, cleaning liquid is stored at the bottom of the feeding cavity, liquid enters from the upper side and is discharged from a liquid outlet positioned at the lower side, the circulation of the liquid is realized, the raw materials are cleaned, when the conveying member moves upwards, the raw materials are separated from the cleaning liquid, the residual cleaning liquid is obliquely arranged below a liquid through hole at the bottom of the conveying member, the raw materials have a tendency to move towards a direction close to a feed-in communication port when the conveying member is conveyed to the height of the communication port, the raw materials enter a stirring cavity from the feed-in surface through the communication port for stirring, a small amount of water remained on the raw materials can be dried during stirring and heating in the stirring cavity,

the beneficial effect makes the raw materials can be washd through the transport piece of vertical direction motion, and the holding surface of slope setting makes the transport piece move and can enter into the stirring intracavity after the same height with the intercommunication mouth automatically, and the aperture of liquid passing hole is less than the particle diameter of raw materials, and the feeding chamber is located the outside of stirring chamber, makes the feeding intracavity have certain temperature, can preheat the raw materials.

Drawings

The invention will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of the internal structure of the present invention;

FIG. 3 is a schematic view of the internal structure of the tank body of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3A in accordance with the present invention;

in the figure: 1. the tank body, 2, the stirring mechanism, 101, the stirring cavity, 102, the feeding cavity, 103, the communication port, 104, the liquid outlet, 3, the conveying piece, 301, the bearing surface, 302, the liquid through hole, 201, the driving shaft, 202, the stirring vane, 203, the driving motor, 211, the external screw thread portion, 4, the first connecting piece, 401, the threaded hole, 402, the limiting portion, 105, the guide way, 5, the stirring piece, 6, the driving gear, 7, the driven gear, 8, the second connecting piece, 501, the internal tooth portion, 9, the scraping plate, 106, the air inlet, 107, the air supply cavity, 10, the piston, 11, the heating net, 12 and the connecting rod.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 4, this embodiment provides a handle strip raw material preparation device, which comprises a tank 1 and a stirring mechanism 2 disposed on the tank 1, wherein the tank 1 has a stirring cavity 101, a working end of the stirring mechanism 2 is disposed in the stirring cavity 101, the tank 1 further has a feeding cavity 102, a communication port 103 and a liquid outlet 104, the outside of the tank 1 in the feeding cavity 102 is communicated through the liquid outlet 104, the feeding cavity 102 is communicated with the stirring cavity 101 through the communication port 103,

the conveying piece 3, the conveying piece 3 slides along the vertical direction and sets up in the feed cavity 102, the conveying piece 3 has the holding surface 301 that inclines to set up and a plurality of liquid through holes 302 that set up along the vertical direction, the holding surface 301 is located conveying piece 3 top, liquid through holes 302 intercommunication holding surface 301 with conveying piece 3 bottom, conveying piece 3 slides along the vertical direction and is located between liquid outlet 104 and the intercommunication mouth 103.

In this embodiment, a handle bag raw materials preparation facilities, including jar body 1 and the rabbling mechanism 2 of setting on jar body 1, jar body 1 has stirring chamber 101, the work end of rabbling mechanism 2 is located stirring chamber 101, jar body 1 still has feed chamber 102, intercommunication mouth 103 and liquid outlet 104, feed chamber 102 jar body 1 outside is through liquid outlet 104 intercommunication, feed chamber 102 and stirring chamber 101 are through the intercommunication mouth 103 intercommunication, still include conveying piece 3, conveying piece 3 slides along vertical direction and sets up in feed chamber 102, conveying piece 3 has the accepting face 301 that the slope set up and a plurality of liquid through holes 302 that set up along vertical direction, accepting face 301 is located conveying piece 3 top, liquid through holes 302 intercommunication accepting face 301 and conveying piece 3 bottom, conveying piece 3 slides along vertical direction and is located between liquid outlet 104 and the intercommunication mouth 103.

During operation, granular raw materials enter the feeding cavity 102 from the hopper and fall onto the conveying piece 3, the conveying piece 3 is arc-shaped, cleaning liquid slides in the arc-shaped feeding cavity 102 along the vertical direction, cleaning liquid exists at the bottom of the feeding cavity 102, liquid enters from the upper side and is discharged from the liquid outlet 104 positioned at the lower side, circulation of the liquid is achieved, raw materials are cleaned, when the conveying piece 3 moves upwards, the raw materials are separated from the cleaning liquid, residual cleaning liquid is obliquely arranged below the liquid through holes 302 at the bottom of the conveying piece 3, the raw materials move towards the direction close to the communication ports 103 in the inclined direction, when the conveying piece 3 is conveyed to the height of the communication ports 103, the raw materials enter the stirring cavity 101 from the receiving surface 301 to be stirred through the communication ports 103, and a small amount of water remained on the raw materials can be dried during stirring and heating in the stirring cavity 101.

The raw materials can be cleaned through the conveying piece 3 moving in the vertical direction, the supporting surface 301 is obliquely arranged, the conveying piece 3 can automatically enter the stirring cavity 101 after moving to the same height as the communicating opening 103, the aperture of the liquid through hole 302 is smaller than the particle size of the raw materials, the feeding cavity 102 is positioned on the outer side of the stirring cavity 101, a certain temperature is formed in the feeding cavity 102, and the raw materials can be preheated.

Further, the stirring mechanism 2 comprises,

a driving shaft 201, wherein the driving shaft 201 is rotatably arranged on the tank body 1,

a stirring blade 202, said stirring blade 202 being provided on said drive shaft 201, said stirring blade 202 rotating following said drive shaft 201,

the driving motor 203, the driving motor 203 is arranged on the tank body 1, and the output end of the driving motor 203 is connected with the driving shaft 201.

In this embodiment, the stirring mechanism 2 includes a driving shaft 201, a stirring blade 202 and a driving motor 203, the driving shaft 201 is rotationally arranged on the tank body 1, the stirring blade 202 is arranged on the driving shaft 201, the stirring blade 202 follows the driving shaft 201 to rotate, the driving motor 203 is arranged on the tank body 1, an output end of the driving motor 203 is connected with the driving shaft 201, and when in operation, the driving motor 203 drives the driving shaft 201 to rotate, so as to drive the stirring blade 202 to rotate, the driving motor 203 can reciprocate, namely, the driving shaft 201 is driven to reciprocate, a heating device is further arranged on the inner wall of the tank body 1 to heat raw materials in the tank body 1, and thus the preparation of the raw materials is realized.

Further, the driving shaft 201 has an external screw portion 211, further comprising,

the first connecting piece 4, first connecting piece 4 has screw hole 401, external screw thread portion 211 with screw hole 401 cooperation, first connecting piece 4 with carry piece 3 is connected, carry piece 3 has spacing portion 402, the inner wall of feed chamber 102 has the guide way 105 that sets up along the vertical direction, spacing portion 402 slip sets up in the guide way 105, drive shaft 201 rotation drive carry piece 3 slides along the vertical direction.

In this embodiment, the driving shaft 201 has the external thread portion 211, still include the first connecting piece 4, the first connecting piece 4 has the screw hole 401, the external thread portion 211 cooperates with the screw hole 401, the first connecting piece 4 is connected with the conveying piece 3, the conveying piece 3 has spacing portion 402, the inner wall of feeding chamber 102 has the guide way 105 that sets up along vertical direction, spacing portion 402 slides and sets up in the guide way 105, the driving shaft 201 rotates and drives the conveying piece 3 to slide along vertical direction, during operation, the driving shaft 201 rotates under the drive of driving motor 203, the external thread portion 211 stretches into the screw hole 401, when the driving shaft 201 rotates and can make first connecting piece 4 follow the axial direction of driving shaft 201 and remove, spacing portion 402 and guide way 105 cooperate, can make first connecting piece 4 can not follow the driving shaft 201 and rotate, first connecting piece 4 only can realize the removal of vertical direction, thereby drive conveying piece 3 along vertical direction and remove, through the mode of screw rod and screw hole 401, reduce the displacement distance of driving first connecting piece 4 in the motor rotation process, driving motor 203 reciprocating rotation can make first connecting piece 4 reciprocate up and down.

Further, the feeding chamber 102 is circumferentially arranged along the stirring chamber 101, and the conveying member 3 is circumferentially arranged along the feeding chamber 102.

In this embodiment, the feeding cavity 102 is circumferentially arranged along the stirring cavity 101, and the conveying member 3 is circumferentially arranged along the feeding cavity 102, so that the feeding cavity 102 is circumferentially arranged along the stirring cavity 101 during operation, the stirring cavity 101 can preheat the feeding cavity 102, and energy is saved.

Further, the method also comprises the steps of,

the material stirring pieces 5 are arranged on the tank body 1 in a sliding manner along the circumferential direction of the feeding cavity 102, the bottoms of the material stirring pieces 5 are in contact with the bearing surface 301, two material stirring pieces 5 are arranged, the two material stirring pieces 5 are both close to or far away from the communication port 103 in a sliding manner, and the material stirring pieces 5 are used for conveying raw materials to the communication port 103.

In this embodiment, still include driving member 5, driving member 5 slides along feed chamber 102 circumference direction and sets up on jar body 1, driving member 5's bottom and the face 301 of accepting contact, driving member 5 has two, two driving member 5 slides and all is close to or keep away from intercommunication mouth 103, driving member 5 is used for carrying the raw materials to intercommunication mouth 103, during operation, driving member 5 is the same with the level of intercommunication mouth 103, when carrying member 3 to the highest point, driving member 5's bottom and face 301 contact, driving member 5 can dial the raw materials to intercommunication mouth 103 from the both sides of intercommunication mouth 103, make the raw materials can enter into stirring intracavity 101.

Further, the method also comprises the steps of,

a drive gear 6, said drive gear 6 being arranged on said drive shaft 201, said drive gear 6 rotating with said drive shaft 201,

the driven gears 7 are rotatably arranged on the tank body 1, a plurality of the driven gears 7 are circumferentially distributed along the driving gear 6,

the second connecting piece 8, the second connecting piece 8 has internal tooth portion 501, the internal tooth portion 501 meshes with two adjacent driven gears 7, the second connecting piece 8 is connected with the stirring piece 5, the driven gears 7 rotate and drive the stirring piece 5 to slide along the circumferential direction of the feeding cavity 102 through the second connecting piece 8.

In this embodiment, still include driving gear 6, driven gear 7 and second connecting piece 8, driving gear 6 sets up on drive shaft 201, driving gear 6 follows drive shaft 201 rotation, driven gear 7 rotates and sets up on jar body 1, a plurality of driven gears 7 are along driving gear 6 circumference distribution, second connecting piece 8 has internal tooth portion 501, internal tooth portion 501 meshes with two adjacent driven gears 7, second connecting piece 8 is connected with stirring piece 5, driven gear 7 rotates and drives stirring piece 5 through second connecting piece 8 and slide along feeding chamber 102 circumference direction, during operation, driving gear 6 follows drive shaft 201 rotation, drive driven gear 7 rotation, second connecting piece 8 has internal tooth portion 501, the internal tooth portion 501 and the driven gear 7 meshing of second connecting piece 8, driven gear 7 rotates, make second connecting piece 8 follow the circumference removal of driving gear, a plurality of internal tooth portion 501 can connect and form a ring that has the internal tooth, through this structure drive, can reduce the power supply, increase the preparation effect of raw materials.

Further, the stirring device further comprises a plurality of scraping plates 9, wherein the scraping plates 9 are arranged along the circumference of the driving shaft 201, the scraping plates 9 rotate along with the driving shaft 201, and the scraping plates 9 are in contact with the inner wall of the stirring cavity 101.

In this embodiment, still include scraping plate 9, scraping plate 9 has a plurality of, and a plurality of scraping plate 9 sets up along drive shaft 201 circumference, and scraping plate 9 follows drive shaft 201 and rotates, and a plurality of scraping plate 9 and stirring chamber 101 inner wall contact, during operation, scraping plate 9 all are connected with drive shaft 201, follow drive shaft 201 and rotate, and scraping plate 9 can scrape down the raw materials of jar body 1 inner wall, makes the raw materials stirring more even.

Further, the tank 1 is further provided with an air inlet 106 and an air supply cavity 107, and the air inlet 106 is communicated with the air supply cavity 107 and the stirring cavity 101; also included is a method of manufacturing a semiconductor device,

a piston 10, the piston 10 is slidably disposed in the air supply chamber 107, the piston 10 is slidably disposed to supply air into the stirring chamber 101,

the heating net 11 is arranged on the tank body 1, and the heating net 11 is positioned at the air inlet 106.

In this embodiment, the tank 1 has an air inlet 106 and an air supply cavity 107, and the air inlet 106 is communicated with the air supply cavity 107 and the stirring cavity 101; the novel stirring tank comprises a tank body 1, and is characterized by further comprising a piston 10 and a heating net 11, wherein the piston 10 is arranged in an air supply cavity 107 in a sliding manner, the piston 10 is used for supplying air into the stirring cavity 101 in a sliding manner, the heating net 11 is arranged on the tank body 1, the heating net 11 is arranged in an air inlet 106, the piston 10 slides in the air supply cavity 107 in a reciprocating manner during operation, the piston 10 slides to supply air into the tank body 1, and air enters the stirring cavity 101 through the heating net 11, so that raw materials in the stirring cavity 101 can be heated, the raw materials can be dried, and the preparation efficiency is improved.

Further, the method also comprises the steps of,

the connecting rod 12, connecting rod 12 one end with driven gear 7 is connected, connecting rod 12 eccentric setting is in on the driven gear 7, the connecting rod 12 other end with piston 10 is connected, driven gear 7 rotation drive piston 10 slides and sets up in the air supply chamber 107.

In this embodiment, still include connecting rod 12, connecting rod 12 one end is connected with driven gear 7, and connecting rod 12 eccentric setting is on driven gear 7, and the connecting rod 12 other end is connected with piston 10, and driven gear 7 rotates drive piston 10 and slides and set up in the air supply chamber 107, and during operation, driven gear 7 rotates drive connecting rod 12 and removes to drive piston 10 and reciprocate in air supply chamber 107, thereby realize the air supply, so the structure can reduce the power supply, the energy saving.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims

1. The handle belt raw material preparation device comprises a tank body (1) and a stirring mechanism (2) arranged on the tank body (1), wherein the tank body (1) is provided with a stirring cavity (101), the working end of the stirring mechanism (2) is positioned in the stirring cavity (101), the handle belt raw material preparation device is characterized in that the tank body (1) is also provided with a feeding cavity (102), a communication port (103) and a liquid outlet (104), the feeding cavity (102) is communicated with the outside of the tank body (1) through the liquid outlet (104), the feeding cavity (102) is communicated with the stirring cavity (101) through the communication port (103),

the conveying piece (3), the conveying piece (3) is arranged in the feeding cavity (102) in a sliding way along the vertical direction, the conveying piece (3) is provided with a bearing surface (301) which is obliquely arranged and a plurality of liquid through holes (302) which are arranged along the vertical direction, the bearing surface (301) is positioned at the top of the conveying piece (3), the liquid through holes (302) are communicated with the bearing surface (301) and the bottom of the conveying piece (3), the conveying piece (3) is arranged between the liquid outlet (104) and the communicating port (103) in a sliding way along the vertical direction,

the stirring mechanism (2) comprises a stirring device,

a driving shaft (201), wherein the driving shaft (201) is rotatably arranged on the tank body (1),

a stirring blade (202), the stirring blade (202) being provided on the drive shaft (201), the stirring blade (202) rotating following the drive shaft (201),

a driving motor (203), wherein the driving motor (203) is arranged on the tank body (1), the output end of the driving motor (203) is connected with the driving shaft (201),

the drive shaft (201) has an external threaded portion (211), further comprising,

first connecting piece (4), first connecting piece (4) have screw hole (401), external screw thread portion (211) with screw hole (401) cooperation, first connecting piece (4) with carry piece (3) to be connected, carry piece (3) to have spacing portion (402), the inner wall of feeding chamber (102) has guide way (105) along vertical direction setting, spacing portion (402) slip sets up in guide way (105), drive shaft (201) rotation drive carry piece (3) to slide along vertical direction.

2. A handle strip stock preparation device according to claim 1, wherein the feed chamber (102) is arranged circumferentially along the stirring chamber (101), and the conveying element (3) is arranged circumferentially along the feed chamber (102).

3. The handle strip stock preparation device of claim 1, further comprising,

the stirring device comprises stirring pieces (5), the stirring pieces (5) are arranged on the tank body (1) in a sliding mode along the circumferential direction of the feeding cavity (102), the bottoms of the stirring pieces (5) are in contact with the bearing surface (301), the stirring pieces (5) are two, the stirring pieces (5) are both close to or far away from the communication port (103) in a sliding mode, and the stirring pieces (5) are used for conveying raw materials to the communication port (103).

4. The handle strip stock preparation device of claim 3, further comprising,

a drive gear (6), the drive gear (6) being arranged on the drive shaft (201), the drive gear (6) rotating with the drive shaft (201),

the driven gears (7), the driven gears (7) are rotatably arranged on the tank body (1), a plurality of the driven gears (7) are circumferentially distributed along the driving gear (6),

the second connecting piece (8), second connecting piece (8) have internal tooth portion (501), internal tooth portion (501) with adjacent two driven gear (7) meshing, second connecting piece (8) with dialling material piece (5) are connected, driven gear (7) rotate through second connecting piece (8) drive dialling material piece (5) are followed feed chamber (102) circumference direction slip.

5. The handle strip raw material preparation device according to claim 4, further comprising a scraping plate (9), wherein the scraping plate (9) is provided with a plurality of scraping plates (9), the scraping plates (9) are circumferentially arranged along the driving shaft (201), the scraping plates (9) rotate along with the driving shaft (201), and the scraping plates (9) are contacted with the inner wall of the stirring cavity (101).

6. The handle strip raw material preparation device according to claim 4, wherein the tank (1) is further provided with an air inlet (106) and an air supply cavity (107), and the air inlet (106) is communicated with the air supply cavity (107) and the stirring cavity (101); also included is a method of manufacturing a semiconductor device,

a piston (10), wherein the piston (10) is slidably arranged in the air supply cavity (107), the piston (10) is slidably used for supplying air into the stirring cavity (101),

the heating net (11), the heating net (11) is arranged on the tank body (1), and the heating net (11) is located at the air inlet (106).

7. The handle strip stock preparation device of claim 6, further comprising,

connecting rod (12), connecting rod (12) one end with driven gear (7) are connected, connecting rod (12) eccentric setting is in on driven gear (7), connecting rod (12) other end with piston (10) are connected, driven gear (7) rotation drive piston (10) slip setting is in air supply chamber (107).