阅读说明：本技术 一种用于zpf防锈料粉体生产共混改性装置 (Be used for ZPF antirust material powder production blending modification device ) 是由 刘学军 纪明聪 于 2020-06-12 设计创作，主要内容包括：一种用于ZPF防锈料粉体生产共混改性装置,支架的右侧壁的左侧面上开设有安装腔,搅拌釜通过轴承插设旋接在安装腔内,搅拌釜的左侧壁上固定设置有转动轴,支架的左侧壁上端固定设置有驱动电机,驱动电机的输出轴与转动轴的左端传动连接；支架的右侧壁上穿设固定有导料槽,支架的右侧壁的右侧面上固定设置有料斗,料斗的下端口密封插设在导料槽内,支架的右侧壁上穿设固定有出料管,出料管的左端插设在安装腔内；其通过翻搅、抛撒的方式进行粉末的混合,使得一种粉末翻搅,另一种粉末抛撒,能够加大粉末的接触面积,保证粉末充分接触反应,保证产品的质量。(A blending modification device for ZPF antirust powder production is characterized in that an installation cavity is formed in the left side face of the right side wall of a support, a stirring kettle is inserted into the installation cavity through a bearing and screwed into the installation cavity, a rotating shaft is fixedly arranged on the left side wall of the stirring kettle, a driving motor is fixedly arranged at the upper end of the left side wall of the support, and an output shaft of the driving motor is in transmission connection with the left end of the rotating shaft; a guide chute is fixedly arranged on the right side wall of the support in a penetrating manner, a hopper is fixedly arranged on the right side surface of the right side wall of the support, a lower port of the hopper is hermetically inserted in the guide chute, a discharge pipe is fixedly arranged on the right side wall of the support in a penetrating manner, and the left end of the discharge pipe is inserted in the installation cavity; the powder is mixed in a stirring and scattering mode, so that one powder is stirred, the other powder is scattered, the contact area of the powder can be increased, the full contact reaction of the powder is ensured, and the quality of a product is ensured.)

1. A blending modification device for ZPF antirust powder production is characterized in that: the device comprises a mixing component (2), a feeding component (3) and a support (1), wherein the mixing component (2) and the feeding component (3) are fixedly arranged on the support (1), and the outlet end of the feeding component (3) is inserted into the mixing component (2);

the mixing component (2) comprises a stirring kettle (2-2), a rotating shaft (2-5) and a driving motor (2-6), wherein a mounting cavity (2-1) is formed in the left side face of the right side wall of the support (1), the stirring kettle (2-2) is inserted into the mounting cavity (2-1) through a bearing and is connected in the mounting cavity (2-1) in a rotating mode, the right end of the stirring kettle (2-2) is provided with an opening, a supporting wheel (2-3) is arranged on the upper surface of the lower side wall of the support (1) in a rotating mode, a guide annular groove (2-4) is fixedly sleeved on the outer side wall of the stirring kettle (2-2), the supporting wheel (2-3) is arranged in the guide annular groove (2-4) in a sliding mode, the rotating shaft (2-5) is fixedly arranged on the left side wall of the stirring kettle (2-2), and the bearing of the rotating shaft (2-5) is, a driving motor (2-6) is fixedly arranged at the upper end of the left side wall of the bracket (1), and an output shaft of the driving motor (2-6) is in transmission connection with the left end of the rotating shaft (2-5);

the feeding assembly (3) comprises a hopper (3-2), a guide chute (3-1) and a mesh screen (3-5), wherein the guide chute (3-1) is fixedly arranged on the right side wall of the support (1) in a penetrating manner, the left port of the guide chute (3-1) is arranged in the installation cavity (2-1), the hopper (3-2) is fixedly arranged on the right side surface of the right side wall of the support (1), the hopper (3-2) is arranged above the right port of the guide chute (3-1), and the lower port of the hopper (3-2) is hermetically inserted in the guide chute (3-1); a guide rod (3-3) is fixedly arranged on the inner side wall of the mounting cavity (2-1), the guide rod (3-3) is arranged on the side of the left port of the guide chute (3-1), a sliding block (3-4) is arranged on the guide rod (3-3) in a sliding manner, a mesh screen (3-5) is fixedly arranged on the sliding block (3-4), the mesh screen (3-5) is movably sleeved on the left port of the guide chute (3-1), a transmission rod (3-6) is movably penetrated on the right side wall of the bracket (1), the left end of the transmission rod (3-6) is inserted in the mounting cavity (2-1), the left end of the transmission rod (3-6) is fixedly arranged on the sliding block (3-4), and a vibration motor (3-7) is fixedly arranged on the right side surface of the right side wall of the bracket (1), the output shaft of the vibration motor (3-7) is in transmission connection with the right end of the transmission rod (3-6);

wear to establish on the right side wall of support (1) and be fixed with discharging pipe (4), the left end of discharging pipe (4) is inserted and is established in installation cavity (2-1), and the left end lower limb of discharging pipe (4) flushes the setting with the lower limb of stirred tank (2-2), discharging pipe (4) internal seal is inserted and is equipped with sealing door (5), fixed plug bush (6) of being provided with on the right side wall of sealing door (5), fixed plug bush (7) of being provided with No. two on the right side wall of support (1), No. one plug bush (6) internalization is inserted and is equipped with pin pole (8), the lower extreme of pin pole (8) is inserted and is established in No. two plug bushes (7).

2. The blending modification device for ZPF rust inhibitor powder production according to claim 1, characterized in that: the flexible pipe type support is characterized in that a corrugated hose (9) is sleeved on the transmission rod (3-6), the left end of the corrugated hose (9) is fixedly arranged on the right side wall of the sliding block (3-4), the right end of the corrugated hose (9) is fixedly arranged on the inner side wall of the installation cavity (2-1), the corrugated hose (9) separates and seals the contact surfaces of the transmission rod (3-6) and the support (1) from the inner space of the installation cavity (2-1), and the left end of the corrugated hose (9) moves and stretches along with the sliding block (3-4).

3. The blending modification device for ZPF rust inhibitor powder production according to claim 1, characterized in that: the left side wall of the sealing door (5) is fixedly provided with a plug (10), the plug (10) is inserted in the discharging pipe (4) in a sealing mode, the left end of the plug (10) penetrates through the left end of the discharging pipe (4) and then is arranged in the installation cavity (2-1), the plug (10) plugs the inner space of the discharging pipe (4), and the plug (10) moves synchronously along with the sealing door (5).

4. The blending modification device for ZPF rust inhibitor powder production according to claim 1, characterized in that: the right side edge of stirred tank (2-2) fixed guide ring board (11) that is provided with, the lower inside wall activity of guide ring board (11) is supported and is established on the left end lower lateral wall of discharging pipe (4), installation cavity (2-1) internal fixation is provided with sealing ring (12), sealing ring (12) activity cover is established on guide ring board (11), the open setting of right-hand member of guide ring board (11), the product in stirred tank (2-2) slides right on guide ring board (11) and falls into discharging pipe (4).

5. The blending modification device for ZPF rust inhibitor powder production according to claim 1, characterized in that: and a guide shifting sheet (13) is fixedly arranged on the inner side wall of the stirring kettle (2-2).

6. The blending modification device for ZPF rust inhibitor powder production according to claim 1, characterized in that: the right side surface of the right side wall of the support (1) is fixedly provided with an air pump (14), the outlet end of the air pump (14) is sleeved with and fixed with a first air duct (15), the first air duct (15) penetrates through the right side wall of the support (1) and is inserted into the stirring kettle (2-2), the first air duct (15) is serially connected with a one-way valve (16), the one-way valve (16) is arranged in a penetrating manner from the air pump (14) to the left end of the first air duct (15), the right side wall of the support (1) is fixedly provided with a second air duct (17) in a penetrating manner, the left end of the second air duct (17) is arranged in the mounting cavity (2-1), the second air duct (17) is arranged above the first air duct (15), a filter element (18) is fixedly inserted into the second air duct (17), the air pump (14) blows air into the stirring kettle (2-2) through the first air duct (15), the powdery raw materials in the stirring kettle (2-2) are blown away and mixed with the raw materials falling from the screen (3-5), and the air pressure in the stirring kettle (2-2) is communicated with the outside through a second air duct (17) for adjustment.

7. The blending modification device for ZPF rust inhibitor powder production according to claim 1, characterized in that: the working principle is as follows: adding simple substance raw materials into a hopper (3-2), enabling the raw materials to enter a mesh screen (3-5) through a material guide groove (3-1) and finally fall into a stirring kettle (2-2), driving the raw materials in the stirring kettle (2-2) to stir through rotation of the stirring kettle (2-2), and sequentially adding different raw materials to realize stirring, blending and modification; the driving motor (2-6) drives the rotating shaft (2-5) to rotate, the rotating shaft (2-5) drives the stirring kettle (2-2) to rotate, and the supporting wheel (2-3) supports the stirring kettle (2-2); the raw materials fall into the mesh screen (3-5) through the material guide groove (3-1), the vibration motor (3-7) drives the sliding block (3-4) to vibrate through the transmission rod (3-6), the sliding block (3-4) drives the mesh screen (3-5) to vibrate, and then the raw materials in the mesh screen (3-5) are screened off to form dust scattering and are mixed with the raw materials stirred and turned up in the stirring kettle (2-2); when the materials are mixed and discharged, the vibration motors (3-7) are closed, the pin rods (8) are pulled out from the first inserting sleeves (6), the sealing doors (5) are pulled out from the discharging pipes (4), the driving motors (2-6) are started to drive the stirring kettles (2-2) to rotate, and then the finished products in the stirring kettles (2-2) fall out from the discharging pipes (4) and are collected.

Technical Field

The invention relates to the technical field of antirust material production equipment, in particular to a blending modification device for ZPF antirust material powder production.

Background

The ZPF rust-proof material is a grey powder material, which can be pasted on the surface of a member for rust prevention after being added with a solvent and stirred into a paste.

During production and manufacture of the ZPF antirust material powder, various elementary substance powders with different properties are mixed and modified to form a finished antirust material; powder mixing modification equipment among the prior art, it adds the stirred tank with the raw materials is whole after, stirs the processing again, and this makes partial raw materials can't fully contact, causes the lower phenomenon of finished product active ingredient content, for solving this shortcoming among the prior art, can prolong the churning time, but this makes manufacturing cost rise, and this can't solve the problem that the simple substance raw materials can't be contacted by the cladding in addition, needs the improvement.

Disclosure of Invention

The invention aims to provide a blending modification device for ZPF antirust material powder production, which is reasonable in design and convenient to use, aiming at the defects and shortcomings of the prior art, and is used for mixing powder in a stirring and scattering mode, so that one powder is stirred while the other powder is scattered, the contact area of the powder can be enlarged, the full contact reaction of the powder is ensured, and the quality of a product is ensured.

In order to achieve the purpose, the invention adopts the technical scheme that: the device comprises a mixing assembly, a feeding assembly and a bracket, wherein the mixing assembly and the feeding assembly are fixedly arranged on the bracket, and the outlet end of the feeding assembly is inserted in the mixing assembly;

the mixing assembly comprises a stirring kettle, a rotating shaft and a driving motor, wherein an installation cavity is formed in the left side surface of the right side wall of the support, the stirring kettle is inserted into the installation cavity through a bearing and is connected in a rotating mode, the right end opening of the stirring kettle is arranged, a supporting wheel is arranged on the upper surface of the lower side wall of the support in a rotating mode, a guide ring groove is fixedly sleeved on the outer side wall of the stirring kettle, the supporting wheel is arranged in the guide ring groove in a sliding mode, the rotating shaft is fixedly arranged on the left side wall of the stirring kettle, the rotating shaft bearing is arranged at the upper end of the left side wall of the support in a rotating mode, the driving motor is fixedly arranged at the upper end of the left side;

the feeding assembly comprises a hopper, a guide chute and a mesh screen, wherein the guide chute is fixedly arranged on the right side wall of the bracket in a penetrating manner, the left end opening of the guide chute is arranged in the mounting cavity, the hopper is fixedly arranged on the right side surface of the right side wall of the bracket and is arranged above the right end opening of the guide chute, and the lower end opening of the hopper is hermetically inserted in the guide chute; a guide rod is fixedly arranged on the inner side wall of the mounting cavity, the guide rod is arranged on the side of the left port of the material guide groove, a sliding block is arranged on the guide rod in a sliding manner, a mesh screen is fixedly arranged on the sliding block, the mesh screen is movably sleeved on the left port of the material guide groove, a transmission rod is movably arranged on the right side wall of the bracket in a penetrating manner, the left end of the transmission rod is inserted into the mounting cavity, the left end of the transmission rod is fixedly arranged on the sliding block, a vibration motor is fixedly arranged on the right side surface of the right side wall of the bracket, and an output shaft of the vibration;

wear to establish on the right side wall of support and be fixed with the discharging pipe, the left end of discharging pipe is inserted and is established in the installation cavity, and the left end lower limb of discharging pipe flushes the setting with stirred tank's lower extreme, and the sealed sealing door that is inserted in the discharging pipe is equipped with, and the fixed plug bush that is provided with on the right side wall of sealing door, the fixed plug bush that is provided with No. two on the right side wall of support, the pin pole that is equipped with is inserted in the activity of plug bush, and the lower extreme of pin pole is inserted and is established in No. two plug bushes.

Further, the transfer line on the cover be equipped with corrugated hose, corrugated hose's left end is fixed to be set up on the right side wall of slider, corrugated hose's right-hand member is fixed to be set up on the inside wall of installation cavity, corrugated hose separates the interior space of the contact surface of transfer line, support and installation cavity sealed, and corrugated hose's left end follows the slider and removes telescopically.

Furthermore, the left side wall of sealing door on the fixed end cap that is provided with, the end cap is sealed to be inserted and is established in the discharging pipe, and the left end of end cap passes the left end back of discharging pipe, sets up in the installation cavity, the inner space of discharging pipe is plugged up to the end cap, and the end cap follows sealing door synchronous movement.

Further, the fixed guide ring board that is provided with in right side edge of stirred tank, the lower inside wall activity of guide ring board is supported and is established under the left end of discharging pipe on the lateral wall, the installation intracavity is fixed and is provided with the sealing ring, sealing ring movable sleeve establishes on the guide ring board, the uncovered setting of right-hand member of guide ring board, the product in the stirred tank slides right on the guide ring board and falls into the discharging pipe.

Furthermore, a guide shifting sheet is fixedly arranged on the inner side wall of the stirring kettle.

Further, the right flank of the right side wall of support on the fixed air pump that is provided with, the cover is established and is fixed with the air duct No. one on the outlet end of air pump, after the air duct passed the right side wall of support, insert and establish in stirred tank, establish ties on the air duct and be provided with the check valve, the check valve is link up the setting by the air pump to the left end of air duct No. one, wear to establish on the right side wall of support and be fixed with the air duct No. two, the left end setting of air duct No. two is in the installation cavity, and the air duct setting is in the top of air duct No. one, it is fixed with the filter core to insert in the air duct No. two, the air pump blows to stirred tank through an air duct, blow off the powdery raw materials in the stirred tank and mix with the raw materials that screen cloth department fell, atmospheric pressure in the stirred tank.

The working principle of the invention is as follows: adding simple substance raw materials into a hopper, enabling the raw materials to enter a mesh screen through a material guide groove and finally fall into a stirring kettle, driving the raw materials in the stirring kettle to stir through rotation of the stirring kettle, and sequentially adding different raw materials to realize stirring, blending and modification; the driving motor drives the rotating shaft to rotate, the rotating shaft drives the stirring kettle to rotate, and the supporting wheel supports the stirring kettle; the raw materials fall into the mesh screen through the material guide groove, the vibration motor drives the sliding block to vibrate through the transmission rod, the sliding block drives the mesh screen to vibrate, and then the raw materials in the mesh screen are screened off to form dust scattering and are mixed with the raw materials stirred and turned up in the stirring kettle; when mixing the completion and carrying out the ejection of compact, close vibrating motor, take the pin rod out from the plug bush No. one, take sealing door out in from the discharging tube, start driving motor and drive stirred tank and rotate, then the finished product in the stirred tank falls out from the discharging tube, collect the finished product can.

After adopting the structure, the invention has the beneficial effects that:

1. the stirring kettle extends into the mounting cavity and is supported by the supporting wheels, the stirring kettle is connected with the driving motor through the rotating shaft, and the stirring kettle is driven to rotate by the driving motor, so that the stirring of the raw materials in the stirring kettle is realized;

2. the baffle box wears to establish on the support, link up hopper and stirred tank, and then it is reinforced in to stirred tank through the hopper conveniently, the mesh screen setting is in the exit end below of baffle box, and the screen cloth setting is on the slider on slip and guide bar, the slider passes through the transfer line and is connected with vibrating motor, vibrating motor work, finally drive the screen cloth and rock, the raw materials sieve that will fall in the baffle box is evenly scattered and is fallen, with the raw materials intensive mixing in the stirred tank, realize off-the-shelf processing.

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 structural view of the present invention.

Fig. 2 is a right side view of fig. 1.

Fig. 3 is a sectional view a-a in fig. 1.

Fig. 4 is a sectional view B-B in fig. 2.

Fig. 5 is an enlarged view of a portion C in fig. 4.

Description of reference numerals:

the device comprises a support 1, a mixing component 2, an installation cavity 2-1, a stirring kettle 2-2, a supporting wheel 2-3, a guide ring groove 2-4, a rotating shaft 2-5, a driving motor 2-6, a feeding component 3, a guide chute 3-1, a hopper 3-2, a guide rod 3-3, a sliding block 3-4, a mesh screen 3-5, a transmission rod 3-6, a vibrating motor 3-7, a discharge pipe 4, a sealing door 5, a first plug bush 6, a second plug bush 7, a pin rod 8, a corrugated hose 9, a plug 10, a guide ring plate 11, a sealing ring 12, a guide shifting piece 13, an air pump 14, a first air duct 15, a one-way valve 16, a second air duct 17 and a filter element 18.

Detailed Description

The invention will be further described with reference to the accompanying drawings.

Referring to fig. 1-5, the present embodiment includes a mixing assembly 2, a feeding assembly 3, and a support 1, wherein the mixing assembly 2 and the feeding assembly 3 are both fixedly disposed on the support 1, and an outlet end of the feeding assembly 3 is inserted into the mixing assembly 2;

the mixing component 2 comprises a stirring kettle 2-2, a rotating shaft 2-5 and a driving motor 2-6, wherein a mounting cavity 2-1 is formed on the left side surface of the right side wall of a support 1, the stirring kettle 2-2 is inserted into the mounting cavity 2-1 through a bearing and screwed in the mounting cavity 2-1, the right end of the stirring kettle 2-2 is provided with an opening, a guide shifting piece 13 is riveted on the inner side wall of the stirring kettle 2-2, the guide shifting piece 13 rotates along with the stirring kettle 2-2 to assist in lifting the raw materials in the stirring kettle 2-2 and facilitate the stirring and stirring of the raw materials, a support wheel 2-3 is screwed on the upper surface of the lower side wall of the support 1 through a bearing, a guide annular groove 2-4 is sleeved and fixed on the outer side wall of the stirring kettle 2-2, the support wheel 2-3 is slidably arranged in the guide annular groove 2-4, the support wheel 2-3 supports the stirring kettle 2-, meanwhile, the stirring kettle 2-2 is convenient to rotate, a rotating shaft 2-5 is riveted on the left side wall of the stirring kettle 2-2, a bearing of the rotating shaft 2-5 is screwed at the upper end of the left side wall of the support 1, a driving motor 2-6 is riveted at the upper end of the left side wall of the support 1, an output shaft of the driving motor 2-6 is in transmission connection with the left end of the rotating shaft 2-5, the driving motor 2-6 drives the rotating shaft 2-5 to rotate, and the stirring kettle 2-2 is further driven to rotate through the rotating shaft 2-5;

the feeding assembly 3 comprises a hopper 3-2, a guide chute 3-1 and a mesh screen 3-5, wherein the guide chute 3-1 is fixedly arranged on the right side wall of the support 1 in a penetrating manner, the left port of the guide chute 3-1 is arranged in the installation cavity 2-1, the hopper 3-2 is riveted on the right side surface of the right side wall of the support 1, the hopper 3-2 is arranged above the right port of the guide chute 3-1, and the lower port of the hopper 3-2 is hermetically inserted in the guide chute 3-1; the inner side wall of the installation cavity 2-1 is riveted with a guide rod 3-3, the guide rod 3-3 is arranged at the side of the left port of the guide chute 3-1, the guide rod 3-3 is provided with a sliding block 3-4 in a sliding way, the sliding block 3-4 is riveted with a mesh screen 3-5, the mesh screen 3-5 is movably sleeved on the left port of the guide chute 3-1, the right side wall of the bracket 1 is movably penetrated with a transmission rod 3-6, the left end of the transmission rod 3-6 is inserted in the installation cavity 2-1, the left end of the transmission rod 3-6 is riveted on the sliding block 3-4, the right side surface of the right side wall of the bracket 1 is riveted with a vibration motor 3-7, the output shaft of the vibration motor 3-7 is connected with the right end of the transmission rod 3-6 in a transmission way, the transmission rod 3-6, the left end of a corrugated hose 9 is fixedly adhered to the right side wall of the sliding block 3-4, the right end of the corrugated hose 9 is fixedly adhered to the inner side wall of the installation cavity 2-1, a vibration motor 3-7 drives the sliding block 3-4 to vibrate through a transmission rod 3-6, then a mesh screen 3-5 vibrates, and a guide chute 3-1 conveys raw materials in a hopper 3-2 to the mesh screen 3-5 to be uniformly sieved and dropped and is fully mixed with the stirred raw materials in the stirring kettle 2-2;

a discharge pipe 4 is fixedly penetrated through the right side wall of a support 1, the left end of the discharge pipe 4 is inserted into an installation cavity 2-1, the lower side edge of the left end of the discharge pipe 4 is flush with the lower side edge of a stirring kettle 2-2, a sealing door 5 is hermetically inserted into the discharge pipe 4, a plug 10 is fixedly arranged on the left side wall of the sealing door 5, the plug 10 is hermetically inserted into the discharge pipe 4, the left end of the plug 10 penetrates through the left end of the discharge pipe 4 and is arranged in the installation cavity 2-1, a first plug bush 6 is riveted on the right side wall of the sealing door 5, a second plug bush 7 is riveted on the right side wall of the support 1, a pin rod 8 is movably inserted into the first plug bush 6, the lower end of the pin rod 8 is inserted into the second plug bush 7, a guide ring plate 11 is fixedly arranged on the right side edge of the stirring kettle 2-2, and the lower part of the guide ring plate 11 is movably abutted against the lower side wall of the left end, a sealing ring 12 is fixedly arranged in the installation cavity 2-1, the sealing ring 12 is movably sleeved on the guide ring plate 11, and the processed product is discharged through the discharge pipe 4;

an air pump 14 is riveted on the right side surface of the right side wall of the bracket 1, a first air duct 15 is sleeved and fixed at the outlet end of the air pump 14, the first air duct 15 penetrates through the right side wall of the bracket 1 and is inserted into the stirred tank 2-2, a check valve 16 is serially connected with the first air duct 15, the check valve 16 is arranged at the left end of the first air duct 15 in a penetrating way by the air pump 14, a second air duct 17 is arranged at the right side wall of the bracket 1 in a penetrating way, the left end of the second air duct 17 is arranged in the mounting cavity 2-1, the second air duct 17 is arranged above the first air duct 15, a filter element 18 is fixedly inserted into the second air duct 17, the air pump 14 blows air into the stirred tank 2-2 through the first air duct 15 to blow up and mix the raw materials uniformly, the raw materials are convenient to fully contact, the stirred tank 2-2 is communicated with the outside through the second air duct 17 to realize, meanwhile, the filter element 18 filters the air passing through the second air duct 17, and prevents powder in the stirring kettle 2-2 from being discharged into the external air through the second air duct 17.

The working principle of the specific embodiment is as follows: adding a simple substance raw material into a hopper 3-2, enabling the raw material to enter a mesh screen 3-5 through a material guide groove 3-1 and finally fall into a stirring kettle 2-2, driving the raw material in the stirring kettle 2-2 to stir through rotation of the stirring kettle 2-2, and sequentially adding different raw materials to realize stirring, blending and modification; the driving motor 2-6 drives the rotating shaft 2-5 to rotate, the rotating shaft 2-5 drives the stirring kettle 2-2 to rotate, and the supporting wheel 2-3 supports the stirring kettle 2-2; the raw materials fall into a mesh screen 3-5 through a material guide groove 3-1, a vibration motor 3-7 drives a sliding block 3-4 to vibrate through a transmission rod 3-6, the sliding block 3-4 drives the mesh screen 3-5 to vibrate, and then the raw materials in the mesh screen 3-5 are sieved to form dust scattering and are mixed with the raw materials stirred and turned up in a stirring kettle 2-2; when the materials are mixed and discharged, the vibration motors 3-7 are closed, the pin rod 8 is pulled out from the first inserting sleeve 6, the sealing door 5 is pulled out from the discharging pipe 4, the driving motors 2-6 are started to drive the stirring kettles 2-2 to rotate, then the finished products in the stirring kettles 2-2 fall out from the discharging pipe 4, and the finished products are collected.

After adopting above-mentioned structure, this embodiment beneficial effect does:

1. the stirring kettle 2-2 is stretched in the installation cavity 2-1 and is supported by a supporting wheel 2-3, the stirring kettle 2-2 is connected with a driving motor 2-6 through a rotating shaft 2-5, and the stirring kettle 2-2 is driven to rotate through the driving motor 2-6, so that the stirring of the raw materials in the stirring kettle 2-2 is realized;

2. the guide chute 3-1 is arranged on the support 1 in a penetrating mode, the hopper 3-2 is communicated with the stirring kettle 2-2, feeding into the stirring kettle 2-2 through the hopper 3-2 is facilitated, the screen 3-5 is arranged below the outlet end of the guide chute 3-1, the mesh screen 3-5 is arranged on a sliding block 3-4 on the sliding and guiding rod 3-3, the sliding block 3-4 is connected with a vibrating motor 3-7 through a transmission rod 3-6, the vibrating motor 3-7 works to finally drive the screen 3-5 to shake, raw materials falling from the guide chute 3-1 are screened uniformly and fall, and are fully mixed with the raw materials in the stirring kettle 2-2, and processing of finished products is achieved.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent substitutions made by those skilled in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention without departing from the spirit and scope of the technical solutions of the present invention.