CN113713679B - Experimental automatic circulation stirring system for preventing precipitation of two-component glue filling machine - Google Patents

Abstract

The invention discloses an anti-sedimentation automatic circulation stirring system of a two-component glue filling machine for experiments, relates to the technical field of stirring devices of glue filling machines, and solves the problems that the existing stirring devices cannot effectively promote circulation exchange of upper and lower layers of slurry, stirring of the slurry is insufficient and comprehensive, and a large amount of slurry is precipitated. An anti-sedimentation automatic circulation stirring system of a two-component glue-pouring machine for experiments comprises a glue tank; the rubber tanks are symmetrically arranged at two positions left and right, and the two rubber tanks and the brackets welded and fixed on the front side and the rear side of the circumferential outer wall of the two rubber tanks form a main body frame of the stirring device together; the stirring mechanism is integrally formed by jointly combining a central swivel and two wheel shafts symmetrically welded on the central swivel, wherein two stirring impellers are symmetrically sleeved on the two wheel shafts. When the two stirring mechanisms rotate back and forth, the four stirring impellers are driven to swing back and forth in the two glue tanks, so that the slurry in the two glue tanks is fully and fully stirred.

Description

Experimental automatic circulation stirring system for preventing precipitation of two-component glue filling machine

Technical Field

The invention relates to the technical field of stirring devices of glue-pouring machines, in particular to an anti-sedimentation automatic circulation stirring system of a double-component glue-pouring machine for experiments.

Background

The glue filling machine is widely applied to the electronic industry, is particularly suitable for packaging circuit boards, and is mostly provided with a circulating stirring system for preventing the sedimentation of adhesives (such as epoxy resin, polyurethane organosilicon and other products) when in use.

For example, patent No. cn201610645028.X discloses a full-automatic stirring glue-pouring machine, including the glue-pouring mechanism, the glue-pouring mechanism includes glue-pouring head and stirring drive assembly, and the glue-pouring head includes glue-pouring barrel and seals the material cylinder, seals the material cylinder and includes and seals the stub bar, top needle valve, seals material cylinder, diaphragm clamp plate, diaphragm collar, glue barrel stirring piece and glue-pouring syringe needle. According to the automatic glue filling machine, automatic conveying, automatic positioning and automatic glue filling operation of glue filling products are realized through the PLC, so that the production efficiency can be greatly improved, the labor intensity is reduced, and the labor cost is saved. The size of the glue filling quantity can be accurately controlled and regulated, and the proper position of the product in the Y-axis direction can be controlled, so that the glue filling action with high precision and a small range can be realized. The glue filling head can automatically rotate according to the process requirement, and the stirring sheets in the glue filling head are combined to fully stir the filling material, so that the filling material is prevented from precipitating.

The existing stirring devices are used for stirring slurry in a mode of a central stirring shaft, the stirring means are single, the circulating exchange of upper and lower layers of slurry cannot be effectively promoted, the stirring of the slurry is not complete enough, a large amount of slurry is precipitated, a large number of slurry is required to be precipitated, the existing stirring components are used for being independently provided with a driving motor, the extrusion and feeding power of the slurry cannot be utilized for linkage driving, and the whole weight reduction of the device and the cost reduction are not facilitated.

Disclosure of Invention

The invention aims to provide an anti-sedimentation automatic circulation stirring system of an experimental two-component glue-pouring machine, which aims to solve the problems that the circulating exchange of upper and lower layers of slurry cannot be effectively promoted, the stirring of the slurry is insufficient and comprehensive, and a large amount of slurry is precipitated.

In order to achieve the above purpose, the present invention provides the following technical solutions: an anti-sedimentation automatic circulation stirring system of a two-component glue-pouring machine for experiments comprises a glue tank; the rubber tanks are symmetrically arranged at two positions left and right, and the two rubber tanks and the brackets welded and fixed on the front side and the rear side of the circumferential outer wall of the two rubber tanks form a main body frame of the stirring device together; the stirring mechanism comprises a stirring impeller, and the whole stirring mechanism is formed by jointly combining a central swivel and two wheel shafts symmetrically welded on the central swivel, wherein the two wheel shafts are symmetrically sleeved with the two stirring impellers, and two vertical supporting positioning shafts correspondingly and penetratingly matched with the two wheel shafts; the center of each stirring impeller is welded and supported with one roller-shaped gear; the two roller-shaped gears are symmetrically sleeved on two wheel shafts of the two stirring mechanisms, and two vertical supporting rack bars of the driving frame are correspondingly meshed with the two roller-shaped gears for transmission; the rubber tank further comprises gear rings, a gear ring is supported and welded on the inner bottom plates of the two rubber tanks upwards, and the outer side sections of the four roller-shaped gears are correspondingly meshed with the two gear rings for transmission; the glue tank comprises a cross brace track shaft and mounting plates, two cross brace track shafts are symmetrically welded and fixed on the top end openings of the two glue tanks in front-back direction, and two mounting plates are symmetrically welded and supported between the left end section and the right end section of the two cross brace track shafts; the sliding square rod further comprises a driving frame, the upper half sections of the two sliding square rods are respectively provided with a driving frame in a rotating limiting sleeve manner, the driving frame is integrally formed by symmetrically welding two vertical supporting rack rods, and the two driving frames can be meshed to drive the four roller gears and the four stirring impellers to rotate and stir; the two vertical support positioning shafts are symmetrically welded on the top transverse support connecting rods of the two driving frames, and a gap is kept between the two vertical support positioning shafts and the two driving frames; the positioning seat is integrally formed by jointly welding a bottom positioning disc and a top cylinder sleeve, wherein an annular groove is formed in the bottom positioning disc in an opening-closing mode, and the positioning seat provides convenience for rotation and installation of the stirring mechanism; the bottom center positions of the inner spaces of the two glue tanks are respectively welded with a positioning seat in a supporting way, and a sliding square rod is arranged on each positioning seat in a penetrating way; a positioning seat; two stirring mechanisms are rotatably sleeved on the two positioning seats; the sliding square rod comprises connecting rods, the top ends of the two sliding square rods are respectively and rotatably connected with one connecting rod, the head ends of the two connecting rods are correspondingly and rotatably connected with the bottoms of the middle sections of the two sliding parts, a round push plate is fixedly welded at the bottom of the sliding square rod and is opposite to the rubber outlet pipe up and down, and the round push plate at the bottom of the sliding square rod can be in reciprocating sliding fit with the rubber outlet pipe to squeeze and feed slurry in the two rubber tanks; the glue tank further comprises electric push rods, and two electric push rods are oppositely locked and installed on the middle sections of the two mounting plates; the two sliding parts are arranged on the two transverse support track shafts in a sliding way in the opposite direction, the head ends of the two electric push rod telescopic rods are correspondingly connected with the middle sections of the two sliding parts in a rotating way, the two sliding parts are integrally in a long-strip rod-shaped structure, and the two transverse support track shafts provide convenience for the sliding installation of the two sliding parts; the glue tank further comprises a glue outlet pipe, the bottom center of the two glue tanks are respectively welded and communicated with a glue outlet pipe, the bottom sections of the two glue outlet pipes are of conical structures and are welded and fixed with a discharge nozzle, and the two discharge nozzles are communicated with a glue filling pipe of the automatic glue filling machine through plastic hoses.

Preferably, the method comprises the following steps:

1. when in use, the two sizing agents are poured into the two glue tanks;

2. then two electric push rods are started, and the two electric push rods stretch back and forth to push the two sliding pieces, so that the two sliding square rods are driven to be pulled up and down for insertion;

3. when the sliding square rod is pulled, inserted and slid, the round push plate at the bottom of the sliding square rod is matched with the rubber outlet pipe in a reciprocating sliding way to extrude and feed the slurry in the two rubber tanks, and the two slurries are extruded by the discharge nozzles at the bottoms of the two rubber outlet pipes and are discharged into the rubber filling pipe of the automatic rubber filling machine to fill the rubber;

4. when the two sliding square rods slide up and down to push and feed materials, the two driving frames are in linkage engagement to drive the four stirring impellers to positively and negatively rotate to stir, the four stirring impellers positively and negatively rotate to stir the slurry in the bottom layers of the two glue tanks, so that the bottom slurry and the upper slurry are subjected to a certain degree of exchange circulation;

5. the four-point stirring impeller drives the two stirring mechanisms to integrally rotate back and forth around the two positioning seats through the linkage engagement of the two gear rings when the four-point stirring impeller rotates positively and negatively, and drives the four-point stirring impeller to reciprocally swing in the two glue tanks when the two stirring mechanisms rotate back and forth, so that the slurry in the two glue tanks is fully and fully stirred.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, through the power transmission of the two driving frames, the two sliding square rods can also drive the four stirring impellers to rotate positively and negatively to stir in a linkage manner when the two sliding square rods slide up and down to push and push the materials, so that a driving motor for rotating and stirring is additionally arranged for the four stirring impellers, the driving motor can indirectly utilize the pushing kinetic energy of the two electric push rods to drive, and the whole weight reduction of the device and the cost reduction are facilitated;

2. according to the invention, the two driving frames and the two sliding square rods are rotationally sleeved together, so that the two driving frames and the two sliding square rods can rotate together along with the stirring mechanism in the glue tank, and the power interruption can not occur when the stirring mechanism integrally rotates;

3. according to the invention, the four vertical support positioning shafts and the four wheel shafts are in penetrating and inserting connection fit, so that the two driving frames can be rotated and limited, the two driving frames are prevented from being twisted and shifted when engaged and transmitted to the four roller gears, the continuity of power transmission is influenced, and the two driving frames can be always attached and transmitted to the rotating four roller gears;

4. the four-position stirring impeller can stir the slurry in the bottom layers of the two-position glue tanks in a positive and negative rotation way, so that the bottom slurry and the upper slurry can be subjected to a certain degree of exchange circulation, the sedimentation is reduced, the two-position stirring mechanisms can drive the four-position stirring impeller to swing reciprocally in the two-position glue tanks, the slurry in the four-position stirring impeller is stirred more comprehensively and fully, and compared with the traditional stirring which is carried out by adopting a central stirring shaft, the circulation exchange of the slurry in the upper and lower layers can be effectively promoted, and the sedimentation quantity of the slurry is greatly reduced;

5. according to the invention, through the transmission of the meshing power of the four roller-shaped gears and the two gear rings, the four stirring impellers can also drive the two stirring mechanisms to integrally rotate around the two positioning seats in a linkage manner during the forward and reverse rotation stirring, so that a driving motor for additionally matching the two stirring mechanisms to swing back and forth is omitted, the weight cost of the whole device is further reduced, and the energy consumption is reduced.

Drawings

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

FIG. 2 is a schematic view of a rear three-dimensional structure of the present invention;

FIG. 3 is a schematic view of the three-dimensional structure of the bottom part of the present invention;

FIG. 4 is a schematic diagram of the semi-section internal structure of the glue tank of the invention;

FIG. 5 is a schematic view of a sliding square bar structure according to the present invention;

FIG. 6 is a schematic view of the bottom structure of the sliding square bar of the present invention;

FIG. 7 is a schematic view of a positioning seat according to the present invention;

FIG. 8 is a schematic view of a stirring mechanism according to the present invention;

in the figure, the correspondence between the component names and the drawing numbers is:

1. a glue tank; 101. a cross brace rail shaft; 102. a mounting plate; 103. an electric push rod; 104. a slider; 105. a rubber outlet pipe; 106. a gear ring; 2. sliding the square rod; 201. a connecting rod; 202. a drive frame; 203. a vertical support positioning shaft; 3. a positioning seat; 4. a stirring mechanism; 401. a stirring impeller; 402. roller-shaped gears.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1 to 8, an embodiment of the present invention provides: an anti-sedimentation automatic circulation stirring system of a two-component glue-pouring machine for experiments comprises a glue tank 1; the glue tank 1 is symmetrically arranged at two positions left and right, and the two glue tanks 1 and the brackets welded and fixed on the front side and the rear side of the circumferential outer wall of the two glue tanks 1 form a main body frame of the stirring device together; the glue tank 1 comprises a cross brace track shaft 101 and mounting plates 102, wherein two cross brace track shafts 101 are symmetrically welded and fixed on the top end openings of the two glue tanks 1 in front-back direction, and two mounting plates 102 are symmetrically welded and supported between the left end section and the right end section of the two cross brace track shafts 101; the bottom center positions of the inner spaces of the two glue tanks 1 are respectively welded with a positioning seat 3 in a supporting way, and a sliding square rod 2 is arranged on each positioning seat 3 in a penetrating way; a positioning seat 3; two stirring mechanisms 4 are rotatably sleeved on the two positioning seats 3; the two roller gears 402 are also symmetrically sleeved on two wheel shafts of the two stirring mechanisms 4, and two vertical support rack bars of the driving frame 202 are correspondingly meshed with the two roller gears 402 for transmission; the rubber tank 1 further comprises a gear ring 106, the inner bottom plates of the two rubber tanks 1 are respectively and upwardly supported and welded with the gear ring 106, the outer sections of the four-roller gears 402 are correspondingly meshed and driven with the gear rings 106, and the four-roller gears 402 and the two gear rings 106 are in meshed power transmission, so that the four-stirring impeller 401 can be linked to drive the two stirring mechanisms 4 to integrally rotate around the two positioning seats 3 in a back-and-forth rotating manner during the forward and reverse rotation stirring, a driving motor which is additionally matched with the two stirring mechanisms 4 and swings back and forth is beneficial to further reducing the weight cost of the whole device and reducing the energy consumption, in addition, the two stirring mechanisms 4 can drive the four-stirring impeller 401 to reciprocate back and forth in the two rubber tanks 1 to stir the slurry in the rubber tanks more comprehensively and fully, and compared with the traditional stirring which is carried out by adopting a central stirring shaft alone, the circulating exchange of slurry in the upper layer and the lower layer can be effectively promoted, and the precipitation amount of slurry can be greatly reduced;

the positioning seat 3 is integrally formed by jointly welding a bottom positioning disc and a top cylinder sleeve, wherein an annular groove is opened and closed on the bottom positioning disc; the glue tank 1 also comprises an electric push rod 103, and two electric push rods 103 are oppositely and fixedly arranged on the middle sections of the two mounting plates 102; the sliding parts 104 are arranged on the two transverse support rail shafts 101 in a sliding way in opposite directions, the head ends of the telescopic rods of the two electric push rods 103 are correspondingly connected with the middle sections of the two sliding parts 104 in a rotating way, and the two sliding parts 104 are integrally in a long bar-shaped structure; the glue tank 1 further comprises a glue outlet pipe 105, the bottom centers of the two glue tanks 1 are respectively welded and communicated with the glue outlet pipe 105, the bottom sections of the two glue outlet pipes 105 are in a conical structure and are welded and fixed with a discharge nozzle, and the two discharge nozzles are communicated with a glue filling pipe of the automatic glue filling machine through plastic hoses; the sliding square rod 2 comprises a connecting rod 201, the top ends of the two sliding square rods 2 are respectively and rotatably connected with the connecting rod 201, the head ends of the two connecting rods 201 are correspondingly and rotatably connected with the bottoms of the middle sections of the two sliding parts 104, a round push plate is fixedly welded at the bottom of the sliding square rod 2, the round push plate is opposite to the rubber outlet pipe 105 up and down, the two sliding parts 104, the two sliding square rods 2 and the two connecting rods 201 are jointly connected to form a two-position crank slide rod mechanism, and through the two-position mechanism, the two electric push rods 103 can reciprocate to stretch and push the two sliding parts 104 to drive the two sliding square rods 2 to be pulled and inserted up and down, so that extrusion feeding power is provided for slurry in the two rubber tanks 1.

Further, the sliding square rod 2 further comprises a driving frame 202, the upper half sections of the two sliding square rods 2 are respectively provided with a driving frame 202 in a rotating limit sleeve manner, the driving frame 202 is integrally formed by symmetrically welding two vertical supporting rack rods, and the two sliding square rods 2 can be linked to drive the four stirring impellers 401 to rotate positively and negatively to stir when in up-down sliding extrusion feeding through the power transmission of the two driving frames 202, so that a driving motor for additionally arranging rotary stirring for the four stirring impellers 401 is omitted, the driving can be indirectly realized by utilizing the pushing kinetic energy of the two electric push rods 103, and the whole weight and cost of the device are reduced; the vertical support positioning shafts 203 are symmetrically welded on the top transverse support connecting rods of the two driving frames 202, two vertical support positioning shafts 203 are kept in a gap between the two vertical support positioning shafts 203 and the two driving frames 202, the two driving frames 202 and the two sliding square rods 2 are rotationally sleeved together, the two driving frames can rotate along with the stirring mechanism 4 in the glue tank 1, and power interruption is avoided when the stirring mechanism 4 integrally rotates.

Further, the stirring mechanism 4 comprises a stirring impeller 401, the whole stirring mechanism 4 is formed by jointly combining a central rotating ring and two wheel shafts symmetrically welded on the central rotating ring, wherein the two stirring impellers 401 are symmetrically sleeved on the two wheel shafts, the two vertical support positioning shafts 203 are correspondingly matched with the two wheel shafts in a penetrating manner, the four vertical support positioning shafts 203 and the four wheel shafts are matched with each other in a penetrating manner so as to limit the rotation of the two driving frames 202, the two driving frames 202 are prevented from being subjected to torsion displacement when engaged transmission is carried out on the four roller-shaped gears 402, the power transmission sustainability is influenced, and the two driving frames 202 can be always attached to the rotating four roller-shaped gears 402 for transmission; the roller-shaped gears 402 are welded and supported at the centers of the two stirring impellers 401, the stirring impellers 401 can stir the slurry in the bottom layers of the two glue tanks 1 in a positive and negative rotation mode, so that the bottom-layer slurry can exchange with the upper-layer slurry to a certain extent, and the sedimentation reduction is facilitated.

Further, the method comprises the following steps:

1. when in use, the two slurries are poured into the two glue tanks 1;

2. then two electric push rods 103 are started, and the two electric push rods 103 reciprocate to stretch and push the two sliding pieces 104 to drive the two sliding square rods 2 to be pulled up and down for insertion;

3. when the sliding square rod 2 is inserted and slid in a drawing way, the round push plate at the bottom of the sliding square rod is matched with the rubber outlet pipe 105 in a reciprocating sliding way to extrude and feed the slurry in the two rubber tanks 1, and the two slurries are extruded by the discharge nozzles at the bottoms of the two rubber outlet pipes 105 and are discharged into a rubber filling pipe of an automatic rubber filling machine to perform rubber filling;

4. when the two sliding square rods 2 slide up and down to push and feed materials, the two driving frames 202 are in linkage engagement to drive the four stirring impellers 401 to rotate positively and negatively to stir, and the four stirring impellers 401 rotate positively and negatively to stir the slurry in the bottom layers of the two glue tanks 1, so that the bottom layer slurry and the upper layer slurry are subjected to a certain degree of exchange circulation;

5. the four-point stirring impeller 401 drives the two stirring mechanisms 4 to integrally rotate back and forth around the two positioning seats 3 through linkage engagement of the two gear rings 106 during forward and reverse rotation stirring, and the two stirring mechanisms 4 drive the four-point stirring impeller 401 to reciprocally swing in the two glue tanks 1 during back and forth rotation to comprehensively and fully stir the slurry in the two glue tanks.

Working principle: when the automatic glue filling machine is used, two kinds of slurry are poured into two glue tanks 1, then two electric push rods 103 are started, the two electric push rods 103 reciprocate to stretch and push two sliding pieces 104, the two sliding square rods 2 are driven to be vertically inserted, when the sliding square rods 2 are inserted and slid, round push plates at the bottoms of the sliding square rods are matched with the glue outlet pipes 105 in a reciprocating sliding mode to extrude and feed the slurry in the two glue tanks 1, the two kinds of slurry are extruded through the discharge nozzles at the bottoms of the two glue outlet pipes 105 and are conveyed into the glue filling pipes of the automatic glue filling machine to fill the glue, when the two sliding square rods 2 slide and push the material up and down, the two driving frames 202 are in linkage engagement to drive the four stirring impellers 401 to positively and negatively rotate, the four stirring impellers 401 positively and negatively rotate to stir the slurry in the bottom layers of the two glue tanks 1, the bottom slurry and the upper slurry are enabled to be exchanged for a certain degree, and the four stirring impellers 401 are driven to be meshed with the two gear rings 106 to integrally rotate around two positioning seats 3 when the four stirring impellers 4 rotate in a reciprocating mode, and the four stirring impellers 401 are driven to fully and fully stir the slurry inside the two glue tanks when the four stirring impellers 401 rotate in the reciprocating mode.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (2)

1. An anti-sedimentation automatic circulation stirring system of a two-component glue filling machine for experiments is characterized in that: stirring device comprising

A glue tank (1); two parts of the rubber tanks (1) are symmetrically arranged left and right, and the two parts of the rubber tanks (1) are welded and fixed on the front side and the rear side of the circumferential outer wall of the two parts of the rubber tanks (1) to form a main body frame of the stirring device;

the glue tank (1) comprises a cross brace track shaft (101) and mounting plates (102), two cross brace track shafts (101) are symmetrically welded and fixed on the top end openings of the glue tank (1) front and back, and two mounting plates (102) are symmetrically welded and supported between the left end section and the right end section of the two cross brace track shafts (101);

the bottom center positions of the inner spaces of the two glue tanks (1) are respectively welded with a positioning seat (3) in a supporting way, and a sliding square rod (2) is arranged on each positioning seat (3) in a penetrating way;

a positioning seat (3); two stirring mechanisms (4) are rotatably sleeved on the two positioning seats (3);

the sliding square rod (2) comprises connecting rods (201), the top ends of the two sliding square rods (2) are respectively and rotatably connected with one connecting rod (201), the head ends of the two connecting rods (201) are correspondingly and rotatably connected with the bottoms of the middle sections of the two sliding parts (104), a round push plate is fixedly welded at the bottom of the sliding square rod (2), and the round push plate is opposite to the rubber outlet pipe (105) up and down;

the sliding square rod (2) also comprises

The upper half sections of the two sliding square rods (2) are respectively provided with a driving frame (202) in a rotating limit sleeve manner, and the driving frame (202) is integrally formed by symmetrically welding two vertical support rack rods;

the two vertical support positioning shafts (203) are symmetrically welded on the top transverse support connecting rods of the two driving frames (202), and a spacing gap is reserved between the two vertical support positioning shafts (203) and the two driving frames (202);

the stirring mechanism (4) comprises

The stirring mechanism (4) is integrally formed by jointly combining a central swivel and two wheel shafts symmetrically welded on the central swivel, wherein the two wheel shafts are symmetrically sleeved with the two stirring impellers (401), and the two vertical supporting positioning shafts (203) are correspondingly and penetratingly matched with the two wheel shafts;

a roller-shaped gear (402), wherein the center of each stirring impeller (401) is welded and supported with one roller-shaped gear (402);

the two roller-shaped gears (402) are also symmetrically sleeved on two wheel shafts of the two stirring mechanisms (4), and two vertical support rack bars of the driving frame (202) are correspondingly meshed with the two roller-shaped gears (402);

the glue tank (1) also comprises

The electric push rods (103) are oppositely locked and installed on the middle sections of the two mounting plates (102);

the two sliding parts (104) are oppositely and slidably arranged on the two transverse support track shafts (101), the head ends of the telescopic rods of the two electric push rods (103) are correspondingly and rotatably connected with the middle sections of the two sliding parts (104), and the two sliding parts (104) are integrally in a long bar-shaped structure;

the glue tank (1) further comprises a glue outlet pipe (105), the bottom centers of the two glue tanks (1) are respectively welded and communicated with one glue outlet pipe (105), the bottom sections of the two glue outlet pipes (105) are in a conical structure and are welded and fixed with a discharge nozzle, and the two discharge nozzles are communicated with a glue filling pipe of the automatic glue filling machine through plastic hoses;

the positioning seat (3) is integrally formed by jointly welding a bottom positioning disc and a top cylinder sleeve, wherein an annular groove is opened and closed on the bottom positioning disc;

the rubber can (1) further comprises gear rings (106), one gear ring (106) is supported and welded on the inner bottom plate of the rubber can (1) upwards, and the outer side sections of the four roller-shaped gears (402) are correspondingly meshed with the two gear rings (106).

2. The method for using the anti-sedimentation automatic circulation stirring system of the experimental two-component glue-pouring machine according to claim 1, which is characterized by comprising the following steps:

s1, when in use, two slurries are poured into two glue tanks (1);

s2, starting two electric push rods (103), and pushing two sliding pieces (104) in a reciprocating telescopic way by the two electric push rods (103) to drive the two sliding square rods (2) to be pulled up and down for insertion;

s3, when the sliding square rod (2) is inserted and slides in a drawing way, the round push plate at the bottom of the sliding square rod is matched with the rubber outlet pipe (105) in a reciprocating sliding way to extrude and feed the slurry in the two rubber tanks (1), and the two slurries are extruded through the discharge nozzles at the bottoms of the two rubber outlet pipes 105 and are discharged into the rubber filling pipe of the automatic rubber filling machine to fill the rubber;

s4, when the two sliding square rods (2) slide up and down to push and feed materials, the two driving frames (202) are in linkage engagement to drive the four stirring impellers (401) to rotate positively and negatively to stir, and the four stirring impellers (401) rotate positively and negatively to stir the slurry in the bottom layers of the two glue tanks (1), so that the slurry in the bottom layers and the slurry in the upper layers are exchanged and circulated to a certain extent;

s5, when the four-point stirring impeller (401) rotates positively and negatively, the two-point stirring mechanism (4) is driven to rotate back and forth integrally around the two positioning seats (3) through linkage engagement of the two gear rings (106), and when the two-point stirring mechanism (4) rotates back and forth, the four-point stirring impeller (401) is driven to swing back and forth inside the two glue tanks (1), so that the slurry inside the two-point stirring impeller is fully and fully stirred.