CN205020023U - High viscous material mixer of biax oscillating - Google Patents

Abstract

The utility model provides a dual-axis swing type high-viscosity material mixer, which comprises a mixing tank, a swing mechanism, a rotation mechanism, a feeding mechanism and a support for the whole machine. The swing mechanism includes a swing mechanism motor, a swing conversion mechanism, a swing mechanism bracket, a first A swing rod and a second swing rod, the rotation mechanism includes; the mixing bucket is arranged directly above the slewing support through the mixing bucket bracket, the first swing rod and the second swing rod position the mixing bucket support, the slewing support and the rotation mechanism motor, and the feeding The mechanism includes a hopper and a screw conveyor in the mixing barrel, and the first swing rod and the second swing rod are connected to the swing conversion mechanism through a connecting rod. Viscous materials are quickly crushed, and the self-rotating movement of the mixing barrel can realize rapid and thorough mixing of high-viscosity materials.

Description

A double-shaft swing type high-viscosity material mixer

technical field

The utility model relates to a stirring machine, in particular to a double-shaft swing type high-viscosity material mixer.

Background technique

In the chemical, pharmaceutical, food and other processing fields, there are a large number of high-viscosity materials. In order to meet market demand, some different types of high-viscosity materials need to be fully mixed when producing certain products. Most of the existing high-viscosity materials are mixed by using the traditional rotary stirring method. The following problems exist in the high-viscosity materials mixed by the rotary stirring method: 1. Some blocky high-viscosity materials cannot be crushed by the rotary stirring method, which makes the mixing less efficient. 2. Due to the high viscosity of the material, there is a dead zone around the mixing barrel due to the rotary stirring method, which makes the mixing quality poor. 3. There are chaotic mixing zones and regular zones in the traditional rotary mixing method, which makes the materials fully mixed in the radial direction and poorly mixed in the axial direction.

Utility model content

Aiming at the above-mentioned problems such as the use of rotary stirring method to stir high viscous materials, the material blocks cannot be crushed, the stirring dead zone exists in the stirring process, and the stirring and mixing are not sufficient. Excellent kneading and stirring force can effectively break up sintered or bonded agglomerates, and realize rapid and thorough mixing of high-viscosity materials.

The technical solution adopted by the utility model to solve the technical problem is: a double-shaft swing mixer, including a mixing tank and a complete machine support, the mixing tank is arranged on the complete machine support, and the feature is that the mixer also Including swing mechanism, rotation mechanism and feeding mechanism;

The bottom of the mixing tank is provided with a mixing tank bottom plate with a discharge port, and a baffle plate is arranged below the discharge port, and the material baffle plate is fixed on the bottom surface of the mixing tank bottom plate through a material baffle bracket superior;

Described swing mechanism comprises swing mechanism motor, swing conversion mechanism, swing mechanism support, first swing lever and second swing lever, and described swing mechanism motor, swing conversion mechanism, first swing lever and second swing lever are all arranged on swing on the mechanism bracket, and the swing mechanism bracket is fixedly arranged on the whole machine bracket;

The swing conversion mechanism includes a swing driven wheel, a first conversion vertical rod and a second conversion vertical rod, and the first conversion vertical rod and the second conversion vertical rod are respectively arranged on both sides of the swing driven wheel in the axial direction, The swing driven wheel is engaged with the swing driving wheel provided at the front end of the swing mechanism motor; the first swing rod and the second swing rod are parallel to each other on the same level and are both arranged on the front of the mixing bucket. Above, in the vertical direction of the axis of the first swing rod and the second swing rod, a stirring vertical rod with stirring blades is arranged, and the two stirring vertical rods are staggered from each other. The first swing rod and the second swing rod The front end is respectively provided with a first swing vertical rod and a second swing vertical rod in the same direction as the stirring vertical rod, and the first swing vertical rod and the second swing vertical rod communicate with each other through the first connecting rod and the second connecting rod respectively. The first conversion vertical bar is connected to the second conversion vertical bar;

The rotating mechanism includes a mixing bucket bracket, a slewing bearing and a rotating mechanism motor, the mixing bucket is fixedly arranged on the mixing bucket bracket, and the mixing bucket bracket is fixedly connected with the inner ring of the slewing bearing, and the rotating mechanism The motor meshes with the inner ring gear of the slewing support through the rotating driving wheel provided at its front end. The slewing support is fixedly installed on the flat plate of the complete machine support and is coaxial with the large round hole opened on the complete machine support flat plate. , the rotating mechanism motor is fixed below the whole machine bracket through the rotating mechanism motor bracket;

The feeding mechanism includes a receiving hopper and a screw conveyor, the screw conveyor is arranged below the mixing barrel and is fixedly installed on the whole machine support through a screw conveyor support, and the receiving hopper is arranged above the screw conveyor .

Preferably, the bottom plate of the mixing bucket is in the shape of an arc.

Preferably, the first conversion vertical bar is vertically upward, and the second conversion vertical bar is vertically downward.

Further, the first conversion vertical rod and the second conversion vertical rod are respectively provided with through holes of the same diameter at equal intervals up and down, and the first conversion vertical rod and the second conversion vertical rod are connected to each other through the one through hole. The first link and the second link are hinged together.

Preferably, a through hole is provided at the center of the bottom plate of the mixing bucket, and a vertical shaft with fixed blades is arranged in the through hole, the fixed blades are located at the top of the vertical shaft, and the fixed blades are positioned along the The circumferential direction of the vertical shaft is evenly distributed, a sealed bearing is arranged between the vertical shaft and the through-hole bracket, and the bottom of the vertical shaft is fixedly connected with the whole machine bracket.

Preferably, the inner side wall of the mixing bucket is provided with a mixing bucket horizontal shift rod evenly distributed along the circumferential direction of the mixing bucket; .

Further, in the height direction of the inner wall of the mixing tank, there are two sets of mixing tank horizontal driving rod groups consisting of a plurality of mixing tank horizontal driving rods, and the vertically adjacent two mixing tank horizontal driving rods are arranged in a staggered manner. Preferably, the stirring shaft is provided with three stirring blades arranged at equal intervals, and the stirring blades are shuttle-shaped.

Preferably, the vertical stirring rod is provided with three stirring blades arranged at equal intervals, and the shape of the stirring blades is a four-pointed star.

The beneficial effects of the utility model are:

1. The utility model uses the first swing rod and the second swing rod to stir the materials in a swinging manner, so that the materials can be fully mixed in the axial direction.

2. The motor of the oscillating mechanism in the utility model is an adjustable frequency conversion motor. During the stirring process, the motor speed can be adjusted according to the viscosity of the material to realize the stirring frequency of the oscillating shaft, thereby improving the stirring and mixing efficiency.

3. Through the multiple through holes with the same diameter provided on the first conversion vertical rod and the second swing vertical rod, the stirring range of the swing rod can be adjusted conveniently, thereby improving the stirring efficiency of the mixer.

4. The first swinging rod and the second swinging rod are in relative motion during the swinging process, which can crush some blocky materials in the relative motion, which improves the mixing efficiency and quality of the materials.

5. During the mixing process, the mixing barrel can rotate freely. By setting the baffle plate on the inner wall and arc-shaped bottom of the mixing barrel, the material can be fully stirred at the edge of the mixing barrel, which improves the mixing quality of the material.

6. The horizontal lever or convex button of the mixing bucket on the inner wall of the mixing bucket drives the material in the bucket to rotate along the direction of rotation of the mixing bucket during the rotation of the mixing bucket, and the material moves in the opposite direction under the action of the fixed blade, combined with the mixing vertical The radial force of the rod and the stirring blades in the mixing barrel makes the highly viscous materials in the mixing barrel collide with each other under the action of three directions of force and fully mix.

Description of drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the following will briefly introduce the accompanying drawings that need to be used in the description of the embodiments or the prior art. Obviously, the accompanying drawings in the following description These are some preferred embodiments of the present utility model. Those skilled in the art can also obtain other drawings based on these drawings without creative work.

Fig. 1 is a schematic diagram of the overall structure of the utility model;

Fig. 2 is a side view of the overall structure of the utility model;

Fig. 3 is a structural schematic diagram of a swing mechanism;

Fig. 4 is a structural schematic diagram of part of the rotating mechanism;

Fig. 5 is the structure diagram of the first embodiment of the mixing tank

Fig. 6 is the structural representation of the second embodiment of the mixing tank;

Fig. 7 is a schematic diagram of the support structure of the mixing tank;

Fig. 8 is a schematic structural view of the second embodiment of the stirring blade;

Fig. 9 is a structural schematic diagram of a swing conversion mechanism;

Figure 10 is an enlarged view of A in Figure 2;

Figure 11 is a schematic diagram of the structure of the baffle plate bracket;

Fig. 12 is a schematic diagram of a fixed longitudinal section of a baffle;

Fig. 13 is a schematic diagram of a fixed transverse section of the baffle plate;

Fig. 14 is a schematic structural diagram of the third embodiment of the mixing tank;

Among the figure: 1 complete machine support, 11 complete machine support plate, 2 swing mechanism, 21 swing driving wheel, 211 swing mechanism motor, 22 swing conversion mechanism, 221 swing driven wheel, 222 first conversion vertical bar, 223 second conversion vertical Rod, 224 connecting rod hinge through hole, 23 first connecting rod, 24 first swinging rod, 241 first swinging vertical rod, 242 stirring vertical rod, 243 stirring blade, 25 second swinging rod, 251 second swinging vertical rod, 26 swing mechanism bracket 27 deep groove ball bearing, 28 bearing seat, 29 second connecting rod, 3 rotating mechanism, 31 mixing bucket, 311 mixing bucket ear plate, 312 mixing bucket horizontal lever, 313 mixing bucket curved blade, 314 output Material port, 3141 material baffle plate, 3142 material baffle plate bracket, 31421L type steel plate, 315 mixing bucket bottom plate, 316 rubber pad, 317 convex button, 2 slewing bearings, 33 rotating mechanism motor, 331 rotating mechanism motor bracket, 332 rotating driving wheel , 34 Mixing barrel bracket, 341 Upper annular plate, 342 Support rod, 343 Lower annular plate, 4 Feeding mechanism, 41 Screw conveyor, 42 Screw conveyor support, 43 Hopper, 5 Vertical shaft, 51 Sealed bearing, 52 Fixed blade .

detailed description

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with specific embodiments and accompanying drawings. Obviously, the described embodiments are only some preferred embodiments of the present invention, rather than all embodiments . Those skilled in the art can make similar modifications without violating the connotation of the utility model, so the utility model is not limited by the specific embodiments disclosed below.

The utility model provides a double-shaft swing type mixer, which comprises a mixing bucket 31, a whole machine support 1, a swing mechanism 2, a rotating mechanism 3 and a feeding mechanism 4, and the mixing bucket 31 is arranged on the whole machine support 1 superior.

The whole machine support 1 includes four legs and a whole machine support flat plate 11 arranged on the four legs, a large round hole is opened in the center of the whole machine support flat plate 11, and a hole for strengthening the whole machine support structure is arranged between the four legs. reinforcement board.

The bottom of the mixing tank 31 is provided with a mixing tank bottom plate 315 with a discharge opening 314, and a material stopper 3141 is arranged below the discharge port 314, and the material stopper 3141 is fixed on the mixing tank bottom plate 315 by a material stopper bracket 3142. On the lower bottom surface, a through hole is set on the central position of the mixing bucket bottom plate 315, and a vertical shaft 5 with a fixed blade 52 is arranged in the through hole, and the fixed blade 52 is located at the top of the vertical shaft 52, and the The four fixed blades 52 are evenly distributed along the circumferential direction of the vertical shaft 5, and a sealed bearing 51 is arranged between the vertical shaft 5 and the through hole, and the sealed bearing 51 is fixed on the bottom plate 315 of the mixing tank through a sealed bearing seat. The sealed bearing 51 acts as a seal to prevent the highly viscous material from falling through the through hole when the mixing bucket 31 rotates, and the bottom of the vertical shaft 5 is fixedly connected with the reinforcing plate on the whole machine support 1; The bracket 3142 is composed of three L-shaped steel plates 31421, and the three L-shaped steel plates 31421 are all welded on the bottom surface of the mixing tank bottom plate 315, and the three L-shaped steel plates form a U-shaped frame on the bottom surface of the mixing tank 315, And in the gap between the L-shaped steel plate 31421 and the bottom surface of the mixing bucket bottom plate 315, a material retaining plate 3141 and a rubber pad 316 are arranged, and the rubber pad 316 is located between the material retaining plate 3141 and the mixing drum bottom plate 315, and the material retaining plate 3141 can Do up and down reciprocating movement in the material baffle bracket 3142, the material baffle 3141 is in the blocking position during the stirring process, to prevent the material from falling from the discharge port 314, when the material needs to be discharged, the material baffle 3141 is hit to the outlet The material position, the stirred material can enter in the receiving hopper 43 through the discharge port 314; the rubber pad 316 plays a sealing effect on the periphery of the material retaining plate 3141, so that the material cannot fall from the periphery of the material retaining plate support 3142. Since the utility model adopts a swing stirring method, in order to further promote the stirring efficiency and improve the stirring quality, we set the bottom plate 315 of the mixing tank into an arc shape, which can effectively reduce the dead zone of swing stirring.

Described swing mechanism 2 comprises swing mechanism motor 211, swing conversion mechanism 22, swing mechanism support 26, first swing lever 24 and second swing lever 25, described swing mechanism motor 211, swing conversion mechanism 22, first swing lever 24 and the second swing rod 25 are all arranged on the swing mechanism bracket 26 , and the swing mechanism bracket 26 is fixedly arranged on the whole machine bracket flat plate 11 .

The swing conversion mechanism 22 includes a swing driven wheel 221, a first conversion vertical rod 222 and a second conversion vertical rod 223, and the first conversion vertical rod 222 and the second conversion vertical rod 223 are respectively arranged on the swing driven wheel 221 On both sides of the axial direction, the first conversion vertical rod 222 is vertically upward, and the second conversion vertical rod 223 is vertically downward (as shown in FIG. 9 ). Between the first conversion vertical rod 222 and the swing driven wheel 221 and between the second conversion vertical bar 223 and the swing driven wheel 221 are provided with deep groove ball bearings 27 and the deep groove ball bearings 27 are fixedly installed in the bearing seat 28, and the swing conversion mechanism 22 is fixed by the bearing seat 28. Installed on the swing mechanism bracket 26.

The swing driven wheel 221 meshes with the swing driving wheel 21 provided at the front end of the swing mechanism motor 211; the first swing lever 24 and the second swing lever 25 are parallel to each other on the same level and are both arranged Directly above the mixing bucket 31, deep groove ball bearings 27 are sleeved at both ends, and the deep groove ball bearings 27 are fixedly installed in the bearing housing 28, and the first swing rod 24 and the second swing rod through the bearing housing 28 25 are all fixedly mounted on the swing mechanism support 26; the axis vertical direction of the first swing rod 24 and the second swing rod 25 is provided with a stirring vertical rod 242 with a stirring blade 243 and the two stirring vertical rods 242 are mutually Staggered (as shown in Figure 3), the stirring vertical rod 242 is located in the mixing bucket 31, and the front ends of the first swinging rod 24 and the second swinging rod 25 are respectively provided with first swinging vertical rods in the same direction as the stirring vertical rod 242. Rod 241 and the second swing vertical bar 251, the vertical distance from the outer plane of the first swing vertical bar 241 to the outer plane of the second swing vertical bar 251 and the vertical distance from the outer plane of the first conversion vertical bar 222 to the outer plane of the second conversion vertical bar 223 The distance is the same, so that the rotational motion of the swing driven wheel 221 can be effectively converted into the reciprocating swing motion of the first swing rod 24 and the second swing rod 25, and the first swing vertical rod 241 and the second swing vertical rod 251 respectively pass through The first connecting rod 23 and the second connecting rod 29 are connected with the first conversion vertical rod 222 and the second conversion vertical rod 223, and a through hole is provided at the front ends of the first swing vertical rod 241 and the second swing vertical rod 251, Both ends of the first connecting rod 23 and the second connecting rod 29 are provided with through holes, and the front ends of the first conversion vertical rod 222 and the second conversion vertical rod 223 are provided with through holes, and the first connecting rod 23 passes through the through holes respectively. The second connecting rod 29 is hingedly linked with the first conversion vertical rod 222 and the first swing vertical rod 241 , and the second connecting rod 29 is hingedly connected with the second conversion vertical rod 223 and the second swing vertical rod 251 respectively through through holes. It can be seen from the above description that the first conversion vertical rod is vertically upward, and the second conversion vertical rod is vertically downward, so the swing motion of the first swing rod 24 and the second swing rod 25 is a relative motion, that is, the first The swinging direction of the swinging rod 24 and the second swinging rod 25 is always opposite during the swinging process, and this swinging design can effectively crush blocky high-viscosity materials and improve mixing efficiency.

In order to make the swing range of the first swing rod 24 and the second swing rod 25 freely adjustable, a plurality of equally spaced through-diameter channels are arranged on the first conversion vertical rod 222 and the second conversion vertical rod 223 respectively. hole, the first connecting rod 23 and the second connecting rod 29 can randomly change the first swinging rod 24 and the second swinging rod by selecting the hinged hole positions on the first conversion vertical rod 222 and the second conversion vertical rod 223 respectively The swing range of 25; in order to bring into full play the stirring effect of the stirring vertical rod 242, three stirring blades 243 at equal intervals are set on the stirring vertical rod 242. For the resistance to the stirring blade 243, the external shape of the stirring blade 243 can be a four-pointed star shape.

Described rotating mechanism 3 comprises mixing bucket support 34, slewing bearing 32 rotating mechanism motors 33, and described mixing bucket supporting frame 34 is made up of upper annular flat plate 341, support rod 342 and lower annular flat plate 343, and four supporting rods 342 are positioned at upper annular flat plate Between 341 and the lower annular flat plate 343 and evenly distributed along the circumferential direction of the upper annular flat plate 341, the upper annular flat plate 341 is provided with four through holes evenly distributed along its circumferential direction, and the lower annular flat plate 342 is provided with four through holes along its circumferential direction. A plurality of evenly distributed through holes, the outer edge of the mixing bucket 31 is provided with four evenly distributed mixing bucket ear plates 311 with through holes, and the bolts pass through the through holes on the mixing bucket ear plates 311 and the upper annular plate 341 The through hole on the top fixes the mixing tank 31 on the upper annular plate 341, and the bolt passes through the through hole provided on the lower annular plate 343 and the through hole on the inner ring of the slewing bearing 32 to fix the mixing tank support 34 on the On the inner ring of the slewing support 32, the rotating mechanism motor 33 meshes with the inner ring gear of the slewing support 32 through the rotating driving wheel 332 provided at its front end, and the slewing support 32 is fixedly installed on the flat plate of the whole machine support 1 and coaxial with the large circular hole provided on the whole machine support flat plate 11, the rotating mechanism motor 33 is fixed below the complete machine supporting flat plate 11 through the rotating mechanism motor support 331; the rotating mechanism motor 33 drives the rotating driving wheel 332 to rotate And then drive the slewing bearing 32 to drive the mixing bucket 31 to rotate. In order to make the highly viscous material fully mixed, we designed the second embodiment of the mixing bucket 31 (as shown in Figure 6). In the second embodiment, the mixing bucket 31 The vertical shaft 5, the fixed blade 52 and the sealed bearing 51 arranged at the bottom are removed, and the inner side wall of the mixing bucket 31 is provided with a horizontal lever 312 of the mixing bucket evenly distributed along the circumferential direction of the mixing bucket 31. Further, the horizontal lever 312 of the mixing bucket is In the height direction of the inner wall of the mixing tank, it is divided into two groups of upper and lower, and each group has a plurality of horizontal dials 312 of the mixing tank, and the two horizontal driving rods 312 of the mixing tanks adjacent to each other are arranged alternately; on the bottom plate of the mixing tank 315 The arc-shaped blades 313 of the mixing bucket are evenly distributed along the circumferential direction of the mixing bucket 315. During the rotation process of the mixing bucket 312, the horizontal driving rod 312 of the mixing bucket and the curved blade 313 of the mixing bucket also play a role in stirring and mixing the highly viscous material inside the mixing bucket, thereby further promoting the mixing of the high viscous material in the mixing bucket 31. Fully mix, here we can also remove the above-mentioned mixing bucket horizontal driving rod 312 and the mixing bucket arc blade 313, and set the convex button 317 on the inner side wall of the mixing bucket 312 and the mixing bucket bottom plate 315, and the convex button 317 is opposite during the stirring process. The highly viscous material plays a very good role in stirring and stirring.

The feeding mechanism 4 includes a hopper 43 and a screw conveyor 41, the screw conveyor 41 is arranged below the mixing bucket 31 and is fixedly installed on the whole machine support 1 by a screw conveyor bracket 42, the hopper 43 brackets are welded at the feeding port of the screw conveyor 41; the material stirred by opening the baffle plate 3141 enters the receiving hopper 43 from the discharge port 314, and then enters the screw conveyor 41, and is passed through the screw conveyor 41 The stirred material is transported to the corresponding position.

In the utility model, through the rotation of the mixing tank 31 and the swinging of the swing rod, the radial mixing and circumferential mixing of the materials in the mixing tank 31 are realized, and the quality and efficiency of material mixing are improved; at the same time, the swing mechanism motor 211 and the rotating Mechanism motors 33 can be adjustable frequency conversion motors. During the stirring process of highly viscous materials, the rotating speeds of the swing mechanism motor 211 and the rotation mechanism motor 33 can be set according to the viscosity of the materials, so as to ensure that they can be used in a short period of time. The highly viscous mixture in the mixing tank 31 is fully mixed within the time.

The above described preferred embodiments and examples of the utility model in detail in conjunction with the accompanying drawings, but the utility model is not limited to the above-mentioned implementation and examples, for those of ordinary skill in the art, without departing from Under the premise of the concept of the utility model, some improvements and modifications can also be made, and these improvements and modifications should also be regarded as the protection scope of the utility model.

Claims (10)

1. A biaxial swing type high-viscosity material mixer, comprising a mixing tank and a complete machine support, the mixing tank is arranged on the complete machine support, it is characterized in that the mixer also includes a swing mechanism, a rotating mechanism and a feeding mechanism mechanism; The bottom of the mixing tank is provided with a mixing tank bottom plate with a discharge port, and a baffle plate is arranged below the discharge port, and the material baffle plate is fixed on the bottom surface of the mixing tank bottom plate through a material baffle bracket superior; Described swing mechanism comprises swing mechanism motor, swing conversion mechanism, swing mechanism support, first swing lever and second swing lever, and described swing mechanism motor, swing conversion mechanism, first swing lever and second swing lever are all arranged on swing on the mechanism bracket, and the swing mechanism bracket is fixedly arranged on the whole machine bracket; The swing conversion mechanism includes a swing driven wheel, a first conversion vertical rod and a second conversion vertical rod, and the first conversion vertical rod and the second conversion vertical rod are respectively arranged on both sides of the swing driven wheel in the axial direction, The swing driven wheel is engaged with the swing driving wheel provided at the front end of the swing mechanism motor; the first swing rod and the second swing rod are parallel to each other on the same level and are both arranged on the front of the mixing bucket. Above, in the vertical direction of the axis of the first swing rod and the second swing rod, a stirring vertical rod with stirring blades is arranged, and the two stirring vertical rods are staggered from each other. The first swing rod and the second swing rod The front end is respectively provided with a first swing vertical rod and a second swing vertical rod in the same direction as the stirring vertical rod, and the first swing vertical rod and the second swing vertical rod are connected to each other through the first connecting rod and the second connecting rod respectively. The first conversion vertical bar is connected to the second conversion vertical bar; The rotating mechanism includes a mixing bucket bracket, a slewing bearing and a rotating mechanism motor, the mixing bucket is fixedly arranged on the mixing bucket bracket, and the mixing bucket bracket is fixedly connected with the inner ring of the slewing bearing, and the rotating The motor of the mechanism meshes with the inner ring gear of the slewing support through the rotating driving wheel provided at its front end. Shaft, the motor of the rotating mechanism is fixed under the flat plate of the whole machine bracket through the motor bracket of the rotating mechanism; The feeding mechanism includes a receiving hopper and a screw conveyor, the screw conveyor is arranged below the mixing barrel and is fixedly installed on the whole machine support through a screw conveyor support, and the receiving hopper is arranged above the screw conveyor . 2. A double-shaft oscillating high-viscosity material mixer according to claim 1, wherein the bottom plate of the mixing tank is in the shape of an arc. 3 . The dual-shaft swinging high-viscosity material mixer according to claim 1 , wherein the first conversion vertical rod is vertically upward, and the second conversion vertical rod is vertically downward. 4 . 4. According to any one of claims 1-3, a double-shaft swing type high-viscosity material mixer is characterized in that, the first conversion vertical rod and the second conversion vertical rod are respectively provided with a plurality of vertical and equal intervals. Through holes with the same diameter, the first conversion vertical rod and the second conversion vertical rod are respectively hinged with the first connecting rod and the second connecting rod through one of the through holes. 5. A double-shaft swing type high-viscosity material mixer according to claim 1, characterized in that, a through hole is set at the center of the bottom plate of the mixing tank, and a fixed blade is set in the through hole. The vertical shaft, the fixed blades are located at the top of the vertical shaft, and the fixed blades are evenly distributed along the circumferential direction of the vertical shaft, a sealed bearing is arranged between the vertical shaft and the through-hole bracket, and the vertical shaft The bottom is fixedly connected with the whole machine support. 6. A double-shaft oscillating high-viscosity material mixer according to claim 1, characterized in that, the inner wall of the mixing tank is provided with a horizontal lever of the mixing tank uniformly distributed along the circumferential direction of the mixing tank; The bottom plate of the mixing bucket is provided with arc-shaped blades of the mixing bucket uniformly distributed along the circumferential direction of the mixing bucket. 7. According to claim 1 or 6, any dual-shaft oscillating high-viscosity material mixer is characterized in that two sets of horizontal levers are arranged on the inner wall of the mixing tank in the direction of height. The horizontal driving rod group of the mixing tank, the horizontal driving rods of the two adjacent mixing tanks are arranged alternately. 8. A double-shaft oscillating high-viscosity material mixer according to claim 1, characterized in that, the stirring vertical rod is provided with three stirring blades arranged at equal intervals, and the shape of the stirring blades is a shuttle type . 9. A double-shaft oscillating high-viscosity material mixer according to claim 1, characterized in that three stirring blades arranged at equal intervals are arranged on the stirring vertical rod, and the shape of the stirring blades is a four-pointed star shape . 10. The double-shaft swing type high-viscosity material mixer according to claim 1, characterized in that, convex buttons are arranged on the inner side and the bottom of the mixing bucket.