CN114832696B - Blendor is used in auto-parts production and processing - Google Patents

Abstract

The invention discloses a mixer for production and processing of automobile parts, and relates to the technical field of automobile part processing. The material mixing device comprises two material mixing box groups which are arranged in parallel, wherein an oval material box is arranged between the two material mixing box groups; the mixing box group at least comprises two mixing box bodies which are arranged in parallel, two adjacent mixing box bodies are communicated, and a partition plate is arranged between the two adjacent mixing box bodies; the upper part of each mixing box body is respectively provided with a plurality of U-shaped magnetic sheet groups in a laminating manner, and each U-shaped magnetic sheet group consists of a plurality of uniformly distributed magnetic blocks; a plurality of floatable stirring cylinders are respectively arranged in each mixing box body; arc-shaped magnetic sheets are attached to the inner part of each mixing drum, and the same poles of the arc-shaped magnetic sheets are attached to one side of the mixing drum and one side of the magnetic block close to the mixing box body in a repellent mode. The invention is convenient for the full mixing of the liquid raw materials and has high working efficiency.

Description

Blendor is used in auto-parts production and processing

Technical Field

The invention relates to the technical field of automobile part processing, in particular to a mixer for automobile part production and processing.

Background

In the production and processing of automobile parts, a mixing device is often used for mixing various liquid raw materials, so that the subsequent parts can be conveniently processed and formed, and the quality of a subsequent formed product is influenced by the mixing uniformity; therefore, when mixing a plurality of liquid materials, the problem of mixing uniformity needs to be considered.

Disclosure of Invention

The invention aims to provide a mixer for production and processing of automobile accessories, which is characterized in that disturbance on each mixing drum is realized through the repulsion action of like poles of an arc-shaped magnetic sheet and a U-shaped magnetic sheet group on the mixing drum and the repulsion action of the arc-shaped magnetic sheets between the mixing drums, and then mixed liquid is disturbed and stirred, and a swing mechanism is matched to drive a mixing box body to swing, so that liquid continuously flows and the liquid level of the mixing box body is changed, and further disturbance of the mixing drums is caused, and the uniformity of mixing is improved.

In order to solve the technical problems, the invention provides the following technical scheme: a mixer for producing and processing automobile accessories comprises two mixing box groups which are arranged in parallel, wherein an oval material box is arranged between the two mixing box groups; the mixing box group at least comprises two mixing box bodies which are arranged in parallel, and two adjacent mixing box bodies are communicated with each other and a partition plate is arranged between the two adjacent mixing box bodies; the upper part of each mixing box body is respectively provided with a plurality of U-shaped magnetic sheet groups in a laminating manner, and the U-shaped magnetic sheet groups are uniformly distributed in parallel; the U-shaped magnetic sheet group consists of a plurality of uniformly distributed magnetic blocks; a plurality of stirring cylinders capable of floating are respectively arranged in each mixing box body; arc-shaped magnetic sheets are respectively attached to the inner part of each mixing drum, and the arc-shaped magnetic sheets are attached to one side of the mixing drum and arranged in a manner that like poles of the arc-shaped magnetic sheets and the magnetic blocks are close to one side of the mixing box body in a repelling manner; the bottom parts of the two mixing box groups and the bottom part of the oval material box are provided with a supporting seat together, and the supporting seat is used for supporting the two mixing box groups and the oval material box; a first liquid discharge pipe is communicated with one side of the bottom of the oval feed box and is close to one end of the oval feed box; the bottom of the mixing box body, which is close to one side of the first liquid discharge pipe, in each mixing box group is communicated with second liquid discharge pipes, the bottom ends of the second liquid discharge pipes and the first liquid discharge pipes penetrate through the supporting seat and are commonly connected with a liquid collecting hopper, and the bottom of the liquid collecting hopper is provided with a third liquid discharge pipe; the first liquid discharge pipe and each second liquid discharge pipe are respectively provided with a control valve; the supporting seat is connected with a swinging mechanism, and the swinging mechanism is used for driving the supporting seat to swing back and forth; a plurality of liquid guide pipes are connected between the two sides of the oval feed box and the mixing box bodies on the two sides of the oval feed box respectively; one side of one of the mixing box bodies is connected with a liquid inlet pipe, and a control valve is also arranged on the liquid inlet pipe.

Furthermore, the mixing drum is composed of three buoys I which are arranged in parallel, a floating pipe is connected between every two adjacent buoys I, and the two floating pipes are coaxial; the two sides of each floating barrel I are provided with taper, and the inner wall of the middle position of each floating barrel I is attached with the arc-shaped magnetic sheet.

Furthermore, floating balls are respectively arranged at the end parts of the first buoys at the two sides.

Furthermore, a second floating cylinder is sleeved outside each floating pipe, and two sides of each floating cylinder are also provided with tapers; two ends of the second floating cylinder are respectively provided with a conical sleeve, and one end, far away from the second floating cylinder, of each conical sleeve is attached to the end portion of the first floating cylinder on one side of the conical sleeve.

Furthermore, a plurality of arc-shaped rods are further arranged between every two adjacent buoys in each mixing drum and are uniformly distributed along the circumference of the axis of the floating pipe.

Furthermore, the liquid guide pipes on the two sides of the oval material box are equal in number and corresponding in position; a disturbance impeller is arranged between the two corresponding liquid guide pipes, and a supporting thin rod is connected between the bottom end of the disturbance impeller and the inner wall of the oval material box.

Furthermore, a plurality of strip-shaped bulges are uniformly distributed on the inner annular surface of the oval material box, and an arc surface is arranged on one side, away from the inner annular surface of the oval material box, of each strip-shaped bulge.

Furthermore, the swing mechanism comprises a first support frame and a second support frame, and the first support frame and the second support frame are respectively positioned on two sides of the mixing box group; the positions, close to the top ends, of the first support frame and the second support frame are connected with a rotating shaft, and two ends of the rotating shaft are respectively rotatably arranged on the first support frame and the second support frame; the outer part of the rotating shaft is connected with two connecting plates which are respectively connected with two ends of the supporting seat; a speed reducing motor is mounted on the first support frame, and the output end of the speed reducing motor is connected with a rotary table; the outer part of the rotating shaft is also connected with a connecting rod, and a guide strip hole penetrates through the connecting rod; the turntable is provided with guide posts, the guide posts deviate from the axis of the turntable, and the guide posts are matched in the guide strip holes.

Furthermore, the bottom of baffle has the clearance with the bottom inner wall of mixing the box, and runs through on the baffle and have a plurality of openings.

Furthermore, a protective cover is arranged at the top of each mixing box body and used for protecting the U-shaped magnetic sheet group.

Compared with the prior art, the invention has the following beneficial effects.

1. Because the arc magnetic sheets and the magnetic blocks are arranged in a manner that like poles repel each other, disturbance to the stirring cylinder is caused conveniently, and when the first buoy is closer to the U-shaped magnetic sheet group, the repelling effect is more obvious, so that the disturbance degree is more obvious.

2. The inside churn of each mixing box sets up to a plurality ofly, and one of the certain flotation pontoon that includes in each churn is close to in the remaining churn is one time, and the arc magnetic sheet also takes place to repel each other, is convenient for consequently realize the irregular disturbance to each churn to the mixed liquid of disturbance, the mixed effect of promotion mixed liquid.

3. Swing mechanism drives the swing of mixing the box, arouses that both sides mix the box liquid level constantly change to make the position of flotation pontoon one constantly change, realize the effect of repelling each other to the different intensity of churn, further strengthen the irregular disturbance to the churn, and further promote the stirring effect of mixed liquid disturbance.

4. In addition, still set up a plurality of disturbance impellers, the disturbance impeller has the stirring effect to the mixed liquid of flow, helps promoting the stirring effect of mixed liquid.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of the connection of the mixing tank set and the oval tank of the present invention.

FIG. 3 is a schematic view showing the installation of the baffle plate and the stirring impeller of the present invention.

Fig. 4 is a schematic view of the structure of the separator of the present invention.

Fig. 5 is a schematic view of the mounting of the support base of the present invention.

Fig. 6 is a schematic structural view of the shield of the present invention.

FIG. 7 is a schematic view of the construction of the mixing drum of the present invention.

Fig. 8 is a schematic view of the installation of the floating pipe of the present invention.

FIG. 9 is a schematic view of the installation of the tapered sleeve of the present invention.

FIG. 10 is a schematic view showing the installation of the arc-shaped magnetic sheet according to the present invention.

Fig. 11 is a schematic view of the connection between the support base and the swing mechanism according to the present invention.

Fig. 12 is a schematic structural view of the swing mechanism of the present invention.

In the figure: 1. a mixing box group; 11. a mixing box body; 111. a liquid inlet pipe; 112. a second drain pipe; 12. a partition plate; 121. an opening; 13. a U-shaped magnetic sheet group; 131. a magnetic block; 14. a protective cover; 2. an oval bin; 21. a catheter; 22. a strip projection; 23. a first drain pipe; 3. a swing mechanism; 31. a first support frame; 32. a second support frame; 33. a rotating shaft; 34. a connecting plate; 35. a reduction motor; 36. a connecting rod; 361. guiding the strip holes; 37. a turntable; 38. a guide post; 4. a supporting seat; 5. disturbing the impeller; 51. supporting the thin rod; 6. a liquid collecting hopper; 61. a third drain pipe; 7. a mixing drum; 71. a first buoy; 711. an arc magnetic sheet; 72. a second buoy; 73. a tapered sleeve; 74. a floating ball; 75. an arc-shaped rod; 76. and (4) floating pipes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides the following technical solutions: a mixer for producing and processing automobile accessories comprises two mixing box groups 1 which are arranged in parallel, wherein an oval material box 2 is arranged between the two mixing box groups 1; the mixing box group 1 at least comprises two mixing box bodies 11 which are arranged in parallel, the two adjacent mixing box bodies 11 are communicated, a partition plate 12 is arranged between the two adjacent mixing box bodies 11, a certain gap exists between the bottom end of the partition plate 12 and the bottom wall of the mixing box bodies 11, and a plurality of openings 121 are uniformly distributed on the partition plate 12, so that the two adjacent mixing box bodies 11 are conveniently communicated; and the topmost and bottommost ends of the oval bin 2 are close to the top and bottom ends of the mixing bin 11, respectively, or the topmost and bottommost ends of the oval bin 2 are kept flush with the top and bottom ends of the mixing bin 11, respectively.

As shown in fig. 2, each mixing box set 1 is composed of two mixing boxes 11 arranged in parallel, a liquid guide tube 21 is connected between the left side of an oval material box 2 and the two mixing boxes 11 on the left side of the oval material box, a liquid guide tube 21 is connected between the right side of the oval material box 2 and the two mixing boxes 11 on the right side of the oval material box, a liquid inlet tube 111 is connected to one side of one of the mixing boxes 11, the liquid inlet tube 111 is used for introducing liquid raw materials to be mixed, the number of the feeding tubes can be multiple, each liquid inlet tube 111 is provided with a control valve, the upper end of the liquid inlet tube 111 can be matched with a sealing cover through threads, and the sealing effect on the feeding tubes is improved before and after the liquid raw materials are introduced; in order to facilitate observation of the liquid content inside the mixing tank group 1, a transparent plate may be embedded in one or more of the mixing tank bodies 11, or one side of one or more of the mixing tank bodies 11 may be made transparent.

Referring to fig. 1 and 5, the bottom of the two mixing box groups 1 and the bottom of the oval material box 2 are both provided with a supporting seat 4, the supporting seat 4 is used for supporting the two mixing box groups 1 and the oval material box 2, the supporting seat 4 is provided with a groove adapted to the bottom of the mixing box body 11 and the bottom of the oval material box 2, and the mixing box body 11 and the oval material box 2 are stably arranged in the groove; one side of the bottom of the oval feed box 2 is communicated with a first liquid discharge pipe 23, and the first liquid discharge pipe 23 is close to one end of the oval feed box 2; the bottom of the mixing box body 11, which is close to one side of the first liquid discharge pipe 23, in each mixing box group 1 is communicated with second liquid discharge pipes 112, the bottom ends of the second liquid discharge pipes 112 and the first liquid discharge pipe 23 penetrate through the supporting seat 4 and are connected with a liquid collecting hopper 6 together, and the bottom of the liquid collecting hopper 6 is provided with a third liquid discharge pipe 61; the first drain pipe 23 and each of the second drain pipes 112 are also provided with a control valve for controlling the introduction of the mixed liquid into the hopper 6, and the bottom end of the hopper 6 is connected to a third drain pipe 61 for discharging the mixed liquid.

Meanwhile, the supporting seat 4 is connected with a swinging mechanism 3, and the swinging mechanism 3 is used for driving the supporting seat 4 to swing back and forth, so that the two mixing box groups 1 and the elliptic material box 2 can swing back and forth; mixing box group 1 and oval workbin 2 are used for splendid attire mixing liquid, when leading-in various liquid raw materials from feed liquor pipe 111, for making two mixing box group 1 stably do not rock, can keep away from feed liquor pipe 111 one side at that mixing box group 1 that does not set up connection feed liquor pipe 111 and place and block spacing seat or limiting plate etc. and restrict this mixing box group 1, can make things convenient for the stable leading-in of liquid raw materials, and wait that liquid raw materials shifts out after adding suitable and block spacing seat or limiting plate, avoid influencing the swing that swing mechanism 3 drove mixing box group 1 and oval workbin 2.

When the liquid raw material is introduced, the final mixed liquid can be made to not fill each mixing tank 11, so that the final stable liquid level is kept at a proper position where the mixing tank 11 slightly exceeds the middle part; the mixing liquid is not filled in each mixing box body 11, when the swing mechanism 3 drives the supporting seat 4 to swing back and forth, the two mixing box groups 1 and the oval material box 2 also swing back and forth, therefore, when the mixing box bodies 11 on the two sides have height difference, the flow of the guiding liquid can be caused, namely, the mixing box body 11 at the lower end is convenient for being filled with the mixing liquid.

Referring to fig. 3, the liquid guiding tubes 21 on both sides of the oval material box 2 are equal in number and corresponding in position; a disturbance impeller 5 is arranged between the two corresponding liquid guide pipes 21, and a support thin rod 51 is connected between the bottom end of the disturbance impeller 5 and the inner wall of the oval feed box 2; when the swing mechanism 3 drives the two mixing box groups 1 to swing, and the mixing box bodies 11 on the two sides have height difference, the flow of the liquid guide can be caused, and the flow of the mixed liquid passes through the liquid guide tube 21 and the oval material box 2, so that the stirring effect on the mixed liquid is improved by stirring the flowing mixed liquid through the disturbance impeller 5; in addition, a plurality of strip-shaped bulges 22 are uniformly arranged on the inner annular surface of the oval feed box 2, and an arc surface is arranged on one side of each strip-shaped bulge 22, which is far away from the inner annular surface of the oval feed box 2; because the topmost and bottommost end of oval workbin 2 are close to mixing box 11 top and bottom respectively, or the topmost and bottommost end of oval workbin 2 keep flushing with mixing box 11 top and bottom respectively, when the in-process that mixes liquid and flow to another mixing box group 1 from one of them mixing box group 1, oval workbin 2 internal ring face itself just helps guiding liquid to form the vortex, is convenient for arouse the dispersion of liquid when the anchor ring of rectangular protruding 22 of mobile liquid flow impact, has also helped promoting mixing effect.

Referring to fig. 3 and 6, a plurality of U-shaped magnetic sheet groups 13 are respectively attached to the upper portion of each mixing box 11, the plurality of U-shaped magnetic sheet groups 13 are uniformly distributed in parallel, and the wall thickness of the whole or upper portion of each mixing box 11 is smaller; in order to protect the U-shaped magnetic sheet group 13, a protective cover 14 is respectively arranged at the top of each mixing box body 11, and the protective covers 14 are in U-shaped structures and are connected with the top of the mixing box body 11 through screws; the U-shaped magnetic sheet group 13 is composed of a plurality of magnetic sheets 131, and the plurality of magnetic sheets 131 are uniformly arranged in a U-shape.

Referring to fig. 7-10, a plurality of floatable mixing drums 7 are respectively disposed inside each mixing box 11; the mixing drum 7 consists of three buoys I71 which are arranged in parallel, a floating pipe 76 is connected between every two adjacent buoys I71, and the two floating pipes 76 share the same axis; the two ends of each buoy I71 are respectively provided with a taper, the inner wall of the middle position of each buoy I71 is respectively attached with a plurality of arc-shaped magnetic sheets 711, the wall thickness of the middle part of each buoy I71 can also be set to be smaller, and one side of each arc-shaped magnetic sheet 711 attached to the mixing drum 7 and one side of the magnetic block 131 close to the mixing box body 11 are arranged in a manner that like poles repel each other; specifically, one side of each arc-shaped magnetic sheet 711 attached to the first buoy 71 and one side of the magnetic block 131 close to the mixing box body 11 are arranged in a manner that like poles repel each other; therefore, when the mixing box body 11 is filled with the mixed liquid, the mixing drum 7 floats on the liquid level by utilizing the buoyancy of the mixed liquid to the mixing drum 7, when the liquid level is close to the top of the mixing box body 11, the buoy I71 is close to the U-shaped magnetic sheet group 13, as the same polarity of one side of the arc-shaped magnetic sheet 711 attached to the buoy I71 is repelled with one side of the magnetic block 131 close to the mixing box body 11, the disturbance to the mixing drum 7 is convenient to cause, and the more the position of the buoy I71 is close to the magnetic block 131, the more obvious the repelling effect is, the more obvious the disturbance degree is; because the mixing drums 7 in each mixing box 11 are arranged in a plurality of numbers, when the first buoy 71 included in each mixing drum 7 is close to the first buoy 71 in the rest mixing drums 7, the arc-shaped magnetic sheets 711 repel each other, so that irregular disturbance to each mixing drum 7 is facilitated, mixed liquid is disturbed, and the mixing effect of the mixed liquid is improved.

In addition, the end parts of the first buoys 71 at the two sides are respectively provided with a floating ball 74, the floating balls 74 are of an incomplete hollow ball structure and can be made of elastic materials, the floating balls are used for improving the buoyancy effect of the whole mixing drum 7, and after the mixing drum 7 is arranged to be spherical and elastic, when the mixing drum 7 moves and collides with the inside of the mixing box body 11 or the partition plate 12, the collision strength is relieved, and the position of the whole mixing drum 7 can deflect and move; a second buoy 72 is sleeved outside each floating pipe 76, two sides of the second buoy 72 are also provided with conicity, and two ends of the second buoy 72 are provided with a conical sleeve 73 respectively; a V-shaped groove is formed in the middle of the second buoy 72, and the tapered part of the second buoy 72 and the tapered sleeve 73 on one side of the second buoy also form a V-shaped groove structure; meanwhile, the taper of the conical sleeve 73 keeps the same with the taper of the two ends of the second buoy 72, one end of each conical sleeve 73, which is far away from the second buoy 72, is respectively attached to the end part of the first buoy 71 on one side of the conical sleeve 73, and the circular ring surface of the conical sleeve 73 is just spliced with the circular ring surface of the corresponding end of the first buoy 71 to form a larger circular ring surface; when the mixing drum 7 moves, the formed V-shaped grooves are convenient for cutting and disturbing liquid, and the mixing effect on the liquid is further improved; in addition, still be provided with a plurality of arc poles 75 between two adjacent flotation pontoon 71 in each churn 7, a plurality of arc poles 75 are along 76 axis circumference equipartitions that float, and arc pole 75 adopts hollow rod structure, and when a plurality of arc poles 75 followed the motion of churn 7, also helped the stirring of disturbance to mix the liquid, promoted holistic mixed effect.

Referring to fig. 11-12, the swing mechanism 3 includes a first support frame 31 and a second support frame 32, and the first support frame 31 and the second support frame 32 are respectively located at two sides of the mixing box set 1; a rotating shaft 33 is connected to the positions, close to the top ends, of the first support frame 31 and the second support frame 32, and two ends of the rotating shaft 33 are respectively rotatably arranged on the first support frame 31 and the second support frame 32; the outer part of the rotating shaft 33 is connected with two connecting plates 34, two ends of the supporting seat 4 respectively extend out of two ends of the mixing box group 1, and the two connecting plates 34 are respectively connected with two ends of the supporting seat 4; a speed reducing motor 35 is installed on the first support frame 31, and the output end of the speed reducing motor 35 is connected with a turntable 37; the outside of the rotating shaft 33 is also connected with a connecting rod 36, and a guide long hole 361 penetrates through the connecting rod 36; a guide post 38 is arranged on the end face, far away from the speed reducing motor 35, of the turntable 37, the guide post 38 deviates from the axis of the turntable 37 and is close to the outer ring of the turntable 37, and the guide post 38 is matched inside the guide long-strip hole 361; the swing mechanism 3 is used for realizing the reciprocating swing of the supporting seat 4, the speed reduction motor 35 is driven to drive the rotation of the turntable 37, so that the guide post 38 is driven to rotate, the guide post 38 is matched inside the guide strip hole 361, the guide post 38 moves inside the guide strip hole 361 in the rotating process and drives the connecting rod 36 to move, the reciprocating swing of the connecting rod 36 is realized, the reciprocating swing of the rotating shaft 33 is further driven, and the reciprocating swing of the supporting seat 4 and the two mixing box groups 1 is realized.

The working principle is as follows: when the mixing work is carried out, various liquid raw materials to be mixed are introduced and added through the liquid inlet pipe 111, and finally the final stable liquid level is kept at a proper position slightly above the middle part of the mixing box body 11; then, the speed reducing motor 35 is started to drive the supporting seat 4 to swing in a reciprocating manner, the two mixing box groups 1 and the oval material box 2 also swing in a reciprocating manner, so that when the mixing box bodies 11 on the two sides have a height difference, the flow of the liquid can be caused, namely, the mixing box body 11 on the lower end is convenient to be filled with the mixed liquid, the flowing liquid passes through the liquid guide tube 21 and the oval material box 2, and the disturbance impeller 5 has a stirring effect on the flowing mixed liquid, so that the stirring effect of the mixed liquid is improved; meanwhile, the inner annular surface of the oval feed box 2 helps to guide liquid to form a vortex, and when the flowing liquid flows and hits the annular surface of the strip-shaped protrusion 22, the liquid is dispersed, so that the mixing effect is improved; in addition, the stirring cylinder 7 floats on the liquid level by utilizing the buoyancy of the mixed liquid to the stirring cylinder 7, when the liquid level is close to the top of the mixing box body 11, the first buoy 71 is close to the U-shaped magnetic sheet group 13, the same poles of the arc-shaped magnetic sheet 711 attached to one side of the first buoy 71 and the magnetic block 131 close to the mixing box body 11 repel each other, so that the stirring cylinder 7 is conveniently disturbed, and when the first buoy 71 is closer to the U-shaped magnetic sheet group 13, the repelling effect is more obvious, so that the disturbing degree is more obvious; because the plurality of mixing drums 7 are arranged in each mixing box body 11, when the first buoy 71 of each mixing drum 7 is close to the first buoy 71 of the rest mixing drums 7, the arc-shaped magnetic sheets 711 repel each other, so that irregular disturbance on each mixing drum 7 is facilitated, mixed liquid is disturbed, and the mixing effect of the mixed liquid is greatly improved; in addition, when the mixing drum 7 moves, the formed V-shaped grooves are convenient for cutting and disturbing liquid, and the mixing effect on the liquid is further improved; in addition, a plurality of arc-shaped rods 75 are further arranged between every two adjacent buoys I71 in each mixing drum 7, and when the arc-shaped rods 75 move along with the mixing drum 7, the stirring and mixing of the mixed liquid are facilitated, so that the liquid raw materials are fully mixed; when the speed reducing motor 35 stops working after working for a proper time, after the mixing box set 1 stably does not swing, the control valves of the first liquid discharge pipe 23 and the second liquid discharge pipes 112 are opened, so that the mixed liquid is guided into the liquid collecting hopper 6, and finally the mixed liquid is discharged and collected through the third liquid discharge pipe 61, and the whole mixing work can be completed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a blendor is used in auto-parts production and processing which characterized in that:

the material mixing device comprises two material mixing box groups (1) which are arranged in parallel, wherein an oval material box (2) is arranged between the two material mixing box groups (1);

the mixing box group (1) at least comprises two mixing box bodies (11) which are arranged in parallel, two adjacent mixing box bodies (11) are communicated, and a partition plate (12) is arranged between the two adjacent mixing box bodies (11);

the upper part of each mixing box body (11) is respectively provided with a plurality of U-shaped magnetic sheet groups (13) in an attaching mode, and the U-shaped magnetic sheet groups (13) are uniformly distributed in parallel; the U-shaped magnetic sheet group (13) is composed of a plurality of uniformly distributed magnetic sheets (131);

a plurality of floatable stirring cylinders (7) are respectively arranged in each mixing box body (11); arc-shaped magnetic sheets (711) are respectively attached to the inner part of each stirring cylinder (7), and one side of each arc-shaped magnetic sheet (711) attached to each stirring cylinder (7) and one side of each magnetic block (131) close to the mixing box body (11) are arranged in a manner that like poles repel each other;

the bottom parts of the two material mixing box groups (1) and the oval material box (2) are provided with a supporting seat (4) together, and the supporting seat (4) is used for supporting the two material mixing box groups (1) and the oval material box (2);

one side of the bottom of the oval feed box (2) is communicated with a first liquid discharge pipe (23), and the first liquid discharge pipe (23) is close to one end of the oval feed box (2);

the bottom of the mixing box body (11) on one side close to the first liquid discharge pipe (23) in each mixing box group (1) is communicated with second liquid discharge pipes (112), the bottom ends of the second liquid discharge pipes (112) and the first liquid discharge pipe (23) penetrate through the supporting seat (4) and are connected with a liquid collecting hopper (6) together, and a third liquid discharge pipe (61) is arranged at the bottom of the liquid collecting hopper (6);

the first liquid discharge pipe (23) and each second liquid discharge pipe (112) are respectively provided with a control valve;

the supporting seat (4) is connected with a swinging mechanism (3), and the swinging mechanism (3) is used for driving the supporting seat (4) to swing back and forth;

a plurality of liquid guide pipes (21) are connected between the two sides of the oval feed box (2) and the mixing box bodies (11) on the two sides of the oval feed box respectively;

one side of one of the mixing box bodies (11) is connected with a liquid inlet pipe (111), and the liquid inlet pipe (111) is also provided with a control valve;

a plurality of strip bulges (22) are uniformly distributed on the inner annular surface of the oval work bin (2), and an arc surface is arranged on one side, away from the inner annular surface of the oval work bin (2), of each strip bulge (22).

2. The mixer for producing and processing the automobile parts according to claim 1, wherein: the mixing drum (7) consists of three buoys I (71) which are arranged in parallel, a floating pipe (76) is connected between every two adjacent buoys I (71), and the two floating pipes (76) share the same axis;

the two sides of each buoy I (71) are provided with tapers, and the inner wall of the middle position of each buoy I (71) is attached with the arc-shaped magnetic sheet (711).

3. The mixer for producing and processing the automobile parts according to claim 2, wherein: floating balls (74) are respectively arranged at the end parts of the first buoys (71) positioned at the two most sides.

4. The mixer for producing and processing the automobile parts according to claim 2, wherein: a second buoy (72) is sleeved outside each floating pipe (76), and two sides of the second buoy (72) are also provided with conicity;

two ends of the second buoy (72) are respectively provided with a conical sleeve (73), and one end, away from the second buoy (72), of each conical sleeve (73) is respectively attached to the end part of the first buoy (71) on one side of the conical sleeve (73).

5. The mixer for producing and processing the automobile parts according to claim 2, wherein: a plurality of arc-shaped rods (75) are further arranged between every two adjacent floating cylinders (71) in each mixing drum (7), and the arc-shaped rods (75) are uniformly distributed along the circumference of the axis of the floating pipe (76).

6. The mixer for producing and processing the automobile parts according to claim 1, wherein: the liquid guide pipes (21) on the two sides of the oval material box (2) are equal in number and corresponding in position;

a disturbance impeller (5) is arranged between the two corresponding liquid guide pipes (21), and a supporting thin rod (51) is connected between the bottom end of the disturbance impeller (5) and the inner wall of the oval material box (2).

7. The mixer for producing and processing the automobile parts according to claim 1, wherein: the swing mechanism (3) comprises a first support frame (31) and a second support frame (32);

a rotating shaft (33) is connected to the positions, close to the top ends, of the first supporting frame (31) and the second supporting frame (32), and two ends of the rotating shaft (33) are rotatably arranged on the first supporting frame (31) and the second supporting frame (32) respectively;

the outer part of the rotating shaft (33) is connected with two connecting plates (34), and the two connecting plates (34) are respectively connected to two ends of the supporting seat (4);

a speed reducing motor (35) is mounted on the first support frame (31), and the output end of the speed reducing motor (35) is connected with a turntable (37); a connecting rod (36) is further connected to the outside of the rotating shaft (33), and a guide long hole (361) penetrates through the connecting rod (36);

the rotary table (37) is provided with a guide column (38), the guide column (38) deviates from the axis of the rotary table (37), and the guide column (38) is matched inside the guide strip hole (361).

8. The mixer for producing and processing the automobile parts according to claim 1, wherein: the bottom of baffle (12) and the bottom inner wall of mixing box (11) have the clearance, and run through on baffle (12) and have a plurality of openings (121).

9. The mixer for producing and processing the automobile parts according to claim 1, wherein: the top of each mixing box body (11) is provided with a protective cover (14), and the protective covers (14) are used for protecting the U-shaped magnetic sheet groups (13).

Images