CN218339498U - Small-size stirring formula powder blendor - Google Patents

Abstract

The utility model discloses a small-sized stirring type powder mixer, which comprises a frame, a plurality of storage hoppers, two mixing mechanisms and a driving mechanism, wherein the storage hoppers are fixed on the frame side by side and are provided with a storage cavity for containing powder, a first discharge port communicated with the storage cavity is formed in each storage hopper, and a first valve is arranged at the first discharge port; each mixing mechanism all includes compounding jar, a plurality of inlet pipe and rabbling mechanism, each compounding jar difference sliding connection in the frame, each the lower extreme of inlet pipe all with the import intercommunication of compounding jar. The utility model has the advantages that: when unloading and material loading are carried out in a material mixing tank, the powder in another material mixing tank is being mixed, and two material mixing tanks work by turns, so that the time consumed by material loading and unloading is saved, and the working efficiency of the material mixing machine is improved.

Description

Small-size stirring formula powder blendor

Technical Field

The utility model relates to a compounding equipment technical field especially relates to a small-size stirring formula powder blendor.

Background

The cementing material is mainly used in concrete and mortar, and part of the cementing material needs to be mixed with a plurality of materials uniformly for use.

Application No. 201420298383.0's chinese utility model discloses a powder blendor, including the compounding jar to and from the top down sets gradually high-order stirring rake, meso position stirring rake and low level stirring rake in the compounding jar, wherein the low-order stirring rake links to each other with the first power device that is located outside the compounding jar through the outer (mixing) shaft of vertically, and meso position stirring rake and high-order stirring rake link to each other with the second power device that is located outside the compounding jar through the interior (mixing) shaft of vertically.

Above-mentioned powder blendor is at whole compounding in-process, need earlier to material loading, compounding again, unloading at last in the compounding jar, and material loading and unloading process take time longer, lead to blendor work efficiency lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome above-mentioned technique not enough, provide a small-size stirring formula powder blendor, solve among the prior art powder blendor at whole compounding in-process, need earlier to material loading, compounding again, last unloading in the compounding jar, material loading and unloading process take time longer, lead to the lower technical problem of blendor work efficiency.

In order to achieve the technical purpose, the technical scheme of the utility model a small-size stirring formula powder blendor is provided, include:

a frame;

the storage hopper is provided with a storage cavity for containing powder, the storage hopper is provided with a first discharge opening communicated with the storage cavity, and a first valve is arranged at the first discharge opening;

the mixing device comprises two mixing mechanisms, wherein each mixing mechanism comprises a mixing tank, a plurality of feeding pipes and a stirring mechanism, each mixing tank is respectively connected to the rack in a sliding mode, the lower end of each feeding pipe is communicated with an inlet of the mixing tank, and the stirring mechanism is arranged in the mixing tank;

and the driving mechanism is connected with each mixing tank and used for driving the mixing tanks to move so as to enable each mixing tank to be provided with the upper ends of the feeding pipes communicated with the first discharge opening in sequence.

Further, the rack comprises a bottom plate, two vertical plates and a top plate, the two vertical plates are symmetrically and fixedly arranged on the bottom plate, a fixing plate is fixedly arranged on the outer side wall of one vertical plate, the top plate is fixedly arranged at the tops of the two vertical plates, two supporting plates are fixedly arranged on the top plate, a plurality of storage hoppers are fixedly connected, and the storage hoppers located at the outermost sides are respectively and fixedly arranged on the corresponding supporting plates.

Furthermore, a first feed inlet communicated with the storage cavity is formed in the storage hopper.

Furthermore, small-size stirring formula powder blendor still includes the lifting machine, lifting machine fixed mounting in on the fixed plate, seted up on the lifting machine a plurality of with bin outlet and a dog-house of first feed inlet intercommunication, and bin outlet department is provided with the second valve.

Further, small-size stirring formula powder blendor still includes a plurality of case of weighing, each the case of weighing side by side fixed mounting in on the roof, the case of weighing be located below the storage hopper and each the case of weighing with corresponding the storage hopper one-to-one, the case of weighing has a chamber of weighing, on the case of weighing fixed mounting one with second feed inlet and the second feed opening of weighing the chamber intercommunication, and second feed opening department is provided with the third valve, the second feed inlet with first feed opening intercommunication, the second feed opening passes the roof.

Furthermore, a metering sensor is arranged in the weighing cavity.

Furthermore, an arc-shaped groove is formed in each of the two vertical plates, and two ends of each mixing tank are connected in the corresponding arc-shaped grooves in a sliding mode.

Further, rabbling mechanism includes pivot, a plurality of stirring paddle leaf and first rotation driving piece, the pivot along the axis of compounding jar set up in the compounding jar, just the both ends of pivot rotate install in on the jar wall of compounding jar, a plurality of stirring paddle leaf side by side fixed mounting in the pivot, first rotation driving piece fixed mounting in on the compounding jar, first rotation driving piece's output with the one end fixed connection of pivot is used for the drive the pivot is rotated.

Furthermore, there are two driving mechanisms, two driving mechanisms are respectively arranged at two ends of the mixing tank, each driving mechanism comprises a connecting piece and a second rotary driving piece, one end of each connecting piece is fixedly connected with one end of the corresponding mixing tank, the second rotary driving pieces are fixedly arranged on the vertical plates, the central axes of the second rotary driving pieces are coaxial with the circle center of the arc-shaped groove, and the output ends of the second rotary driving pieces are fixedly connected with the other ends of the connecting pieces and used for driving the connecting pieces to rotate.

Furthermore, the connecting piece includes arc and connecting rod, the both ends of arc respectively with two one end fixed connection of compounding jar, the one end of connecting rod with the middle part department fixed connection of arc, the output of second rotation driving piece with the other end fixed connection of connecting rod.

Compared with the prior art, the beneficial effects of the utility model include: the storage intracavity of storage hopper stores different kinds of powder respectively, through controlling actuating mechanism, make two compounding jars of actuating mechanism drive remove, thereby make inlet pipe and first feed opening intercommunication on the compounding jar, at this moment, the mixture in the compounding jar is discharged, after the mixture in the compounding jar has been discharged, open first valve, the powder in the storage intracavity enters into the compounding jar along first feed opening and inlet pipe, at this moment, through controlling the rabbling mechanism on another compounding jar, can make the rabbling mechanism stir the mixture to the powder in the compounding jar, the utility model discloses in, through setting up two compounding mechanisms, when unloading and material loading in a compounding jar, the powder in another compounding jar is being carried out the compounding, two compounding jars take turns the work, thereby practiced thrift the time that material loading and unloading consumed, improved the work efficiency of blendor.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of a small stirring type powder mixer provided by the present invention;

fig. 2 is a schematic structural view of a small stirring type powder mixer provided by the present invention;

FIG. 3 is a cross-sectional view of a compact blender type powder blender of FIG. 1 from a first perspective;

FIG. 4 is a cross-sectional view of a compact blender type powder blender of FIG. 1 from another perspective;

fig. 5 is a perspective view of the frame of fig. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The utility model provides a small-sized stirring type powder mixer, the structure of which is shown in figure 1 and figure 2, comprising a frame 1, a plurality of storage hoppers 2, two mixing mechanisms 3 and a driving mechanism 4, wherein the storage hoppers 2 are fixedly arranged on the frame 1 side by side, the storage hoppers 2 are provided with a storage cavity 21 for containing powder, the storage hoppers 2 are provided with a first feeding hole 22 and a first discharging hole 23 which are communicated with the storage cavity 21, and the first discharging hole 23 is provided with a first valve 231; each mixing mechanism 3 comprises a mixing tank 31, a plurality of feeding pipes 32, a discharging pipe 33 and a stirring mechanism 34, the two mixing tanks 31 are arranged below the storage hopper 2 side by side, two ends of each mixing tank 31 are respectively connected to the rack 1 in a sliding manner, the lower end of each feeding pipe 32 is communicated with an inlet of the mixing tank 31, the upper end of the discharging pipe 33 is communicated with an outlet of the mixing tank 31, and the stirring mechanism 34 is arranged in the mixing tank 31; the driving mechanism 4 is connected to each of the material mixing tanks 31, and is configured to drive the material mixing tanks 31 to move, so that the upper ends of the feeding pipes 32 on each of the material mixing tanks 31 are sequentially communicated with the first discharging openings 23.

The storage hopper 2 the storage chamber 21 is interior to store different types of powder respectively, through controlling actuating mechanism 4 makes actuating mechanism 4 drives two mixing tank 31 removes, thereby makes one on mixing tank 31 the inlet pipe 32 with first feed opening 23 intercommunication, at this moment, mixture in the mixing tank 31 is discharged, works as after mixture in the mixing tank 31 has been discharged, opens first valve 231, powder in the storage chamber 21 along first feed opening 23 and inlet pipe 32 enter into in the mixing tank 31, at this moment, through controlling another on mixing tank 31 rabbling mechanism 34 can make rabbling mechanism 34 is right the powder in mixing tank 31 stirs and mixes, the utility model discloses in, through setting up two mixing mechanism 3, at one when carrying out unloading and material loading in the mixing tank 31, another carry out the compounding to the powder in the jar in the mixing tank 31, two mixing tank 31 works to material loading and the time that consumes has been practiced thrift to the material and has been rotated, has improved the work efficiency of blendor.

As a preferred embodiment, please refer to fig. 2 and 5, the rack 1 includes a bottom plate 11, two vertical plates 12 and a top plate 13, the two vertical plates 12 are symmetrically and fixedly mounted on the bottom plate 11, a fixing plate 121 is fixedly mounted on an outer side wall of one vertical plate 12, so that the elevator 5 is conveniently mounted on the fixing plate 121, the top plate 13 is fixedly mounted on top of the two vertical plates 12, the bottom plate 11, the two vertical plates 12 and the top plate 13 form the rack 1 with a "mouth" type structure, two supporting plates 131 are fixedly mounted on the top plate 13, a plurality of storage hoppers 2 are fixedly connected, and the storage hoppers 2 located at outermost sides are respectively and fixedly mounted on the corresponding supporting plates 131, which is beneficial to improving the stability of the storage hoppers 2 and avoiding the situation that the storage hoppers 2 are collapsed due to too much powder filled in the storage cavities 21.

As a preferred embodiment, please refer to fig. 1 and fig. 2, the small stirring powder mixer further includes a lifting machine 5, the lifting machine 5 is fixedly installed on the fixing plate 121, a plurality of discharging openings 51 and a feeding opening 52 communicated with the first feeding opening 22 are formed on the lifting machine 5, a second valve 511 is arranged at the discharging opening 51, and the feeding opening 52 is located at a lower end of the lifting machine 5, so that a worker can conveniently feed powder at the lower end and transport the powder from the lower end to the higher end.

As a preferred embodiment, please refer to fig. 1 and fig. 3, the small stirring powder mixer further includes a plurality of weighing boxes 6, each weighing box 6 is fixedly mounted on the top plate 13 side by side, the weighing boxes 6 are located below the storage hoppers 2, each weighing box 6 corresponds to a corresponding storage hopper 2, each weighing box 6 has a weighing cavity 61, each weighing box 6 is fixedly mounted with a second feeding port 62 and a second discharging port 63, which are communicated with the weighing cavity 61, and a third valve 631 is disposed at the second discharging port 63, the second feeding port 62 is communicated with the first discharging port 23, the second discharging port 63 penetrates through the top plate 13, so that the feeding pipes 32 on the mixing tanks 31 are communicated with the second discharging port 63 in turn, so as to communicate with the first discharging port 23, powder discharged from the first discharging port 23 enters the weighing cavity 61 along the second feeding port 62, and powder in the weighing cavity 61 is metered into powder mixing tanks 31 according to different ratios, and the powder weighed powder enters the mixing tanks 31 and the weighing tanks 31 along the second discharging port 63.

As a preferred embodiment, referring to fig. 3 and 4, the upper end of the feeding pipe 32 is of an inner arc structure, the lower end of the second discharging opening 63 is of an outer arc structure, and the upper end of the feeding pipe 32 is matched with the lower end of the second discharging opening 63.

As a preferred embodiment, referring to fig. 2, a fourth valve 331 is disposed on the feeding pipe 33.

As a preferred embodiment, referring to fig. 3, a metering sensor 611 is disposed in the weighing chamber 61, and the powder in the weighing chamber 61 is weighed by the metering sensor 611.

As a preferred embodiment, referring to fig. 1 and fig. 2, two ends of each mixing bowl 31 are slidably connected to the corresponding vertical plate 12, so that the mixing bowl 31 can slide along the vertical plate 12.

As a preferred embodiment, referring to fig. 1 and 2, an arc-shaped groove 122 is formed on each of the two vertical plates 12, two ends of each mixing tank 31 are slidably connected in the corresponding arc-shaped grooves 122, so that two ends of each mixing tank 31 can slide in the arc-shaped grooves 122, the arc-shaped grooves 122 are symmetrical along the central axis of the storage hopper 2, and when one mixing tank 31 slides to the lowest end of the arc-shaped groove 122, the feeding pipe 32 is just communicated with the second discharging opening 63.

As a preferred embodiment, referring to fig. 3, the stirring mechanism 34 includes a rotating shaft 341, a plurality of stirring blades 342, and a first rotating driver 343, the rotating shaft 341 is disposed in the mixing tank 31 along the central axis of the mixing tank 31, two ends of the rotating shaft 341 are rotatably mounted on the wall of the mixing tank 31, a plurality of stirring blades 342 are fixedly mounted on the rotating shaft 341 side by side, the first rotating driver 343 is fixedly mounted on the mixing tank 31, an output end of the first rotating driver 343 is fixedly connected with one end of the rotating shaft 341 for driving the rotating shaft 341 to rotate, and by operating the first rotating driver 343, the first rotating driver 343 drives the rotating shaft 341 to rotate, so as to drive the stirring blades 342 to rotate through the rotating shaft 341, thereby mixing the powder in the mixing tank 31.

As a preferred embodiment, referring to fig. 2 and fig. 3, there are two driving mechanisms 4, two driving mechanisms 4 are respectively disposed at two ends of the material mixing tank 31, each driving mechanism 4 includes a connecting member 41 and a second rotary driving member 42, one end of the connecting member 41 is respectively fixedly connected to one end of the corresponding two material mixing tanks 31, the second rotary driving member 42 is fixedly mounted on the vertical plate 12, a central axis of the second rotary driving member 42 is coaxial with a center of the arc-shaped groove 122, an output end of the second rotary driving member 42 is fixedly connected to the other end of the connecting member 41, and is configured to drive the connecting member 41 to rotate, and by operating the second rotary driving member 42, the second rotary driving member 42 can drive the connecting member 41 to rotate, so as to drive two ends of the two material mixing tanks 31 to slide in the arc-shaped groove 122.

As a preferred embodiment, referring to fig. 4, the connecting member 41 includes an arc-shaped plate 411 and a connecting rod 412, two ends of the arc-shaped plate 411 are respectively fixedly connected to one ends of the two mixing tanks 31, one end of the connecting rod 412 is fixedly connected to the middle portion of the arc-shaped plate 411, an output end of the second rotary driving member 42 is fixedly connected to the other end of the connecting rod 412, the second rotary driving member 42 drives the connecting rod 412 to rotate, and drives the two mixing tanks 31 to slide in the arc-shaped groove 122 through the arc-shaped plate 411, because a central axis of the second rotary driving member 42 is coaxial with a center of the arc-shaped groove 122 and the arc-shaped groove 122 is in a symmetrical structure along a central axis of the storage hopper 2, the two mixing tanks 31 reciprocate in the arc-shaped groove 122, and when one mixing tank 31 slides to a lowest end position of the arc-shaped groove 122, the other mixing tank 31 slides to a highest end position of the arc-shaped groove 122.

For better understanding of the present invention, the following detailed description is made with reference to fig. 1 to 5 for the working principle of the technical solution of the present invention:

pouring powder into the feed opening 52, the elevator 5 transporting powder from the lower end to the upper end, and opening the second valve 511 to allow powder to enter the storage chamber 21 along the discharge opening 51 and the first feed opening 22 for storage, after opening the first valve 231, each powder in the storage chamber 21 again enters the weighing chamber 61 along the first discharge opening 23 and the second feed opening 62, and weighing and metering powder of different proportions in the weighing chamber 61, after weighing is completed, opening the third valve 631, weighing powder again enters the mixing tank 31 along the second discharge opening 63 and the feed pipe 32, by operating the second rotary drive member 42, the second rotary drive member 42 drives the connecting rod 412 to rotate, and by driving the two mixing tanks 31 in the arc-shaped slot 122 via the arc-shaped plate, so that the feed pipe 32 on one mixing tank 31 communicates with the second discharge opening 63, and by operating the third rotary drive member 341 to drive the mixing tank 31 along the discharge opening 33, and by operating the mixing paddle 341 to drive the mixing tank 31 via the third rotary drive member 343, when the mixing tank 31 is operated by the second rotary drive member 342, the mixing tank 31 is operated, and when the mixing tank 31 is closed via the mixing paddle 341 and the mixing paddle 341 is operated by the second rotary drive mechanism 343, the mixing paddle 343, the mixing hopper 31, and the mixing hopper 31 is operated by operating the third rotary drive mechanism 342, so that the mixing tank 31 is operated by the mixing paddle 341, the mixing hopper 3 and the mixing hopper 3, and the other mixing tank 31 is mixing the powder in the tank, and the two mixing tanks 31 work alternately, so that the time consumed by feeding and discharging is saved, and the working efficiency of the mixer is improved.

The utility model provides a pair of small-size stirring formula powder blendor has following beneficial effect:

(1) Powder is poured into the feeding port 52, and the powder is conveyed to the high end from the low end by the hoister 5, so that workers can conveniently feed the powder at the low end;

(2) Powder materials with different proportions are weighed in the weighing cavity 61, and the weighed powder materials enter the mixing tank 31 along the second feed opening 63 and the feed pipe 32, so that time and energy for workers to weigh the powder materials with different proportions are saved;

(3) Through setting up two compounding mechanism 3, one when carrying out unloading and material loading in the compounding jar 31, another carry out the compounding, two to the powder in the jar in the compounding jar 31 takes turns to work to practiced thrift the time that material loading and unloading consumed, improved the work efficiency of blendor.

The above description of the present invention does not limit the scope of the present invention. Any other corresponding changes and modifications made according to the technical idea of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a small-size stirring formula powder blendor which characterized in that includes:

a frame;

the storage hopper is provided with a storage cavity for containing powder, the storage hopper is provided with a first discharge opening communicated with the storage cavity, and a first valve is arranged at the first discharge opening;

the mixing device comprises two mixing mechanisms, wherein each mixing mechanism comprises a mixing tank, a plurality of feeding pipes and a stirring mechanism, each mixing tank is respectively connected to the rack in a sliding mode, the lower end of each feeding pipe is communicated with an inlet of the mixing tank, and the stirring mechanism is arranged in the mixing tank;

and the driving mechanism is connected with each mixing tank and used for driving the mixing tanks to move so as to enable each mixing tank to be provided with the upper ends of the feeding pipes communicated with the first discharge opening in sequence.

2. The small stirring powder mixer as claimed in claim 1, wherein the frame comprises a bottom plate, two vertical plates and a top plate, the two vertical plates are symmetrically and fixedly mounted on the bottom plate, a fixing plate is fixedly mounted on an outer side wall of one vertical plate, the top plate is fixedly mounted on tops of the two vertical plates, two supporting plates are fixedly mounted on the top plate, a plurality of storage hoppers are fixedly connected with each other, and the storage hoppers located at outermost sides are respectively and fixedly mounted on the corresponding supporting plates.

3. The small stirring powder mixer as claimed in claim 2, wherein the storage hopper is further provided with a first feeding hole communicated with the storage cavity.

4. The small stirring powder mixer as claimed in claim 3, further comprising a lifter fixedly mounted on the fixing plate, wherein the lifter is provided with a plurality of discharge ports and a plurality of feeding ports communicated with the first feeding port, and a second valve is disposed at the discharge port.

5. The small stirring powder mixer according to claim 4, further comprising a plurality of weighing boxes, wherein the weighing boxes are fixedly mounted on the top plate side by side, the weighing boxes are located below the storage hoppers and correspond to the storage hoppers one by one, each weighing box is provided with a weighing cavity, a second feeding hole and a second discharging hole are fixedly mounted on each weighing box, the second feeding hole is communicated with the weighing cavity, a third valve is arranged at the second discharging hole, the second feeding hole is communicated with the first discharging hole, and the second discharging hole penetrates through the top plate.

6. The small stirring powder mixer as claimed in claim 5, wherein a metering sensor is disposed in the weighing chamber.

7. The small stirring powder mixer as claimed in claim 6, wherein an arc-shaped groove is formed on each of the two vertical plates, and two ends of each mixing tank are slidably connected to the corresponding arc-shaped grooves.

8. The small stirring type powder mixer as claimed in claim 1, wherein the stirring mechanism includes a rotating shaft, a plurality of stirring blades and a first rotating driving member, the rotating shaft is disposed inside the mixing tank along a central axis of the mixing tank, and two ends of the rotating shaft are rotatably mounted on a tank wall of the mixing tank, the plurality of stirring blades are fixedly mounted on the rotating shaft side by side, the first rotating driving member is fixedly mounted on the mixing tank, and an output end of the first rotating driving member is fixedly connected with one end of the rotating shaft for driving the rotating shaft to rotate.

9. The small stirring powder mixer according to claim 7, wherein there are two driving mechanisms, the two driving mechanisms are respectively disposed at two ends of the mixing tank, each driving mechanism includes a connecting member and a second rotary driving member, one end of each connecting member is fixedly connected to one end of the corresponding mixing tank, the second rotary driving member is fixedly mounted on the vertical plate, a central axis of the second rotary driving member is coaxial with a center of the arc-shaped groove, and an output end of the second rotary driving member is fixedly connected to the other end of the connecting member for driving the connecting member to rotate.

10. The small stirring powder mixer as claimed in claim 9, wherein the connecting member comprises an arc-shaped plate and a connecting rod, two ends of the arc-shaped plate are respectively and fixedly connected with one end of each of the two mixing tanks, one end of the connecting rod is fixedly connected with the middle of the arc-shaped plate, and the output end of the second rotary driving member is fixedly connected with the other end of the connecting rod.

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