CN218402750U - Finished product powder hybrid system - Google Patents

Abstract

The utility model relates to a finished product powder hybrid system belongs to powder material production facility technical field. In order to solve the defects that the existing equipment is low in manual operation efficiency and low in precision, dust flies everywhere to cause environmental pollution and waste resources, the finished product powder mixing system is high in efficiency and precision and cannot fly. This finished product powder hybrid system, including feeding device, the output of feeding device is installed and is mixed the blender after the upset, movable mounting has the removal storage bucket between the blender after feeding device's below, the upset, feeding device's below is equipped with the fixed positioning and clamping device A who removes the storage bucket, the below of the blender after the upset is equipped with the fixed positioning and clamping device B who removes the storage bucket, there is cyclone all through the pipe connection in feeding device, the blender after the upset.

Description

Finished product powder hybrid system

Technical Field

The utility model relates to a finished product powder hybrid system belongs to powder material production facility technical field.

Background

The powder mixing refers to a process of uniformly mixing two or more kinds of powders with different components, and the same kind of powders with different particle sizes are uniformly mixed according to needs to form a combined batch. Finished product powder mixes machine is the common equipment in the powder mixing, and current powder mixing production has the following problem: in the material feeding and mixing process of the traditional equipment, due to the characteristics of light and fine powder, dust flies around during feeding and mixing, and great environmental pollution is caused to workshops; the flying powder is the finished product and also causes unexpected waste.

Disclosure of Invention

The invention aims to solve the defects of low efficiency and low precision of manual operation of the existing equipment, environmental pollution caused by dust flying around and resource waste, and provides a finished product powder mixing system which is high in efficiency and precision and cannot cause dust flying.

In order to solve the above problems, the finished powder mixing system of the present application is realized by the following technical solutions:

the utility model provides a finished product powder hybrid system, includes feeding device 1, mix the blender 2 after the upset is installed to feeding device 1's output, its special character lies in: the utility model discloses a material mixing machine, including feeding device 1, upset back mixing machine 2, movable mounting has removal storage bucket 3 between the below of feeding device 1, upset back mixing machine 2, the below of feeding device 1 is equipped with the fixed positioning and clamping device A4 who removes storage bucket 3, the below of upset back mixing machine 2 is equipped with the fixed positioning and clamping device B5 who removes storage bucket 3, feeding device 1, upset back mixing machine 2 all have cyclone 6 through the pipe connection.

Preferably, the feeding device 1 comprises a support 1-1, three cylinders 1-3 are installed on the support 1-1 at intervals, feeding covers 1-2 are installed on output shafts of the three cylinders 1-3, feeding ports 1-4 are installed between the three cylinders 1-3, the feeding covers 1-2 communicated with the feeding ports 1-4 are installed at the lower ends of the feeding ports 1-4, dust suction ports A1-5 are installed at the upper ends of the feeding ports 1-4, sealing flanges 1-6 are installed at the tail ends of the feeding covers 1-2, silica gel sealing strips are installed on the sealing flanges 1-6, and the dust suction ports A1-5 are connected with a cyclone dust collector 6 through pipelines; according to the structure, the feeding cover 1-2 is combined to the movable charging bucket 3, the sealing flange 1-6 is provided with the silica gel sealing strip, so that dust is sealed in the movable charging bucket when feeding, the dust cannot fly around, the dust collection port A1-5 is arranged above the feeding device and connected with a dust collection pipeline, materials are added into the movable charging bucket through the feeding port 1-4, and the materials can be smoothly fed into the movable charging bucket under the action of the dust collection port A1-5 and cannot fly everywhere.

Preferably, the feeding port 1-4 comprises a feeding cloth bag 1-41 positioned above the feeding cover 1-2, a feeding cylinder 1-42 is arranged above the feeding cloth bag 1-41, and the dust suction port A1-5 is arranged above the feeding cylinder 1-42;

the soft connection cloth bag is arranged and can move up or down along with the cylinder in the feeding process to keep the effect of closed connection, so that dust is prevented from flying.

Preferably, the mixer 2 is a mixing machine with a separated material barrel and comprises a mixer body 2-1, the mixer body 2-1 is fixedly mounted on a mixer frame 2-2, a flange port 2-3 matched with the movable material barrel 3 is arranged at the lower end of the mixer body 2-1, a clamping device 2-4 for clamping the movable material barrel and a driving device 2-5 for driving the whole device to rotate are mounted on the mixer body, a dust removal port B2-6 is mounted on a pipeline between the mixer body and the cyclone dust collector 6, and the dust removal port B2-6 is located on one side of the mixer body and above the movable material barrel 3.

Preferably, the clamping device 2-4 comprises clamping cylinders 2-41 symmetrically and fixedly mounted on the mixer body, cylinder front forks B2-42 are mounted on cylinder rods of the clamping cylinders 2-41, connecting plates 2-44 are fixedly mounted on the cylinder front forks B2-42, the other ends of the connecting plates 2-44 are movably mounted on L-shaped clamping blocks 2-46, the other ends of the L-shaped clamping blocks 2-46 are fixedly mounted on connecting plates 2-47, and the connecting plates 2-47 are fixedly mounted on the mixer body.

Preferably, the driving device 2-5 is fixedly mounted on a motor 2-51 of the mixer frame 2-2, an output shaft of the motor 2-51 is provided with a driving belt pulley 2-52, the driving belt pulley 2-52 and a driven belt pulley 2-55 mounted on an output shaft of a speed reducer 2-54 form a belt transmission through a belt 2-53, an output shaft of the speed reducer 2-54 is fixedly provided with a driving gear 2-56, the driving gear 2-56 and a driven gear 2-58 fixedly mounted on a fixed shaft 2-57 form a gear transmission, and the fixed shaft 2-57 is fixedly mounted on the mixer body 2-1.

Preferably, the movable charging bucket 3 comprises a charging bucket 3-1, the charging bucket 3-1 is movably mounted on a moving vehicle 3-2, the moving vehicle 3-2 comprises a vehicle body 3-3, a directional wheel 3-4 is mounted below the vehicle body 3-3, a clamping component 3-5 for clamping the charging bucket is mounted at one end above the vehicle body 3-3, a handle 3-6 is rotatably mounted at the other end above the vehicle body 3-3, and a positioning block 3-7 for positioning the charging bucket 3-1 is fixedly mounted between the clamping component 3-5 and the handle 3-6.

Preferably, the clamping assembly 3-5 comprises two clamping reciprocating movable plates 3-51 fixedly installed on the vehicle body 3-3 at intervals, each clamping reciprocating movable plate 3-51 is provided with a long circular hole A3-52, a long circular hole B3-53 and a clamping plate connecting circular hole 3-54, a pin shaft A3-55 and a pin shaft B3-56 are fixedly installed in each of the long circular holes A3-52 and the long circular holes B3-53, a pin shaft C3-57 is fixedly installed at the lower end of each clamping reciprocating movable plate 3-51, the pin shaft C3-57 is located between the pin shaft A3-55 and the pin shaft B3-56, a tension spring 3-58 is installed between the pin shaft A3-55 and the pin shaft C3-57, a pin shaft D3-59 is installed between the vehicle body 3-3 and the clamping plate long holes 3-54, the lower end of the pin shaft D3-59 is fixed on the vehicle body 3-3, the upper end of the pin shaft D3-54 is in clearance fit with the clamping plate, one end of the reciprocating clamping movable plate 3-511, and the middle of the clamping movable plate 510 are sleeved on the two clamping movable blocks 3-510;

the clamping movable block 3-510 is positioned below the clamping reciprocating movable plate 3-51, the clamping movable block 3-510 is provided with a long hole, and the pin shaft D3-59 penetrates through the long hole;

one end of the clamping reciprocating movable plate 3-51 close to the positioning block 3-7 is movably provided with a clamping movable block 3-510 through a clamping movable block fixing pin 3-511, in particular to the clamping movable block 3-510 is fixedly connected with the clamping movable block fixing pin 3-511, and the clamping movable block fixing pin 3-511 is movably arranged at one end of the clamping reciprocating movable plate 3-51 close to the positioning block 3-7;

preferably, the pin shafts A3-55 and the pin shafts B3-56 are pin shafts with threads at one ends, one ends of the pin shafts A3-55 and the pin shafts B3-56 are fixedly mounted on the vehicle body 3-3, the threaded ends of the pin shafts A3-55 and the pin shafts B3-56 respectively penetrate through the long round holes A3-52 and the long round holes B3-53 and are fixedly mounted by nuts, and through the structural design, the reciprocating clamping movable plates 3-51 can reciprocate on the pin shafts A3-55 and the pin shafts B3-56 along the long round holes A3-52 and the long round holes B3-53.

Preferably, one end of the pin shaft C3-57, which is close to the car body 3-3, is suspended, a tension spring hanging round hole is formed in the pin shaft C3-57, and the tension spring is hung to facilitate the reciprocating movable plate 3-51 to be clamped to move, so that the angle of the movable clamping block is changed to enable the charging basket to be clamped or loosened.

Preferably, the upper end of the charging barrel 3-1 is provided with a charging barrel flange 3-11 matched with the mixer body, the lower end of the charging barrel 3-1 is provided with a blanking butterfly valve 3-12, the upper end of the butterfly valve 3-12 is provided with a butterfly valve upper flange 3-13, the lower end of the butterfly valve 3-12 is provided with a butterfly valve lower flange 3-14, the butterfly valve lower flange 3-14 is placed at a positioning block 3-7, a round hole is formed in the position, corresponding to the car body 3-3, of the butterfly valve lower flange 3-14, and the butterfly valve lower flange 3-14 is located in the round hole.

Preferably, the positioning and clamping device A4 comprises a fixed frame 4-1, two ends of the fixed frame 4-1 are respectively and fixedly provided with a positioning and clamping cylinder 4-2, a cylinder rod of the positioning and clamping cylinder 4-2 is fixedly provided with a connecting pin shaft 4-3, the connecting pin shaft 4-3 is provided with a clamping plate 4-4 and a cylinder front fork A4-5, the cylinder front fork A4-5 is sleeved on the cylinder rod, the clamping plate 4-4 is positioned below the cylinder front fork A4-5, and the other end of the clamping plate 4-4 is rotatably arranged on the fixed frame 4-1; and the fixing frame 4-1 is provided with a proximity switch for signal linkage transmission, and the arrangement can realize automatic control.

Preferably, the positioning and clamping device B5 comprises a fixed frame 4-1, two ends of the fixed frame 4-1 are respectively and fixedly provided with a positioning and clamping cylinder 4-2, a cylinder rod of the positioning and clamping cylinder 4-2 is fixedly provided with a connecting pin shaft 4-3, the connecting pin shaft 4-3 is provided with a clamping plate 4-4 and a cylinder front fork A4-5, the cylinder front fork A4-5 is sleeved on the cylinder rod, the clamping plate 4-4 is positioned below the cylinder front fork A4-5, the other end of the clamping plate 4-4 is rotatably arranged on the fixed frame 4-1, and two collision heads 4-6 are symmetrically and fixedly arranged on the inner side of the positioning and clamping cylinder 4-2 and the fixed frame 4-1;

a lower air cylinder 5-1 for jacking the movable charging bucket is arranged under the movable charging bucket 3, a proximity switch is arranged on the fixed frame 4-1 for signal linkage transmission, and the arrangement can realize automatic control.

Preferably, the fixed frame 4-1 is a rectangular frame, a mounting hole A4-41 for mounting the positioning clamping cylinder 4-2 is formed in the fixed frame, and the positioning clamping cylinder 4-2 is fixedly mounted in the mounting hole A4-41 through a pin bolt.

Preferably, the fixing frame 4-1 is provided with mounting holes B4-42, and the clamping plate 4-4 is movably mounted in the mounting holes B4-42 through pin shafts.

The utility model discloses a finished product powder mixing system, because the charging cover of feeding device is equipped with the silica gel sealing strip, like this the dust is airtight in the bucket when throwing the material, makes the dust can not fly upward everywhere, is equipped with dust absorption mouth access dust removal pipeline above the feeding device, and the material is added into the removal storage bucket through the charging hole, can smoothly drop into the material and make the dust can not fly upward everywhere when the effect of dust absorption mouth is reinforced; the mixing machine has increased cyclone, through the amount of wind pressure of fan work, under the negative pressure, will be easy to outside showy dust through the recovery pipeline concentrate recovery, the cyclone lower extreme is equipped with 2 pneumatic butterfly valves and is controlled with PLC automatic control, opens in turn, closes, makes the automatic emission of the powder of retrieving in the separator, has so both not wasted the environmental pollution problem by having solved the workshop to the finished product powder.

Drawings

FIG. 1: the structure of the utility model is shown schematically;

FIG. 2 is a schematic diagram: FIG. 1 is a schematic view of the mixer after turning;

FIG. 3: FIG. 2 is a schematic view of the structure of the clamping device;

FIG. 4 is a schematic view of: FIG. 2 is a schematic view of the driving device;

FIG. 5 is a schematic structural view of the movable charging basket in FIG. 1;

FIG. 6 is a top view of FIG. 5;

FIG. 7 is a schematic view of: FIG. 5 is a schematic view of the structure of the vehicle;

FIG. 8: in FIG. 1, the positioning and clamping device A and the positioning and clamping device B are shown in a schematic structural view with the lower cylinder removed;

FIG. 9: FIG. 8 is a schematic view of the structure of the clamping device;

in the figure: 1. a feeding device 1-1, a bracket 1-2, a feeding cover 1-3, a cylinder,

1-4 parts of a feeding port, 1-41 parts of a feeding cloth bag, 1-42 parts of a feeding cylinder, 1-5 parts of a dust suction port,

1-6 parts of sealing flange, 2 parts of a mixer after turning, 2-1 parts of a mixer body,

2-2 parts of mixer frame, 2-3 parts of flange port, 2-4 parts of clamping device,

2-41 parts of clamping cylinder, 2-42 parts of cylinder front fork B,2-43 parts of cylinder front fork, a rotating shaft A,

2-44 parts of connecting plate, 2-45 parts of rotating shaft B,2-46 parts of L-shaped clamping block, 2-47 parts of connecting plate, 2-5 parts of driving device, 2-51 parts of motor, 2-52 parts of driving belt pulley, 2-53 parts of belt, 2-54 parts of speed reducer, 2-55 parts of driven belt pulley, 2-56 parts of driving gear, 2-57 parts of fixed shaft, 2-58 parts of driven gear, 3 parts of movable charging basket, 3-1 part of charging basket, 3-11 parts of charging basket flange,

3-12 parts of butterfly valve, 3-13 parts of butterfly valve upper flange, 3-14 parts of butterfly valve lower flange, 3-2 parts of moving vehicle, 3-3 parts of vehicle body, 3-4 parts of directional wheel, 3-5 parts of clamping component, 3-51 parts of clamping reciprocating movable plate,

3-52 parts of long round holes A,3-53 parts of long round holes B,3-54 parts of clamping plate connecting round holes 3-55 parts of round pins A,3-56 parts of round pins B,3-57 parts of round pins C,3-58 parts of tension springs 3-59 parts of round pins D,

3-510, a clamping movable block, 3-511, a clamping movable block fixing pin shaft, 3-6 and a handle,

3-7 parts of a positioning block, 4 parts of a positioning and clamping device A,4-1 parts of a fixing frame, 4-2 parts of a positioning and clamping cylinder, 4-3 parts of a connecting pin shaft, 4-4 parts of a clamping plate, 4-41 parts of a mounting hole A,4-42 parts of a mounting hole B,4-5 parts of a cylinder front fork A,4-6 parts of a cylinder front fork, a collision head, 5 parts of a positioning and clamping device B,5-1 parts of a lower cylinder, 6 parts of a cyclone dust collector.

Detailed Description

The following description of the present invention will be made with reference to the accompanying drawings, which are provided to further explain the constitution of the present invention.

Example 1. A finished product powder hybrid system as shown in fig. 1, including feeding device 1, mix blender 2 after the upset is installed to feeding device 1's output, movable mounting has the removal storage bucket 3 after feeding device 1's below, the upset between the blender 2, feeding device 1's below is equipped with the fixed positioning and clamping device A4 that removes storage bucket 3, mix blender 2's below after the upset and be equipped with the fixed positioning and clamping device B5 that removes storage bucket 3, mixing blender 2 all has cyclone 6 through the pipe connection after feeding device 1, the upset.

The feeding device 1 comprises a support 1-1, three cylinders 1-3 are installed on the support 1-1 at intervals, feeding covers 1-2 are installed on output shafts of the three cylinders 1-3, feeding ports 1-4 are installed among the three cylinders 1-3, the lower end of each feeding port 1-4 is provided with a feeding cover 1-2 communicated with the feeding port 1-4, the upper end of each feeding port 1-4 is provided with a dust suction port A1-5, the tail end of each feeding cover 1-2 is provided with a sealing flange 1-6, each sealing flange 1-6 is provided with a silica gel sealing strip, and each dust suction port A1-5 is connected with a cyclone dust collector 6 through a pipeline; according to the structure, the feeding cover 1-2 is combined with the movable charging bucket 3, the silica gel sealing strips are arranged on the sealing flanges 1-6, so that dust is sealed in the movable charging bucket when feeding, the dust cannot fly around, the dust collection port A1-5 is arranged above the feeding device and connected with a dust removal pipeline, materials are added into the movable charging bucket through the feeding port 1-4, and the materials can be smoothly fed into the charging bucket under the action of the dust collection port A1-5, so that the dust cannot fly around.

The feeding port 1-4 comprises a feeding cloth bag 1-41 positioned above a feeding cover 1-2, a feeding cylinder 1-42 is arranged above the feeding cloth bag 1-41, and the dust suction port A1-5 is arranged above the feeding cylinder 1-42.

The overturning rear mixing and mixing machine 2 shown in fig. 2 is a charging basket separated type overturning rear mixing and mixing machine and comprises a mixing machine body 2-1, wherein the mixing machine body 2-1 is fixedly installed on a mixing machine frame 2-2, a flange port 2-3 matched with a movable charging basket 3 is arranged at the lower end of the mixing machine body 2-1, and a clamping device 2-4 for clamping the movable charging basket and a driving device 2-5 for driving the whole device to rotate are installed on the mixing machine body.

The clamping device 2-4 shown in fig. 3 comprises clamping cylinders 2-41 symmetrically and fixedly mounted on a mixer body, cylinder front forks B2-42 are mounted on cylinder rods of the clamping cylinders 2-41, connecting plates 2-44 are fixedly mounted on the cylinder front forks B2-42 through rotating shafts A2-43, the other ends of the connecting plates 2-44 are movably mounted on L-shaped clamping blocks 2-46 through rotating shafts B2-45, the other ends of the L-shaped clamping blocks 2-46 are fixedly mounted on connecting plates 2-47 through rotating shafts C, and the connecting plates 2-47 are fixedly mounted on the mixer body.

The driving device 2-5 shown in fig. 4 is a motor 2-51 fixedly mounted on the mixer frame 2-2, a driving belt pulley 2-52 is mounted on an output shaft of the motor 2-51, the driving belt pulley 2-52 and a driven belt pulley 2-55 mounted on an output shaft of a speed reducer 2-54 form a belt transmission through a belt 2-53, a driving gear 2-56 is fixedly mounted on an output shaft of the speed reducer 2-54, the driving gear 2-56 and a driven gear 2-58 fixedly mounted on a fixed shaft 2-57 form a gear transmission, and the fixed shaft 2-57 is fixedly mounted on the mixer body 2-1.

The movable charging bucket 3 shown in the figures 5-7 comprises a charging bucket 3-1, the charging bucket 3-1 is movably mounted on a moving vehicle 3-2, the moving vehicle 3-2 comprises a vehicle body 3-3, a directional wheel 3-4 is mounted below the vehicle body 3-3, a clamping assembly 3-5 for clamping the charging bucket is mounted at one end above the vehicle body 3-3, a handle 3-6 is rotatably mounted at the other end above the vehicle body 3-3, and a positioning block 3-7 for positioning the charging bucket 3-1 is fixedly mounted between the clamping assembly 3-5 and the handle 3-6.

The clamping assembly 3-5 comprises two clamping reciprocating movable plates 3-51 fixedly arranged on the vehicle body 3-3 at intervals, each clamping reciprocating movable plate 3-51 is provided with a long circular hole A3-52, a long circular hole B3-53 and a clamping plate connecting circular hole 3-54, a pin shaft A3-55 and a pin shaft B3-56 are fixedly arranged in each of the long circular holes A3-52 and the long circular holes B3-53 respectively, a pin shaft C3-57 is fixedly arranged at the lower end of each clamping reciprocating movable plate 3-51, the pin shaft C3-57 is positioned between the pin shaft A3-55 and the pin shaft B3-56, a tension spring 3-58 is arranged between the pin shaft A3-55 and the pin shaft C3-57, a pin shaft D3-59 is arranged between the vehicle body 3-3 and the clamping plate connecting circular hole 3-54, the lower end of the pin shaft D3-59 is fixed on the vehicle body 3-3, the upper end of the clamping plate connecting circular hole 3-54 is in clearance fit with the clamping plate, one end of each clamping reciprocating movable pin shaft 3-51 close to the positioning block 3-7 is provided with a clamping movable pin shaft 3-511-510, and the middle clamping block 510 is arranged on the middle of the clamping reciprocating movable pin shaft A3-510;

the clamping movable block 3-510 is positioned below the clamping reciprocating movable plate 3-51, the clamping movable block 3-510 is provided with a long hole, and the pin shaft D3-59 penetrates through the long hole;

one end of the clamping reciprocating movable plate 3-51 close to the positioning block 3-7 is movably provided with a clamping movable block 3-510 through a clamping movable block fixing pin 3-511, in particular, the clamping movable block 3-510 is fixedly connected with the clamping movable block fixing pin 3-511, and the clamping movable block fixing pin 3-511 is movably arranged at one end of the clamping reciprocating movable plate 3-51 close to the positioning block 3-7;

the pin shafts A3-55 and the pin shafts B3-56 are pin shafts with threads at one ends, one ends of the pin shafts A3-55 and the pin shafts B3-56 are fixedly arranged on the vehicle body 3-3, the ends of the pin shafts A3-55 and the pin shafts B3-56 with threads respectively penetrate through the long round holes A3-52 and the long round holes B3-53 and are fixedly arranged by nuts, and through the structural design, the clamping reciprocating movable plates 3-51 can reciprocate on the pin shafts A3-55 and the pin shafts B3-56 along the long round holes A3-52 and the long round holes B3-53.

One end of the pin shaft C3-57 close to the vehicle body 3-3 is suspended, and the structure is used for facilitating the movement of clamping the reciprocating movable plate 3-51.

Wherein, the upper end of the charging basket 3-1 is provided with a charging basket flange 3-11 matched with the mixer body, and the charging basket 3-1

The lower end of the butterfly valve is provided with a blanking butterfly valve 3-12, the upper end of the butterfly valve 3-12 is provided with a butterfly valve upper flange 3-13, the lower end of the butterfly valve 3-12 is provided with a butterfly valve lower flange 3-14, the butterfly valve lower flange 3-14 is placed at a positioning block 3-7, a round hole is formed in the position, corresponding to the vehicle body 3-3, of the butterfly valve lower flange 3-14, and the butterfly valve lower flange 3-14 is located in the round hole.

The positioning and clamping device A4 shown in FIGS. 8-9 comprises a fixed frame 4-1, wherein two ends of the fixed frame 4-1 are respectively and fixedly provided with a positioning and clamping cylinder 4-2, a cylinder rod of the positioning and clamping cylinder 4-2 is fixedly provided with a connecting pin shaft 4-3, the connecting pin shaft 4-3 is provided with a clamping plate 4-4 and a cylinder front fork A4-5, the cylinder front fork A4-5 is sleeved on the cylinder rod, the clamping plate 4-4 is positioned below the cylinder front fork A4-5, the other end of the clamping plate 4-4 is rotatably arranged on the fixed frame 4-1, and two collision heads 4-6 are symmetrically and fixedly arranged on the inner side of the positioning and clamping cylinder 4-2 and the fixed frame 4-1; and the fixing frame 4-1 is provided with a proximity switch for signal linkage transmission, and the arrangement can realize automatic control.

The positioning and clamping device B5 comprises a fixed frame 4-1, two ends of the fixed frame 4-1 are respectively and fixedly provided with a positioning and clamping cylinder 4-2, a cylinder rod of the positioning and clamping cylinder 4-2 is fixedly provided with a connecting pin shaft 4-3, the connecting pin shaft 4-3 is provided with a clamping plate 4-4 and a cylinder front fork A4-5, the cylinder front fork A4-5 is sleeved on the cylinder rod, the clamping plate 4-4 is positioned below the cylinder front fork A4-5, the other end of the clamping plate 4-4 is rotatably arranged on the fixed frame 4-1, and two collision heads 4-6 are symmetrically and fixedly arranged on the inner side of the positioning and clamping cylinder 4-2 and the fixed frame 4-1; a lower cylinder 5-1 for jacking the movable charging basket 3 is arranged under the movable charging basket 3, a proximity switch is arranged on the fixed frame 4-1 for signal linkage transmission, and the arrangement can realize automatic control.

The fixing frame 4-1 is a rectangular frame, mounting holes A4-41 for mounting the positioning clamping cylinders 4-2 are formed in the fixing frame, and the positioning clamping cylinders 4-2 are fixedly mounted in the mounting holes A4-41 through pin bolts.

The fixing frame 4-1 is provided with mounting holes B4-42, and the clamping plate 4-4 is movably mounted in the mounting holes B4-42 through pin shafts.

Wherein, the cyclone dust collector 6 adopts the cyclone dust collector disclosed in the patent with the publication number of 216064621U.

The working principle in this embodiment is as follows: finished product powder hybrid system in this application, at first reinforced, remove the storage bucket and place the below at feeding device, it is tight to fix a position by positioning and clamping device A, then reinforced through feeding device, when reinforced completion, positioning and clamping device A will remove the storage bucket and loosen, then will remove the storage bucket and transport to the below of the machine that mixes after the upset and thoughtlessly mix the machine, fix a position by positioning and clamping device B and press from both sides tightly, then cooperate storage bucket jack-up and mix the machine body, mix, the dust that will fly up at this in-process cyclone utilizes the fan negative pressure to retrieve the dust removal incasement with the dust through the dust that the pipeline was raised up, the polluted environment and the extravagant resource have been avoided the dust to fly up, concrete working process is as follows: the original state of a positioning and clamping cylinder 4-2 of a positioning and clamping device A4 is that a cylinder rod is extended, a clamping plate 4-4 is parallel to the positioning and clamping cylinder 4-2, when a movable charging basket is transported to the position below a feeding device, a proximity switch of the movable charging basket controls the positioning and clamping cylinder 4-2 to work, a cylinder shaft of the positioning and clamping cylinder 4-2 and a front cylinder fork A4-5 are withdrawn, a connecting pin shaft 4-3 drives the clamping plate 4-4 to rotate anticlockwise in the withdrawing process until the clamping plate 4-4 and the positioning and clamping cylinder 4-2 form a 90-degree angle, and the two clamping plates 4-4 clamp the movable charging basket 3; at the moment, starting the air cylinder 1-3, driving the feeding cover 1-2 to move downwards by an output shaft of the air cylinder 1-3, installing the feeding cover 1-2 on the charging bucket 3-1, then feeding into the charging bucket from the feeding port 1-4, wherein the sealing flange 1-6 is provided with a silica gel sealing strip, so that dust is sealed in the movable charging bucket during feeding, the dust cannot fly around, a dust suction port A1-5 arranged above the feeding device is connected with a dust removal pipeline, materials are added into the movable charging bucket through the feeding port 1-4, the materials can be smoothly put into the charging bucket and cannot fly around due to the effect of the dust suction port A1-5 during feeding, the cyclone dust collector recovers the flying dust into the dust removal box through the pipeline by utilizing the negative pressure of a fan, and the air cylinder works to pull up the feeding cover after feeding is completed according to the weight required by the process.

When the movable charging basket 3 is fully filled with materials and pushed to the position close to the lower part of the mixer body 2-1 of the mixer 2 after overturning, the positioning clamping cylinder 4-2 on the positioning clamping device B5 works, the movable vehicle 3-2 is pulled to the required position through the clamping plate 4-4, the clamping reciprocating movable plate 3-51 is propped against the ram 4-6 of the positioning clamping device B5, the clamping reciprocating movable plate 3-51 moves towards the handle 3-6 direction under the action of external force, the clamping movable block 3-510 connected with the clamping reciprocating movable plate 3-51 rotates around the clamping movable block fixed pin shaft 3-511, the clamping movable block 3-510 is separated from the lower flange 3-14 of the charging basket, the charging basket 3-1 is separated from the movable charging basket 3-2, the lower cylinder 5-1 of the positioning clamping device B5 acts to jack the charging basket 3-1 to the flange 3-11 of the movable charging basket 3 to be contacted with the flange 2-3 of the mixer body, the output shaft 2-42 drives the output shaft of the lower cylinder 2-1 to move downwards, the fork 2-3-1 of the connecting cylinder 2-42 to drive the front fork 2-3-4 of the cross arm 2 to move downwards, and the fork 2-3-11 is connected with the butterfly valve 3-4 of the mixer body, and the butterfly valve 4-4 connected with the butterfly valve 4 of the butterfly valve, and the butterfly valve 3-1; the motor 2-51 is started, the motor 2-51 rotates to drive the driving belt pulley 2-52 to rotate, the driven belt pulley 2-55 is further driven to rotate, the speed reducer 2-55 drives the speed reducer 2-54 to rotate, the speed reducer 2-54 drives the fixed shaft 2-57 to rotate through gear transmission, the fixed shaft 2-57 drives the whole overturned mixing machine to rotate, powder is uniformly mixed, after mixing is finished, an output shaft of the clamping cylinder 2-41 moves upwards to drive the cylinder front fork B2-42 to move upwards, the cylinder front fork B2-42 pulls the connecting plate 2-44 to move upwards, the L-shaped clamping block 2-46 rotates clockwise around the rotating shaft B2-45 until a cross arm of the L-shaped clamping block 2-46 loosens the bucket flange 3-11, namely the bucket 3-1 is separated from the mixing machine body 2-1, the lower cylinder 5-1 retracts, the bucket 3-1 is retracted to the original position, the butterfly valve lower flange 3-14 of the bucket 3-1 is placed at the positioning block 3-7, the two clamping loose blocks 3-510 form a right angle with the clamping movable block 3-51, the butterfly valve 3-14 is fixedly connected with the butterfly valve 3-3, the butterfly valve 3-14, and the butterfly valve 3-1 is fixed on the butterfly valve 3-7.

It should be noted that the various technical features described in the above embodiments can be combined in any suitable manner without contradiction, and the invention is not described in any way for the possible combinations in order to avoid unnecessary repetition.

In addition, any combination of the various embodiments of the present invention is also possible, and the same should be considered as the disclosure of the present invention as long as it does not depart from the spirit of the present invention.

Claims (10)

1. The utility model provides a finished product powder hybrid system which characterized in that: including feeding device (1), mix blender (2) after the upset is installed to the output of feeding device (1), below of feeding device (1), after the upset mix between blender (2) movable mounting have remove storage bucket (3), the below of feeding device (1) is equipped with the positioning and clamping device A (4) of fixed removal storage bucket (3), the below of upset back mixing blender (2) is equipped with the positioning and clamping device B (5) of fixed removal storage bucket (3), mixing blender (2) all has cyclone (6) through the pipe connection after feeding device (1), the upset.

2. A finished flour mixing system as in claim 1, wherein: feeding device (1) includes support (1-1), three cylinder (1-3), three are installed at the interval on support (1-1) install on the output shaft of cylinder (1-3) and add feed cap (1-2), three install charge door (1-4) between cylinder (1-3), the lower extreme of charge door (1-4) is installed and is added feed cap (1-2) communicating with charge door (1-4), dust absorption mouth (1-5) are installed to the upper end of charge door (1-4), sealed flange (1-6) are installed to the end of charge door (1-2), install the silica gel sealing strip on sealed flange (1-6), there is cyclone (6) dust absorption mouth (1-5) through the pipe connection.

3. A finished meal mixing system as set forth in claim 2, wherein: the feeding opening (1-4) comprises a feeding cloth bag (1-41) positioned above the feeding cover (1-2), a feeding cylinder (1-42) is arranged above the feeding cloth bag (1-41), and the dust suction opening (1-5) is arranged above the feeding cylinder (1-42).

4. A finished powder mixing system as defined in any one of claims 1 to 3 wherein: mix after upset machine (2) including mixing machine body (2-1), mix machine body (2-1) fixed mounting on mixing machine frame (2-2), the lower extreme that mixes machine body (2-1) is equipped with and removes storage bucket (3) matched with flange mouth (2-3), install clamping device (2-4) and the whole device pivoted drive arrangement of drive (2-5) that press from both sides tight removal storage bucket on mixing the machine body, install dust removal mouth B (2-6) on mixing the pipeline between machine body and cyclone (6), dust removal mouth B (2-6) are located one side of mixing the machine body, the top of removing storage bucket (3).

5. The finished flour mixing system of claim 4, wherein:

the clamping device (2-4) comprises clamping cylinders (2-41) which are symmetrically and fixedly installed on the mixer body, a cylinder front fork B (2-42) is installed on a cylinder rod of each clamping cylinder (2-41), a connecting plate (2-44) is fixedly installed on each cylinder front fork B (2-42), the other end of each connecting plate (2-44) is movably installed on an L-shaped clamping block (2-46), the other end of each L-shaped clamping block (2-46) is fixedly installed on a connecting plate (2-47), and the connecting plates (2-47) are fixedly installed on the mixer body.

6. The finished flour mixing system of claim 5, wherein: the driving device (2-5) is fixedly installed on a motor (2-51) on a mixer rack (2-2), a driving belt pulley (2-52) is installed on an output shaft of the motor (2-51), the driving belt pulley (2-52) and a driven belt pulley (2-55) installed on an output shaft of a speed reducer (2-54) form belt transmission through a belt (2-53), a driving gear (2-56) is fixedly installed on an output shaft of the speed reducer (2-54), the driving gear (2-56) and a driven gear (2-58) fixedly installed on a fixed shaft (2-57) form gear transmission, and the fixed shaft (2-57) is fixedly installed on a mixer body (2-1).

7. A finished flour mixing system as in claim 6, wherein: the material moving barrel (3) comprises a material barrel (3-1), the material barrel (3-1) is movably mounted on a moving vehicle (3-2), the moving vehicle (3-2) comprises a vehicle body (3-3), a directional wheel (3-4) is mounted below the vehicle body (3-3), a clamping component (3-5) for clamping the material barrel is mounted at one end of the upper portion of the vehicle body (3-3), a handle (3-6) is rotatably mounted at the other end of the upper portion of the vehicle body (3-3), and a positioning block (3-7) for positioning the material barrel (3-1) is fixedly mounted between the clamping component (3-5) and the handle (3-6).

8. A finished flour mixing system as in claim 7, wherein:

the clamping assembly (3-5) comprises two clamping reciprocating movable plates (3-51) fixedly mounted on a vehicle body (3-3) at intervals, each clamping reciprocating movable plate (3-51) is provided with a long circular hole A (3-52), a long circular hole B (3-53) and a clamping plate connecting circular hole (3-54), a pin shaft A (3-55) and a pin shaft B (3-56) are fixedly mounted in the long circular holes A (3-52) and the long circular holes B (3-53) respectively, a pin shaft C (3-57) is fixedly mounted at the lower end of each clamping reciprocating movable plate (3-51), the pin shaft C (3-57) is located between the pin shaft A (3-55) and the pin shaft B (3-56), a pin shaft (3-58) is mounted between the pin shaft A (3-55) and the pin shaft C (3-57), a tension spring D (3-59) is mounted between the vehicle body (3-3) and the clamping plate connecting circular hole (3-54), the lower end of the pin shaft D (3-59) is fixed on the vehicle body (3), the upper end of each clamping reciprocating movable plate (3-51) is connected with the clamping movable plate (3-511), and the clamping plate (3-511) is mounted near the clamping block (7) through the movable block (3-511), and the movable block (7) The middle parts of the clamping movable blocks (3-510) are sleeved on the pin shafts D (3-59), and the charging bucket (3-1) is positioned between the two clamping movable blocks (3-510);

the feeding device is characterized in that a charging basket flange (3-11) matched with the mixer body is installed at the upper end of the charging basket (3-1), a butterfly valve (3-12) for blanking is installed at the lower end of the charging basket (3-1), an upper butterfly valve flange (3-13) is installed at the upper end of the butterfly valve (3-12), a lower butterfly valve flange (3-14) is installed at the lower end of the butterfly valve (3-12), the lower butterfly valve flange (3-14) is placed at a positioning block (3-7), a round hole is formed in the position, corresponding to the car body (3-3), of the lower butterfly valve flange (3-14), and the lower butterfly valve flange (3-14) is located in the round hole.

9. A finished powder mixing system as defined in claim 4, wherein: the positioning and clamping device A (4) comprises a fixing frame (4-1), two ends of the fixing frame (4-1) are respectively and fixedly provided with a positioning and clamping cylinder (4-2), a cylinder rod of the positioning and clamping cylinder (4-2) is fixedly provided with a connecting pin shaft (4-3), the connecting pin shaft (4-3) is provided with a clamping plate (4-4) and a cylinder front fork A (4-5), the cylinder front fork A (4-5) is sleeved on the cylinder rod, the clamping plate (4-4) is positioned below the cylinder front fork A (4-5), the other end of the clamping plate (4-4) is rotatably arranged on the fixing frame (4-1), and two collision heads (4-6) are symmetrically and fixedly arranged on the inner side of the positioning and clamping cylinder (4-2) and the fixing frame (4-1); the fixing frame (4-1) is provided with a proximity switch.

10. The finished flour mixing system of claim 4, wherein: the positioning and clamping device B (5) comprises a fixed frame (4-1), two ends of the fixed frame (4-1) are respectively and fixedly provided with a positioning and clamping cylinder (4-2), a cylinder rod of the positioning and clamping cylinder (4-2) is fixedly provided with a connecting pin shaft (4-3), the connecting pin shaft (4-3) is provided with a clamping plate (4-4) and a cylinder front fork A (4-5), the cylinder front fork A (4-5) is sleeved on the cylinder rod, the clamping plate (4-4) is positioned below the cylinder front fork A (4-5), the other end of the clamping plate (4-4) is rotatably arranged on the fixed frame (4-1), and two collision heads (4-6) are symmetrically and fixedly arranged on the inner side of the positioning and clamping cylinder (4-2) and the fixed frame (4-1); a lower cylinder (5-1) for jacking the movable charging basket (3) is also arranged right below the movable charging basket; and the fixed frame (4-1) is provided with a proximity switch for signal linkage transmission.

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