CN206798680U - A kind of stratiform powder of self-emptying directly takes device - Google Patents

Abstract

The utility model discloses a kind of stratiform powder of self-emptying directly to take device, directly device is taken including blending bunker and tiling, the tiling is straight to take device to include synchronous transport unit, feeding power car, discharge bucket, discharge gate, gate drive cylinder and directly take device mounting bracket, described directly to take the lower section that device mounting bracket is arranged at the blending bunker；Feeding power car carries the synchronous conveyer band and moved back and forth below the batch mixing delivery outlet of blending bunker.Blending bunker is used to store ceramic raw material, and the tiling directly takes device to be arranged at the lower section of blending bunker, the ceramic raw material being stored in blending bunker is unloaded under being used for, and realizes that feeding automates.Synchronous conveyer band unloaded under in ceramic raw material percussion under rotation backward, so as to which the synchronous conveyer band and the ceramic raw material not unloaded down keep geo-stationary, and then the abrasion of synchronous conveyer band is reduced, avoid synchronous conveyer band from being isolated by the impurity in the ceramic raw material that does not unload down.

Description

A kind of stratiform powder of self-emptying directly takes device

Technical field

Ceramic production device field is the utility model is related to, more particularly to a kind of stratiform powder of self-emptying directly takes dress Put.

Background technology

Ceramics by dry granulating technique, because it is consumed, the energy is few, and carbon emission amount is low, in architectural pottery especially ceramic wall and floor bricks Raw material preparation field be used widely.Ceramics by dry granulating technique is by the way that ceramic raw material to be ground into superfine dry powder Material, then powder to be sent into comminutor, and water smoke is sprayed into comminutor so that powder mixes with water and has viscosity, and Cutting stirring is carried out, so as to form spherical particle.Ceramics by dry granulating technique water removal drying amount of moisture is few, therefore saves the energy, Meet modernization green production requirement.

Need to crush different types of ceramic raw material before non-slurry pelletizing, and will it is broken after ceramic raw material will be according to ceramic tile Prepare formula to be layed in blending bunker in different proportions, and ceramic raw material is taken out from blending bunker again during non-slurry pelletizing.But at present Feeding is once to take out all ceramic raw materials of storage, and the ceramic raw material with moisture moistening can not uniform blanking because of knot arch And cause to block, either long-term not blanking, or explosion type tidal bore blanking also results in airborne dust.Explosion type tidal bore can cause ceramics Raw material overflows, and spreading needs labor intensive shovel to walk.

Utility model content

The purpose of this utility model is that proposition can avoid producing blocking or airborne dust during feeding, ensures that ceramic raw material at the uniform velocity unloads Go out, realize the discharged amount of Automated condtrol ceramic raw material and draw off speed, make the stratiform powder of the more controllable self-emptying of feeding Material directly takes device.

To use following technical scheme up to this purpose, the utility model：

A kind of stratiform powder of self-emptying directly takes device, including blending bunker and tiling directly to take device, and the tiling directly takes device Device mounting bracket is taken including synchronous transport unit, feeding power car, discharge bucket, discharge gate, gate drive cylinder and directly, it is described straight Device mounting bracket is taken to be arranged at the lower section of the blending bunker；

The synchronous transport unit is installed on feeding power car, and the synchronous transport unit includes synchronous conveyer band, institute The batch mixing delivery outlet that synchronous conveyer band is close to the blending bunker is stated, the size of the synchronous conveyer band is more than the batch mixing delivery outlet Size；

The feeding power car is arranged at the straight top for taking device mounting bracket, and the feeding power car carries the synchronization Conveyer belt moves back and forth below the batch mixing delivery outlet of blending bunker；

The discharge bucket is installed on the feeding power car, and the discharge bucket is close to the one of the synchronous conveyer band End is set；

The discharge gate is installed on the feeding delivery outlet of discharge bucket, and the gate drive cylinder is installed on the outer of discharge bucket Wall, and the gate drive cylinder connects with discharge gate, and the gate drive cylinder drives the discharge gate described in Feeding delivery outlet moves up and down.

Preferably, the feeding delivery outlet is arranged at the side of the remote synchronous conveyer band of the discharge bucket；

Also include gate moving guide rail and gate contiguous block, the gate moving guide rail is installed on the feeding delivery outlet Both sides, the discharge gate activity are connected on the gate moving guide rail；

One end of the gate contiguous block connects with the discharge gate, the other end and the lock of the gate contiguous block The piston rod connection of door drive cylinder；

The gate drive cylinder drives the discharge gate to be moved up and down along the gate moving guide rail.

Preferably, the feeding power car moves including feeding car body, the first feeding motor, the first driver, feeding Power conveyer belt and feeding wheel；

The feeding wheel is installed on the bottom of the feeding car body；

The synchronous conveyer band, the first feeding motor and the first driver are mounted on the top of the feeding car body Portion, and the first feeding motor and the first driver are set close to one end of the synchronous conveyer band；

The input axis connection of the output shaft of the first feeding motor and first driver, the feeding power Conveyer belt is placed on the output shaft of first driver and the outside of the feeding wheel, the first feeding motor driving Feeding vehicle wheel rotation.

Preferably, in addition to feeding wheel guide rail, the feeding wheel guide rail are installed on the straight top for taking device mounting bracket Portion, the feeding car body are against on the feeding wheel guide rail by the feeding wheel.

Preferably, the synchronous transport unit also include the second feeding motor, the second driver, synchronous driving wheel, Synchronous driven pulley and synchronous dynamic conveyer belt, the second feeding motor, the second driver, synchronous driving wheel and it is synchronous from Driving wheel is installed on the top of the feeding car body, and the synchronous conveyer band is placed on the outer of the synchronous driving wheel and synchronous driven pulley Side；

The second feeding motor and the second driver are set close to one end of the synchronous conveyer band, and described second The input axis connection of the output shaft of feeding motor and second driver, the synchronous dynamic conveyer belt are placed on described The outside of the output shaft of two drivers and the synchronous driving wheel, the second feeding motor driving is synchronous actively to be rotated It is dynamic.

Preferably, the synchronous transport unit also includes the first support roller rod group, and the first support roller rod group is installed on The top of the feeding car body, and offseted on the inside of the first support roller rod group and synchronous conveyer band.

Preferably, the synchronous transport unit also includes the second support roller rod group, and the second support roller rod group is installed on The top of the feeding car body, and the bottom of the second support roller rod group and synchronous conveyer band offsets.

Preferably, the blending bunker includes batch mixing warehouse and Duo Gen batch mixing reinforcements, and it is defeated that the batch mixing warehouse includes batch mixing Entrance and batch mixing delivery outlet, the batch mixing input port are arranged at the top of the batch mixing warehouse, and the batch mixing delivery outlet is arranged at The bottom of the batch mixing warehouse；

The bore of the batch mixing input port is more than the bore of batch mixing delivery outlet, and the longitudinal section of the batch mixing warehouse is inverted trapezoidal Shape；

The batch mixing reinforcement is arranged at intervals at the inside of the batch mixing warehouse.

Preferably, in addition to discharging conveyor belts, the discharging conveyor belts are fixedly installed in the straight bottom for taking device mounting bracket Portion, and the discharging conveyor belts are arranged at the lower section of the blending bunker；

It is close to the discharging conveyor belts in the bottom of the discharge bucket.

The stratiform powder of the self-emptying directly takes device to be provided with blending bunker and tile and directly takes device, and the blending bunker is used to deposit Ceramic raw material is stored up, the tiling directly takes device to be arranged at the lower section of blending bunker, the ceramic raw material being stored in blending bunker is unloaded under being used for, Realize that feeding automates.The synchronous conveyer band unloaded under in ceramic raw material percussion under rotation backward, so as to described Synchronous conveyer band and the ceramic raw material not unloaded down keep geo-stationary, and then reduce the abrasion of synchronous conveyer band, avoid synchronous defeated Band is sent to be isolated by the impurity in the ceramic raw material that does not unload down.It will be trickled down to the discharge bucket when being unloaded under ceramic raw material, so as to anti- Outwards overflowed when only being unloaded under ceramic raw material and produce airborne dust, avoid wasting ceramic raw material during feeding.

Brief description of the drawings

Accompanying drawing is described further to the utility model, but the content in accompanying drawing is not formed to any limit of the present utility model System.

Fig. 1 is that the stratiform powder of the one of embodiment of the utility model directly takes apparatus structure schematic diagram；

Fig. 2 is the discharge bucket front view of the one of embodiment of the utility model；

Fig. 3 is that the tiling of the one of embodiment of the utility model directly takes device structural representation；

Fig. 4 is the blending bunker structural representation of the one of embodiment of the utility model；

Fig. 5 is that the tiling of the one of embodiment of the utility model directly takes device top view.

Wherein：Blending bunker 1；Tiling directly takes device 2；Synchronous transport unit 21；Feeding power car 22；Directly take device mounting bracket 23； Synchronous conveyer band 211；Batch mixing delivery outlet 112；First feeding motor 222；Feeding car body 221；First driver 223；The Two drivers 217；Second feeding motor 218；Feeding dynamic conveyor belt 224；Feeding wheel 225；Feeding wheel guide rail 231；Synchronous driving wheel 212；Synchronous driven pulley 213；Synchronous dynamic conveyer belt 214；First support roller rod group 215；Second support Roller rod group 216；Batch mixing warehouse 11；Batch mixing reinforcement 12；Batch mixing input port 111；Discharge bucket 54；Feeding delivery outlet 547；Discharge lock Door 541；Gate moving guide rail 543；Discharging conveyor belts 55；Gate drive cylinder 546；Gate contiguous block 545.

Embodiment

Further illustrate the technical solution of the utility model below in conjunction with the accompanying drawings and by embodiment.

The stratiform powder of the self-emptying of the present embodiment directly takes device, as shown in Figure 1 and Figure 2, including blending bunker 1 and tiling It is straight to take device 2, the tiling is straight take device 2 include synchronous transport unit 21, feeding power car 22, discharge bucket 54, discharge gate 541, Gate drive cylinder 546 and device mounting bracket 23 directly is taken, it is described directly to take the lower section that device mounting bracket 23 is arranged at the blending bunker 1；

The synchronous transport unit 21 is installed on feeding power car 22, and the synchronous transport unit 21 includes synchronous transport Band 211, the synchronous conveyer band 211 are close to the batch mixing delivery outlet 112 of the blending bunker 1, the size of the synchronous conveyer band 211 More than the size of the batch mixing delivery outlet 112；

The feeding power car 22 is arranged at the straight top for taking device mounting bracket 23, and the feeding power car 22 carries institute Synchronous conveyer band 211 is stated to move back and forth in the lower section of the batch mixing delivery outlet 112 of blending bunker 1；

The discharge bucket 54 is installed on the feeding power car 52, and the discharge bucket 54 is close to the synchronous transport Set with 511 one end；

The discharge gate 541 is installed on the feeding delivery outlet 547 of discharge bucket 54, and the gate drive cylinder 546 is installed In the outer wall of discharge bucket 54, and the gate drive cylinder 546 and discharge gate 541 connect, the gate drive cylinder 546 The discharge gate 541 is driven to be moved up and down along the feeding delivery outlet 547.

The stratiform powder of the self-emptying directly takes device to be provided with blending bunker 1 and tile and directly takes device 2, and the blending bunker 1 is used In storage ceramic raw material, the tiling directly takes device 2 to be arranged at the lower section of blending bunker 1, the pottery being stored in blending bunker 1 is unloaded under being used for Porcelain raw material, realize that feeding automates.In non-feeding state, the feeding power car 22 is parked in the underface of batch mixing warehouse 11, Synchronous conveyer band 211 on feeding power car 22 is close to the batch mixing delivery outlet 112 of the batch mixing warehouse 11 and batch mixing is exported Mouth 112 plays sealing effect, prevents ceramic raw material from spilling from batch mixing delivery outlet 112；During feeding, the feeding power car 22 carries The synchronous conveyer band 211 moves forward, so as to which the synchronous conveyer band 211 is from one end of the batch mixing warehouse 11 to blending bunker The other end of body 11 slides, i.e., described batch mixing delivery outlet 112 is from one end of the batch mixing warehouse 11 to the another of batch mixing warehouse 11 One end is gradually opened rather than moment opens, and so as to which ceramic raw material be taken out with being divided into portion portion from batch mixing warehouse 11, keeps away The percussion of ceramic raw material causes damage and airborne dust to produce to the synchronous conveyer band 211 when exempting from overall feeding.

The synchronous conveyer band 211 unloaded under in ceramic raw material percussion under rotation backward, so as to the synchronization Conveyer belt 211 and the ceramic raw material not unloaded down keep geo-stationary, and then reduce the abrasion of synchronous conveyer band 211, avoid synchronization Conveyer belt 211 is isolated by the impurity in the ceramic raw material that does not unload down.

The discharge bucket 54 is installed on the feeding power car 22, is moved with the movement of feeding power car 22 during feeding It is dynamic；And the discharge bucket 54 is set close to one end of the synchronous conveyer band 211, the discharge bucket 54 and batch mixing warehouse 11 Batch mixing delivery outlet 112 is close to, and will be trickled down when being unloaded under ceramic raw material to the discharge bucket 54, during so as to prevent from unloading under ceramic raw material Outwards overflow and produce airborne dust, avoid wasting ceramic raw material during feeding.The discharging is controlled by the gate drive cylinder 546 The opening and closing degree of gate 541, so as to realize the discharged amount of Automated condtrol ceramic raw material and draw off speed, avoid ceramic raw material quick-fried Airborne dust is produced when hairdo is gushed out, makes feeding more controllable.

Preferably, as shown in Fig. 2 the feeding delivery outlet 547 remote synchronization that is arranged at the discharge bucket 54 is defeated Send the side of band 511；Also include gate moving guide rail 543 and gate contiguous block 545, the gate moving guide rail 543 is installed on The both sides of the feeding delivery outlet 547, the activity of discharge gate 541 are connected on the gate moving guide rail 543；The lock One end of door contiguous block 545 and the discharge gate 541 connect, and the other end of the gate contiguous block 545 and the gate drive Take offence cylinder 546 piston rod connection；The gate drive cylinder 546 drives the discharge gate 541 to be moved along the gate and led Rail 543 moves up and down.

Preferably, as shown in figure 3, the feeding power car 22 include feeding car body 221, the first feeding motor 222, First driver 223, feeding dynamic conveyor belt 224 and feeding wheel 225；The feeding wheel 225 is installed on the feeding car The bottom of body 221；The synchronous conveyer band 211, feeding motor 222 and driver 223 are mounted on the feeding car body 221 top, and the first feeding motor 222 and the first driver 223 are close to the one of the synchronous conveyer band 211 End is set；The output shaft of the first feeding motor 222 and the input axis connection of first driver 223, it is described to take Material dynamic conveyor belt 224 is placed on the output shaft of first driver 223 and the outside of the feeding wheel 225, and described first Feeding motor 222 drives feeding wheel 225 to rotate.

Preferably, as shown in figure 3, also including feeding wheel guide rail 231, the feeding wheel guide rail 231 is installed on described The straight top for taking device mounting bracket 23, the feeding car body 221 are against the feeding wheel guide rail by the feeding wheel 225 On 231.

The feeding car body 21 is moved back and forth by the feeding wheel 225 along the feeding wheel guide rail 231, described to take Truck wheel guide rail 231, which plays, is oriented to anti-offset effect；And by the first feeding motor 222 be feeding car body 21 provide it is dynamic Power, realize the Automated condtrol of feeding power car 22.

Preferably, as shown in Fig. 3, Fig. 5, the synchronous transport unit 21 also includes the second feeding motor 218, second Driver 217, synchronous driving wheel 212, synchronous driven pulley 213 and synchronous dynamic conveyer belt 214, the second feeding motor 218th, the second driver 217, synchronous driving wheel 212 and synchronous driven pulley 213 are installed on the top of the feeding car body 221, institute State the outside that synchronous conveyer band 211 is placed on the synchronous driving wheel 212 and synchronous driven pulley 213；The second feeding driving electricity The driver 217 of machine 218 and second is set close to one end of the synchronous conveyer band 211, the second feeding motor 218 The input axis connection of output shaft and second driver 217, the synchronous dynamic conveyer belt 214 are placed on second driver The outside of 217 output shaft and the synchronous driving wheel 212, the second feeding motor 218 drive synchronous driving wheel 212 Rotate.

The synchronous dynamic conveyer belt 214 is placed on the output shaft of second driver 217 and the synchronous driving wheel 212 Outside, with by the second feeding motor 218 drive synchronous conveyer band 211 in synchronous driving wheel 212 and synchronous driven pulley Rotation between 213.

Moreover, in reclaiming process, the first feeding motor 222 rotates forward, the output of first driver 223 The output shaft of axle and the first feeding motor 222 rotates in same direction, so as to which in feeding, the driving of the first feeding motor 222 takes Truck body 21 moves forward；Meanwhile the second feeding motor 218 inverts, the output shaft of second driver 217 and The output shaft of second feeding motor 218 rotates in same direction, so as to the second feeding motor 218 driving synchronous transport during feeding The rotation backward of band 211；And the first feeding motor 222 is identical with the rotating speed of the second feeding motor 218, the synchronization Dynamic conveyor belt 214 is placed on the output shaft of second driver 217 and the outside of the synchronous driving wheel 212, to pass through Two feeding motors 218 drive the rotation between synchronous driving wheel 212 and synchronous driven pulley 213 of synchronous conveyer band 211, realize The sense of rotation of synchronous dynamic conveyer belt 214 and the moving direction of feeding car body 221 are all the time on the contrary, and the synchronous conveyer band 211 and the ceramic raw material that does not unload down keep geo-stationary, and then reduce the abrasion of synchronous conveyer band 211, avoid synchronous conveyer band 211 are isolated by the impurity in the ceramic raw material that does not unload down.

Preferably, as shown in figure 3, the synchronous transport unit 21 also includes the first support roller rod group 215, described first Support roller rod group 215 is installed on the top of the feeding car body 221, and the first support roller rod group 215 and synchronous conveyer band 211 inner side offsets.The inner side of the first support roller rod group 215 and synchronous conveyer band 211 offsets, both can assist in synchronization conveying The support ceramic raw material of band 211, preventing the Action of Gravity Field of ceramic raw material makes the synchronous conveyer band 211 become slack and undisciplined；Can be again institute The rotation for stating synchronous conveyer band 211 provides boosting power, so as to reduce the resistance of motion of synchronous conveyer band 211, reduces feeding driving The power consumption of motor 222.

Preferably, as shown in figure 3, the synchronous transport unit 21 also includes the second support roller rod group 216, described second Support roller rod group 216 is installed on the top of the feeding car body 221, and the second support roller rod group 216 and synchronous conveyer band 211 bottom offsets.

The bottom of the second support roller rod group 216 and synchronous conveyer band 211 offsets, and is the synchronous conveyer band 211 Rotation provides boosting power, so as to reduce the resistance of motion of synchronous conveyer band 211.Preferably, the first support roller rod group 215 Roller rod quantity is more than the roller rod quantity of the second support roller rod group 216, and the central roll rod interval of the first support roller rod group 215 is small In the central roll rod interval of the second support roller rod group 216, because the first support roller rod group 215 needs support ceramic raw material weight Measure and the rotation of synchronous conveyer band 211 is driven under the pressure of ceramic raw material, so the first support roller rod group 215 needs to set Compared with multiple roll rod to support the operation of synchronous conveyer band 211；And the second support roller rod group 216 is assist in synchronization conveyer belt 211 Rotation, not by the pressure of ceramic raw material, so the second support roller rod group 216 sets less roller rod that its work(can be achieved Can, save production cost.

Preferably, as shown in figure 4, the blending bunker 1 includes batch mixing warehouse 11 and Duo Gen batch mixings reinforcement 12, the batch mixing Warehouse 11 includes batch mixing input port 111 and batch mixing delivery outlet 112, and the batch mixing input port 111 is arranged at the batch mixing warehouse 11 Top, the batch mixing delivery outlet 112 is arranged at the bottom of the batch mixing warehouse 11；The bore of the batch mixing input port 111 is big In the bore of batch mixing delivery outlet 112, the longitudinal section of the batch mixing warehouse 11 is inverted trapezoidal shape；The interval of batch mixing reinforcement 12 is set It is placed in the inside of the batch mixing warehouse 11.

The batch mixing input port 111 is arranged at the top of batch mixing warehouse 11, and the batch mixing delivery outlet 112 is arranged at described mixed The bottom of stock bin body 11, ceramic raw material inputs the inside of batch mixing warehouse 11 from batch mixing input port 111 during charging, and ceramic during feeding Raw material is drawn off from batch mixing delivery outlet 112 under gravity.The batch mixing warehouse 11 is inverted ladder-shaped body structure wide at the top and narrow at the bottom, is made The center of gravity for the ceramic raw material that must be stored is on the axis of batch mixing warehouse 11, so as to which in feeding, ceramic raw material is under gravity It is more easy to export from batch mixing delivery outlet 112, reduces the generation that ceramic raw material is adhered to the inwall of batch mixing warehouse 11.The batch mixing reinforcement 12 are arranged at intervals at the inside of the batch mixing warehouse 11, and the structure that the batch mixing reinforcement 12 can improve the batch mixing warehouse 11 is strong Degree, strengthen the bearing capacity of the batch mixing warehouse 11, extend the service life of the batch mixing warehouse 11.

Preferably, as shown in figure 1, also including discharging conveyor belts 55, the discharging conveyor belts 55 are fixedly installed in described straight The bottom of device mounting bracket 23 is taken, and the discharging conveyor belts 55 are arranged at the lower section of the blending bunker 1；The discharge bucket 54 It is close to the discharging conveyor belts 55 in bottom.It is close to the discharging conveyor belts 55, the discharging conveying in the bottom of the discharge bucket 54 With 55 ceramic raw materials for being carried on the discharge bucket 54, and the ceramic raw material drawn off from the feeding delivery outlet 547 is by described Discharging conveyor belts 55 are delivered in the subsequent processing of Production of Ceramics.

Technical principle of the present utility model is described above in association with specific embodiment.These descriptions are intended merely to explain this reality With new principle, and the limitation to scope of protection of the utility model can not be construed in any way.Based on explanation herein, Those skilled in the art, which would not require any inventive effort, can associate other embodiments of the present utility model, These modes are fallen within the scope of protection of the utility model.

Claims (9)

1. a kind of stratiform powder of self-emptying directly takes device, it is characterised in that：Device is directly taken including blending bunker and tiling, it is described flat Paving is straight to take device to include synchronous transport unit, feeding power car, discharge bucket, discharge gate, gate drive cylinder and directly take device to install Frame, it is described directly to take the lower section that device mounting bracket is arranged at the blending bunker；

The synchronous transport unit is installed on feeding power car, and the synchronous transport unit includes synchronous conveyer band, described same Step conveyer belt is close to the batch mixing delivery outlet of the blending bunker, and the size of the synchronous conveyer band is more than the chi of the batch mixing delivery outlet It is very little；

The feeding power car is arranged at the straight top for taking device mounting bracket, and the feeding power car carries the synchronous transport Band moves back and forth below the batch mixing delivery outlet of blending bunker；

The discharge bucket is installed on the feeding power car, and the discharge bucket is set close to one end of the synchronous conveyer band Put；

The discharge gate is installed on the feeding delivery outlet of discharge bucket, and the gate drive cylinder is installed on the outer wall of discharge bucket, And the gate drive cylinder connects with discharge gate, the gate drive cylinder drives the discharge gate along the feeding Delivery outlet moves up and down.

2. the stratiform powder of self-emptying according to claim 1 directly takes device, it is characterised in that：The feeding delivery outlet It is arranged at the side of the remote synchronous conveyer band of the discharge bucket；

Also include gate moving guide rail and gate contiguous block, the gate moving guide rail is installed on the two of the feeding delivery outlet Side, the discharge gate activity are connected on the gate moving guide rail；

One end of the gate contiguous block connects with the discharge gate, and the other end of the gate contiguous block and the gate drive Take offence cylinder piston rod connection；

The gate drive cylinder drives the discharge gate to be moved up and down along the gate moving guide rail.

3. the stratiform powder of self-emptying according to claim 1 directly takes device, it is characterised in that：The feeding power car Including feeding car body, the first feeding motor, the first driver, feeding dynamic conveyor belt and feeding wheel；

The feeding wheel is installed on the bottom of the feeding car body；

The synchronous conveyer band, the first feeding motor and the first driver are mounted on the top of the feeding car body, and And the first feeding motor and the first driver are set close to one end of the synchronous conveyer band；

The input axis connection of the output shaft of the first feeding motor and first driver, the feeding power transmission Band is placed on the output shaft of first driver and the outside of the feeding wheel, and the first feeding motor drives feeding Vehicle wheel rotation.

4. the stratiform powder of self-emptying according to claim 3 directly takes device, it is characterised in that：Also include feeding wheel Guide rail, the feeding wheel guide rail are installed on the straight top for taking device mounting bracket, and the feeding car body passes through the feeding car Wheel is against on the feeding wheel guide rail.

5. the stratiform powder of self-emptying according to claim 3 directly takes device, it is characterised in that：The synchronous transport list Member also includes the second feeding motor, the second driver, synchronous driving wheel, synchronous driven pulley and synchronous dynamic conveyer belt, institute The top that the second feeding motor, the second driver, synchronous driving wheel and synchronous driven pulley are installed on the feeding car body is stated, The synchronous conveyer band is placed on the outside of the synchronous driving wheel and synchronous driven pulley；

The second feeding motor and the second driver are set close to one end of the synchronous conveyer band, second feeding The input axis connection of the output shaft of motor and second driver, the synchronous dynamic conveyer belt are placed on described second and passed The output shaft of dynamic device and the outside of the synchronous driving wheel, the second feeding motor drive synchronous driving wheel to rotate.

6. the stratiform powder of self-emptying according to claim 3 directly takes device, it is characterised in that：The synchronous transport list Member also includes the first support roller rod group, and the first support roller rod group is installed on the top of the feeding car body, and described the Offseted on the inside of one support roller rod group and synchronous conveyer band.

7. the stratiform powder of self-emptying according to claim 3 directly takes device, it is characterised in that：The synchronous transport list Member also includes the second support roller rod group, and the second support roller rod group is installed on the top of the feeding car body, and described the The bottom of two support roller rod groups and synchronous conveyer band offsets.

8. the stratiform powder of self-emptying according to claim 1 directly takes device, it is characterised in that：The blending bunker includes Batch mixing warehouse and Duo Gen batch mixing reinforcements, the batch mixing warehouse include batch mixing input port and batch mixing delivery outlet, the batch mixing input Mouth is arranged at the top of the batch mixing warehouse, and the batch mixing delivery outlet is arranged at the bottom of the batch mixing warehouse；

The bore of the batch mixing input port is more than the bore of batch mixing delivery outlet, and the longitudinal section of the batch mixing warehouse is inverted trapezoidal shape；

The batch mixing reinforcement is arranged at intervals at the inside of the batch mixing warehouse.

9. the stratiform powder of self-emptying according to claim 1 directly takes device, it is characterised in that：Also include discharging conveying Band, the discharging conveyor belts are fixedly installed in the straight bottom for taking device mounting bracket, and the discharging conveyor belts are arranged at institute State the lower section of blending bunker；

It is close to the discharging conveyor belts in the bottom of the discharge bucket.