CN205772063U - Particulate dust device for discharging - Google Patents

Abstract

The utility model discloses particulate dust device for discharging, it includes putting forward material structure, discharging structure and hopper construction；Putting forward material structure to include supporting support, some take-off assembly and guidance set, discharging structure includes drawing bag assembly for scratch container packing bag, also includes for driving the slip of take-off assembly and controlling to adjust the driving control structure of sliding speed of take-off assembly；Take-off assembly extracts container packing bag and along driving feeding packaging bag support frame to slide under the effect driving control structure under the cooperation of guidance set, slip over draw bag assembly time, draw bag assembly and scratch container packing bag, material is in self gravitation effect falls into the discharge port of hopper construction, then the automatic discharging of material is realized, decrease hand labor intensity, also avoid operating personnel to suck dust, also improve rate of discharging high simultaneously.

Description

Particulate dust device for discharging

Technical field

This utility model relates to the transport field of particulate dust, granular material, it particularly relates to one is applicable to powder Dirt material and the automatic discharge unit of granule materials.

Background technology

In the transport discharge process of powdery, graininess or its mixed material, currently used discharge way has convertible Discharging, side dump discharging, bottom discharging, one end lifting type discharging or material is contained in packaging bag；In prior art, dust The many employings of class material are packed, such as cement, chemical fertilizer etc., during discharging, first removed by packed particulate dust by other handbarrows Being transported near discharge port, then material bag is promoted or is carried to discharge port and scratches material bag, finally by material by operating personnel Material in Dai pours into discharge port.

It follows that in prior art when carrying out packed dust discharging, not only need artificial lift or carrying material, also Material is toppled over after needing manually to scratch material bag；On the one hand, manual cleaning's labor intensity is big, rate of discharging is low, on the other hand, unloads Can suction part dust, negative unhealthy when the dust kicked up during material pollutes the environment and operating personnel breathes；Therefore, now need There is provided that a kind of labor intensity is little, rate of discharging is high and prevents operating personnel from sucking the particulate dust device for discharging of dust.

For the problem in correlation technique, effective solution is the most not yet proposed.

Utility model content

For the above-mentioned technical problem in correlation technique, the utility model proposes that a kind of intensity is little, rate of discharging is high and anti- Only operating personnel sucks the particulate dust device for discharging of dust, to realize the automatic discharging of particulate dust.

For realizing above-mentioned technical purpose, the technical solution of the utility model is achieved in that

Particulate dust device for discharging, it includes putting forward material structure, discharging structure and hopper construction；

The described material structure that carries includes supporting support, including supporting seat and being arranged on the support frame above described support seat, The side of described support frame extends to above described hopper construction；

Some take-off assembly, are used for extracting container packing bag, and described take-off assembly is slidably mounted in described support frame, And slide along described support frame one-way circulation；And guidance set, it is located in described support frame described take-off assembly Slip guides；

Described discharging structure includes drawing bag assembly, is used for scratching container packing bag, and described stroke of bag assembly is located at described hopper At the discharge port of structure, and described stroke of bag assembly is arranged near the head end of described hopper construction；

Also including driving control structure, described driving control structure drives the slip of described take-off assembly and controls to adjust institute State the sliding speed of take-off assembly；

Described take-off assembly extracts described container packing bag and in described guiding under the effect of described driving control structure Along driving support frame described in described feeding packaging bag to slide under the cooperation of assembly, slide into the institute being located in described hopper construction State draw bag assembly time, described stroke of bag assembly scratches described container packing bag, and the material in described container packing bag is at self gravitation Effect falls in the described discharge port of described hopper construction.

Described stroke of bag assembly includes the first stroke of bag assembly being located at the described discharge port of described hopper construction, described first Draw bag assembly and include some blades, the length direction of described blade and described container packing bag cunning above described hopper construction Dynamic direction is consistent.

Described stroke of bag assembly also includes the second stroke of bag assembly being located in the described discharge port of described hopper construction；

Described second stroke of bag assembly includes the slide rail being arranged in described discharge port, is slidably mounted on the cunning on described slide rail Cutting blade, and drive the driving motor that described sliding blade slides；Wherein, the length direction of described sliding blade and slip side To unanimously, and the glide direction phase that the glide direction of described sliding blade and described container packing bag are above described hopper construction Vertical consistent.

Described take-off assembly includes matching with described guidance set and being slidably mounted on the slip in described support frame Block, and it is connected to the feeding hook below described sliding shoe.

Described take-off assembly also includes the lifting mechanism being located between described sliding shoe and described feeding hook, described lifting machine Structure includes hoist driving control structure and wirerope-winding structure, the steel wire rope of described wirerope-winding structure and described feeding hook Be connected, described wirerope-winding structure described hoist driving control structure effect under decline described feeding hook or rise described in take Material hook.

Also include at least one the auxiliary discharging thick stick being arranged in described hopper construction, the length side of described auxiliary discharging thick stick To vertical with described take-off assembly glide direction above described hopper construction；Wherein, described auxiliary discharging thick stick is towards described Support frame extends, and described take-off assembly drives described container packing bag to slip over described auxiliary discharging thick stick, described auxiliary discharging thick stick Extruding described container packing bag makes material draw off completely.

Described hopper construction is provided with discharge port described at least two, and described discharging supplementary structure is located at described in adjacent two and is unloaded Between material mouth.

Also include that dustproof construction, described dustproof construction include being located at described hopper construction and the extension of described support frame Dust cover above side, the two ends of described dust cover are provided with and supply described take-off assembly and described container packing bag to slide in or out Opening.

The described discharge port bottom of described hopper construction is additionally provided with grid screen and for pulverizing the pulverizing structure of caking materials.

Described pulverizing structure includes the infrared detection structure being arranged on above described grid screen, symmetrical and be slidably arranged in institute State the shredder assemblies of both sides, discharge port bottom, and drive described shredder assemblies according to the testing result of described infrared detection structure The control assembly stretched out or retract.

The beneficial effects of the utility model:

After take-off assembly described in this utility model extracts described container packing bag, in the effect of described driving control structure The lower described container packing bag of drive slides towards described hopper construction, when described container packing bag slides into described stroke of bag assembly Time, described stroke of bag assembly scratch opening in the bottom of described container packing bag, and the material in described container packing bag is from heavy sensation of the body Fallen into by bottom end opening under power effect in the described discharge port of described hopper construction, then realize the automatic discharging of material, subtract Lack hand labor intensity, also avoided operating personnel to suck dust, also improve rate of discharging high simultaneously.

Accompanying drawing explanation

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, below will be to embodiment The accompanying drawing used required in is briefly described, it should be apparent that, the accompanying drawing in describing below is the most of the present utility model Some embodiments, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to according to this A little accompanying drawings obtain other accompanying drawing.

Fig. 1 is the particulate dust device for discharging schematic diagram described in this utility model embodiment；

Fig. 2 is the particulate dust device for discharging schematic diagram with dust cover described in the utility model；

Fig. 3 is hopper construction schematic diagram described in the utility model；

In figure: 1-supports seat；2-support frame；3-take-off assembly；4-container packing bag；First stroke of bag assembly of 5-；6- Two strokes of bag assemblies；7-feeding hook；8-assists discharging thick stick；9-hopper construction；10-discharge port；11-dust cover；12-grid screen.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of this utility model rather than whole Embodiment.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art are obtained, all belong to Scope in this utility model protection.

As it is shown in figure 1, according to the particulate dust device for discharging described in this utility model embodiment, it include carrying material structure, Discharging structure and hopper construction 9；

The described material structure that carries includes

Support support, including supporting seat 1 and being arranged on the support frame 2 above described support seat 1, described support frame 2 Side extend to above described hopper construction 9；

Some take-off assembly 3, are used for extracting container packing bag 4, and described take-off assembly 3 is slidably mounted on described support frame On 2, and slide along described support frame 2 one-way circulation；And

Guidance set, is located in described support frame 2 slip to described take-off assembly 3 and guides；

Described discharging structure includes drawing bag assembly, is used for scratching container packing bag 4, and described stroke of bag assembly is located at described hopper At the discharge port 10 of structure 9, and described stroke of bag assembly is arranged near the head end of described hopper construction 9；

Also including driving control structure, described driving control structure drives the slip of described take-off assembly 3 and controls to adjust The sliding speed of described take-off assembly 3；

Described take-off assembly 3 is extracted described container packing bag 4 under the effect of described driving control structure and leads described Along driving support frame 2 described in described feeding packaging bag to slide under the cooperation of assembly, slide into and be located in described hopper construction 9 Described stroke of bag assembly time, described stroke of bag assembly scratches described container packing bag 4, the material in described container packing bag 4 from Body action of gravity falls in the described discharge port 10 of described hopper construction 9.

In the present embodiment, the most described support seat 1 is set to some support bars, and described support frame 2 is set to oval frame shaped Frame, described guidance set is set to the sliding tray being molded on described support frame 2 lower surface, and described take-off assembly 3 is slidably installed In described sliding tray；One end that described take-off assembly 3 slides to first pass around during described hopper construction 9 is described hopper construction 9 Head end, say, that described container packing bag 4 in sliding process, be after described stroke of bag assembly again through described in unload Material mouth 10, the oneself height being smaller than described container packing bag 4 between described stroke of bag assembly and described support frame 2, this Sample when described container packing bag 4 slips over described hopper construction 9 under the drive of described take-off assembly 3, described container packing bag 4 Bottom can contact and extrude and described draw bag assembly, described stroke of bag assembly marks opening in the bottom of described container packing bag 4, institute Stating container packing bag 4 to continue to slide to described discharge port 10, material falls into described under the effect of self gravitation by bottom end opening In discharge port 10；When described take-off assembly 3 arrives feeding position, described driving control structure makes described take-off assembly 3 temporary Stopping, after treating described take-off assembly 3 feeding, described driving control structure drives described take-off assembly 3 to drive described material bag Pack 4 is slided towards described hopper construction 9, when described take-off assembly 3 slips over described discharge port 10, can slow down described feeding The sliding speed of assembly 3, so that the material in described container packing bag 4 has fall time the most automatically, prevents material from falling Outside described discharge port 10, after the discharging of described container packing bag 4, the sliding speed of described take-off assembly 3 can be accelerated, Until described take-off assembly 3 turns again to feeding position, now can described container packing bag 4 that manually feeding is empty, and in institute State and start new circulation, Appropriate application time plus new described container packing bag 4 in take-off assembly 3, shorten cycle period.

After take-off assembly 3 described in the present embodiment extracts described container packing bag 4, in the effect of described driving control structure The lower described container packing bag of drive 4 slides towards described hopper construction 9, when described container packing bag 4 slides into described stroke of bag group During part, described stroke of bag assembly scratches opening in the bottom of described container packing bag 4, and the material in described container packing bag 4 is certainly Fallen into by bottom end opening under body action of gravity in the described discharge port 10 of described hopper construction 9, then realize the automatic of material Discharging, decreases hand labor intensity, also avoids operating personnel to suck dust, also improves rate of discharging high simultaneously.

Further, described stroke of bag assembly includes the first stroke of bag group being located at the described discharge port 10 of described hopper construction 9 Part 5, described first stroke of bag assembly 5 includes some blades, and the length direction of described blade and described container packing bag 4 are at described material Glide direction above bucket structure 9 is consistent.In the present embodiment, when described container packing bag 4 is in the drive of described take-off assembly 3 Under when slipping over described hopper construction 9, the bottom of described container packing bag 4 can between contact and extrude described first stroke of bag assembly 5 Some blades, described blade marks some openings, the thing in described container packing bag 4 in the bottom of described container packing bag 4 Material is fallen in described discharge port 10 by some openings of bottom under the effect of self gravitation.

On the basis of above-described embodiment, described stroke of bag assembly also includes the described discharge port being located at described hopper construction 9 Second stroke of bag assembly 6 in 10；

Described second stroke of bag assembly 6 includes the slide rail being arranged in described discharge port 10, is slidably mounted on described slide rail Sliding blade, and drive the driving motor that described sliding blade slides；Wherein, the length direction of described sliding blade and cunning Dynamic direction is consistent, and the glide direction of described sliding blade and the slip above described hopper construction 9 of the described container packing bag 4 Direction is perpendicular unanimously.

In the present embodiment, when described container packing bag 4 slips over described discharge port 10, described driving motor drives described Sliding blade slides along described slide rail, thus new opening is scratched, again because of described cunning in bottom at described container packing bag 4 again The length direction of cutting blade, glide direction are mutually perpendicular to the length of the described blade of described first stroke of bag assembly 5, so working as institute Stating after container packing bag 4 scratched again by described second stroke of bag assembly 6, the bottom of described container packing bag 4 is scratched completely, from And avoid because of between each opening in bottom of described container packing bag 4 coupling part and cause material falling speed slow or material is residual Stay.

Described take-off assembly 3 includes matching with described guidance set and being slidably mounted on the cunning in described support frame 2 Motion block, and it is connected to the feeding hook 7 below described sliding shoe；In the present embodiment, described sliding shoe is slidably mounted on described In the sliding tray of guidance set, it is connected with described driving control structure and drives described feeding hook 7 to slide under it drives.

Further, described take-off assembly 3 also includes the lifting mechanism being located between described sliding shoe and described feeding hook 7, Described lifting mechanism includes hoisting driving control structure and wirerope-winding structure, the steel wire rope of described wirerope-winding structure with Described feeding hook 7 is connected, and described wirerope-winding structure declines described feeding hook 7 under the described driving control structure effect that hoists Or rise described feeding hook 7.

In the present embodiment, the steel wire rope in described wirerope-winding structure is connected with described feeding hook 7, and at described Rise the described feeding hook 7 that declines or hoist under the effect of driving control structure；When as described in take-off assembly 3 slide into as described in feeding position When putting, described driving control structure suspends described take-off assembly 3, and described wirerope-winding structure controls knot in the described driving that hoists Declining described feeding hook 7 under the effect of structure, now, the empty container packing bag 4 on described feeding hook 7 is taken off also by operating personnel After hanging up new described container packing bag 4, described wirerope-winding structure hoists under the described driving control structure effect that hoists Described feeding hook 7, described container packing bag 4 is triggered and replys initial position by described feeding hook 7, and the most described driving controls knot Structure drives described take-off assembly 3 to slide towards described support frame 2 again.

On the basis of above-described embodiment, the present embodiment also include being arranged in described hopper construction 9 at least one is auxiliary Help discharging thick stick 8, the length direction of described auxiliary discharging thick stick 8 and the described take-off assembly 3 slip side above described hopper construction 9 To vertically；Wherein, described auxiliary discharging thick stick 8 extends towards described support frame 2, and described take-off assembly 3 drives described material bag Pack 4 slips over described auxiliary discharging thick stick 8, and described auxiliary discharging thick stick 8 extrudes described container packing bag 4 makes material draw off completely；This Sample, when described container packing bag 4 slides in described hopper construction 9, it also needs to cross described auxiliary discharging thick stick 8, thus Make described auxiliary discharging thick stick 8 extrude described container packing bag 4, prevent material sticks on the inwall of described container packing bag 4, Material in described container packing bag 4 is allowed to draw off as far as possible.

In the present embodiment, as preferred embodiment, described hopper construction 9 is provided with discharge port described at least two 10, described discharging supplementary structure is located between adjacent two described discharge ports 10.

On the basis of above-described embodiment, the present embodiment also includes that dustproof construction, described dustproof construction include being located at institute Stating the dust cover 11 above the extension side of hopper construction 9 and described support frame 2, the two ends of described dust cover 11 are provided with for described The opening that take-off assembly 3 and described container packing bag 4 slide in or out, as shown in Figure 2.The setting of described dust cover 11 can in case Only any dusting polluting environment of dust in discharge process.In the present embodiment, it is also possible to the port of export at described dust cover 11 sets Put convulsion collection structure, it is to avoid the dust danced in the air in described dust cover 11 is directly discharged by the described port of export and polluted environment.

As it is shown on figure 3, described discharge port 10 bottom of described hopper construction 9 is additionally provided with grid screen 12 and for pulverizing caking The pulverizing structure of material, described grid screen 12 can by material scattering, and described pulverizing structure can will caking material scattering, Caking materials is prevented to be deposited on described grid screen 12.

Described pulverizing structure includes being arranged on the infrared detection structure above described grid screen 12, symmetrical and be slidably arranged in The shredder assemblies of both sides, described discharge port 10 bottom, and drive described pulverizing according to the testing result of described infrared detection structure The control assembly that assembly stretches out or retracts.In the present embodiment, described infrared detection structure is set to infrared symmetrical structure, described powder Broken assembly includes expansion link and is connected to rake structure or the tooth type structures of described expansion link end；When on described grid screen 12 When having the caking materials of accumulation, described infrared symmetrical structure sends alarm, two described shredder assemblies of described control Component driver Towards the center move toward one another of described discharge port 10, thus the caking materials piled up is pulverized.

The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all at this Within the spirit of utility model and principle, any modification, equivalent substitution and improvement etc. made, should be included in this utility model Protection domain within.

Claims (10)

1. particulate dust device for discharging, it includes putting forward material structure, discharging structure and hopper construction (9), it is characterised in that:

The described material structure that carries includes

Support support, including supporting seat (1) and being arranged on the support frame (2) of described support seat (1) top, described support frame (2) side extends to described hopper construction (9) top；

Some take-off assembly (3), are used for extracting container packing bag (4), and described take-off assembly (3) is slidably mounted on described carriage On frame (2), and slide along described support frame (2) one-way circulation；And

Guidance set, is located in described support frame (2) slip to described take-off assembly (3) and guides；

Described discharging structure includes drawing bag assembly, is used for scratching container packing bag (4), and described stroke of bag assembly is located at described hopper knot Discharge port (10) place of structure (9), and described stroke of bag assembly arrange near the head end of described hopper construction (9)；

Also including driving control structure, described driving control structure drives the slip of described take-off assembly (3) and controls to adjust institute State the sliding speed of take-off assembly (3)；

Described take-off assembly (3) is extracted described container packing bag (4) under the effect of described driving control structure and leads described Along driving support frame (2) described in described feeding packaging bag to slide under the cooperation of assembly, slide into and be located at described hopper construction (9), during described stroke of bag assembly on, described stroke of bag assembly scratches described container packing bag (4), in described container packing bag (4) Material is in self gravitation effect falls into the described discharge port (10) of described hopper construction (9).

Particulate dust device for discharging the most according to claim 1, it is characterised in that: described stroke of bag assembly includes being located at described First stroke of bag assembly (5) at described discharge port (10) place of hopper construction (9), described first stroke of bag assembly (5) includes some cuttves Sheet, the length direction of described blade is consistent with the described container packing bag (4) glide direction in described hopper construction (9) top.

Particulate dust device for discharging the most according to claim 1, it is characterised in that: described stroke of bag assembly also includes being located at institute State second stroke of bag assembly (6) in the described discharge port (10) of hopper construction (9)；

Described second stroke of bag assembly (6) includes the slide rail being arranged in described discharge port (10), is slidably mounted on described slide rail Sliding blade, and drive the driving motor that described sliding blade slides；Wherein, the length direction of described sliding blade and cunning Dynamic direction is consistent, and the glide direction of described sliding blade and described container packing bag (4) are in described hopper construction (9) top Glide direction is perpendicular unanimously.

Particulate dust device for discharging the most according to claim 1, it is characterised in that: described take-off assembly (3) includes and institute State guidance set match and be slidably mounted on the sliding shoe in described support frame (2), and be connected under described sliding shoe The feeding hook (7) of side.

Particulate dust device for discharging the most according to claim 4, it is characterised in that: described take-off assembly (3) also includes setting Lifting mechanism between described sliding shoe and described feeding hook (7), described lifting mechanism include hoisting driving control structure and Wirerope-winding structure, the steel wire rope of described wirerope-winding structure is connected with described feeding hook (7), and described wirerope-winding is tied Structure declines described feeding hook (7) or rises described feeding hook (7) under the described driving control structure effect that hoists.

Particulate dust device for discharging the most according to claim 1, it is characterised in that: also include being arranged on described hopper construction (9) at least one auxiliary discharging thick stick (8) on, the length direction of described auxiliary discharging thick stick (8) and described take-off assembly (3) are in institute The glide direction stating hopper construction (9) top is vertical；Wherein, described auxiliary discharging thick stick (8) is prolonged towards described support frame (2) Stretching, described take-off assembly (3) drives described container packing bag (4) to slip over described auxiliary discharging thick stick (8), described auxiliary discharging thick stick (8) extruding described container packing bag (4) makes material draw off completely.

Particulate dust device for discharging the most according to claim 6, it is characterised in that: described hopper construction (9) is provided with at least Two described discharge ports (10), described discharging supplementary structure is located between adjacent two described discharge ports (10).

Particulate dust device for discharging the most according to claim 1, it is characterised in that: also include dustproof construction, described dust-proof Structure includes being located at the dust cover (11) above the extension side of described hopper construction (9) and described support frame (2), described anti- The two ends of dust hood (11) are provided with the opening slid in or out for described take-off assembly (3) and described container packing bag (4).

Particulate dust device for discharging the most according to claim 1, it is characterised in that: described hopper construction is unloaded described in (9) Material mouth (10) bottom is additionally provided with grid screen (12) and for pulverizing the pulverizing structure of caking materials.

Particulate dust device for discharging the most according to claim 1, it is characterised in that: described pulverizing structure includes being arranged on The infrared detection structure of described grid screen (12) top is symmetrical and be slidably arranged in the pulverizing of described discharge port (10) both sides, bottom Assembly, and the control assembly stretching out according to the described shredder assemblies of testing result driving of described infrared detection structure or retracting.