CN206665729U - A kind of kir powder material stocking device - Google Patents

Abstract

The utility model discloses a kind of kir powder material stocking device, include the support frame of track, the hopper being installed on the track, the storage silo below the hopper and the support track, the track is two transversely to be arranged in parallel, support frame as described above is provided with multiple, below track, for supporting the track, and the storage silo is limited between support frame below track；The hopper has the walking mechanism coordinated with track, and the hopper is by walking mechanism along track travel.Storage silo is equally divided into multiple points of storehouses by the utility model, and the hopper is controlled at the uniform velocity to be walked along track, the kir powder in hopper is set equably to be laid on layer by layer in each point of storehouse, accordingly even when the powder active constituent content of different batches is different, the average content of the powder active ingredient in each storehouse is also identical.And after dividing storehouse, the powder in a storehouse need to be only mixed, overcomes the problem of traditional Stock mode needs overall mixing.

Description

A kind of kir powder material stocking device

Technical field

It the utility model is related to a kind of material stocking device, more particularly to a kind of kir powder material stocking device.

Background technology

Kir powder is a kind of bitumen modifying agent, is process by natural rock asphalt mineral aggregate.For to road construction In pitch mixed material be modified, there is more superior pavement performance by the modified pitch of kir powder, with biography The modifying agent of system is compared, and road greatly improved to rut, Moisture Damage, crack, pit, the resistance for gathering around bag, pass through state for many years Inside and outside experimental study and engineering practice, is increasingly taken seriously, and has vast promotion and application prospect.

Active constituent content and uneven in natural kir ore deposit, thus the every batch kir powder produced effectively into Divide content also different.But when kir powder is applied to asphalt modifier, the content to active ingredient in kir powder is that have sternly Lattice requirement, generally 26%-28%.Usual kir powder is directly transported to placement location by conveyer belt after the drying, no Powder with batch is stacked upon, and the structure of the material heap of formation is as shown in Figure 1.Its shortcoming is to expect that active constituent content is not in heap , during taking, each feeding, which differs, surely to be met to require, the powder that can not disposably take whole material heap is carried out Use, the use to the later stage brings very big inconvenience.Therefore the mixing apparatus of large-tonnage is needed to use to the kir of whole material heap Powder is mixed, not only high energy consumption not environmentally, and in mixed process easily heating cause kir powder melt caking, also have Apparatus overload may be caused to damage.

Utility model content

In order to solve the above problems, the utility model provides a kind of kir powder material stocking device, the material stocking device bag Multiple points of storehouses are included, the powder of different batches is averagely laid in each point of storehouse layer by layer, and the mean allocation in each point of storehouse, gram The problem of having taken traditional Stock mode powder active constituent content inequality.

A kind of kir powder material stocking device, including track, be installed on the track hopper, below the hopper Storage silo and support frame for supporting the track, the track be two transversely to be arranged in parallel, support frame as described above It is provided with multiple, below the track, for supporting the track, and is limited below the track between support frame The storage silo；The hopper is arranged between two tracks, and is passed through with the walking mechanism coordinated with track, the hopper Walking mechanism is along track travel.

Further, the lateral length of the storage silo is equal with the travel distance that hopper is in orbit, the storage silo The distance between longitudinal length and two tracks match.

Further, the storage silo is open-topped cuboid or the square bodily form, is had in the storage silo multiple Storage silo is divided into multiple size identical point storehouses by vertical baffle, multiple vertical baffles.

Further, the hopper have positioned at upper end charging aperture and the discharging opening positioned at lower end, kir powder from Throat-fed, and be layed in layer by layer in each point storehouse from discharge hole for discharge when hopper is along track travel.

Further, the hopper at the uniform velocity walks back and forth along track, when the kir powder in the hopper all distributes Into each point of storehouse, the travel distance of the hopper is the integral multiple of the lateral length of the storage silo.

Further, the longitudinal length of the discharging opening is not more than the longitudinal length of storage silo.

Further, the longitudinal length of the discharging opening is 0.9 times of storage silo longitudinal length.

Further, in addition to hoofing part mechanism, the hoofing part mechanism include motor and transmission mechanism, the electricity Machine is arranged on hopper, and the motor drives walking mechanism along track travel through transmission mechanism.

Further, the transmission mechanism is gear or belt gear.

Further, it is provided with rolling groove in the track；The walking mechanism is road wheel, and the road wheel is two groups, It is located at hopper both sides respectively, and corresponding is rotatably connected in rolling groove.

Storage silo is equally divided into multiple points of storehouses by the utility model, and controls the hopper at the uniform velocity to be walked along track, makes material Kir powder in bucket is equably laid in each point of storehouse layer by layer, powder mean allocation in each point of storehouse, so Since, even if the powder active constituent content of different batches is different, the average content of the powder active ingredient in each storehouse is also Identical；And after dividing storehouse, the powder in a storehouse need to be only mixed, overcoming traditional Stock mode needs what is integrally mixed Shortcoming.

Brief description of the drawings

The structural representation for the material heap that Fig. 1 is formed by traditional Stock mode；

Fig. 2 is a kind of front view of kir powder material stocking device of the embodiment of the utility model one；

Fig. 3 is the left view of the material stocking device shown in Fig. 2；

Fig. 4 is the structural representation of the material heap formed using material stocking device of the present utility model.

Description of reference numerals：1-hopper；11-charging aperture, 12-discharging opening；13-road wheel；2-storage silo, 21- Divide storehouse；3-track；4-support frame；5-motor；A, B, C, D, E, F, G represent the kir powder of different batches respectively.

Embodiment

Principle of the present utility model and feature are described below in conjunction with accompanying drawing, example is served only for explaining this practicality It is new, it is not intended to limit the scope of the utility model.

A kind of kir powder material stocking device, as shown in Figures 2 and 3, including track 3, the hopper that is installed on the track 3 1st, the support frame 4 positioned at the storage silo 2 of the lower section of hopper 1 and for supporting the track 3, the track 3 are transversely to put down Set two of row, support frame as described above 4 be provided with it is multiple, positioned at the lower section of track 3, for supporting the track 3, and described The storage silo 2 is limited between the lower section of track 3 and support frame 4；The hopper 1 has the walking mechanism coordinated with track 3, institute Hopper 1 is stated to walk along track 3 by walking mechanism.

Specifically, the hopper 1 is used to contain kir powder, when support frame as described above 4 by track 3 and is installed on track 3 On hopper 1 support after, in 3 formed below spaces that can accommodate storage silo 2 of track, the hopper 1 is along track 3 During walking, powder is fallen into from hopper 1 in storage silo 2.Support frame as described above 4 could be arranged to four, respectively positioned at two tracks 3 Both ends, it can also be provided that more than four, respectively positioned at every both ends of track 3 and the position of centre, the basis of storage silo 2 The installation site of support frame 4 adjusts its longitudinal size.In the present embodiment, support frame as described above 4 is four, respectively positioned at two rails The both ends in road 3.

Travel distance of the lateral length of the storage silo 2 with hopper 1 on the track 3 is equal, the longitudinal direction of the storage silo 2 The distance between length and two tracks 3 match.Specifically, the lateral length of the storage silo 2 and hopper 1 are on the track 3 Travel distance is equal, but not equal to the length of two tracks 3, because hopper 1 itself occupies certain length on the track 3.Such as Powder, when the hopper 1 is walked on the track 3, can be discharged into each position of the storage silo 2 in the horizontal, the powder by this Material is more evenly distributed in storage silo 2.Meanwhile the distance between the longitudinal length of the storage silo 2 and two tracks 3 match, Both can with equal, can also the longitudinal length of storage silo 2 be slightly less than the distance between two tracks 3.In the implementation shown in Fig. 2 In example, the longitudinal length of the storage silo 2 is slightly less than the distance between two tracks 3.

In the present embodiment, the storage silo 2 is open-topped cuboid, is had in the storage silo 2 multiple perpendicular To dividing plate, storage silo is divided into multiple size identical point storehouses 21 by multiple vertical baffles.Specifically, in order that hopper 1 In powder be uniformly laid in storage silo 2, the storage silo 2 is square storage silo 2, such as cuboid or the square bodily form, The storage silo 2 is cuboid.The storage silo 2 is divided into by multiple size identical point storehouses 21 by the dividing plate, made Used time can only take the powder in a point of storehouse 21, and it is more easy to mix.

The hopper 1 has the charging aperture 11 positioned at upper end and the discharging opening 12 positioned at lower end, and kir powder is from charging Mouth charging, and discharged when hopper 1 is walked along track 3 from discharging opening 12, it is layed in layer by layer in each point storehouse 21.Specifically, In order that powder without falling into storage silo 2 outside, a little higher than top of storage silo 2 of the discharging opening 12 of the hopper 1 or with the top of storage silo 2 Flush or part goed deep into storage silo 2, if the top of discharging opening 12 and storage silo 2 flushes or partly goed deep into storage silo 2, it is described every The height of plate is less than the height of storage silo 2 and the discharging opening 12 is located on dividing plate, is discharged when avoiding the hopper 1 from walking Mouth 12 is blocked by dividing plate.Powder is fallen into each point of storehouse 21 after being come out from discharging opening 12, is formed with batch powder in each point of storehouse 21 One layer, the powder of different batches forms sandwich construction in each point of storehouse 21.

In the present embodiment, the hopper 1 at the uniform velocity walks back and forth along track 3, when the kir powder in the hopper 1 is complete Part is fitted in each point of storehouse 21, and the travel distance of the hopper 1 is the integral multiple of the lateral length of the storage silo 2.Specifically , by controlling hopper 1 at the uniform velocity to walk on the track 3 so that powder is evenly distributed in each point of storehouse 21, and forms uniform one Layer.In order that powder mean allocation in each point of storehouse 21, when powder is fully allocated in each point of storehouse 21, the hopper 1 Travel distance is the integral multiple of the lateral length of the storage silo 2.Specifically, it is assumed that the lateral length of storage silo 2 is L, material The speed of travel V of bucket 1₁, the travel time of hopper 1 is T, the discharging speed V of hopper 1₂, the feeding quantity of hopper 1 is M, then has as follows Relational expression：M/V₂×V₁=nL.It is can be seen that from this formula in order to reach above-mentioned purpose, three kinds of modes can be taken：First, control material The speed of travel of bucket 1；2nd, feeding quantity is controlled；3rd, discharging speed is controlled.The speed of travel of the hopper 1 can pass through motor 5 Rotating speed controls, and the discharging speed can control by changing the size of discharging opening 12.Exemplified by controlling feeding quantity, add out Material speed is 25kg/min, speed of travel 6m/min, and it is 6m to divide the formula material heap length of storehouse 21, then the feed powder for being paved with flood is 25kg, to ensure the feed powder flood in uniform thickness for being paved with the formula material heap of point storehouse 21 per batch, in charging, it should try one's best and add 25kg The powder of integral multiple.

In the present embodiment, the longitudinal length of the discharging opening 12 be not more than storage silo 2 longitudinal length, preferably it is described go out The longitudinal length of material mouth 12 is 0.9 times of the longitudinal length of storage silo 2.Specifically, in order that powder without falling into storage silo 2 outside, The longitudinal length of discharging opening 12 is less than or equal to the longitudinal length of storage silo 2, but the longitudinal length of discharging opening 12 can not be than storage The longitudinal length in storehouse 2 is small too many, it is preferred that and the longitudinal length of the discharging opening 12 is 0.9 times of the longitudinal length of storage silo 2, this Outside sample both can guarantee that powder without falling into storage silo 2, and can ensures that powder is paved with each position of storage silo 2 in the vertical as far as possible Put.

In the present embodiment, in addition to hoofing part mechanism, the hoofing part mechanism include motor 5 and transmission mechanism (not shown), the motor 5 are arranged on hopper 1, and the motor 5 drives walking mechanism to be walked along track 3 through transmission mechanism, institute It is gear or belt gear to state transmission mechanism.Specifically, the hopper 1 is walked by the drives edge track 3 of motor 5, it is described The speed of travel and direction of travel of hopper 1 can be controlled by the rotating speed of motor 5 and rotation direction.When using gear drive, Rack is be arranged in parallel with track 3 and matched positioned at the outside of a track 3, the length of the rack with track 3, and rack is arranged at The outside of track 3 is in order to avoid powder is stopped by rack during discharging.

In the present embodiment, it is provided with rolling groove in the track 3；The walking mechanism is road wheel 13, the road wheel 13 be two groups, and every group can be a road wheel 13, or two road wheels 13, every group of road wheel 13 are located at hopper respectively 1 both sides, and corresponding be rotatably connected in rolling groove.

In another embodiment, the walking mechanism includes sliding block and roller, and the track 3 is C-shaped cavity track, described Sliding block is the square slider to match with the C-shaped cavity track, and the sliding block is embedded in C-shaped cavity, the motor 5, is passed Motivation structure and roller are respectively provided with and on sliding block, and the roller is in contact with the inwall of C-shaped cavity, and the motor 5 is through transmission Mechanism band movable slider is moved along track 3 so as to drive hopper 1 to be walked along track 3.

Storage silo 2 is equally divided into multiple points of storehouses 21 by the utility model, and controls the hopper 1 at the uniform velocity to be walked along track 3, Make to be evenly distributed in each point of storehouse 21 with a batch of kir powder, ensure per batch feed powder it is in uniform thickness be paved with it is each Divide the flood in storehouse 21, as shown in Figure 4.So that even if the powder active constituent content of different batches is different, finally give The average content of each kir powder active ingredient divided in storehouse 21 is also identical, in use, taking every time in a point of storehouse 21 Powder mixes.

Preferred embodiment of the present utility model is the foregoing is only, it is all in this practicality not to limit the utility model Within new spirit and principle, any modification, equivalent substitution and improvements made etc., guarantor of the present utility model should be included in Within the scope of shield.

Claims (10)

1. a kind of kir powder material stocking device, it is characterised in that including track, the hopper being installed on the track, positioned at institute The storage silo below hopper and the support frame for supporting the track are stated, the track is two transversely to be arranged in parallel, Support frame as described above be provided with it is multiple, below the track, for supporting the track and below the track and support frame Between limit the storage silo；The hopper is arranged between two tracks, and with the walking mechanism coordinated with track, institute Hopper is stated by walking mechanism along track travel.

2. kir powder material stocking device according to claim 1, it is characterised in that the lateral length and material of the storage silo The travel distance in orbit that struggles against is equal, and the distance between the longitudinal length of the storage silo and two tracks match.

3. kir powder material stocking device according to claim 2, it is characterised in that the storage silo is open-topped length Cube or the square bodily form, the storage silo is interior to have multiple vertical baffles, and storage silo is divided into more by multiple vertical baffles Individual size identical divides storehouse.

4. kir powder material stocking device according to claim 3, it is characterised in that the hopper has entering positioned at upper end Material mouth and the discharging opening positioned at lower end, kir powder go out from throat-fed when hopper is along track travel from discharging opening Material, it is layed in layer by layer in each point storehouse.

5. kir powder material stocking device according to claim 4, it is characterised in that the hopper at the uniform velocity carrys out reversion along track Walk, when the kir powder in the hopper is fully allocated in each point of storehouse, the travel distance of the hopper is the storage The integral multiple of the lateral length in storehouse.

6. kir powder material stocking device according to claim 4, it is characterised in that the longitudinal length of the discharging opening is little In the longitudinal length of storage silo.

7. kir powder material stocking device according to claim 6, it is characterised in that the longitudinal length of the discharging opening is to deposit 0.9 times of warehouse longitudinal length.

8. the kir powder material stocking device according to claim any one of 1-7, it is characterised in that also including hoofing part machine Structure, the hoofing part mechanism include motor and transmission mechanism, and the motor is arranged on hopper, and the motor is through transmission mechanism Walking mechanism is driven along track travel.

9. kir powder material stocking device according to claim 8, it is characterised in that the transmission mechanism is gear or belt Transmission mechanism.

10. kir powder material stocking device according to claim 1, it is characterised in that be provided with rolling groove in the track；Institute It is road wheel to state walking mechanism, and the road wheel is two groups, respectively positioned at hopper both sides, and corresponding is rotatably connected on rolling groove It is interior.