CN210389682U - Unloading mechanism of concrete transition bin - Google Patents

Abstract

The utility model discloses a shedding mechanism in concrete transition storehouse relates to the architectural equipment field. The technical key points are as follows: the utility model provides a concrete transition bin's shedding mechanism, includes the support and is located the transition bin at support top, is provided with the discharge hopper body rather than being linked together under the transition bin, and the support lies in the discharge hopper body below level and is provided with the direction slide rail of two parallels, slides between direction slide rail and the discharge hopper body and is connected with the regulation hopper body, and the discharge opening aperture of adjusting the hopper body is less than the discharge opening aperture of discharge hopper body, two it is connected with the bottom confined loading hopper body still to slide between the direction slide rail, the utility model discloses can unload from the place of difference through adjusting the hopper body and the loading hopper body simultaneously, have the waste that reduces the concrete, improve the efficiency of unloading of concrete, improve the advantage of stirring station production line rate of utilization by a wide margin.

Description

Unloading mechanism of concrete transition bin

Technical Field

The utility model relates to a construction equipment field, more specifically say, it relates to a concrete transition bin's shedding mechanism.

Background

The concrete can be discharged from the discharge opening after passing through a transition bin of a mixing plant or a mixing building, and when the concrete is discharged, the concrete is loaded mainly through a trolley parked below the discharge opening and a loading truck and is conveyed to the next working procedure.

The chinese utility model with the publication number CN204549018U discloses a vibrator for a transition bin of a concrete mixing plant (building). This kind of concrete transition feed bin, including the feed bin body, this material bin body lower part of crossing is equipped with discharge hopper body and vibrator.

Similar to the transition bin of the concrete mixing plant in the prior art, the aperture of the discharge hole of the discharge hopper body of the transition bin of the concrete mixing plant is generally fixed, when a loading truck is positioned below the discharge hole, concrete falls from the discharge hole and can just enter the hopper of the loading truck, and when a trolley is positioned below the discharge hole, because the hopper volume of the trolley is smaller than that of the loading truck, the concrete is easily scattered around the trolley, and great waste is caused; if the aperture of the discharge hole of the discharge hopper body is reduced, the discharge efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a shedding mechanism in concrete transition storehouse, it has the waste that reduces the concrete, improves the advantage of the efficiency of unloading of concrete.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a discharge mechanism in concrete transition storehouse, includes the support and is located the transition storehouse at support top, under the transition storehouse integrated into one piece have rather than the discharge hopper body that is linked together, the support is located discharge hopper body below level and is provided with the direction slide rail, it adjusts the hopper body to slide to be connected with between direction slide rail and the discharge hopper body, the discharge opening aperture of adjusting the hopper body is less than the discharge opening aperture of discharge hopper body.

Through adopting above-mentioned technical scheme, the discharge opening of adjusting the bucket body is less, can be applicable to the goods fill of handcart. When the loading truck is used for loading concrete, the concrete is directly discharged into a loading hopper of the loading truck through a discharge hole of the discharge hopper body; when the trolley is used for loading concrete, the adjusting hopper body is moved to be right below the discharging hopper body, then the discharging hole of the discharging hopper body and the discharging hole of the adjusting hopper body are opened simultaneously, the concrete can accurately fall into the cargo hopper of the trolley through the discharging hole of the adjusting hopper body finally, the concrete cannot be scattered on the periphery of the trolley, the applicability of a concrete loading tool is improved, and the waste of the concrete is reduced; simultaneously, for reducing the discharge opening aperture with the transition bin, this scheme can continue to use the discharge opening aperture that the hopper body was originally, and the speed of unloading also can be faster, and then promotes the efficiency of unloading.

To sum up, this scheme not only can reduce the waste of concrete, but also can improve the efficiency of unloading of concrete.

Furthermore, the direction slide rail is two of parallel arrangement, two it is connected with the bottom confined loading hopper body to slide between the direction slide rail.

Through adopting above-mentioned technical scheme, the charging hopper physical stamina can slide between two direction slide rails, consequently can take off the charging hopper body and transport to next process through fork truck after the charging hopper body fills up the concrete, improves concrete loading tool's suitability. Simultaneously can use the loading hopper body to cushion when handcart and loading truck are all not in, and then promote the efficiency of unloading.

Furthermore, the same end of the two guide slide rails penetrates through the support, and a guide rod is arranged on one side of the end, which is opposite to the end of the support in an extending mode.

Through adopting above-mentioned technical scheme, two guide bars play the guide effect, make things convenient for fork truck to send into the direction slide rail with the charging hopper body, make things convenient for the staff to counterpoint.

Furthermore, adjust the bucket body outer wall and be provided with the cylinder that slides, the telescopic link of cylinder that slides is parallel with the guide rail.

By adopting the technical scheme, the sliding cylinder can replace manual pushing to adjust the bucket body, so that the labor intensity is reduced; simultaneously, the cylinder that slides can be with adjusting the accurate counterpoint of the bucket body under the discharge hopper body, and then improves the efficiency of unloading.

Furthermore, sliding wheels are arranged between the guide sliding rail and the charging hopper body and between the guide sliding rail and the adjusting hopper body.

Through adopting above-mentioned technical scheme, the wheel that slides conveniently adjusts the bucket body and the charging hopper body slides on the direction slide, reduces intensity of labour, improves the efficiency of unloading.

Furthermore, a safety net is fixed to one side, located at the guide slide rail and far away from the discharge hopper body, of the support, and a first discharge hole for concrete to pass through is formed in the position, located under the discharge hopper body, of the safety net.

Through adopting above-mentioned technical scheme, the safety net can play the guard action when adjusting the bucket body and the hopper body accident drops, improves the security of unloading.

Furthermore, one side that the safety net is close to the direction and slides is provided with the blotter, the blotter is located and is provided with the second discharge opening that is used for supplying the concrete to pass through under the discharge hopper body.

Through adopting above-mentioned technical scheme, the blotter plays the buffering effect, avoids the safety net to break because of the striking, improves the stability of safety net, improves the security of unloading.

Furthermore, the aperture of the feed hole of the adjusting hopper body and the aperture of the feed hole of the loading hopper body are both larger than the aperture of the discharge hole of the discharging hopper body.

Through adopting above-mentioned technical scheme, the concrete can get into completely after the discharge opening of the discharge hopper body is discharged and adjust the hopper body or fill the hopper body in, can not adjust the hopper body and spill from the feed port edge of the fill hopper body, reduce the waste of concrete.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) by arranging the guide slide rail and the adjusting hopper body, when a loading truck is used for loading concrete, the concrete is directly discharged into a loading hopper of the loading truck through a discharge hole of the discharging hopper body; when the trolley is used for loading concrete, the adjusting hopper body slides to the position right below the discharge hopper body, and the concrete can accurately fall into a bucket of the trolley through a discharge hole of the discharge hopper body, so that the waste of the concrete is reduced; meanwhile, compared with the reduction of the aperture of the discharge hole of the transition bin, the scheme can continuously use the original aperture of the discharge hole of the discharge hopper body, the discharge speed is higher, and the discharge efficiency is further improved;

(2) through setting up guide bar and loading bucket body, the loading bucket body can slide to the direction slide through the guide bar on, can take off the loading bucket body and transport one process next through fork truck after the loading bucket body fills up the concrete, improves concrete loading tool's suitability. Meanwhile, when the trolley and the loading truck are not in use, the loading hopper body can be used for buffering, so that the unloading efficiency is improved;

(3) by arranging the sliding cylinder and the sliding wheel, the sliding cylinder replaces manual driving to adjust the bucket body to slide, so that the labor intensity is reduced; the sliding wheels are convenient for adjusting the sliding between the hopper body and the charging hopper body, so that the labor intensity is reduced;

(4) set up safety net and blotter, can play the guard action when adjusting the bucket body and the hopper body accident drops, improve the security of unloading.

Drawings

FIG. 1 is an overall view of the present embodiment;

fig. 2 is a schematic partial explosion diagram of the present embodiment.

Reference numerals: 1. a support; 2. a transition bin; 3. a discharge hopper body; 4. a guide slide rail; 5. adjusting the bucket body; 6. a hopper body; 7. a guide bar; 8. a slipping cylinder; 9. a slipping wheel; 10. a safety net; 11. a first discharge opening; 12. a cushion pad; 13. a second discharge opening; 14. a first mounting plate; 15. a second mounting plate; 16. and (5) lifting the plate.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

Referring to fig. 1 and 2, a discharging mechanism of a concrete transition bin includes a support 1 and a transition bin 2 fixed on the top of the support 1, a discharging hopper body 3 communicated with the transition bin 2 is integrally formed under the transition bin 2, and an electromagnetic valve (not shown in the figure) for opening and closing a discharging hole of the discharging hopper body 3 is arranged on the discharging hopper body 3.

The support 1 is horizontally welded with two guide slide rails 4 below the discharge hopper body 3, and the two guide slide rails 4 are parallel to each other. The same end of two guide slide rails 4 is worn out outside support 1, and extends to one side that carries on the back mutually at this end and is provided with guide bar 7, guide bar 7 and guide slide rail 4 integrated into one piece, and the interval between two guide bar 7 reduces to guide slide rail 4 direction gradually.

An adjusting hopper body 5 and a charging hopper body 6 are arranged between the guide slide rail 4 and the discharging hopper body 3. Wherein, adjust the bucket body 5 and be hopper-shaped, the feed port aperture of adjusting the bucket body 5 is greater than the discharge opening aperture of the discharge bucket body 3, and the discharge opening aperture of adjusting the bucket body 5 is less than the discharge opening aperture of the discharge bucket body 3. Concrete can not spill from the feed opening department of adjusting the bucket body 5 when getting into from the discharge hopper body 3 and adjusting the bucket body 5, and concrete can be accurate from the discharge opening discharge of adjusting the bucket body 5 fall into the goods fill of handcart in simultaneously, reduces the waste of concrete.

Adjust 5 outer wall symmetries of bucket body and be provided with first mounting panel 14, first mounting panel 14 with adjust 5 welding of bucket body and it is the level setting, first mounting panel 14 is located direction slide rail 4 top and its orientation direction slide rail 4 direction is fixed with glide wheel 9, glide wheel 9 conveniently adjusts bucket body 5 and slides on direction slide rail 4.

The support 1 is fixed with the cylinder 8 that slides towards adjusting 5 week sides of bucket body, and the telescopic link of the cylinder 8 that slides and 5 week side wall welding of adjusting the bucket body and the telescopic link of the cylinder 8 that slides are parallel with the guide rail, and through the cylinder 8 drive that slides and adjust bucket body 5 and slide on guide rail 4, reduce intensity of labour.

The charging hopper body 6 is hopper-shaped with the bottom closed, and after the charging hopper body 6 is filled with concrete, the charging hopper body 6 can be taken down from the guide slide rail 4 through a forklift and conveyed to the next procedure, so that the applicability of a concrete loading tool is improved, and the discharging efficiency is improved. The aperture of the feeding hole of the charging hopper body 6 is larger than that of the discharging hole of the discharging hopper body 3, so that concrete cannot spill out of the feeding hole of the charging hopper body 6 when entering the charging hopper body 6 from the discharging hopper body 3, and the waste of the concrete is reduced.

The outer wall of the loading hopper body 6 is symmetrically welded with a second mounting plate 15, the second mounting plate 15 is horizontally arranged and coincides with the plane of the first mounting plate 14, a sliding wheel 9 is fixed on the second mounting plate 15 towards the direction of the guide slide rail 4, and the sliding wheel 9 facilitates the sliding of the loading hopper body 6 on the guide slide rail 4. The outer wall of the loading hopper body 6 is located right above the second mounting plate 15, the lifting plates 16 are symmetrically welded, the lifting plates 16 are parallel to the second mounting plate 15, and the forklift can lift the loading hopper body 6 to the guide sliding rails 4 through the lifting plates 16.

The support 1 is located the direction slide rail 4 and is kept away from one side of the discharge hopper body 3 and is fixed with the safety net 10, has the clearance between safety net 10 and the ground. The safety net 10 is located under the discharge hopper body 3 and is provided with a first discharge hole 11 for passing concrete. The safety net 10 is adhered with a net-shaped buffer 12 on one side close to the guide sliding, and the buffer 12 is made of rubber and has elasticity.

The cushion pad 12 is located under the discharge hopper body 3 and is provided with a second discharge hole 13 for passing through concrete, and the second discharge hole 13 is coaxial with the first discharge hole 11 and communicated with each other.

The safety net 10 and the cushion pad 12 can protect workers below the adjusting hopper body 5 and the charging hopper body 6 when the adjusting hopper body falls off accidentally; meanwhile, the concrete can fall into the cargo hopper of the trolley or the cargo hopper of the loading truck through the first discharging hole 11 and the second discharging hole 13, and the discharging is not influenced.

The utility model discloses a working process and beneficial effect as follows: when a loading truck is used for loading, the electromagnetic valve is directly opened, and concrete can directly fall into a loading hopper of the loading truck through the discharge hole of the discharge hopper body 3;

when using the handcart to load, make through the cylinder 8 that slides and adjust the bucket body 5 and slide to unloading bucket body 3 under, open the solenoid valve afterwards, the concrete in the unloading bucket body 3 can drop to adjusting in the bucket body 5 and drop to the goods fill of handcart through the discharge opening of adjusting the bucket body 5, because the aperture of the discharge opening of adjusting the bucket body 5 is less, therefore the concrete can not spill and fall around the handcart.

When the loading truck and the trolley are in the transportation process, the loading hopper body 6 is lifted to the guide sliding rail 4 through the lifting plate 16 of the forklift and the loading hopper body 6, then the loading hopper body 6 is pushed to the discharge hole of the discharge hopper body 3, the electromagnetic valve is opened, concrete can fall into the loading hopper body 6 through the discharge hole of the discharge hopper body 3, and the loading hopper body 6 can be taken down through the forklift after being filled with the loading hopper body 6.

To sum up, the utility model discloses not only can reduce the waste of concrete, but also can carry out the pay-off through handcart, dress in truck and fork truck simultaneously, improve the efficiency of unloading of concrete, moreover can unload from the place of difference through adjusting the bucket body 5 and the charging hopper body 6, improve the mixing plant production line rate of utilization.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides a discharge mechanism in concrete transition storehouse, includes support (1) and transition storehouse (2) that are located support (1) top, under transition storehouse (2) integrated into one piece have rather than the discharge hopper body (3) that are linked together, its characterized in that, support (1) are located discharge hopper body (3) below level and are provided with direction slide rail (4), it is connected with between direction slide rail (4) and the discharge hopper body (3) and adjusts the hopper body (5), the discharge opening aperture of adjusting the hopper body (5) is less than the discharge opening aperture of discharge hopper body (3).

2. The discharging mechanism of the concrete transition bin is characterized in that the two guide sliding rails (4) are arranged in parallel, and a hopper body (6) with a closed bottom is connected between the two guide sliding rails (4) in a sliding manner.

3. The discharging mechanism of the concrete transition bin according to claim 2, wherein the same end of the two guide rails (4) penetrates through the bracket (1) and a guide rod (7) is arranged at the opposite side of the same end in an extending manner.

4. The discharging mechanism of the concrete transition bin as claimed in claim 2, wherein a sliding cylinder (8) is arranged on the outer wall of the adjusting bucket body (5), and a telescopic rod of the sliding cylinder (8) is parallel to the guide rail.

5. The discharging mechanism of the concrete transition bin as claimed in claim 4, wherein sliding wheels (9) are arranged between the guide sliding rail (4) and the loading hopper body (6) and between the guide sliding rail (4) and the adjusting hopper body (5).

6. The discharging mechanism of the concrete transition bin is characterized in that a safety net (10) is fixed on the side, away from the discharging hopper body (3), of the support (1) on the guide slide rail (4), and a first discharging hole (11) for allowing concrete to pass through is formed in the position, right below the discharging hopper body (3), of the safety net (10).

7. The discharge mechanism of a concrete transition bin according to claim 6, characterized in that a side of the safety net (10) close to the guide runner is provided with a cushion pad (12), and the cushion pad (12) is provided with a second discharge hole (13) for passing concrete right below the discharge hopper body (3).

8. The discharging mechanism of the concrete transition bin as claimed in claim 2, wherein the aperture of the feeding hole of the adjusting hopper body (5) and the aperture of the feeding hole of the loading hopper body (6) are both larger than the aperture of the discharging hole of the discharging hopper body (3).

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