CN221026430U - Automatic distributing device - Google Patents

Abstract

The utility model discloses an automatic material distribution device, which comprises a material distribution trolley, wherein a quantitative material discharge mechanism is arranged at a material discharge port at the bottom of the material distribution trolley, and comprises a storage bin and a quantitative separation assembly; the top of the storage bin is provided with a feed inlet communicated with a discharge port at the bottom of the distribution trolley, and the bottom of the storage bin is provided with a discharge port; the quantitative separation assembly is rotatably arranged in the storage bin and separates the storage bin into a plurality of independent quantitative areas with the same size, and the quantitative separation assembly rotates to enable any quantitative area to be communicated with the feed inlet and any different quantitative area to be communicated with the discharge outlet; compared with the prior art, the quantitative areas are the same in size, the amount of materials entering each quantitative area is the same, then any quantitative area rotates to the bottom of the storage bin to be communicated with the discharge port, so that the materials in the quantitative area are discharged from the discharge port, and the material distribution areas can uniformly distribute materials to all the stacking areas when the material distribution areas are the same in amount each time.

Description

Automatic distributing device

Technical Field

The utility model relates to the technical field of cloth structures, in particular to an automatic cloth device.

Background

In the processing process of the ceramsite, a material distribution trolley is required to slide back and forth along a track to uniformly distribute the material into each stacking area, and the material distribution amount of the material distribution trolley is controlled in a manual mode at present, so that the problem of non-uniformity of the material distribution amount in each stacking area is caused.

For example, patent document CN202121935964.7 discloses a full-automatic trolley distributing system, which relates to the technical field of warehouse logistics. The utility model comprises a track assembly, a material distribution assembly and a start-stop assembly, wherein the upper middle part of the inner side of the track assembly is connected with the material distribution assembly through a driving assembly, the material distribution assembly comprises a side plate, a front end plate and a rear end plate, the front end plate and the rear end plate are correspondingly connected with the front part and the rear part of the inner side of the side plate, the front end plate is movably connected with the lower part of one side of the side plate in a hinge manner, a telescopic rod welded at the upper end part of the inner side of the rear end plate is movably connected with the front end plate, and the upper middle part of the outer side of the rear end plate is movably connected with a positioner; one end of the track component is connected with a start-stop component, the start-stop component comprises a U-shaped block and a delay switch, and the delay switch is connected to the upper middle part of the inner side of the U-shaped block.

The distribution assembly in the full-automatic trolley distribution system moves on the track assembly to distribute, and the distribution assembly cannot control the distribution amount when distributing, so that the problem that the distribution amount in each stacking area is not uniform when materials are required to be distributed into each stacking area is solved.

Disclosure of utility model

Aiming at the defects in the prior art, the utility model aims to provide an automatic material distribution device so as to solve the problem that when materials are required to be distributed into each material stacking area in the prior art, the material distribution trolley has uneven material distribution quantity in each material stacking area.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: an automatic distributing device, includes the cloth dolly, the bin outlet department of cloth dolly bottom is provided with quantitative bin outlet mechanism, quantitative bin outlet mechanism includes:

The top of the storage bin is provided with a feed inlet communicated with a discharge hole at the bottom of the distribution trolley, and the bottom of the storage bin is provided with a discharge hole;

The quantitative separation assembly is rotationally arranged in the storage bin and separates the storage bin into a plurality of independent quantitative areas with the same size, and the quantitative separation assembly rotates to enable any quantitative area to be communicated with the feed inlet and any different quantitative area to be communicated with the discharge outlet.

Compared with the prior art, the utility model has the following beneficial effects:

This automatic distributing device mainly comprises cloth dolly, storage silo and ration separation subassembly, the ration separation subassembly rotates arbitrary quantitative district to storage silo top in the rotation in-process and communicates with the feed inlet, and the size in a plurality of quantitative district is the same, then get into the material volume in every quantitative district the same, then arbitrary quantitative district rotates to storage silo bottom and switches on with the discharge gate, come to discharge the material in this quantitative district from the discharge gate, thereby can make the volume of carrying out the cloth at every turn the same, then can be even carry out the cloth to each windrow district in.

Drawings

FIG. 1 is a schematic view of a partial structure of an embodiment of the present utility model;

FIG. 2 is a schematic view of a part of the structure of FIG. 1;

Fig. 3 is a schematic view of the structure of the storage bin in fig. 2.

Reference numerals in the drawings of the specification include: the automatic quantitative distribution device comprises a distribution trolley 1, a storage bin 2, a rail 3, a quantitative region 4, a rotating shaft 5, a partition plate 6, a circular gear 7, a sector gear 8, a driver 9, a protective cover 10, a gravity top plate 11 and a telescopic connecting rod 12.

Detailed Description

The utility model is described in further detail below by way of specific embodiments:

As shown in fig. 1 and 3, an embodiment of the utility model provides an automatic material distribution device, which comprises a material distribution trolley 1, wherein a quantitative material discharge mechanism is arranged at a material discharge port at the bottom of the material distribution trolley 1, and comprises a storage bin 2 and a quantitative separation component;

Wherein, a feed inlet communicated with a discharge port at the bottom of the distribution trolley 1 is arranged at the top of the storage bin 2, and a discharge port is arranged at the bottom of the storage bin 2;

The quantitative separation assembly is rotatably arranged in the storage bin 2 and separates the storage bin 2 into a plurality of independent quantitative areas 4 with the same size, and the quantitative separation assembly rotates to enable any quantitative area 4 to be communicated with the feed inlet and any different quantitative area 4 to be communicated with the discharge outlet.

This automatic distributing device mainly comprises cloth dolly 1, storage silo 2 and ration separation subassembly, ration separation subassembly rotates arbitrary ration district 4 to storage silo 2 top in the rotation in-process and comes to communicate with the feed inlet, and the size in a plurality of ration district 4 is the same, then get into the material volume in every ration district 4 the same, then arbitrary ration district 4 rotates to storage silo 2 bottom and switches on with the discharge gate, come to discharge from the discharge gate the material in this ration district 4, thereby can make the volume that carries out the cloth at every turn the same, then can be even carry out the cloth to each windrow district in.

In this embodiment:

The automatic distributing device also comprises a track 3, and the distributing trolley 1 is slidably arranged on the track 3; the track 3 can be a track 3 component in the background technology, and the distribution trolley 1 can be a distribution component in the background technology; the distributing trolley 1 reciprocates on the track 3 to uniformly distribute the material in the plurality of material stacking areas.

The quantitative areas 4 are circumferentially arranged, and when one quantitative area 4 rotates to the top of the storage bin 2 to be communicated with the feed inlet, the quantitative area 4 rotates to the bottom of the storage bin 2 to be communicated with the discharge outlet; in the rotation process of the quantitative separation assembly, the material can be continuously fed and discharged in the storage bin 2, and the material can be continuously and quantitatively distributed in each stacking area.

As shown in fig. 1, 2 and 3, according to another embodiment of the present utility model, the automatic material distribution device, wherein the quantitative separation assembly includes a rotation shaft 5 and a separation plate 6;

Wherein the rotating shaft 5 is rotatably arranged in the storage bin 2;

The division plates 6 are multiple and uniformly connected to the rotating shaft 5 in a scattering mode, the division plates 6 are in sliding contact with the inner wall of the storage bin 2, and two adjacent division plates 6 are arranged in the storage bin 2 in a surrounding mode to form the quantitative region 4.

In this embodiment:

The number of the partition plates 6 is 6, so that the storage bin 2 is divided into 6 quantitative areas 4 distributed circumferentially; the rotating shaft 5 drives the 6 partition plates 6 to rotate in the storage bin 2 in the rotating process, so that one of the quantitative regions 4 rotates to the top of the storage bin 2 to be communicated with the feed inlet for quantitative feeding, and then one quantitative region 4 rotates to the bottom of the storage bin 2 to be communicated with the discharge port for discharging.

Based on the scheme:

The rotary shaft 5 is connected with a driving component for driving the rotary shaft 5 to intermittently rotate, the driving component provides power for the rotation of the rotary shaft 5, and when the rotary shaft 5 stops rotating, just one of the quantitative areas 4 rotates to the top of the storage bin 2 to be communicated with the feed inlet, and then one quantitative area 4 rotates to the bottom of the storage bin 2 to be communicated with the discharge outlet, so that time is provided for feeding and discharging.

Specifically, the driving assembly comprises a circular gear 7, a sector gear 8 and a driver 9;

Wherein the circular gear 7 is rotatably arranged on the outer wall of the storage bin 2 and is coaxially connected with the rotating shaft 5;

The sector gear 8 is meshed with the circular gear 7;

the driver 9 is connected to the sector gear 8.

Here:

The driver 9 may be a gear motor to drive the sector gear 8 to rotate, and when the sector gear 8 is meshed with the circular gear 7 in the rotation process, the circular gear 7 is driven to rotate, and the circular gear 7 drives the rotating shaft 5 to rotate, so that the plurality of partition plates 6 rotate in the storage bin 2; when the sector gear 8 is disengaged from the circular gear 7 in the rotation process, the circular gear 7 stops rotating, and the plurality of partition plates 6 are placed in the storage bin 2 in different ways; the sector gear 8 is meshed with the circular gear 7 once to enable the circular gear 7 to rotate by a certain angle, and the circular gear 7 rotates by 60 degrees due to the fact that 6 quantitative areas 4 are divided into the storage bin 2, so that the 6 quantitative areas 4 are communicated with the feed inlet and the discharge outlet in sequence.

In order to protect the sector gear 8 and the circular gear 7 and facilitate the heat dissipation of the driver 9; the outer wall of the storage bin 2 is connected with a protective cover 10, the circular gear 7 and the sector gear 8 are both rotatably arranged in the protective cover 10, and the driver 9 is arranged outside the protective cover 10.

According to another embodiment of the present utility model, as shown in fig. 3, an auxiliary discharging assembly is disposed in each of the quantitative regions 4, and the auxiliary discharging assembly is used for ejecting the material in the quantitative region 4 when the quantitative region 4 is communicated with the discharge hole.

When the quantitative area 4 rotates to be communicated with the discharge hole, the materials in the quantitative area 4 are discharged from the discharge hole under the action of gravity, if the extrusion force of the materials in the quantitative area 4 is overlarge, the materials in the quantitative area 4 cannot be discharged from the discharge hole under the action of gravity, and the auxiliary discharging assembly is used for ejecting the materials from the discharge hole, so that the discharging efficiency is accelerated.

Based on the scheme:

the auxiliary discharging assembly comprises a gravity top plate 11 and a telescopic connecting rod 12;

Wherein the gravity top plate 11 is slidably arranged in the quantitative region 4, and divides the quantitative region 4 into two independent regions which are vertically distributed when the quantitative region 4 is communicated with the feed inlet;

the telescopic connecting rod 12 is connected between the gravity top plate 11 and the rotating shaft 5.

In this embodiment;

When one of them ration district 4 rotates to storage silo 2 top, gravity roof 11 is located flexible connecting rod 12 top, makes flexible connecting rod 12 shrink under the action of gravity roof 11, and gravity roof 11 edge and storage silo 2 inner wall and two adjacent division boards 6 butt are separated this ration district 4 into and are distributed and independent two regions from top to bottom, and the region that is located the below is less, and the region that is located the top is great carries out quantitative stock, and the gravity roof 11 avoids the material to get into the region of below, causes quantitative inaccuracy. When the quantitative region 4 rotates to the bottom of the storage bin 2, the gravity top plate 11 is positioned below the telescopic connecting rod 12, the gravity top plate 11 stretches the telescopic connecting rod 12 under the action of gravity, the gravity top plate 11 moves downwards in the quantitative region 4 to eject materials in the quantitative region 4 from a discharge hole, and the discharge speed of the materials is accelerated; the gravitational top 11 may be machined from ferrous material with sufficient weight to eject material from the dosing region 4.

The telescopic connecting rod 12 includes an outer cylinder and an inner rod which are slidably connected to each other, so as to connect the gravity top plate 11 and limit movement of the gravity top plate 11, and the gravity top plate 11 can work for a long time.

In the figures, the auxiliary discharge assemblies are shown only in two dosing zones 4 at the top and bottom of the storage silo 2, in which in practical use an auxiliary discharge assembly is provided in each dosing zone 4.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered by the scope of the claims of the present utility model.

Claims (8)

1. The utility model provides an automatic distributing device, includes the cloth dolly, its characterized in that, the bin outlet department of cloth dolly bottom is provided with quantitative bin outlet mechanism, quantitative bin outlet mechanism includes:

The top of the storage bin is provided with a feed inlet communicated with a discharge hole at the bottom of the distribution trolley, and the bottom of the storage bin is provided with a discharge hole;

The quantitative separation assembly is rotationally arranged in the storage bin and separates the storage bin into a plurality of independent quantitative areas with the same size, and the quantitative separation assembly rotates to enable any quantitative area to be communicated with the feed inlet and any different quantitative area to be communicated with the discharge outlet.

2. An automatic distributing device as claimed in claim 1, wherein said dosing and separating assembly comprises:

the rotating shaft is rotatably arranged in the storage bin;

The division boards are multiple and evenly connected to the rotating shaft in a scattering mode, the division boards are in sliding contact with the inner wall of the storage bin, and two adjacent division boards are arranged in the storage bin in a surrounding mode to form the quantitative area.

3. An automatic cloth device as claimed in claim 2, wherein: the rotating shaft is connected with a driving component for driving the rotating shaft to intermittently rotate.

4. An automatic cloth device as claimed in claim 3 wherein said drive assembly comprises:

The round gear wheel is rotationally arranged on the outer wall of the storage bin and is coaxially connected with the rotating shaft;

and the sector gear is meshed with the circular gear.

5. The automatic cloth device of claim 4, wherein the drive assembly further comprises:

and the driver is connected with the sector gear.

6. An automatic distributing device as claimed in claim 5, wherein: the storage bin is characterized in that a protective cover is connected to the outer wall of the storage bin, the circular gear and the sector gear are both rotatably arranged in the protective cover, and the driver is arranged outside the protective cover.

7. An automatic cloth device as claimed in claim 2, wherein: and each quantitative region is internally provided with an auxiliary discharging assembly, and the auxiliary discharging assemblies are used for ejecting materials in the quantitative region when the quantitative region is communicated with the discharge hole.

8. The automatic distributing device of claim 7, wherein the auxiliary discharging assembly comprises:

the gravity top plate is arranged in the quantitative region in a sliding manner, and divides the quantitative region into two independent regions which are distributed up and down when the quantitative region is communicated with the feed inlet;

the telescopic connecting rod is connected between the gravity top plate and the rotating shaft.