RU2561825C1 - Module of multicomponent dispensing - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: module of multicomponent dispensing is proposed, comprising a frame with the hoppers for components mounted on it, communicating through the feeding mechanisms with drives with the trays attached to the weight sensors mounted on the common horizontal shaft with the ability of their rotation mutual with the trays, and the unloading device, in which the feeding mechanisms are provided with pneumatic control valves mounted on the end of the feeding mechanisms, the unloading device is used as a chain scraper conveyor, which housing and scrapers have a semi-circular shape, and the shaft is used as the rotary crankshaft mounted with the ability of rotation by 180 degrees.

EFFECT: improved accuracy and quality of dispensing the products.

2 cl, 3 dwg

Description

The invention relates to devices for multicomponent dosing of bulk materials and can be used in agriculture in the production of animal feed, food, pharmaceutical, chemical, construction industry.

A device for dispensing piece products is known (USSR author's certificate 1500851, IPC ⁴ G01G 13/00, published 08/15/1989), containing a frame on which a hopper is mounted, associated feeders (feed mechanisms) with a drive, each of which is cantilevered a tray with a flap for unloading and separate drives located under the trays of each feeder. Under the drives are weighing tanks connected to the frame by means of cantilever weight sensors, under which a conveyor is located, which delivers the selected doses to the outlet pipe. The device is controlled by the control unit.

The disadvantage of this device is its unsuitability for microdosing fine powders due to the design of the damper for unloading the tray. As a result, the powder already starts to fall out of the tray when loading, which significantly reduces the accuracy of its dispensing.

A multi-component dosing module is known (RF patent No. 2168706, IPC ⁷ G01F 13/00, G01G 13/00, published June 10, 2001) containing a frame with loading bunkers mounted on it and associated feeding mechanisms, for example, augers with drives, a control unit , weight sensors and trays, each tray is fixed to its corresponding weight sensor, all weight sensors are fixed on a common horizontal axis with the possibility of rotation with trays, with several screws connected to each tray, a device for unloading a suspended product, such as a screw.

The disadvantages of the module are the presence of spontaneous expiration of the product under the influence of air flow or vibration of the module, the possibility of pouring it over the edge of the weighing tray and incomplete unloading of suspended material (material residues on the screw), as a result of which it is possible to mix the remaining product from the previous batch with the subsequent one.

The task of the invention is to improve the accuracy and quality of dosing of the components of the product module.

The problem is solved due to the fact that in the multicomponent batching module, which contains a frame with bunkers for components installed on it, communicating by means of feed mechanisms with drives with trays mounted on weight sensors mounted on a common horizontal shaft with the possibility of sharing them with rotation trays, and the unloading device, the feeding mechanisms are equipped with pneumatic controlled dampers mounted on the end of the feeding mechanisms, a chain scraper is used as the unloading device Marketing conveyor housing and which scrapers are semicircular shape and used as a rotary shaft crankshaft rotatably by 180 degrees, and a module tray may be made with larger walls.

The proposed technical solution is illustrated by drawings, which depict:

in FIG. 1 - module multi-component dosing, General view 3/4,

in FIG. 2 - module multi-component dosing, side view,

in FIG. 3 - multi-component dosing module, front view.

The multicomponent dosing module (Fig. 1) contains a frame 1 with bunkers 2 mounted on it for components, associated feeding mechanisms 3 with actuators 4, communicating with trays 5 made with enlarged walls, each of which is mounted on a weight sensor 6 (Fig. . 2), which, in turn, are mounted on a common horizontal rotary crankshaft 7 (Fig. 3) mounted on the frame 1 with the possibility of their joint rotation with the trays 5, and the unloading device 8. The shaft 7 is rotatable 180 degrees. At the end of the feed mechanisms 3 (Fig. 2), pneumatic controlled shutters 9 are installed. As a discharge device 8 (Figs. 1, 3), a chain scraper conveyor is used, the casing 10 and the scrapers 11 of which have a semicircular shape.

The module works as follows.

The control unit (not shown in the drawings) sets the weight value of each dosed component. With the help of the drive 4, the feeding mechanisms 3 are brought into operation, through which one component is fed from each hopper 2 into the bins 5 simultaneously. The pneumatic shutters 9 installed on the end of the feeders 3 open and close immediately after the feeders 3 are finished. As soon as the weight of each component reaches the set value, the control unit will take readings from the weight sensors 6 and give a command to stop the feeders 3 After dosing all the components, the shaft 7 is rotated 180 degrees for unloading. The trays 5 are overturned together with the weight sensors 6, and the components are unloaded into the unloading device 8, where with the help of semicircular scrapers 11 the whole product is moved to the discharge window of the module. The dosing process is complete.

The installation of pneumatically controlled dampers at the end of the feed mechanisms, which cover the discharge openings of the feed mechanisms in the inoperative state of the module, prevented spontaneous outflow of the product under the influence of air currents or vibration, which increased the accuracy of dosing of the product components.

The use of a rotary crankshaft installed with the ability to rotate 180 degrees, guarantees complete emptying of the weight trays, which increases the accuracy and quality of dosing of products, because there are no product residues after dosing and mixing of these residues with a subsequent batch of products.

The use of a chain scraper conveyor as an unloading device, in which the casing and scrapers have a semicircular shape, also made it possible to increase the accuracy and quality of dosing of products, since the proposed conveyor does not leave any residues at the bottom of the casing, because unlike a screw conveyor (screw) there is no gap between the scrapers and the casing of the conveyor.

The enlarged walls of the trays do not allow the product to be dosed over the edge of the tray, which helps to improve the quality of dosing of products.

Claims (2)

1. A multicomponent dosing module, comprising a frame with hoppers for components installed on it, communicating by means of feeders with drives with trays mounted on weight sensors mounted on a common horizontal shaft with the possibility of their joint with rotation trays, and an unloading device, characterized in that the feed mechanisms are equipped with pneumatic controlled dampers installed on the end of the feed mechanisms, a chain scraper conveyor, a case is used as an unloading device and the scrapers of which have a semicircular shape, and a rotary crankshaft installed with the ability to rotate 180 degrees is used as a shaft. 2. The module according to claim 1, characterized in that the trays are made with enlarged walls.

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