RU118431U1 - ELECTRON SCALES FOR WEIGHING ANIMALS - Google Patents

Abstract

1. Electronic scales for weighing animals, containing a load receptor, strain gauges, a load lifting device in the form of a platform cage formed of vertical posts, horizontal beams and a bottom, equipped with input and output locking gates and a vibration compensation device and installed with the ability to support the load receptor a device through strain gauges, and a weighing terminal connected with strain gauges in the form of an electronic unit equipped with an indicator and a control panel, characterized in that the load receptor is equipped with four angular vertical posts, while the strain gauges are located on the angular vertical posts of the platform cage with the possibility of support on the corner vertical racks of the load receptor in their upper zone. ! 2. The balance according to claim 1, characterized in that the strain gauges are located on the angular vertical posts of the platform cage with the possibility of supporting on the end surfaces of the angular vertical posts of the load receptor. ! 3. Balance according to any one of claims 1 or 2, characterized in that the load receptor is made in the form of a support frame. ! 4. Scales according to claim 3, characterized in that the support frame on the side of the input and output gates is equipped with low-profile non-removable ramps. ! 5. A balance according to any one of claims 3 or 4, characterized in that the support frame is provided with transport wheels. ! 6. A balance according to any one of claims 3 or 4, characterized in that the support frame is equipped with height-adjustable stops located at least in the area of the corner vertical posts.

Description

The utility model relates to weighing devices and can be used in agriculture for mass weighing of cattle and small cattle in cattle-feeding complexes and meat processing plants, as well as in the field, in particular, to control the weight gain of animals.

Most of the well-known and widely used in various countries electronic scales for weighing animals, in particular farm animals, are based on the use of strain gauges in their design. In general, such electronic scales comprise a load receptor (for example, a support platform, a support frame, at least a pair of support beams) equipped with strain gauge sensors, a load lifting device in the form of a platform cage mounted to support the load receptor through strain gauge sensors and equipped with input and output locking gates, and a weight terminal connected to strain gauges in the form of an electronic unit, which is usually mounted on the cell wall from the outside [1-3]. Given the location of the load cells (at a small height above the ground, floor, road surface, etc.) and the operating conditions and / or transportation of electronic scales, especially in the field (a large number of pollutants, high humidity, etc.) , such designs cannot provide a high level of reliability of electronic scales and constantly high accuracy of measuring the mass of the animal. At the same time, the installation sites of the load cells and the load cells themselves require constant cleaning.

The analysis of the prior art showed that, according to the set of essential features, as a prototype for the inventive electronic scales for weighing animals, a known animal weighing device can be adopted, comprising a load receiving device in the form of a load platform, on which strain gauges are installed, a load lifting device in the form of a platform cell formed of vertical posts, horizontal rungs and the bottom, equipped with inlet and outlet shut-off gates and means of compensation to frigged and mounted for support on the weighing device via strain gauges and load cells associated with the weighing terminal in the form of an electronic unit [4]. Despite the fact that these electronic scales are made in a mobile version, in which the support platform is mounted on transport wheels, there are still questions regarding the protection of load cells from pollution, as the floor of the platform cage is located above the load cells and various “contaminants” can drain from it to the load cells. This, as mentioned above, negatively affects the reliability of the balance and the accuracy of weighing.

Thus, the objective of the utility model is to develop the design of electronic scales for weighing animals, in particular farm animals, which would have higher reliability, as well as provide more accurate weighing under any operating conditions and without additional cleaning service, especially in the area placement of strain gauges.

The problem is solved by the claimed electronic scales for weighing animals, containing a load receiving device on which strain gauges are installed, a load-lifting device in the form of a platform cage, formed of vertical struts, horizontal rungs and a bottom, equipped with input and output locking gates and means for compensating vibrations and installed with the possibility of reliance on the load receptor through strain gauges, and associated with strain gauges weight term al as an electronic unit provided with an indicator and control panel. The problem is solved due to the fact that the load receiving device is equipped with four angular vertical racks, while the strain gauges are located on the angular vertical racks of the platform cage with the possibility of relying on the angular vertical racks of the load receiving device in their upper zone.

In preferred forms of implementing the inventive electronic scales for weighing animals to simplify the overall design, the strain gauges are located on the angular vertical racks of the cage platform with the possibility of support on the end surfaces of the angular vertical racks of the load receptor.

In preferred forms of implementation of the inventive electronic scales for weighing animals to reduce the consumption of material, thereby reducing the weight of the design of the balance as a whole and their cost, the load-receiving device can be made in the form of a support frame.

For the convenience of lifting the animal into the cage, the platform and the descent from it, the supporting frame from the input and output gates is preferably equipped with low-profile fixed ramps, and for the convenience of moving electronic scales or their transportation, the supporting frame is equipped with transport wheels.

To install the inventive electronic scales and stabilize their position during operation, the support frame is preferably equipped with height-adjustable stops located at least in the area of angular vertical posts.

The inventive electronic scales for weighing animals can be used for static weighing and commercial accounting of the mass of animals in agricultural enterprises and the processing complex and allow you to effectively control the weight gain of animals.

The above and other advantages and advantages of the claimed electronic scales for weighing animals will be discussed in more detail below on one of the possible preferred, but not limiting examples of implementation with reference to the positions of the figures of the drawings, which are schematically depicted:

Figure 1 - General view of the inventive electronic scales for weighing animals;

Figure 2 is a General view of the cell platform from the electronic scales;

Figure 3 is a fragment A of Figure 2 on an enlarged scale.

Figure 1 presents a schematic representation of a General view of the inventive electronic scales for weighing animals in one of the possible forms of implementation. The balance contains a load-receiving device made in the form of a support frame 1 equipped with four angular vertical posts 2. The balance also contains a load-lifting device in the form of a platform cage 3, equipped with an input 4 and an output 5 locking gates and means for compensating for vibrations (not shown in the drawings specialists in this field of technology of possible technical solutions of such funds). The cage platform 3 is installed by the possibility of support on the support frame 1 through strain gauges 6, which are installed on the vertical racks 7 of the cage platform 3. The balance also contains a weight terminal 8, made in the form of an electronic unit, equipped with an indicator and a control panel (separate positions in the drawings not marked). Strain gauges 6 are connected by cables laid in the protective tubes 9 with the weight terminal 8. In the implementation form shown in the drawings, the supporting frame of the claimed electronic scales from the input 4 and output 5 gates is equipped with low-profile fixed ramps 10, transport wheels 11 and height-adjustable stops 12 located in the area of angular vertical posts 2 of the supporting frame 1.

Figure 2 presents a schematic representation of a General view of the cell platform 3 from the composition of the inventive electronic scales, and Figure 3 is a fragment A of figure 2 on an enlarged scale. The platform cage 3 in the implementation form shown in the drawings is formed of vertical posts 7, 13 and horizontal bars 14, 15, 16, 17 and provided with a bottom 18. Brackets 19 are provided on the corner vertical posts 7 (in the upper part thereof), with which formed platform 20 for mounting strain gauges 6.

The inventive electronic scales for weighing animals, in particular farm animals (cattle and small cattle), work as follows.

The scales can be moved to the platform (horizontal, even) for weighing animals using the transport wheels 11. As the transport wheels 11 can be used rubber wheels with a diameter of, for example, 200 mm, designed for loads of 250 kg each, mounted on a support frame 1 weights. In the transport position, the balance can be transported on a flat road surface (for example, between farms within the complex). To transfer the scales into weighing mode, the height-adjustable stops 12 are unscrewed until they come in contact with the road surface and the horizontal level of the scales is adjusted according to the built-in level.

The entrance gate 4 of the platform 3 is opened and the animal to be weighed into the platform 3 is placed along the fixed low-profile ramp 10, locking the entrance gate 4 behind it. The side rails and gates 4 and 5 of the platform 3 are formed from vertical struts 7, 13 and horizontal bars 14, 15, 16, 17, made of a reinforced profile, which exclude the possibility of unauthorized movement of animals outside the scales. Under the weight of the animal located in the cage-platform 3, it "falls" down, redistributing the load on the support areas of the cage-platform 3 on the support frame 1 (for example, on the ends of the angular vertical posts 2 of the support frame 1), and the strain gauges 6 are converted into an electrical signal transmitted through cables laid in the protective tubes 9 to the weight terminal 8, mechanical deformation of the structure, depending on the weight (mass) of the animal. The weight terminal provides for the installation of a battery with uninterrupted operation (for example, up to 72 hours). To ensure a safe operating mode and convenient control of the data displayed on the display, the weight terminal 8 is usually fixed on the wall of the platform cage 3 (in the upper zone from the outside).

In the inventive electronic scales can be used any suitable, known to specialists in this field strain gauges 6. Traditional and well-known specialists in this field is also the weighing process ("take" the readings of strain gauges and their processing). However, due to the fact that the strain gauges 6 are located in the upper part of the angular vertical struts 7 of the platform cage 3, any possibility of their clogging during operation is excluded and, as a result, the operational characteristics of both the strain gauge sensors 6 and the balance in general .

Upon completion of the weighing process, the exit gate 5 is opened and the animal is taken out of the platform cage 5, locking the entrance gate 5. The weighing process of the next animal is carried out as described above.

Information sources.

1. Patent RU No. 55975 U1, publ. 08/27/2006.

2. International application PCT / GB80 / 00177, publ. 04/30/1981, publication number WO 81/01196.

3. A.S. SU No. 1351550 A1, publ. 11/15/1987.

4. Website of Brestmash OJSC. Products Mobile mobile weight measuring complex "Veles". [Electronic resource] - April 28, 2011. - Access mode:.

Claims (6)

1. Electronic scales for weighing animals, containing a load receptor, strain gauges, a load-lifting device in the form of a platform cage, formed of vertical racks, horizontal rungs and a bottom, equipped with an input and output locking gates and means for compensating for vibrations and mounted with the possibility of support on the load receiving device through strain gauge sensors, and a weight terminal connected to strain gauge sensors in the form of an electronic unit equipped with an indicator and control panel phenomenon wherein the weighing apparatus is provided with four corner uprights, wherein the strain gauges are located on the corner uprights cells platform to bear against the corner uprights of the load device in their upper zone. 2. The balance according to claim 1, characterized in that the strain gauges are located on the angular vertical racks of the platform cage with the possibility of support on the end surfaces of the angular vertical racks of the load-receiving device. 3. Scales according to any one of claims 1 or 2, characterized in that the load receiving device is made in the form of a support frame. 4. The balance according to claim 3, characterized in that the support frame from the input and output gates is equipped with low-profile fixed ramps. 5. Scales according to any one of paragraphs.3 or 4, characterized in that the supporting frame is equipped with conveyor wheels. 6. Scales according to any one of claims 3 or 4, characterized in that the support frame is equipped with height-adjustable stops located at least in the area of angular vertical posts.