RU2018094C1 - Weighing/metering-out apparatus - Google Patents

Abstract

FIELD: weighing technique. SUBSTANCE: apparatus has weight receiver resting on at least three supports, weight-measuring sensor 11 located under first support 2, two-arm lever 10 the second arm of which is coupled with first support 2, counterweight 12 disposed on a free end of the first arm. Each of two supports 3 of weight receiver 1 is mounted on diaphragm 4 of respective chamber 5. Chambers 5 are in pair-wise communication with chambers 7 fiaphragms 8 of which are coupled with first arm of two-arm lever 10 situated over diaphragms 8, chambers 5 and 7 being filled with liquid. EFFECT: enhanced accuracy and reliability. 2 dwg

Description

 The invention relates to weight-metering technology and can be used in automatic lines of food, chemical, pharmacological industry and powder metallurgy.

 Known weighing device containing a load mechanism mounted on a bed with levers, a weight sensor, a secondary meter, a damper with magnetic fluid [1].

 The closest in technical essence is a device weighing electrical 1EDVU containing weighing device, sensor and secondary device [2].

 But in the known device, the dosing is carried out according to gross weight, in which the weight fraction of the forklift can reach 40% of the maximum weighing limit, which limits the dosage limits, in addition, the possibility of using the known device in automatic production lines is limited, for example, for dosing bulk materials, due to possible excess the established limits of the weight fraction of the forklift due to the installation of an unloading gate actuator and a control device for its operation.

 The aim of the invention is to expand the limits of weighing and expand the functionality of the weighing device.

 The goal is achieved in that the weighing device comprises a forklift supported by at least three supports, a load cell mounted under the first support and connected to the secondary device, a two-arm lever with a counterweight on the free end of the first shoulder and at least four cameras pairwise communicated between each of which is closed by a diaphragm and filled with liquid, and the diaphragm of one of the chambers of each pair is connected with the first shoulder of the two-shouldered lever located above it, the second shoulder of which is connected with the first support, and the remaining supports are mounted on the diaphragms of the remaining respective cameras.

 In FIG. 1 shows the proposed device, a General view; figure 2 is the same, a top view.

 The device consists of a cargo receiver 1, based, for example, on three supports, one of which is summing up - the first support 2. Each of the other two supports 3 is mounted on a diaphragm 4 that closes the corresponding chamber 5. Chambers 5, in turn, using pipelines 6 are connected in pairs with chambers 7, each closed by a diaphragm 8. All chambers 5 and 7 are filled with liquid. The diaphragms 8 are pivotally connected with an abutment 9 fixedly connected to the first shoulder of the two-shouldered lever 10. The second shoulder of the two-shouldered lever 10 is pivotally connected to the summing support 2, under which the load-measuring sensor 11 is placed. A counterweight 12 is mounted on the free end of the first shoulder of the two-shoulder lever 10, which balances weight of the receiver 1. The receiver is provided with a shutter 13 connected to the pneumatic actuator 14. The control unit of the pneumatic actuator 14 is electrically connected to the secondary device 15, which, in turn, is electrically connected to the sensor 1 1.

 The device operates as follows.

 The product is loaded into the load receptacle 1. The weight load is distributed between the support 2 and two supports 3. The components of the weight load from the supports 3 through the diaphragms 4, the liquid medium of the chambers 5, pipelines 6 and the chambers 7 are transferred to the diaphragms 8, and from them by the stop 9 through two shoulders lever 10 on the summing support 2. Thus, the entire weight load is added to the support 2. The unbalanced counterweight 12 part of the total weight load from the support 2 is transmitted to the load cell 11 and converted into an electrical signal, which is transmitted to the secondary device 15. The secondary device 15 gives a signal to the control unit of the pneumatic actuator 14, which opens the shutter 13, and the product is unloaded.

 The device has the following advantages. Mechanical summation of the weight load in one support reduces the number of load cells, which reduces the cost of manufacturing the device and creates the possibility of balancing the weight of the load by the influence of the balancing mechanism on the total support, and the weight of the forklift can be in any ratio with the measurement limits of the load cell. The balancing of the forklift extends the dosing limits by the value of the weight of the forklift, that is, expands the technological capabilities of the device. The implementation of the forklift with a mass independent of the measuring range of the load cell allows the device to be equipped with metering controls integrated in the forklift, for example, a drive mechanism for the gate of the load receptor and control of the shutter, which leads to the unification of the device, i.e. expand its functionality. The claimed device can be used in automatic lines of explosive production.

Claims (1)

 A VESODOSIS DEVICE, comprising a load receptor supported by at least three supports, and a load cell mounted under the first support and connected to the secondary device, characterized in that a two-arm lever with a counterweight on the free end of the first shoulder and at least four cameras are inserted into it pairwise interconnected, each of which is closed by a diaphragm and filled with liquid, and the diaphragm of one of the chambers of each pair is connected with the first shoulder of the two-shouldered lever located above it, the second shoulder of which The second one is connected to the first support, and the remaining supports are mounted on the diaphragms of the other respective cameras of each pair.

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