RU229066U1 - Device for calculating the area of permissible states of the system of repair and restoration organs according to the criterion of production capacities - Google Patents

Abstract

The utility model relates to computing technology. The technical result consists in providing the ability to determine the current state of the system of repair and restoration organs, based on the quantitative value of production capacities. The device contains a control unit, a power-raising unit, a functional damage determination unit, a subtraction unit, and a unit for determining the area of acceptable states. 1 fig.

Description

The utility model relates to computing technology and can be used to calculate the area of acceptable states of the system of repair and restoration bodies based on the criterion of production capacities.

The applicant is not aware of any analogs or prototypes of the device that have a similar intended purpose.

The purpose of the utility model is to create a device that allows solving problems of determining the set of conditions that ensure the production capacity of repair and restoration organs, based on the number of locally damaged repair and restoration organs as a result of abnormal impact.

The presented objective is achieved by the fact that the device for calculating the area of permissible states of the system of repair and restoration organs according to the criterion of production capacities has: a control unit, a power-raising unit, a functional damage determination unit, a subtraction unit, and a determination unit of the area of permissible states.

In the proposed device, the interconnection between the blocks is organized as follows: input P (the device input that ensures the device is started and all device blocks are reset) of the device is connected to the control input of control block 1, input (the input of the device to which the values of the production capacity function are fed) of the device is connected to the first information input of block 2 for raising to a power and to the second information input of block 5 for determining the region of acceptable states, the input (the input of the device to which the standard value of production capacities for the considered repair and restoration bodies is fed) of the device is connected to the third information input of block 5 for determining the region of permissible states, input δ (the input of the device to which the values of the decrease in production capacities as a result of the non-standard impact are fed) of the device is connected to the first information input of block 3 for determining functional damage and to the first information input of subtraction block 4, the first output of control block 1 is connected to the control input of block 2 for raising to a power, the second output of control block 1 is connected to the control input of block 3 for determining functional damage, the third output of control block 1 is connected to the control input of subtraction block 4, the fourth output of control block 1 is connected to the control input of block 5 for determining the region of permissible states, the output of block 2 for raising to a power is connected to the first information input of block 5 for determining the region of permissible states, the output of block 3 for determining functional damage is connected to the second information input of subtraction block 4, the output of division block 4 is connected to the fourth information input of block 5 for determining the area of acceptable states, the output of block 5 for determining acceptable states is connected to the output device (device displaying information).

The device for calculating the area of permissible states of the system of repair and restoration organs according to the criterion of production capacities implements the following theoretical provisions.

For objective forecasting of production capacities of the system of repair and restoration bodies for subsequent decision-making. In the case when the function of production capacities for the considered repair and restoration bodies involved in restoration planning is determined, and the value of the reduction in production capacities is variable depending on the intensity of external impacts, it is proposed to determine the area of permissible states of the system of repair and restoration bodies according to the criterion of production capacities, in order to exclude the system from reaching a critical state and subsequent destruction.

The number of products from a batch subject to the next diagnostics Q _∂ can be determined by the dependence

Where the range of acceptable states of the repair and restoration system;

- function of production capacities;

- the standard value of production capacities for the repair and restoration bodies under consideration;

δ - values of reduction in production capacity as a result of abnormal impact.

The device implements the indicated theoretical positions and is shown in Fig. 1.

The device operates in a specific sequence, determined by the clock pulses of control unit 1.

The initial installation of the device blocks occurs when a pulse is applied to input P , as a result of which control block 1 is started, the device blocks are reset, and the characteristic values are applied to the information inputs of the device.

The first clock pulse from the first output of control block 1 arrives at the control input of subtraction block 2 and initiates its operation. As a result, the value is formed at the output of exponentiation block 2 ^-1 .

The second clock pulse from the second output of control unit 1 is sent to the control input of functional damage determination unit 3 and initiates its operation. As a result, the value is sent to the second information input of subtraction unit 4. .

The third clock pulse from the fourth output of control unit 1 arrives at the control input of block 5 for determining the area of permissible states and initiates its operation. As a result, the value arrives at the first information input of block 5 for determining the area of permissible states ^-1 , the value is sent to the fourth information input of block 5 for determining the area of acceptable states at the output of block 5 for determining the region of acceptable states, the value is generated

Therefore, the value formed in block 6 is is an objective value of the state of the system of repair and restoration organs as a result of abnormal external influence.

Thus, the use of the device will allow determining the current state of the considered system of repair and restoration bodies, based on the quantitative value of production capacities, and also objectively predicting the redistribution of the load among the elements of the system that have not been subjected to abnormal impact.

Claims (1)

A device for calculating the region of permissible states of a system of repair and restoration organs according to the criterion of production capacities, consisting of a control unit, a power-raising unit, a functional damage determination unit, a subtraction unit and a unit for determining the region of permissible states, characterized in that the device input - П , which ensures the start of the device and zeroing of all units of the device, is connected to the control input of control unit 1; the device input - ϕ , to which the values of the production capacity function are fed, is connected to the first information input of power-raising unit 2 and to the second information input of unit 5 for determining the region of permissible states; the device input - ϕ ₀ , to which the standard values of production capacities for the repair and restoration organs under consideration are fed, is connected to the third information input of unit 5 for determining the region of permissible states; the input of the device – δ, to which the values of the reduction in production capacity as a result of the abnormal impact are fed, is connected to the first information input of the functional damage determination unit 3 and to the first information input of the subtraction unit 4; the first output of the control unit 1 is connected to the control input of the raising to a power unit 2; the second output of the control unit 1 is connected to the control input of the functional damage determination unit 3; the third output of the control unit 1 is connected to the control input of the subtraction unit 4; the fourth output of the control unit 1 is connected to the control input of the unit 5 for determining the region of permissible states; the output of the raising to a power unit 2 is connected to the first information input of the unit 5 for determining the region of permissible states; the output of the functional damage determination unit 3 is connected to the second information input of the subtraction unit 4; the output of the division unit 4 is connected to the fourth information input of the unit 5 for determining the region of permissible states; the output of the unit 5 for determining permissible states is connected to the device displaying the information.