SU647117A1 - Concrete mix preparing apparatus - Google Patents

Description

The purpose of the device is to improve the quality of the concrete mix. This goal is achieved by providing a device for preparing a concrete mixture with an additional dispenser and a bunker of the liquid component, a subtraction circuit, a computing unit, temperature meters of the components installed at the outlet of all bunkers, and mounted in the additional bunker liquid component. and in one of the bins of the solid components, and the block preheating cooling in one of the bins of the solid components is connected to the output of the temperature controller, the input of which is Connected to the temperature gauge of the solid component of one of the bins, the temperature gauges of the solid and liquid components of the remaining bins are connected to one of the corresponding inputs of the computing unit, the first and second outputs of the dosing control unit are connected to other relevant inputs of the computing unit, the third output of the dosing control unit is connected to one of the inputs of the computing unit and to one of the inputs of the subtraction circuit, the output of which is connected to the dispenser of the liquid component, the other input of Call duration meter unit coupled fc temperytury mixture tablishment of a mixer, and the computing unit output is connected to the other input of the subtractor and to the additional Components are liquid dispenser. The device for 1TE # Shtov1 concrete mixture is shown in FIG. 1 and 2. , The device contains a mixer 1, dispensers, additional doses of ator 2., bunkers, additional bunker 3j, temperature controller .4, mixture temperature meter 5, heating-cooling unit 6 in the first solid component bunker, heating-cooling unit 7 in the additional bunker liquid component, meters 8-8, + component temperature, dosing control glint 9, subtraction circuit 10, computing unit 11. The device operates in the following way. Before each cycle of preparation of the mixture (during the mixing of the previous mixture), the dosing control unit 9 generates the dose settings for each component and supplies them to the control of the input of the dosing units 2 and simultaneously to the computer unit 11. The temperature indicators of the components continuously measure the temperature of the components at the outlets of the bunkers (i.e., that part of the components, which directly falls into the next batch) and feed them. values in the computational lock. The temperature meter 5 measures the temperature of the finished mixture discharged at this time from the mixer (the temperature of the previous batch), and also supplies its value to the input of the computing unit. The high-speed computing unit, to implement the algorithm, finds the dose of the heated (cooled) component to the additional dispenser 2 and delivers it to its control input. At the same time, subtraction circuit 10 subtracts the calculated value from the setpoint of the dose of the n-component and delivers the resulting difference to the control input of the dispenser 2. In this case, the sum of the doses of the p-component in dispensers 2 and 2 will always be equal to the dose of this component formed by the dosing control unit. Then mixing complex works in a known sequence. All dispensers measure the doses of the components, discharge the components into the mixer, and the latter mixes the components. The prepared mixture has a predetermined temperature. To extend the temperature control range of the mixture, the heating-cooling unit of another component, such as a solid, with the help of a temperature controller heats (cools) this component to a certain temperature, and the accuracy of temperature control of the component does not affect the temperature accuracy of the concrete mixture . J opMyjja of the Invention A device for preparing a concrete mixture with a predetermined temperature, comprising a mixer, dispensers and bins according to the number of solid components, a dispenser and a liquid component bin, a mixture temperature meter, a temperature controller and a batch control unit connected to the dispensers of solid components characterized by that, in order to improve the quality of the concrete mixture, it is equipped with an additional dispenser and a liquid component bin, a subtraction circuit, a computing unit, temperature meters Comp installed at the outlet of all bunkers, with components preheating-cooling units installed in an additional tank of the liquid component and in one of the reservoirs of the backward components, the preheating-cooling unit in one of the bins of the solid components connected to the output of the temperature controller, whose input is connected to the temperature gauge of the solid component of one of the bins; the temperature gauges of the solid and liquid components of the other bins are connected to one of the corresponding inputs of the computational unit, the first and second output of the dosing control unit are connected to other corresponding inputs of the computing unit; the third output of the metering control unit is connected to one of the inputs of the computing unit and to one of the inputs of the subtraction circuit, the output of which is connected to the dispenser of the liquid component, the other input of the computing unit is connected to the mixture temperature meter installed under the mixer, and the output of the computing unit is connected

to another input of the subtraction circuit and to the additional dispenser of the liquid K6M component.

Sources of information taken into account in ri expertise

1.Technical report of the Institute

Organogenostroy on the topic 0.01-253Л Research, development and development of effective systems and reversible installations for controlling the temperature of the concrete mix in concrete plants and the concrete laid in the construction in relation to the conditions of a sharply continental climate. Section 1, Systems and reversible installations pl controlling the temperature of the concrete mix in concrete plants, 1970, apx.WB 102382.

2, USSR Author's Certificate 346693, cl. GOlG 23/18, 1970.

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