UA10591U - Refueling device - Google Patents

Abstract

A refueling device contains a tank for liquid, a flowmeter, a pump, a filtering unit, in housing of which a mixture of ion-exchange resins is located, and packets made of the layer of non-woven material and a filtering element are mounted at the inlet and outlet, the pipelines of mains of supply and discharge of cooler, a main of connecting up of the filtering unit with the pump and the tank for liquid, and a locking and adjusting equipment. It additionally contains the sensors of dissoluble oxygen and specific resistance, which are included in the main of the connecting up of the filtering unit with the pump and the tank for liquid, and the filtering unit additionally contains an absorber of oxygen, mainly, copper-bearing redoxite located downstream inlet packet, and a partition made of non-woven material, mainly, sipron mounted between the absorber of oxygen and the mixture of ion-exchange resins.

Description

Description of the invention

The useful model refers to the technique of pouring liquids and can be used, for example, for filling hydraulic systems with coolant. Such systems include liquid cooling systems of radio-electronic equipment, braking systems of various machines, systems of hydraulic drives and hydraulic transmissions, that is, systems in which the working fluid has high requirements for the degree of purity, degree of filling of working cavities, low electrical conductivity and corrosion activity.

In liquid cooling systems of radio-electronic equipment, the coolant (heat carrier) must have a high specific electrical resistance to prevent electrical breakdowns in radio-electronic equipment, as well as minimal corrosion activity and minimal ability to form deposits on the heat-transferring surfaces of liquid cooling systems of radio-electronic equipment.

The closest to the claimed useful model is the filling device given in the description of the patent

Ukraine Mo9057. 12 The known device includes a liquid container, a flow meter, a pump, and a filter unit. The filtering unit is a housing, inside which bags of non-woven material, mainly sipron, and filter elements are installed at the entrance and exit. The volume between the input and output packets is filled with a mixture of ion exchange resins. The listed elements are connected by pipelines of supply and drainage lines to the consumer, a ring line of the filter unit with a pump and a container for liquid. In addition, the device has a locking and regulating device.

The design of the described device is selected as a prototype.

The prototype and the claimed useful model have the following elements and components in common: - liquid container; - flow meter; 29 - pump; shsh - a filter block, in the body of which there is a mixture of ion-exchange resins, and at the entrance and exit there are bags made of a layer of non-woven material, mainly sypron, and a filter element; - pipelines of supply and drainage mains to the consumer; - pipelines of the main ring of the filtering unit with a pump and a container for liquid; -- 30 - locking equipment; Ge") - regulatory equipment.

But the filter unit of the described device contains only a mixture of ion exchange resins. As a result, the prototype has the following disadvantages: Ha") 1. It does not provide purification of the liquid from oxygen dissolved in it, which is corrosive-active in relation to

From structural materials of liquid cooling systems, including to heat-transferring surfaces -- radio-electronic equipment; 2. There is no control of the quality of the liquid, which can be used to judge the completion of the cleaning process and the readiness of the liquid for filling. "

The useful model is based on the task of creating a refueling device in which, by introducing 40 additional sensors and partially changing the filter unit, to ensure minimal corrosion activity of the working fluid, as well as control the quality of fluid purification.

From" The task was solved by the design of a filling device, which contains a container for liquid, a flow meter, a pump, a filter unit, in the body of which there is a mixture of ion-exchange resins, and at the entrance and exit, bags made of a layer of non-woven material and a filter element, pipelines of supply and drainage lines are installed 45 to the consumer, the pipeline of the ringing of the filter unit with a pump and a container for liquid, as well as the shut-off and - regulating equipment because it additionally contains sensors of dissolved oxygen and specific electrical resistance, av | which are included in the pipeline of the ringing of the filtering unit with a pump and a container for liquid, and the filtering unit additionally contains an oxygen absorber, preferably a copper-containing redoxite, located after the input package, and a partition made of non-woven material, preferably sipron, installed between the oxygen absorber and mixture (Te) of 20 ion exchange resins.

The presence of the following features is new in the design of the claimed device:

C - dissolved oxygen sensor; - specific electric resistance sensor; - an oxygen absorber, preferably copper-containing redoxite, is located inside the filter unit after the input package; c - a partition made of non-woven material, mainly sypron, which is installed between the oxygen absorber and the mixture of ion-exchange resins.

The drawing shows a refueling device, where:

Fig. 1 - a diagram of the device; 60 Fig. 2 - cross-sectional view of the filtering unit.

The filling device consists of a container for liquid 1, a pump 2, a ring line 3, a filter unit 4, a sensor of specific electric resistance (7) of liquid 5 and a sensor of dissolved oxygen (О5) 6, a flow meter 7, a suction line 8 of liquid from container 1, which has a shut-off valve 9, a bypass line 10 with a regulating valve 65 11, a liquid injection line 12 into the refueling object, an injection line 13 into the container 1, a distribution line 14, a liquid return line 15 from the refueling object.

The filter unit 4, the sensor of specific electrical resistance 5 and the sensor of dissolved oxygen b in the ring line Z, which is located between the liquid injection lines 12 and 13, and are connected to them by three-way valves 16 and 17. Lines 12, 14 and 15 contain couplings 18 ,19, 20, 21, which are designed to connect the filling device with the object being filled.

The container for liquid 1 is equipped with a level gauge 22, a filling nozzle 23 and a drain fitting 24.

Container 1 serves for the initial filling of liquid into the filling device and for storing the liquid already prepared for filling.

The device works in the following way. 70 The filling device can work in two modes: in the preparation mode and in the mode of filling liquid into the liquid cooling system being filled.

In the preparation mode, the liquid is pumped by pump 2 through lines 3, 12 and 13, and, having passed through the filter unit 4 and the flow meter 7, returns to container 1. The consumption of liquid in the filter unit 4 is set using the tap 11 and is monitored by the flow meter 7. In the liquid, that entered the main line /5 Loop 3, sensors 5 and 6 monitor the specific electrical resistance and the content of dissolved oxygen in the liquid, respectively. In the filter unit 4, the liquid sequentially passes through a bag of a layer of non-woven material 25 and a filter element 26, an oxygen absorber 27 and a mixture of ion exchange resins 29, separated by a non-woven material 28, a bag of a layer of non-woven material 25 and a filter element 26 with cells 3-4 times smaller than that of the input filter element.

Thus, when the liquid passes through the filter unit, oxygen is removed and it is cleaned of mechanical and ionized impurities. Upon reaching the specified oxygen content and specific electrical resistance of the liquid, controlled by sensors 5 and 6, respectively, the coolant preparation mode is completed.

When the device is operating in the refueling mode, the prepared liquid from the distribution line 14 enters the object being refueled through couplings 19 and 20. The liquid is returned to container 1 from the refueling object through coupling 21, main line 15 and flow meter 7. -

Claims (1)

The formula of the invention K-4 Kk. . . . . K-4. Filling device containing a container for liquid, a flow meter, a pump, a filter unit, in the body of which there is a mixture of ion-exchange resins, and at the entrance and exit there are bags made of a layer of non-woven material and Ф of a filter element, pipelines of supply and drain lines to the consumer, ring lines of a filter unit with a pump and a container for liquid, as well as a shut-off and regulating apparatus, which is distinguished by the fact that it additionally contains sensors of dissolved oxygen and specific electrical resistance, which are included in the main ring of a filter unit with a pump and a container for liquid, and a filter the block additionally "- contains an oxygen absorber, preferably a copper-containing redoxite, located after the input package, and a partition made of non-woven material, preferably sipron, installed between the oxygen absorber and a mixture of ion-exchange resins. " - . and? - ((c) 1 se) - 60 b5