KR200235606Y1 - Method for measuring head of fluid for thermostat - Google Patents

Abstract

A new head measurement method using a temperature control means that can control the water temperature using a heater and a freezer, and an opening measurement means that can measure the opening degree of the thermostat using a buoyancy plate moving in proportion to the opening and closing degree of the thermostat. By providing an easy measurement of the temperature and the head when the thermostat is fully opened, it is also possible to measure the opening degree of the thermostat step by step with the change of temperature. It is intended to be efficient.

Description

Thermostat head measuring method for automobiles {Method for measuring head of fluid for thermostat}

The present invention relates to a method for measuring the head of a thermostat for an automobile, and in particular, by providing a new head measuring method using a temperature control means for adjusting the water temperature and an opening degree measuring means for measuring the valve opening degree of the thermostat. In this regard, the present invention relates to a thermostat head measurement method for automobiles, which enables the head of the thermostat head to be more efficiently tested, such as the temperature and head point at which the thermostat is fully opened.

In general, the thermostat used for the cooling device of the automobile engine is installed between the engine and the radiator, and automatically controls the flow rate to the radiator by opening and closing automatically according to the coolant temperature change, thereby maintaining the proper temperature of the coolant.

The thermostat is to be opened when the temperature of the coolant is usually raised to 80 ℃, and the opening and closing must be done at the set temperature to prevent the engine from overheating and overcooling and to keep the engine temperature constant so that the engine performance can be maximized. do.

The test to measure the opening and closing performance of the thermostat is called a head measurement test, the thermostat is placed in a bowl containing water and the temperature is increased by using a gas burner to measure the temperature at which the thermostat is opened and fully opened.

At this time, if the open temperature is out of the specified value, replace it.

However, in the conventional test method, the operator checks the time when the thermostat is opened by the naked eye, and the temperature is measured by inserting the thermometer into the bowl and reading the scale of the thermometer directly. This was inaccurate, especially when the thermostat was fully opened, there was no measurable disadvantage.

Therefore, the present invention has been devised in view of such a point, and the degree of opening of the thermostat using a temperature control means capable of adjusting the water temperature using a heater and a refrigerator and a buoyancy plate moving in proportion to the opening and closing degree of the thermostat. By providing a new head measuring method using the opening measuring means that can measure the temperature, it is not only easy to measure the temperature and head of the point when the thermostat is fully opened, but also the degree of opening of the thermostat according to the temperature change step by step. The purpose of the measurement is to make the measurement test of the thermostat's head more accurate and efficient.

1 is a flow chart for a thermostat head measurement method according to the present invention

2a, 2b is a schematic diagram of a thermostat head measuring device according to the present invention

<Explanation of symbols for main parts of drawing>

10: thermostat 20: fixing means

30: buoyancy plate 40: water tank

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The present invention is to install a thermostat so that at least two-thirds of the water in the tank containing a constant amount of cooling water, and to install a buoyancy plate to contact the bottom capsule of the thermostat in the state of always floating above the cooling water, By circulating the coolant inside the pump through a separate coolant line and controlling the coolant temperature at this time with the heater and the cooler, the capsule of the thermostat is pushed down according to the coolant temperature and the buoyancy plate is pushed to position the buoyancy plate. It is characterized by a method of measuring the opening and closing degree of the thermostat by reading the ancestor scale.

In particular, the thermostat is characterized in that it is fixed using a variable support that can be narrowed or opened in and out while receiving the elasticity of the spring.

In addition, the buoyancy plate is formed through a plurality of holes characterized in that the flow of the cooling water can be made freely with the buoyancy plate between.

In addition, by installing the valve means and the sensor means on the coolant line through the coolant is characterized in that the temperature of the coolant can be adjusted and measured step by step as necessary.

This will be described in more detail as follows.

2A and 2B are schematic views showing an embodiment of an apparatus for measuring a thermostat head according to the present invention.

First, the cooling water of a certain capacity is filled in the transparent water tank 40 which has a predetermined volume, and the cooling water line which pipes the side wall side of the water tank 40 as an inlet, and the bottom side as an outlet is piped.

At this time, a pump, which is a driving means, a heater, which is a heating means, and a refrigerator, which is a cooling means, are respectively installed on the cooling water line, and a temperature sensor capable of measuring the temperature of the cooling water is installed near the inlet of the water tank 40.

In particular, the coolant line is divided into a main line where a pump and a heater are installed and an auxiliary line where a refrigerator is separately installed, and a regulator valve is installed between the main line and the auxiliary line to selectively control the flow of the coolant as necessary. Do it.

The buoyancy plate 30 which is always floatable in the water tank 40 is installed so that the bottom capsule of the thermostat 10 installed thereon can be contacted, and the buoyancy plate 30 has a plurality of holes. The cooling water circulated from the upper inlet can be filled in the tank regardless of the buoyancy plate.

A scale is formed on one side wall of the water tank 40 so that the movement of the buoyancy plate 30 can be read.

When the preliminary work for the head measurement test is completed, the thermostat 10 is installed in the water tank 40. In this case, the thermostat 10 may be easily installed by using the variable support 20 installed at the upper end of the water tank 40. .

That is, by pushing both clamps holding the flange of the thermostat 10 outward and sandwiching the flange of the thermostat 10 therebetween, the thermostat 10 can be firmly supported by the elasticity of the spring. .

This variable support 20 has the advantage that can be applied widely regardless of the size of the thermostat (10).

The thermostat 10 is installed in this way is about 2/3 of the body is immersed in the cooling water filled in the water tank 40, the capsule of the bottom is in contact with the upper surface of the buoyancy plate (30).

When all preparations for the head test are completed, the pump, heater, etc. are operated to perform the head test of the thermostat.

Figure 1 shows the flow of the thermostat head measurement method according to the present invention.

First, read the scale value before opening the initial thermostat and set the desired temperature value.

Turn on the power to start the pump, heater and freezer.

At this time, the coolant in the tank continues to circulate through the coolant line, the current temperature of the coolant is detected from time to time by the temperature sensor, and the temperature of the coolant is adjusted according to the opening and closing state of the regulator valve until the set temperature is reached.

When the desired temperature value is reached, the scale value of the position where the buoyancy plate is pushed down is read to obtain a head value according to temperature.

Thus, in the head measurement method according to the present invention, the set temperature can be widely adjusted to various temperature values desired by the operator through the control of a heater, a freezer, a regulator valve, etc., so that not only when the thermostat is opened but also fully opened can be measured accurately. In addition, the measured value at this time is not checked by the naked eye, but the reading of the moving distance of the buoyancy plate moving up and down accurately in proportion to the opening degree of the thermostat is read as a scale value, so the opening degree of the thermostat according to the set temperature is accurately measured. It can be measured.

As described above, the present invention provides a head measurement method that can freely control the temperature of the coolant and read the thermostat opening degree as a scale value, thereby accurately measuring the opening and closing performance of the thermostat. There is an advantage that can be more efficient.

Claims (4)

Install a thermostat so that at least two-thirds of it is submerged in a tank containing a constant volume of coolant, and install a buoyancy plate to abut the capsule on the bottom of the thermostat while always floating above the coolant. By circulating the pump through a separate coolant line and controlling the coolant temperature at this time with the heater and the cooler, the capsule of the thermostat is pushed down according to the coolant temperature and the buoyancy plate is pushed. Thermostat head measurement method for cars, characterized in that for measuring the opening and closing degree of the thermostat. The method of claim 1, wherein the thermostat is fixed by using a variable support that can be narrowed or opened in and out while receiving the spring elasticity. The method of claim 1, wherein the buoyancy plate is formed through a plurality of holes through which the buoyancy plate interposed so that the flow of cooling water can be freely made. The method of claim 1, wherein a valve means and a sensor means are provided on the coolant line through which the coolant passes, and the temperature of the coolant can be adjusted and measured step by step as necessary.