CS248232B1 - Tempering chamber for particularly low temperatures - Google Patents

Abstract

The essence of the solution is that the dosing valve is located in the tempering space and the control piston of the valve extends inside the tempering space.

Description

The present invention relates to a particularly low temperature tempering chamber and a low-liquid liquid metering valve. In the hitherto known tempering chambers for achieving very low temperatures, modified electromagnetic valves for pneumatic distribution are used to dispense low-setting liquids into the tempering spaces, located outside the tempered space. Their treatment consists in replacing the sealing ring material and adjusting the valve seat edge.

A disadvantage of said treated solenoid valves is their short operating time due to the loss of elasticity of the seal ring and the core core to the solenoid coil due to the overflow of the low solidification fluid through the valve.

A further disadvantage here is that the valve cannot be placed directly in the tempering space, which in turn causes problems in maintaining the temperature within the selected tolerance zone due to the evaporation of the remainder of the low-melting liquid present in the outlet channel after the valve has been closed.

The above-mentioned drawbacks are alleviated by the particularly low temperature theimulation chamber, which is that the metering valve is located in the tempering space. 0The valve valve extends beyond the tempering space. It is also within the scope of the present invention that the closure cone actuator is provided with a sealing cone against which a sealing seat is formed in the valve body. The control piston is equipped with a compression spring outside the tempering space.

The tempering chamber of the invention achieves a precise maintenance of the selected temperature by placing the metering valve in the tempering space in the discharge channel after closing the inlet channel, leaving a small amount of low-solidification liquid dispensed. The valve achieves a comfortable closing of the inlet duct and a comfortable sealing of the tempering space from the outside.

In the accompanying drawing, an exemplary portion of a tempering chamber with a metering valve is shown in cross section. In the tempering space 12 of the tempering chamber 13, the body 1 of the dosing valve 15 is screwed tightly. In the body 1 there is a through hole 16 in which a sealing seat 2 is formed and a sealing seat 3 is formed from the wall of the tempering chamber 13. a cone 4 provided with a control piston 5 extending over the wall of the tempering chamber 13 outside the tempering space 12. A sealing cone 6 is formed on the control piston 5 opposite the sealing seat 3 and a compression spring 7 is mounted on the projecting part of the control rod 5. 16 is closed by a seal 11 and a screw 10. An inlet duct 9 opens into the opening 16 in front of the sealing seat 2. An outlet duct 8 is connected to the through-hole 16 behind the closing seat 2. Under the outlet duct 8 an evaporating dish 14 is placed in the tempering space 12.

When dispensing the low-melting liquid into the tempering space 12 of the tempering chamber 12, the closure cone 4 is released by pushing the actuating piston 5 with an electromagnet (not shown in FIG. 4, thereby connecting the inlet duct 9 to the outlet duct 8 and starting a low-liquid liquid, e.g. At the same time, the sealing cone 6 abuts against the sealing seat 3, thereby sealing the passageway 16 and thus preventing the leakage of the low-melting liquid from outside the tempering space 12. After dispensing the required amount of low-melting liquid into the tempering space 12, respectively. upon reaching the desired temperature at the control rod 5, the electromagnet is actuated and the control piston 5 returns to the starting position by means of the compression spring 7, in which the closing cone 4 abuts the sealing seat 2, thereby interrupting the supply of the low-solidification liquid. Since the outflow channel 8 is very short, its discharge to the evaporation tray 14 is terminated almost simultaneously with the interruption of the low-solidification liquid supply.

The tempering chamber together with the metering valve can be used wherever a low-solidification liquid is required to achieve very low temperatures.

Claims (2)

An especially low temperature tempering chamber into which a low-setting liquid is dispensed by a valve, characterized in that the dispensing valve is located in the tempering space (12), the valve control piston (5) extending beyond the tempering space (12). Tempering chamber for particularly low temperature according to claim 1, characterized in that the control piston (5) of the closing cone (4) is provided with a sealing cone (6), against which a sealing seat (3) is formed in the valve body (1), wherein the control piston (5) is provided outside the tempering space (12) with a compression spring (7).