CS239136B1 - Electric regulation cock - Google Patents

Abstract

Electric control cock for two-position fluid flow control, u whereby the rotatable closure element is actuated effects of magnetic forces field in the electromagnetic circuit gap a permanent magnet fixed to the same shaft as a closing element. In different the arrangement includes an electrical control cock preference one of the regulatory positions or manual control.

Description

(54)

Electric control valve

An electric control valve for two-position control of fluid flow, in which the rotatable closing element is controlled by applying a magnetic field force in the gap of the electromagnetic circuit to a permanent magnet mounted on the same shaft as the closing element. In another embodiment, the electric control valve includes the preference of one of the control positions, or allows automatic or manual control.

239 136

239 136

BACKGROUND OF THE INVENTION The invention relates to an electrically operated tap suitable for two-position control of fluid flow, for example for individual control of the flow of heating medium in a hot-water heating system.

The types of control valves and valves used so far can be either rotary with manual control or electric motor control, or axial with thermostatic or electric control. Each of the aforementioned taps and valves has some drawbacks in automatic control. The manual cock allows only manual flow control. The valve controlled by an electric motor allows automatic regulation according to the temperature and time program. Moreover, it has the advantage of continuous control over the whole regulation range. The disadvantage is the large size, noise, complex and costly design including electric motor, mechanical gears, limit switches and feedback transmitter. Axial valve with thermostatic control does not allow automatic regulation according to time program. It only regulates the flow of heating medium in the hot water heating system with respect to the preset temperature. Axial valve with electric control enables two-position automatic regulation according to temperature and time program. However, this valve requires a continuous power supply to remain in one of the control positions.

Most of these drawbacks are overcome by an electric control valve for two-position control of the fluid flow of the invention. It is based on the fact that a permanent magnet for electromagnetic actuation is mounted on the rotary shaft fixedly connected to the rotary closing element and housed in the valve body and in the housing. The magnet is located in the gap of the electromagnetic circuit and is thus exposed to the force effects of the electromagnetic field.

In another embodiment which prefers one of the control positions, an auxiliary controlled permanent mag2 is mounted on the rotary shaft.

239 136 net which is located in the magnetic field of at least one auxiliary control permanent magnet fixedly connected to the housing.

In another embodiment, there is a tap arrangement which also prefers one of the control positions and is additionally suitable for both automatic and manual control. In this embodiment, an auxiliary controlled permanent magnet located in the magnetic field of at least one auxiliary control permanent magnet is mounted on the rotary shaft, as in the previous case. However, the auxiliary control permanent magnet is fixed here in the head rotatable relative to the valve body.

With this arrangement, in all three cases, the necessary torque is achieved to adjust the valve closing element.

The electric control valve allows, in conjunction with a suitable regulator, the flow control of the liquid medium according to a time, temperature or time temperature program. The principle of the electric control valve according to the invention allows for a simple construction characterized by, for example, energy efficiency, improved control function (priority of one of the control positions, possibly manual control by means of a magnetic coupling). The electric control valve according to the invention, by its rotary principle, allows the liquid medium to flow through the valve with a pressure loss of about one order of magnitude less than the axial valves.

Three exemplary embodiments of the electric control valve are schematically illustrated in the accompanying drawings.

Fig. 1 shows an electric control valve intended for two-position control.

Fig. 2 shows an electric control valve for two-position control, preferably one of the control positions.

Fig. 3 shows an electric control valve for two-position control with the preference of one of the control positions allowing automatic or manual control. , _t , *

FIG. 1 shows an example of an embodiment of the electric control valve according to the invention for two-position control. In the body 1 of the tap there is a rotatable closing element 2 fixedly connected to the rotary shaft 2, which is rotatably mounted in the body 2 of the taps 3.

239 136 and in the case X · The range of rotational movement of the pivot shaft ³ and ^Me 2 "mechanically defined for example at an angle of 90 °. The element causing mechanical limitation of the rotational movement of the rotary shaft 2 is not shown. A permanent magnet 4 is mounted on the rotary shaft 2 for the electromagnetic actuation, which is located in the gap of the electromagnetic circuit 2 °. permanent magnet 4 for electromagnetic actuation torque, which results in rotation of the permanent magnet 4 ^F or electromagnetic actuation, and the related closure element rotatable in one of two defined positions. In FIG.

section A-A at EMC level 2 is shown ·

FIG. 2 shows an exemplary embodiment of an electric control valve according to the invention for two-position control, preferably one of the control positions. The basic arrangement is identical to that shown in Fig. 1. The preference of one of the control positions is provided by a set of additional auxiliary permanent magnets 8, 2, which consists of an auxiliary controlled permanent magnet 8 firmly connected to the rotating shaft 2 ^and an auxiliary control permanent magnet 2 firmly connected with χ cock. The force action of the auxiliary control permanent magnet 2 on the auxiliary controlled permanent magnet 8 ensures the preference of one of the control positions. To illustrate this effect of the control permanent magnets 2 on the auxiliary guided permanent magnet 8, FIG. 5 shows a section BB of the set of permanent magnets 8, 2. The magnetic polarization vector of the auxiliary guided permanent magnet 8 in the preferred position is indicated here by a solid arrow. arrow. The magnetic polarization vectors of the auxiliary control permanent magnets 2 are also indicated by arrows.

FIG. 3 shows an exemplary embodiment of an electric control valve according to the invention for two-position control, preferably one of the control positions allowing automatic or manual control. The basic arrangement of this embodiment of the valve is again identical to that shown in FIG. 1. The preference of one of the control positions is provided by a set of additional auxiliary permanent magnets 8, 2 »which is formed by the auxiliary permanent magnets.

4 239 136 controlled by a permanent magnet 8 fixedly connected to the rotary shaft J and an auxiliary pilot permanent magnets J firmly connected to the rotary head 10. By locking the rotary head 10, preference is given to one of the control positions. The preference of one of the control positions has already been illuminated in the example shown in FIGS. 2 and 5. In addition, the pivoting of the rotary head 10 enables manual control of the tap.

The electric control valve according to the invention can be used to individually control the flow of heating medium in a hot-water heating system. In conjunction with a time-programmable temperature controller, the desired temperature can be achieved regardless of external influences (eg sunlight). The principle allows design solutions using a commercially available component base.

Claims (3)

SUBJECT OF THE INVENTION 239 136 An electric control valve for two-position control of the fluid flow rate, characterized in that a rotary shaft (3) is fixedly connected to the rotatable closing element (2) and rotatably mounted in the cock body (1) and the housing (7) fastened ^ permanent magnet (4) for electromagnetic control, located in the gap of the electromagnetic circuit (5). Electric control valve according to claim 1 _, characterized in that the rotary shaft (3) further comprises an auxiliary controlled permanent magnet (8) located in the magnetic field of at least one auxiliary control permanent magnet (9) fixedly connected to the housing (7). An electric control valve according to claim 1, characterized in that the rotary shaft (3) further comprises an auxiliary controlled permanent magnet (8) located in the magnetic field of at least one auxiliary permanent magnet (9) fixedly mounted in the rotary head (10).