CS240297B1 - Equipment for filling and emptying the hygrometer probe for biological tissues and bulk porous materials - Google Patents

Abstract

The essence of the solution is that the hollow screw is placed in a housing with a front side adapted for connection with the probe, in which there is an inlet opening on the leading side and an outlet opening on the trailing side, and inside the hollow screw there is a nut firmly connected to the drive wheel and inside the nut there is a screw firmly connected to the hollow screw, mounted in the drive wheel radially fixed and axially displaceable and terminated with a stop for controlling the limit contacts of the nut drive and the screw drive. The device is used for filling and emptying the probe of a continuous or periodic moisture meter, which guarantees more reliable data on the moisture content of the measured material.

Description

The principle of the solution is that the hollow worm is located in a housing with a front end adapted to be connected to a probe having an inlet opening on the leading side and an outlet opening on the outlet side, and the nut tightly connected to the drive wheel inside the nut is a bolt firmly connected to the hollow worm, mounted in the drive wheel radially rigidly and axially displaceably and terminated by a stop for controlling the limit contacts of the nut drive and the screw drive.

The device is used for filling and emptying the probe of a continuous or periodic hygrometer, which guarantees more reliable data on the moisture of the measured material.

The invention relates to a device for filling and emptying a probe of a continuous or periodic hygrometer, which guarantees more reliable moisture data of the measured material.

For measuring the moisture content of a material, such as agricultural products, during and after a process, for example, hot-air drying of fodder or grain, a continuous hygrometer is known, into which the test material is fed on one side by a screw and discharged on the other. With respect to the conveying path of the material, the hygrometer can be arranged parallel to the conveying path or crosswise.

In parallel arrangement, the actual measuring probe is placed parallel to the conveying path. On one side, the probe is connected to a rectangular supply line in which there is a horizontal supply worm. On the other hand, the probe connects the discharge pipe with a vertical discharge screw. There is a spring-loaded piston in the discharge line, which controls the limit switch to control the feed screw, depending on the material pressure in the probe. Both worm drives are controlled by a measuring and evaluation circuit.

In the transverse arrangement of the probe, in addition to the inlet and outlet screws on both sides of the probe, a sampling screw passing through the conveying path of the material to be measured is also required. In the feed direction, i.e. on the leading side, the sampling screw is uncovered and on the outlet side, the screw is covered by a trough in which the material is carried by the screw to the feeding screw in front of the probe.

The described devices have a more complicated construction since they have inlet and outlet pipes, inlet and outlet screws and in the case of a transverse arrangement a third screw is required. In these continuous hygrometers, the material passes through the probe so that the material is forced out of the probe by the newly fed material.

When the material in the probe needs to be more pushed or increased due to a change in the physical properties of the material, when its consistency after the push is exceeded above a certain limit, the resistance of the probe increases so that incoming is difficult. Either the measurement process slows down or forces the operator to empty the probe manually.

These disadvantages are overcome by the hygrometer probe filling and emptying device of the present invention. It contains a worm with a drive, located in the conveying path of the measured material.

SUMMARY OF THE INVENTION The hollow worm is located in a housing with a front end adapted to be coupled to a probe having an inlet opening on the leading side and an outlet opening on the outlet side, and a nut tightly coupled to the drive wheel inside the hollow worm. the nut is a bolt firmly connected to the hollow worm, mounted in the drive wheel radially rigidly and axially displaceably and terminated by a stop for controlling the limit contacts of the nut drive and the screw drive.

The advantage of the new device made according to the invention is the simplicity and compactness of the construction. Since the sampling screw can extend into the probe area, the possibility of probe clogging, stoppage and downtime associated with cleaning are eliminated.

The device for filling and emptying the hygrometer probe is shown schematically in the attached drawing.

In an exemplary embodiment, a periodic hygrometer is shown. In the conveying path 12 a housing 9 of the hollow worm 1 is placed. The housing 9 has the shape of a cylinder and is arranged on one end for connection with a probe 18 which comprises two opposing electrodes and a thermometer 21 on the cylinder wall.

The front side of the probe 18 is terminated by a spring-loaded piston 22 whose piston rod controls a contact 17 to indicate that the probe 18 has been filled under a certain pressure. The contact 17, the thermometer and the two electrodes 20 are connected to the control, measuring and evaluation circuit 16.

The cover 9 has an inlet opening 10 on the leading side for supplying the material to be measured. On the opposite - outlet side - there is an outlet opening 11 for discharging the measured material into the conveying path 12. In the longitudinal axis of the cover 9 there is a hollow worm 1 connected in the front face with a screw 2 passing through the bearing bush 8 and driving wheel 5 and terminated by a stop 15 Dec

The drive wheel 15 is displaceably mounted in the direction of its longitudinal axis and fixedly in the radial direction so that it has a firm engagement with the drive wheel 5. Between the screw 2 and the hollow worm 1 is a nut 3 which engages the screw 2 and rotatably mounted in the bearing bush. 8 and is rigidly connected to the drive wheel 4 connected to the drive 6. Both this drive 6 and the drive wheel 7 are both controlled by the limit contacts 13, 14 and by the control, measuring and evaluation circuit 16.

The two rotating elements, i.e. the screw 2 with the hollow screw 1 on one side and the nut 3 on the other side, can be rotated in both senses independently of each other, or the nut 3 or the hollow screw 1 can be kept at rest. By the required combination of these movements, the desired movement or position of the hollow worm 1 in the longitudinal direction is achieved and thus the mass feed from the inlet 10 to the probe 18 or the already measured mass from the probe 18 to the outlet 11 is achieved. 13, 14 and cue 15.

In this exemplary embodiment of the periodic hygrometer, the drives 6 and 7 are controlled according to the set program by the control, measurement and evaluation circuit 16. Filling

Claims (1)

SUBJECT Device for filling and emptying a hygrometer probe for biological tissues and loose porous hmoites, comprising a powered screw located in the conveying path of the measured material, characterized in that the hollow screw (1) is located in a housing (9) with a face adapted to connect a probe (18J) in which the inlet port (10) is on the leading side and the outlet port ⁶ on the outlet side is the pressure in the probe 18 can be controlled by varying the bias of the spring 19. OF THE INVENTION (11), and within the hollow worm (1), the nut (3) is rigidly connected to the drive wheel (4) and within the nut (3) the screw (2) is rigidly connected to the hollow worm (1) 5) radially fixed and axially displaceable and terminated by a stop (15) for actuating the limit contacts (13, 14) of the nut drive (6) and of the screw drive (7) (2).