NO146348B - STOP BOOK WITH BRAKING BUFFER - Google Patents

Description

Procedure for pressure measurement, especially for screw presses,

as well as a pressure gauge for use in the method.

The present invention relates to

measuring pressure in hard-to-reach places, for example in screw presses, and aims to come up with a method and a pressure gauge with which such measurements can be easily made.

In the case of screw presses, for example for extruding liquid from herring and fish, sugar beet and similar materials, it may often be desirable to find out how the pressure varies along the screw. Until now, such measurements have not been able to be carried out in any satisfactory way, because there has been a lack of instruments to carry out such measurements with sufficient accuracy.

With the invention, it is now proposed to carry out measurement by introducing a miniature instrument in the form of a ball-shaped measuring instrument in its interior with organs for recording the pressure to which the ball surface is exposed as a function of time, and that this instrument is made to follow with the mass through the press while the time for completion is measured.

In that one in this way on the one

on the one hand knows the size of the pressure as a function of time, and on the other hand can calculate where the instrument has been in the press at the corresponding times, it will then be easy to calculate how the pressure varies in the different sections of the press.

The pressure gauge according to the invention is formed by two composable, hemispherical

parts which, when assembled, contain a sensing element, a writing device connected to the sensing element, a clockwork with associated locking mechanism, as well as a registration disk interacting with the writing pin which can be set in motion by the clockwork at a constant speed in order to thereby register variations in the pressure to which the sensing element is exposed .

Further features, purposes and advantages of the invention will be apparent from the following, in which an embodiment example is described with reference to the accompanying drawings, where: Fig. 1 shows a first section through a

instrument according to the invention.

Fig. 2 shows a section along the line II-II i

fig. 1.

Fig. 3 shows a section of a section after

the line III-III in fig. 2.

As will be seen from the drawings, the instrument's housing is formed by a first and a second hemispherical part 10 and 11 respectively, which are placed against each other with an intermediate gasket 12, and which are held together by non-inserted screws. On the inside of one housing part 10, which forms a lid, control members 13 are placed which control the other part 11 so that it is centered.

In one of the two parts, in the embodiment example in the upper part 11, a clockwork 14 is arranged which can be pulled up, and which on its output shaft 15 carries a disc holder 16 for recording a registration disc 17. The clockwork 14 is also equipped with a locking button 18, which is normally spring-pressed towards a locking position, in which the movement is locked. A locking screw 19 acts against this detent button, which, when screwed in so that the outer surface of its head 20 is flush with the ball surface, will push the detent button 18 away from the detent position, thereby setting the movement 14 in motion. This locking screw 19 can optionally be designed so that it serves as a fastening screw to hold the two ball halves together. To achieve this, the bracket 21 which carries the movement 14 is extended with a section 22 in which hollow threads 23 for the screw 19 are formed.

In this upper part 11, a circular opening 24 is also taken out, through which the pressure is transferred to the writing mechanism. This has been achieved by having an outer measuring membrane 25 and an inner measuring membrane 26, which are fixed liquid-tight together. The outer measuring membrane 25 is designed as a circular trough which fits tightly into the opening 24, while the inner measuring membrane is flat, and is provided on the inward-facing side with a reinforcement 27 and a pressure pin 28. In the space between the outer and the inner measuring membrane are filled with liquid, so that pressure exerted against the outer measuring membrane will be transferred to the inner measuring membrane. The two membranes are clamped in the housing with screws 29, 30, which press them against each other over a ring 31. There can of course be more than these two screws 29, 30 distributed around the circumference of the membrane.

A leaf spring 32 is attached to the screw 29, against which the pressure pin 28 rests at a point at a distance from the free outer end of the leaf spring 32. This free outer end rests against a cam 33 on a pivot shaft 34, which as can be seen from fig. 2, the bearing is rotatable in two bearing brackets 35, one at each end of the shaft 34. To this shaft 34, with a set screw 36 (fig. 2), a sector piece 37 is adjustably attached, to which a cord 38 is attached, which runs around a pin 39 and from there to an attachment point 40 on a swing arm 41, which is attached at one end to a torsion spring 42 near the inner ball wall of the part 11. The torsion spring 42 is attached to the housing part 41 with a bracket 43, and is near the swing arm 41 controlled in control rings 44.

The swing arm 41 runs parallel to and just above the registration disc 17, and with the help of the pivot axis formed by the torsion spring 42 it can swing across this from a position near the periphery of the disc and towards it. the middle. At its free outer end, the swing arm 41 carries a stylus 45, which during such a movement will scratch a track into the recording disc.

It remains to be noted that the attachment point 40 for the string 38 is arranged in such a way in relation to the swing axis of the swing arm 41 that a pull on the string will cause a swing of the swing arm 41 against the force from the torsion spring 42. Such a pull on the string occurs when a external pressure against the outer measuring membrane 25, as this is then pressed inwards and the last-mentioned inwards over the liquid in the cavity between the outer and the inner measuring membrane, so that the pressure pin 28 will press the leaf spring 32 inwards. This movement will be transmitted further to the cam 33, whereby the shaft 34 will turn and take the sector piece 37 with it.

It will be easy to realize that the pull in the cord will be a function of the pressure acting against the outer measuring membrane 25, and likewise that the deflection of the disc pin will be a function of the pull in the cord. This will be approximately a linear function with a suitable choice and design of the transfer from the measuring membrane to the disc pin.

When the instrument is to be used, the clockwork 14 is first pulled up. A recording disc is then inserted into the disc holder 18. This recording disc is preferably formed by a glass disc which is smeared with a thin coating in which the writing pen scribes a groove. The swing arm 41 is adjusted so that the writing pen 45 will scribe this groove at the periphery of the disc when the pressure is equal to zero, and will enter towards the center of the disk as the pressure increases. This setting, possibly an adjustment of it, can be achieved by loosening the set screw 36 and adjusting the setting for the sector piece 37 so that the cord is taut.

The lid part 10 is then attached, and the locking screw 19 is screwed into the threads 23. A stopwatch is started as soon as the locking screw 19 is fully screwed in, and the completely closed ball is quickly brought over to the mass which is fed into the screw press. The time when the bullet disappears into the press and when it comes out again at the outlet is read on the stopwatch. During this time, the clockwork will have turned the registration disc a little less than a full revolution with constant angular velocity, and in the known manner of such instruments, the stylus will have inscribed a curve illustrating the changes in the external pressure as a function of time.

Now the screw 19 is loosened, whereby the clockwork

again arrested. By unscrewing screw 19 completely

of the threads 23 can then be removed

cover 10 and remove the disc. The recorded

curve can then be transferred to millimeters -

paper.

For practical experiments, a was built

instrument of the structure explained above, and this instrument had a

external diameter of 40 mm. After each

measurement, the registration disc was taken out, the disc photographed under magnification, and

the curve measured. The measurements were transferred to

graph paper.

Claims (3)

1. Procedure for measuring the pressure semi-solid masses are subjected to during extrusion in presses, particularly for screw presses, characterized by the fact that a miniature instrument in the form of a spherical measuring instrument is introduced together with the mass, which contains organs for recording the pressure the ball surface is subjected to depending on the time, and that this instrument is brought to follow the mass through the press as the time for the execution is measured. 2. Pressure gauge for use in the method according to claim 1, characterized in that the gauge is formed by two collapsible, hemispherical parts which, in the assembled state, enclose a sensing element, a stylus connected to the sensing element, a clockwork with an associated locking mechanism, and a registration disk interacting with the stylus as of the clockwork can be set in motion at a constant speed in order to thereby register variations in the pressure the sensor is exposed to. 3. Pressure gauge in accordance with claim 2, characterized in that the locking mechanism is arranged to be released by the two hemispherical parts being sealed together to form a ball.