DE284070C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

Vi 284070 'CLASS 55 //. GROUP

Patented in the German Empire on November 6, 1913.

If one assumes that the substance that flows into a paper or cardboard machine, would always be supplied in the same amount, uniformly and with a constant water content would, then the same amount of water would always be at any given point in time Manufacturing process flow from the substance or pressed out of it by the machine will. Now, in reality, this is not the case, but the water content of the inflowing material fluctuates, and consequently the thickness of the finished paper would also be or fluctuate accordingly if the supply of the material is not regulated, what was previously done by hand while observing the strength of the finished paper.

The invention aims at a certain point in the manufacturing process to use draining water or water squeezed out by the machine in order to comply with the aforementioned regulation to display or to execute automatically. The invention is thus that the Amount or weight of drainage from the fabric before or as it passes through the machine or pressed water or a part of this water is measured, the measurement result used as a basis for determining the paper thickness and, if necessary, for controlling the quantity the fabric feed to the machine is used.

The device used to carry out this process is shown in FIG two embodiments shown schematically. It shows

Fig. Ι the device with float control,

Fig. 2 shows the device with a control device built in the manner of a weighing machine. ''

From a part of the wet end (the pre-pressure roller, the. Gautsche, the first or second wet press etc.), preferably from the first wet press, the paper machine, where the Stock - regardless of the water content of the stock flowing into the paper machine - Has a constant water content, the water z. B. by a Hose 1 guided into a vessel 2, which is provided with an appropriately controllable outlet 3 is. This outlet should be as close as possible to the ground. By using mouthpieces of different sizes, the mentioned controllability of the outlet 3 achieved. The size of the outlet 3 is according to the normal amount of water, determined in such a way that the water is a little slower from the vessel 2 than in the same flows, whereby the vessel one after the strength of the in the machine contains changing amount of water, due to its Changes to the facilities for determining

mation of the paper thickness and the quantity control of the stock supply can be influenced.

In the embodiment according to FIG Float 4. Instead of using a float, the vessel 2 can also be placed on a scale or a similar device attach or train the vessel 2 itself as an AVage, so that the vessel itself or the Dare the facilities for determining the paper thickness and for regulating the quantity of the Put substance supply into action. This is the case in the embodiment of FIG which the vessel 2 forms the one weight of the balance, which by one on the other End of the carriage arm hanging weight 27 is balanced to normal water content.

The float 4 is in execution

1 connected by an expediently adjustable according to the normal amount of water chain 5 with a pointer 6, which follows the movements of the swimmer 4 and moves over a scale 7 on which the strength of the substance in the machine can be read. Instead of this embodiment, as shown in FIG. 2, the vessel 2 of the balance can be connected to the pointer. In this case, the pointer is designed, for example, to form a balance beam 6 ', 6 ".

The vessel 2 (FIG. 1) is divided into two by a wall 8 that does not go all the way to the bottom departments communicating with each other are divided below. The supply of the Aasser takes place in one department. In the other compartment, the float 4 is attached to by the boiling of the Aasser caused by the water supply is not influenced will. According to the pointer 6, the supply of water to the sieve or the inflow of the The substance is regulated by hand through the substance flow valve.

This regulation can also take place automatically by means of any device that has the Fine control executes. The rough control when starting is carried out by hand.

. In the devices shown, the control device consists of a result the changes in the amount of the draining from a part of the wet end of the machine or squeezed out water or by the action of the above-mentioned float, vessel or the balance is movable over or between fixed, possibly adjustable electrical contacts 20, 21 Contact, for example the pointer 6 (Fig. 1) or the balance beam 6 ', 6 " (Fig. 2), which cause a circuit in one or more circuits and the Means (e.g. an electric motor) for moving the inlet of the substance affect the devices provided on the machine.

In the illustrated embodiment according to FIG. 1, 9 is a rail that goes back and forth in guides and which can also be replaced by another organ that goes back and forth. This rail 9 carries two oppositely acting pawls 10, 11, which each work together with their electromagnets 12, 13 and with a common toothed wheel 14 for moving the devices for admitting the substance to the machine. The electromagnets 12, 13 are closed by closing their circuits by means of the movable contact, for. B. the pointer 6, excited, so that soon one and the other pawl is attracted by its electromagnet and it comes into such a position that it during the movement of the reciprocating rail 9, the gear 14 in the for respective pawl rotates certain direction. Here the rail 9 receives a slow reciprocating movement from an adjacent shaft by means of a belt 15, a belt pulley 16, a worm wheel 18 and a crank 19. The hub can e.g. B. 25 mm, according to the tooth spacing of the gear 14. The pointer 6 (Fig. 1) or the balance beam 6 ', 6 " (Fig. 2) moves between the two fixed, by hand or automatically (z. B. B With the help of the changes in the dry steam pressure or the temperature or the machine speed) adjustable contacts 20, 21. This regulation can also take place in a similar manner by the chain 5. A circuit is made by the line 22, the battery 23, the holder 24, the Pointer 6, the contact 20, the line 25 and the electromagnet 12. If the substance in the machine becomes weaker, less water gets into the vessel 2, the liquid level in this and thus also the float 4 (FIG. 1) sinks or the vessel 2 (FIG. 2) rises, with the result that the pointer 6 or the balance beam 6 ', 6 "is brought into contact with the contact 20 and closes the circuit just mentioned. The electromagnet 12 then attracts its armature (pawl 10) which is in such a position that it engages the gear wheel 14 during the movement of the rail 9 to the right and rotates the same in a certain direction in order to admit more material, but during the movement the rail 9 slides to the left only over the teeth without rotating the gear 14. This continues until the required material thickness has been reached and the pointer 6 or the balance beam 6 ', 6 " leaves the contact 20 again.

Another circuit is from the line 22 with the battery 23, the holder 24, the pointer 6 or balance beam 6 ', 6 ", the

Contact 21, the line 26 and the electromagnet 13 is formed. If the fabric becomes too thick, this line is closed by the pointer 6 and the contact 21 or the balance beam 6 ″ and the contact 21, and the pawl 11 rotates the gear 14 in the opposite direction to the pawl 10 until the fabric thickness is normal again. When no current flows through the electromagnets 12, 13, the pawls 10, 11 assume the position shown in the drawing, so that the rail 9 can move back and forth without the gear wheel 14 moving.

The details of the invention may be related to fabric, shape, size, number and composition can be changed and swapped. if only the essential Feature of the invention is retained.

Claims (4)

Patent Claims: 1. Method of making paper the strength of the paper machine to recognize the inflowing substance and, if necessary, to regulate it, characterized in that, that the amount or weight of the material flowing off before or during passage through the machine or squeezed water or a part of this water measured and that The measurement result is used to regulate the amount of material supplied to the machine. 2. Apparatus for performing the method according to claim 1, characterized through a vessel (2) through which the draining water or part of this water is passed, and that the uniformity or the fluctuations in the amount of water by observation the height, e.g. B. by means of float (4) and a scale (7) or can be recognized by the fact that the vessel (2) is designed as a balance. 3. Device according to claim 2, characterized in that the float (4) or the vessel (2) designed as a scales between fixed or adjustable electrical contacts (20, 21) affected contact (6 or 6 ', 6 "), which causes a current short in one or more circuits, which z. B. affect an electric motor that the device for inlet of the fabric on the machine. 4. Device according to claim 2, characterized by a back and forth going member (9), which has two oppositely acting pawls (10, 11) each with its electromagnet (12, 13) and with a common gear (14) for moving the Devices for letting in the substance cooperate, the electromagnets (12, 13) by closing their elec- Irish circuits (22, 25 or 22, 26) by means of the movable contact (6 or 6 ', 6 "), so that soon one and then the other pawl (10 or 11) is attracted by its electromagnet (12 or 13) and thereby into a reaches such a position that it occurs during the movement of the reciprocating limb (9) the gear (14) in the direction determined by the pawl in question turns. 1 sheet of drawings.