RU43457U1 - VACUUM DEVICE - Google Patents

Abstract

The device for evacuation refers to devices for producing a vacuum in order to preserve food products for a longer time. The device for evacuation is a container 1, figure 1, closed by a cover 2 with a gasket 3. Two fittings 4 from a tubeless automobile tire are installed in the cover. The rubber parts of the fittings are made of material used in the food and medical industries. One fitting is designed for evacuation, it is with a spool and connects to a vacuum pump 8. Another fitting for controlling vacuum, it is without a spool. A device for measuring vacuum 5 is connected to it.

Description

A device for evacuation is known - patent for utility model No. 38113. The disadvantage of this device is that the used fitting from the tubeless tire has parts made of technical rubber, and therefore this device cannot be used, for example, when storing food.

The proposed device for evacuation of FIG. 1, represents a container 1, closed by a cover 2 with a gasket 3. Two fittings 4 from a tubeless automobile tire are installed in the cover, the rubber parts of which are made of material used in the food and medical industries. The fitting tubeless tire 4 is presented in figure 2. It consists of a housing 9, an external thread 10, an internal thread 11, a cone for pressing a rubber sealing ring 12, a channel 13, a rubber part 14, which serves for fixing and sealing. The spool of the fitting is presented in figure 3. It consists of a rod 15, a locking nut 16, a rubber sealing ring 17, a spring 18. The spool can be of another design.

One fitting without spool. It connects to the device 5, which serves to control the vacuum. This device of FIG. 6 represents a set of elastic tubes of different diameters 19 made of material used in the food and medical industries. The tubes at one end are plugged 20, and the other end is connected to a common base 21. When evacuated, they are compressed.

The smaller the diameter of the tube, the greater the vacuum needed to compress it. We select the tubes so that they are compressed in turn with increasing vacuum, for example, by 0.2-0.3 atm. We sign the tubes at which vacuum each of them contracts and for

Convenience of visual control of the tube is painted in different colors. In this case, we control the vacuum and can determine its value with a certain degree of accuracy. The price of such a device is very low compared to the price of a vacuum gauge. The design for controlling the vacuum can be another FIG. 4, 5, 7, 8. FIG. 4 is an elastic tube made of a material used in the food and medical industry with a variable wall thickness 22, but the same outer diameter. We calibrate the handset. From the end where the wall is thin, the tube is plugged 23. For the convenience of visual inspection, paint different sections of the tube in different colors, for example, section 25 - pink, 26 - yellow, 27 - blue. The opposite end 24 is put on the fitting. With a small vacuum, the tube is compressed where the wall is thin; with an increase in vacuum, sections of the tube are compressed where the walls are thicker.

Figure 5. An elastic tube with a variable diameter, but the same wall thickness 28. From the wide end, the tube is plugged 29. The opposite end 30 is put on the fitting. First, a wide section of the tube is compressed; as the vacuum increases, the tube is compressed, where the diameter is smaller. We calibrate the handset. For the convenience of visual inspection, we will paint different sections of the tube in different colors, for example, section 31 - pink, 32 - yellow, 33 - blue.

7, a hollow elastic ball 34. An opening 35 for connecting to a fitting without a spool. We determine at what vacuum the ball is compressed and indicate this.

Fig. 8 gasket 3 used in evacuation. Balls 36, 37, 38 of elastic material, interconnected and with a gasket. Ball 36 whole - for control. Balls 37, 38 are hollow, with different wall thicknesses, the wall of the ball 37 is thicker than that of the ball 38; under vacuum, the hollow balls increase in size. Compare them with the control ball 36. The ball, whose wall is thinner, increases more. We determine at what vacuum each ball begins to increase and indicate this. The control ball 36 can be painted in a different color.

Another spool fitting is used as a valve for evacuation. He puts on a clip for the pump 6 of Fig.9. It consists of a housing 39 of the pressure lever, 40, holes for connecting to the vacuum pump 41, holes for connecting to the fitting 42.

The clamp for the pump using a hose or tube 7 is connected to the vacuum pump 8. The vacuum pump is obtained from the discharge, for example, from a motorcycle 8 of figure 1. To do this, turn the cuff 34 in the opposite position. The shut-off valve 35 is also reversed. The housing 36 and the stem 37 remain unchanged.

To obtain a vacuum, you can use the ejector pump, Fig.12. The tube 43 is connected to a source of water under pressure, the tube 44 to the evacuated tank.

The fitting can be located on the side surface of the tank of figure 10. The body of the tank 45, fitting 4 or in the bottom of the tank of Fig.11. Tank body 46, fitting 4.

Claims (7)

1. The device for evacuation is a container, closed by a lid with a gasket, characterized in that in the two fittings installed in the lid from the tubeless tire, the rubber parts are made of material used in the food and medical industry, one fitting is connected to a pressure pump, for example, from a motorcycle, in which the cuff-piston and the shut-off valve are turned upside down, the result is a vacuum pump, the connection is made using a pump clamp, another fitting, without a spool, it is connected to a vacuum control device, which is a set, for example, of three elastic hollow figures, for example, tubes of different diameters, one end connected to a common base, and the other end plugged, the tubes are signed, under which vacuum each of them shrinks, and painted in different colors. 2. The device according to claim 1, characterized in that the device for controlling the vacuum is a tube with a variable wall thickness, but of the same outer diameter, plugged from the end where the walls are thinner, the other end is connected to a vacuum tank, the tube is graduated and painted in different colors. 3. The device according to claim 1, characterized in that the device for controlling the vacuum is a tube with a variable diameter but the same wall thickness, the tube is plugged from the wide end, the other end is connected to a vacuum tank, the tube is graduated and painted in different colors. 4. The device according to claim 1, characterized in that the vacuum control is carried out using an elastic hollow figure, for example, a ball connected to an evacuated container, in the presence of vacuum, the hollow figure is compressed. 5. The device according to claim 1, characterized in that one fitting for evacuation is installed in the lid, and the vacuum is controlled by means of attached to the lid or gasket on the inside, interconnected several, for example, three balls of the same outer diameter, made of elastic material, while one ball is whole, for control, the others are hollow, closed with different wall thicknesses, in the presence of vacuum, the hollow balls increase in size. 6. The device according to claim 1, characterized in that the nozzles are located in the side surface of the tank. 7. The device according to claim 1, characterized in that the nozzles are located in the bottom of the tank.