RU192637U1 - SEAL MATERIAL QUALITY CONTROL DEVICE - Google Patents

Abstract

The invention relates to devices and constructions for checking materials for leaks using a vacuum, namely, devices for controlling the quality of the material of a sealed bag and the bag itself. The technical result is to expand the functionality by simultaneously checking the tightness of a bag of any volume and material from which it made, due to a single sealed design of the common sealed pipeline, and the fittings connected to it through the pipeline, means of verification and the quality of the material of the sealed bag, vacuum pump, each of which is made with its own valve. The result is achieved by the claimed device for controlling the quality of the material of the sealed bag, including a vacuum pump, vacuum gauge, and contains a common sealed pipe with a built-in pressure gauge, and the first pipe is connected to a common sealed pipe with integrated vacuum pump valve and vacuum pump, second pipe with integrated fitting valve and fitting, third pipe with integrated by means of a valve for checking the quality of the material of the sealed bag and with means of checking the quality of the material of the sealed bag, a fourth pipeline with an integrated vacuum gauge valve and vacuum gauge, each valve being made with a control mechanism, in addition, all structural elements are placed and fixed inside the common housing, except for those placed on general case of valve control mechanisms, fitting, means for checking the quality of material of a sealed bag, vacuum gauge, vacuum pump, manometer indicators and a vacuum gauge. 7 c.p. f-ly, 5 ill.

Description

The technical field to which the utility model relates.

The utility model relates to devices, structures for checking materials for leaks using vacuum, and in particular to quality control devices for the material of a sealed bag and the bag itself.

State of the art

A device for monitoring the quality of the material of a sealed bag (https://www.geo-ndt.ru/pribor-5972-testeri-germetichnosti-ypakovki-pack-vac.htm was discovered on April 18, 2019) containing a sealed chamber with a connected vacuum pump vacuum gauge. The package being checked is placed in a chamber filled with water and an atmospheric vacuum is created above the water surface by means of a vacuum electric pump (model PVEL), which results in bloating of the package immersed in water. If it is not tight, air or protective gas comes out, which is noticed with the naked eye and it is established in which place the package is not tight. The disadvantage of this analogue is the need to use for testing only those sealed bags that can fit in a sealed chamber, there is also no technical ability to measure and check for leaks not the bag itself, but the material from which it is made. In addition, the disadvantage of the claimed analogue is the inaccuracy in detecting the extent of leakage, since all measurements are visual.

Utility Model Disclosure

The technical result consists in expanding the functionality by means of the simultaneous ability to check the tightness of a bag of any volume and material from which it is made, due to a single sealed design of a common sealed pipe, and a fitting connected to it via a pipe, means for checking the quality of the material of a sealed package, a vacuum pump, each of which is made with its own valve. In addition, as a consequence of the first main result, another additional result is achieved, which consists in the accuracy of measuring the tightness of the bags or its material by fixing deviations with a vacuum gauge and a pressure gauge in a common sealed pipeline.

The result is achieved by the claimed device for controlling the quality of the material of the sealed bag, including a vacuum pump, a vacuum gauge, and contains a common sealed pipeline with a built-in pressure gauge, and the first pipe with an integrated vacuum pump valve and a vacuum pump, a second pipe with an integrated fitting valve and with fitting, the third pipeline with an integrated valve of the material quality control means of the sealed bag and with the quality control means a sealed bag material, a fourth pipeline with an integrated vacuum gauge valve and a vacuum gauge, each valve being made with a control mechanism, in addition, all structural elements are placed and fixed inside the common housing, except for the valve control mechanisms located on the common housing, a fitting, means for checking the quality of the material of the sealed package , vacuum gauge, vacuum pump, gauge and vacuum gauge indicators.

According to a utility model, the material quality control tool of a sealed bag is made of three parts, the first part is made in the form of a first disk on one side of which a hole is made in the center of a cylindrical recess, the second part is made of a perforated second disk on one side of which an edge is made on the outer perimeter under the inner diameter of the recess of the cylindrical shape of the first disk, the third part is made in the form of a retaining element along the perimeter, made with the possibility of mounting to the first disk.

According to a utility model, a sealing ring is made around the perimeter of the recess of the cylindrical shape of the first disk.

According to a utility model, a perimeter-retaining element is adapted to be attached to the first disk by means of screws.

According to a utility model, the perimeter-retaining element is fastened to the first disk by fixing nuts with screws, the heads of which are rigidly connected and fixed around the perimeter of the first disk, and the perimeter-retaining element is made with holes for the screws of the first disk.

According to a utility model, a perimeter-retaining member is in the form of a rim.

According to a utility model, the control mechanism of each valve is made in the form of a toggle switch.

According to a utility model, the control mechanism of each valve is made in the form of a switch.

Brief Description of the Drawings

The essence of the utility model is illustrated: FIG. 1, which shows a diagram of a preferred embodiment of the inventive material quality control device of a sealed bag; FIG. 2, which shows a particular embodiment of a material quality control tool for an airtight bag with a fixed layer of airtight bag material; FIG. 3, which shows an image of a first disk of a material quality control means of an airtight bag; FIG. 4, which shows an image of a first disk of a material quality control means of a sealed bag into which a perforated second disk is inserted; FIG. 5, which shows an image of a perforated second disk, means for checking the quality of the material of a sealed bag, on one side of which a rim is made along the outer perimeter.

Utility Model Implementation

In FIG. 1 schematically shows the claimed device for quality control of the material of a sealed bag, including a vacuum pump 1, a vacuum gauge 2, and contains a common sealed pipe 3 with a built-in pressure gauge 4, and the first pipe with an integrated valve 5 of the vacuum pump and the vacuum pump 1 is connected to the common sealed pipe 3 the second pipeline with a built-in valve 6 of the fitting and with a fitting 7, the third pipeline with a built-in valve 8 means of checking the quality of the material of the sealed bag and with the means of checking and the quality of the material of the sealed bag 9, the fourth pipeline with an integrated valve 10 of the vacuum gauge and vacuum gauge 2, and each valve is made with a control mechanism. All structural elements are placed and fixed inside the common housing, except for the valve control mechanisms located on the common housing (fitting, means for checking the quality of the material of the sealed bag, vacuum gauge, vacuum pump), gauge indicators and vacuum gauge.

It should be noted that the first pipeline and the fourth pipeline can be made closed in the private embodiment from their opposite end from the entrance to the common sealed pipeline 3, or these opposite ends of the first and fourth pipelines can be hermetically closed by the design of the housing of the vacuum pump 1 and the housing of the gauge 2.

The principle of operation of the claimed device is as follows.

All valves are closed by their control mechanisms (e.g. toggle switches or switches). The neck of the sealed bag fits tightly on the fitting 7, and the material is fixed in the material quality control tool of the sealed bag 9. Next, the vacuum pump 1 is turned on and its valve 5 of the vacuum pump opens. Next, the valve 6 of the fitting and the valve 10 of the vacuum gauge are opened, and the tightness indicators of the package are fixed by means of the gauge 4 and the gauge 2. After the valve 6 of the nozzle and the valve 10 of the gauge are closed. Further, the material is checked in a similar way by opening the valve 8 of the material quality control tool of the sealed bag and the vacuum gauge valve 10 and further fixing the material tightness indicators by means of the gauge 4 and gauge 2 devices.

It should be noted that for a more expedited check, the claimed device has the technical ability to check both the material and the bag itself, for this purpose, the nozzle valve 6, the vacuum gauge valve 10 and the valve 8 of the material quality control tool of the sealed bag are opened at the same time and the overall tightness of the bag is checked and material. This is possible due to the claimed design, where all structural elements of the device are connected to a common sealed pipeline 3.

In FIG. 2 shows a means of checking the quality of the material of a sealed bag, which is made of three parts, the first part is made in the form of a first disk 11, on one side of which a hole is made in the center in a recess of a cylindrical shape (see Fig. 3), the second part is made of perforated second a disk 12, on one side of which a rim is made along the outer perimeter (see Figs. 4, 5) for the inner diameter of the recess of the cylindrical shape of the first disk 11, the third part is made in the form of an element 13 holding along the perimeter, made for attachment to the first disc 11.

The material sample is fixed in the material quality control tool of the sealed bag 9 as follows.

The perforated second disk 12, with its lower side with the flange, is placed in the recess of the cylindrical shape of the first disk 11. Next, the layer of material of the airtight bag is placed on top of the perforated second disk 12 (on the other opposite side of its flange), after which the layer of material of the airtight bag is fixed by installing it from above him holding around the perimeter of the element 13, which is fixed on the first disk 11.

The perimeter-holding member 13 is fixed to the first disk 11 by means of a rigid fixation, for example by means of screws. The first disk 11, the second disk 12 and the perimeter-retaining element 13 of the material quality control means of the sealed bag, in a preferred embodiment, should be made of metal. The screws must be tightened well to ensure accurate measurements, namely to prevent leakage along the perimeter of the material layer of the sealed bag.

In addition, in a private embodiment, an additional O-ring 14 can be made along the perimeter of the cylindrical recess of the first disk 11 (see Fig. 3), for maximum tight connection and to prevent leakage along the perimeter of the material layer of the sealed bag, which affects the measurement accuracy to the maximum tightness. O-ring 14 may be made of rubber or other known sealing material.

Thus, in the process of operation of the device after turning on the vacuum pump 1, opening its valve 5 of the vacuum pump, opening the valve 8 of the material quality control means of the sealed bag and the valve 10 of the vacuum gauge, it is possible to fix the data of the leakproofness of the sample layer material of the sealed bag. At the same time, the side of the perforated second disk 12, allows you to save the space between the perforation of the second disk and the surface of the recess of the cylindrical shape of the first disk 11. That allows you to subject the working pressure of the material quality control device of the sealed bag to the working pressure over the entire perforation area of the second disk 12 and, accordingly, as a result of the entire area of the sample layer of the material of the sealed package (laid on the other upper side of the perforated second disk).

In this case, the perforation of the second disk 12 can be made round or long (milled) holes.

Means of quality control of the material of the sealed bag 9 can be integrated into the third pipeline, or in another particular embodiment, connected to the end (opposite from the entrance to the common sealed pipeline 3) of the third pipeline.

Modern technologies and equipment make it possible to implement a real utility model in large-scale production. The factories and enterprises have all the necessary machines and devices for the production of a material quality control device for a sealed bag.

Claims (8)

1. The device of quality control of the material of the sealed bag, including a vacuum pump, a vacuum gauge, characterized in that it contains a common sealed pipe with a built-in pressure gauge, and connected to a common sealed pipe is a first pipe with a built-in vacuum pump valve and a vacuum pump, a second pipe with a built-in fitting valve and with a fitting, a third pipeline with an integrated valve of the material quality control means of the sealed bag and with the material quality control means package, the fourth pipeline with an integrated vacuum gauge valve and a vacuum gauge, each valve is made with a control mechanism, in addition, all structural elements are placed and fixed inside the common housing, except for the valve control mechanisms located on the common housing, a fitting, means for checking the quality of the material of the sealed package , vacuum gauge, vacuum pump, gauge and vacuum gauge indicators. 2. The device for controlling the quality of materials of an airtight bag according to claim 1, characterized in that the means for checking the quality of the material of the airtight bag is made of three parts, the first part is made in the form of a first disk, on one side of which a hole is made in the center in a depression of a cylindrical shape, the second the part is made of a perforated second disk, on one side of which a rim is made along the outer perimeter for the inner diameter of the recess of the cylindrical shape of the first disk, the third part is made in the form of a holding around the perimeter of the element, made with the possibility of attachment to the first disk. 3. The quality control device for the materials of the sealed bag according to claim 2, characterized in that a sealing ring is made along the perimeter of the recess of the cylindrical shape of the first disk. 4. The quality control device for the materials of the sealed bag according to claim 2, characterized in that the perimeter-holding element is adapted to be attached to the first disk by screws. 5. The quality control device for the materials of the sealed bag according to claim 2, characterized in that the fastening of the perimeter-retaining element to the first disk is made by fixing with screws nuts the heads of which are rigidly connected and fixed along the perimeter of the first disk, and the perimeter-holding element is made with holes under the screws of the first disk. 6. The quality control device for the materials of the sealed bag according to claim 2, characterized in that the perimeter-retaining element is made in the form of a rim. 7. The quality control device for the materials of the sealed bag according to claim 1, characterized in that the control mechanism of each valve is made in the form of a toggle switch. 8. The quality control device for the materials of the sealed bag according to claim 1, characterized in that the control mechanism of each valve is made in the form of a switch.

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