DE212019000031U1 - A multifunctional absorption performance tester for absorption products - Google Patents

Abstract

A multifunctional absorption performance testing device for absorption products is characterized in that it comprises a base (1), a holder (2) and a sample body (17). A holder (2) is arranged on the top of the base (1). The holder (2) is provided with a liquid storage device. A fastening device is arranged on the base (1). a connecting pipe (18) and a shunt pipe (19). The liquid storage tank (3) runs through the top of the holder (2), and the inlet pipe (4) is arranged at the inlet on the top of the liquid storage tank (3). A connecting pipe (18) is arranged at the outlet of the bottom of the liquid storage tank (3). The inlet end of the connecting pipe (18) is connected to the inlet end of the top of the shunt pipe (9). The bottom of the shunt tube (9) is provided with several groups of openings at the same distance. There are several groups of outlet pipes (7) arranged side by side, and the inlet ends of the outlet pipes (7) are each connected to the openings at the bottom of the shunt pipes (9). The outlet end of the outlet pipe (7) is connected to the inlet end at the top of the shunt plate (9). Several groups of through holes (10) are evenly arranged on the bottom surface of the shunt plate (9). A flow control valve (8) is arranged on the outlet pipe (7). The fastening device comprises a bracket (11), a support plate (12), a limiting plate (13), a slide rod (14), a spring (15), a connecting plate ( 16), a pressure plate (20) and a connecting tube (21). Four groups of brackets (11) are arranged at the same distance on the base (1). A carrier plate (12) is arranged between the arms (11). Several groups of rectangular sample placement grooves are arranged at the same distance on the carrier plate (12). The sample body (17) is located in the sample placement groove. The side wall of the boom (11) is provided with a connecting tube (21). The lower end of the slide rod (14) runs through the connecting pipe (21) and is slidably connected to the connecting pipe (21). The lower end of the slide rod (14) is connected to the limiting plate (13). A spring (15) is arranged on the slide rod (14). One end of the spring (15) is connected to the connecting tube (21). The other end of the spring (15) is connected to the limiting plate (13). The lower end of the slide rod (14) is arranged on both sides of the bottom surface of the connecting plate (16). Pressure plates (20) are arranged at the same distance on the bottom surface of the connecting plate (16).

Description

Technical field

The utility model relates to the field of multifunctional absorption performance testers, in particular to a multifunctional absorption performance tester for absorption products.

State of the art

Currently, the absorption performance tester for absorption products only tests the absorption performance limit of absorption products, but there is no convenient control of the flow rate, material, and temperature conditions for the absorption performance of absorption products. To solve the above problems, a multifunctional absorption performance tester for absorption products is provided in this application.

Representation of the utility model

Purpose of utility models

In order to solve the technical problems existing in the background technology, the utility model provides a multifunctional absorption performance tester for absorption products, with which the absorption performance of the absorption product can be observed under the conditions of the control materials, the temperature and the flow rate. And the experimental unit is easy to use, which considerably reduces the time spent in operation.

Technical solution

To solve the above problems, the utility model provides a multifunctional absorption performance tester for absorption products. It contains a base, a holder and a specimen. A holder is arranged on the top of the base. The holder is provided with a liquid storage device. A fastening device is arranged on the base.

The liquid storage device includes a liquid storage tank, an inlet pipe, an outlet pipe, a flow control valve, a shunt plate, a through hole, a connecting pipe, and a shunt pipe. The liquid storage tank passes through the top of the bracket and the inlet tube is located at the inlet on the top of the liquid storage tank. A connecting pipe is arranged at the outlet at the bottom of the liquid storage tank. The outlet end of the connecting pipe is connected to the inlet end of the top of the shunt pipe. The bottom of the shunt pipe is provided with several groups of openings at the same distance. There are several groups of outlet pipes arranged side by side, and the inlet ends of the outlet pipes are each connected to the openings at the bottom of the bypass pipes. The outlet end of the outlet pipe is connected to the inlet end at the top of the shunt plate. Several groups of through holes are evenly arranged on the bottom surface of the shunt plate. A flow control valve is arranged on the outlet pipe.

The fastening device comprises a boom, a support plate, a boundary plate, a slide rod, a spring, a connecting plate, a pressure plate and a connecting tube. Four groups of brackets are arranged at the same distance on the base. A carrier plate is arranged between the brackets. Several groups of rectangular sample placement grooves are arranged at the same distance on the carrier plate. The specimen is in the specimen placement groove. The side wall of the boom ( 11 ) is each with a connecting ear ( 21 ) Mistake. The lower end of the slide rod passes through the connecting pipe and is slidably connected to the connecting pipe. The lower end of the slide rod is connected to the boundary plate. A spring is arranged on the slide rod. One end of the spring is connected to the connecting ear. The other end of the spring is connected to the boundary plate. The lower end of the slide rod is arranged on both sides of the bottom surface of the connecting plate. Pressure plates are arranged at the same distance on the bottom surface of the connecting plate.

The holder advantageously has a U-shaped structure.

A heating coil is advantageously wound in the liquid storage tank and a temperature sensor is installed on the liquid storage tank and the temperature sensor is electrically connected to the heating coil.

A rubber friction pad is advantageously arranged on the bottom surface of the sample placement groove and the pressure plate in the carrier plate.

The structure size of the shunt plate advantageously matches the sample placement groove.

The number of shunt plates advantageously corresponds to the number of sample placement grooves in succession and the shunt plate is located directly above the sample placement groove.

The structure size of the pressure plate advantageously matches the sample placement groove.

The above technical solution of the utility model has the following advantageous technical effects: When used, the absorption product is first processed into a sample body with the same shape and size as the sample placement groove. Then pull the connection plate upwards so that the spring is in the pressure device and place a group of test specimens in the sample placement groove one after the other. and release the external force on the connecting plate so that it is subjected to the spring force of the spring and clamp the pressure plate firmly in the sample placement groove. By adjusting the flow control valve on the outlet pipe, the flow rate of each outlet pipe is different in order to observe the influence of the different flow rate on the absorption performance of absorption products. The absorbent products made of different materials are first processed into the specimen with the same shape and size as the specimen placement groove. The same principle applies to the base plate. The influence of different materials on the absorption performance of absorption products at the same flow rate is controlled by the flow control valve. This test device is therefore easy to use and improves the test speed considerably.

list of figures

• 1 is a schematic diagram of a multifunctional absorption performance tester for absorption products according to the present utility model.
• 2 Fig. 4 is a schematic diagram of the liquid storage tank in a multifunctional absorption performance tester for absorption products according to the present invention.
• 3 is a side view of a multifunctional absorption performance tester for absorption products according to the present utility model.

Number in the figures means:

1.Socket. 2. Bracket. 3. Liquid storage tank. 4. Inlet pipe. 5. heating coil. 6. Temperature sensor. 7. Outlet pipe. 8. Flow control valve. 9. Shunt plate. 10. Through hole. 11. Outrigger. 12. Carrier plate. 13. Boundary plate. 14. Slide bar. 15. Feather. 16. Connection plate. 17. Specimen. 18. Connecting pipe. 19. Shunt tube. 20. Pressure plate. 21 connecting ear.

Ausftihrungsbeispiele

In order to clarify the purpose, the technical solution and the advantages of the present utility model, the utility model will be described in detail based on the specific embodiments and with reference to the figures as follows. It is understood that these descriptions are for illustration only and do not limit the scope of the utility model. In addition, the description of the known structure and technology is omitted in the following description in order to avoid unnecessarily confusing the concept of the utility model.

As in 1-3 shown, the utility model offers a multifunctional absorption performance tester for absorption products. It includes a base 1 , a bracket 2 and a specimen 17 , On the top of the base 1 is a bracket 2 arranged. The bracket 2 is equipped with a liquid storage device. On the base 1 a fastening device is arranged.

The liquid storage device includes a liquid storage tank 3 , an inlet pipe 4 , an outlet pipe 7 , a flow control valve 8th , a shunt plate 9 , a through hole 10 , a connecting pipe 18 and a shunt pipe 19 , The liquid storage tank 3 runs through the top of the bracket 2 , and the inlet pipe 4 is at the inlet on the top of the liquid storage tank 3 arranged. At the outlet at the bottom of the liquid storage tank 3 is a connecting pipe 18 arranged. The inlet end of the connecting pipe 18 is with the inlet end of the top of the shunt tube 9 connected. The bottom of the shunt pipe 9 is provided with several groups of openings at the same distance. There are several groups of outlet pipes 7 , which are arranged side by side, and the inlet ends of the outlet pipes 7 are each with the openings at the bottom of the shunt pipes 9 connected. The outlet end of the outlet pipe ( 7 ) is with the inlet end at the top of the shunt plate ( 9 ) connected. Multiple groups of through holes 10 are even on the bottom surface of the shunt plate 9 arranged. A flow control valve 8th is on the outlet pipe 7 arranged.

The fastening device comprises a boom 11 , a pallet 12 , a boundary plate 13 , a slide rod 14 , a feather 15 , a connecting plate 16 , a printing plate 20 and a connecting ear 21 , On the base 1 are four groups of booms 11 arranged at the same distance. A carrier plate 12 is between the outriggers 11 arranged. On the carrier plate 12 multiple groups of rectangular sample placement grooves are equally spaced. The specimen 17 is in the sample placement groove. The side wall of the boom 11 is each with connecting ear 21 Mistake. The lower end of the slide bar 14 runs through the connecting ear 21 and is slidable with the connecting ear 21 connected. The lower end of the slide bar 14 is with the boundary plate 13 connected. On the slide bar 14 is a feather 15 arranged. One end of the feather 15 is with the connecting ear 21 connected. The other end of the spring 15 is with the boundary plate 13 connected. The lower end of the slide bar 14 is on both sides of the bottom surface of the connecting plate 16 arranged. On the bottom surface of the connection plate 16 are printing plates 20 arranged at the same distance.

When used in the present utility model, the absorption product is first processed into a specimen with the same shape and size as the specimen placement groove. Then pull the connector plate 16 up so that the spring 15 in the printing device, and place a group of test specimens one after the other 17 into the sample placement groove. and release the external force on the connecting plate 16 so that the spring force of the spring 15 exposed and clamp the pressure plate 20 firmly in the sample placement groove. By adjusting the flow control valve 8th on the outlet pipe 7 is the flow rate of each outlet pipe 7 different to observe the influence of the different flow rate on the absorption performance of absorption products. The absorption products made of different materials become the specimen first 17 processed with the same shape and size as the sample placement groove. The same principle applies to the carrier plate 12 set. The flow control valve influences the influence of different materials on the absorption performance of absorption products at the same flow rate 8th controlled. This test device is therefore easy to use and improves the test speed considerably.

In an optional embodiment, the bracket 2 a U-shaped structure.

In an optional embodiment is a heating coil 5 into the liquid storage tank 3 wrapped and a temperature sensor 6 is on the liquid storage tank 3 Installed. The temperature sensor 6 is electrical with the heating coil 6 connected. By heating the liquid in the liquid storage tank 3 the influence of temperature on the absorption performance of absorption products can be checked.

In an optional embodiment, a rubber friction pad is on the bottom surface of the sample placement groove and the pressure plate, respectively 20 in the carrier plate 12 arranged.

In an optional embodiment, the structure size of the shunt plate fits 9 to the sample placement groove.

In an optional embodiment, the number of shunt plates corresponds 9 the number of sample placement grooves in succession and the shunt plate 9 is located directly above the sample placement groove.

In an optional embodiment, the structure size of the printing plate fits 20 to the sample placement groove.

It is understood that the above specific embodiments of the utility model are used only to illustrate or explain the principle of the utility model and do not constitute a limitation of the utility model. The changes, equivalent replacements, improvements, etc. that are made without departing from the spirit and scope of the utility model should therefore be included in the scope of protection of the utility model. In addition, the appended claims of the utility model are intended to cover all changes and modifications that fall within the scope and the limit of the appended claims or the equivalent form of such a scope and such a limit.

Claims (7)

A multifunctional absorption performance testing device for absorption products is characterized in that it comprises a base (1), a holder (2) and a sample body (17). A holder (2) is arranged on the top of the base (1). The holder (2) is provided with a liquid storage device. A fastening device is arranged on the base (1). The liquid storage device comprises a liquid storage tank (3), an inlet pipe (4), an outlet pipe (7), a flow control valve (8), a shunt plate (9), a through hole (10), a connecting pipe (18) and a shunt pipe (19) , The liquid storage tank (3) runs through the top of the holder (2), and the inlet pipe (4) is arranged at the inlet on the top of the liquid storage tank (3). A connecting pipe (18) is arranged at the outlet of the bottom of the liquid storage tank (3). The inlet end of the connecting pipe (18) is connected to the inlet end of the top of the shunt pipe (9). The bottom of the shunt tube (9) is provided with several groups of openings at the same distance. There are several groups of outlet pipes (7), which are arranged side by side, and Inlet ends of the outlet pipes (7) are each connected to the openings on the bottom of the shunt pipes (9). The outlet end of the outlet pipe (7) is connected to the inlet end at the top of the shunt plate (9). Several groups of through holes (10) are evenly arranged on the bottom surface of the shunt plate (9). A flow control valve (8) is arranged on the outlet pipe (7). The fastening device comprises a bracket (11), a carrier plate (12), a limiting plate (13), a slide rod (14), a spring (15), a connecting plate (16), a pressure plate (20) and a connecting tube (21) , Four groups of brackets (11) are arranged at the same distance on the base (1). A carrier plate (12) is arranged between the arms (11). Several groups of rectangular sample placement grooves are arranged at the same distance on the carrier plate (12). The sample body (17) is located in the sample placement groove. The side wall of the boom (11) is provided with a connecting tube (21). The lower end of the slide rod (14) runs through the connecting pipe (21) and is slidably connected to the connecting pipe (21). The lower end of the slide rod (14) is connected to the limiting plate (13). A spring (15) is arranged on the slide rod (14). One end of the spring (15) is connected to the connecting tube (21). The other end of the spring (15) is connected to the limiting plate (13). The lower end of the slide rod (14) is arranged on both sides of the bottom surface of the connecting plate (16). Pressure plates (20) are arranged at the same distance on the bottom surface of the connecting plate (16). A multifunctional absorption performance tester for absorption products Claim 1 characterized in that the holder (2) has a U-shaped structure. A multifunctional absorption performance tester for absorption products Claim 1 characterized in that a heating coil (5) is wound in the liquid storage tank (3) and a temperature sensor (6) is installed on the liquid storage tank (3) and the temperature sensor (6) is electrically connected to the heating coil (6). A multifunctional absorption performance tester for absorption products Claim 1 characterized in that a rubber friction pad is arranged on the bottom surface of the sample placement groove and the pressure plate (20) in the carrier plate (12). A multifunctional absorption performance tester for absorption products Claim 1 characterized in that the feature size of the shunt plate (9) matches the sample placement groove. A multifunctional absorption performance tester for absorption products Claim 1 characterized in that the number of shunt plates (9) corresponds to the number of sample placement grooves in succession and the shunt plate (9) is located directly above the sample placement groove. A multifunctional absorption performance tester for absorption products Claim 1 characterized in that the structure size of the pressure plate (20) matches the sample placement groove.

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