CN112938880A - Accurate output medical metering container with shock pad - Google Patents

Abstract

The invention relates to a medical metering container with a shock pad for accurate output, which comprises a container, wherein the top of the container is provided with a charging hole, the inner wall of the container is provided with scales, and the bottom of the container is provided with a flow pump; the bottom of the container is also provided with a gasket for damping vibration; the gasket comprises an upper silica gel layer, a flexible sponge layer and a lower silica gel layer which are sequentially connected from top to bottom; a first layer of thermoplastic polyurethane elastic particles is filled between the upper silica gel layer and the flexible sponge layer; a second layer of thermoplastic polyurethane elastic particles is arranged in the middle of the flexible sponge layer; a third layer of thermoplastic polyurethane elastic particles is filled between the flexible sponge layer and the lower silica gel layer; the first layer of thermoplastic polyurethane elastic particles, the second layer of thermoplastic polyurethane elastic particles and the third layer of thermoplastic polyurethane elastic particles are provided with a connecting frame.

Description

Accurate output medical metering container with shock pad

Technical Field

The invention relates to a metering container, in particular to a medical metering container with a shock pad for accurate output.

Background

In hospitals, a particular patient requires strict control of the daily intake of water, typically through a fixed reservoir as the patient's water supply, but the existing reservoir temperature is typically not precisely controlled. Patient can oneself add water and go into, can cause a condition like this, because initial water yield is that the nurse adds, because later stage patient also can add water, will cause the nurse to carry out strict measurement to the water yield of adding into.

Disclosure of Invention

In order to solve the technical problems, the invention aims to provide a precise output medical metering container with a shock pad.

The technical scheme of the invention is as follows:

the utility model provides a medical measurement container of accurate output with shock pad which characterized in that: the liquid filling device comprises a container (100), wherein a feeding hole (1) is formed in the top of the container (100), scales (4) are arranged on the inner wall of the container, a flow pump (5) is arranged at the bottom of the container, and the flow pump (5) is used for inputting liquid in the container (100) to the outside;

the bottom of the container (100) is also connected with a gasket for damping through glue;

the gasket comprises an upper silica gel layer (601), a flexible sponge layer (602) and a lower silica gel layer (603) which are sequentially connected from top to bottom; a first layer of thermoplastic polyurethane elastic particles (604) is filled between the upper silica gel layer (601) and the flexible sponge layer (602), and half of the first layer of thermoplastic polyurethane elastic particles (604) is positioned in the upper silica gel pad (601) and the other half is positioned in the flexible sponge layer (602);

a second layer of thermoplastic polyurethane elastic particles (604) is arranged in the middle of the flexible sponge layer (602);

a third layer of thermoplastic polyurethane elastic particles (604) is filled between the flexible sponge layer (602) and the lower silica gel layer (603), and half of the third layer of thermoplastic polyurethane elastic particles (604) is positioned in the flexible sponge layer (602) and the other half is positioned in the lower silica gel layer (603);

the first layer of thermoplastic polyurethane elastic particles (604), the second layer of thermoplastic polyurethane elastic particles (604) and the third layer of thermoplastic polyurethane elastic particles (604) are provided with a connecting frame.

Further, the connecting frame comprises three transverse connecting rods (605) arranged transversely and a plurality of vertical connecting rods (606); the three transverse connecting rods (605) respectively penetrate through the centers of the first layer of thermoplastic polyurethane elastic particles (604), the second layer of thermoplastic polyurethane elastic particles (604) and the third layer of thermoplastic polyurethane elastic particles (604) and are connected in series with each other; the vertical connecting rods (606) are vertically connected to three transverse connecting rods (605) which are transversely arranged and are positioned between two adjacent thermoplastic polyurethane elastic particles (604) in each layer.

Furthermore, a blocking device is arranged in the container (100) and is positioned below the charging opening (1), the blocking device comprises a first arc-shaped plate (2) positioned on one side surface in the container (100) and a second arc-shaped plate (3) positioned on the opposite side surface, and the second arc-shaped plate (3) is positioned below the first arc-shaped plate (2);

a vertically arranged blocking plate (21) is arranged at the end part of the first arc-shaped plate (2), a rotating shaft (22) is arranged at one end, located on the blocking plate (21), of the first arc-shaped plate (2), a rotating plate (23) is arranged below the rotating shaft (22), and a rubber pad (24) is arranged below the rotating plate (23); when the rotating shaft (22) is positioned in the vertical device, the bottom of the rubber pad (24) is tightly attached to the upper part of the second arc-shaped plate (3).

Further, the bottom of the lower silica gel layer (603) is also provided with a plurality of arc-shaped concaves (6031).

Further, the preparation method of the gasket comprises the following steps:

s1, preparing an upper silica gel layer (601), cutting the upper silica gel layer (601) into a sheet shape, and hollowing the lower part of the upper silica gel layer (601) to form a plurality of hemispherical grooves;

s2, preparing flexible sponge (602), cutting the flexible sponge (602) into two layers of sheets, and hollowing the upper and lower surfaces of the two layers of flexible sponge (602) to form three layers of hemispherical grooves arranged at intervals;

s3, placing thermoplastic polyurethane elastic particles (604) into grooves of flexible sponges (602), stringing three layers of thermoplastic polyurethane elastic particles (604) by three transverse connecting rods (605), vertically sticking the transverse connecting rods (605) connected between every two adjacent layers of thermoplastic polyurethane elastic particles (604) by vertical connecting rods (606) through glue, and finally sticking the two layers of flexible sponges (602) through the glue;

s4, putting the thermoplastic polyurethane elastic particles (604) into the upper silica gel layer (601), and adhering and connecting the upper silica gel layer (601) to the upper part of the flexible sponge (602) through glue;

s5, preparing a lower silica gel layer (603), cutting the lower silica gel layer (603) into a sheet shape, and hollowing the upper part of the lower silica gel layer (603) to form a plurality of hemispherical grooves;

s6, adhering and connecting the lower silica gel layer (603) to the lower part of the flexible sponge (602) through glue;

s7, hollowing a plurality of arc-shaped concave recesses (6031) arranged at intervals on the lower part of the lower silica gel layer (603).

Further, the thickness of the upper silica gel layer is 10mm, the thickness of the flexible sponge is 20-30mm, the thickness of the lower silica gel layer is 10mm, and the diameter of the thermoplastic polyurethane elastic particles is 8 mm.

By the scheme, the invention at least has the following advantages:

the invention can accurately measure through the flow pump at the lower part, and can completely prevent water from flowing out of the upper part through the blocking device arranged at the upper part, so that the water can only flow out through the flow pump at the lower part;

the shock pad has been set up to this device bottom, can alleviate the vibration that the operation of unrestrained pump brought, when guaranteeing the operation, can see the liquid level decline that the scale brought clearly through the naked eye.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to implement them in accordance with the contents of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate a certain embodiment of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view taken at A of FIG. 1 in accordance with the present invention;

FIG. 3 is a schematic view of the construction of the gasket of the present invention;

in the figure:

100-a container;

1-a feed inlet;

2-a first arc plate; 21-a barrier plate; 22-a rotating shaft; 23-a rotating plate; 24-rubber pad;

3-a second arc plate;

4-graduation;

5-a flow pump;

6-a shock pad; 601-applying a silica gel layer; 602-a flexible sponge layer; 603-lower silica gel layer; 6031-arc concave; 604-thermoplastic polyurethane elastomer particles; 605-transverse connecting rod; 606-vertical connecting rods.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Referring to fig. 1-3, a precise output medical metering container with a shock-absorbing pad according to a preferred embodiment of the present invention comprises a container 100, wherein a charging opening 1 is arranged at the top of the container 100, scales 4 are arranged on the inner wall of the container, a flow pump 5 is arranged at the bottom of the container, and the flow pump 5 is used for inputting liquid inside the container 100 to the outside.

The bottom of the container 100 is also connected with a gasket for damping vibration through glue;

the gasket comprises an upper silica gel layer 601, a flexible sponge layer 602 and a lower silica gel layer 603 which are sequentially connected from top to bottom; a first layer of thermoplastic polyurethane elastic particles 604 is filled between the upper silica gel layer 601 and the flexible sponge layer 602, and half of the first layer of thermoplastic polyurethane elastic particles 604 is positioned in the upper silica gel pad 601 and the other half is positioned in the flexible sponge layer 602;

a second layer of thermoplastic polyurethane elastic particles 604 is arranged in the middle of the flexible sponge layer 602;

a third layer of thermoplastic polyurethane elastic particles 604 is filled between the flexible sponge layer 602 and the lower silica gel layer 603, and half of the third layer of thermoplastic polyurethane elastic particles 604 is positioned in the flexible sponge layer 602, and the other half is positioned in the lower silica gel layer 603;

the first layer of thermoplastic polyurethane elastic particles 604, the second layer of thermoplastic polyurethane elastic particles 604 and the third layer of thermoplastic polyurethane elastic particles 604 are provided with a connecting frame.

The connection frame comprises three transversely arranged transverse connection bars 605, and a plurality of vertical connection bars 606; the three transverse connecting rods 605 respectively penetrate through the centers of the first layer of thermoplastic polyurethane elastic particles 604, the second layer of thermoplastic polyurethane elastic particles 604 and the third layer of thermoplastic polyurethane elastic particles 604 and are connected in series with each other; the vertical connecting rods 606 are vertically connected to three transverse connecting rods 605 arranged transversely, and are located between two adjacent thermoplastic polyurethane elastic particles 604 in each layer.

The container 100 is further provided with a blocking device inside and below the charging opening 1, the blocking device comprises a first arc-shaped plate 2 at one side and a second arc-shaped plate 3 at the opposite side in the container 100, and the second arc-shaped plate 3 is positioned below the first arc-shaped plate 2;

a vertically arranged barrier plate 21 is arranged at the end part of the first arc-shaped plate 2, a rotating shaft 22 is arranged at one end, located on the barrier plate 21, of the first arc-shaped plate 2, a rotating plate 23 is arranged below the rotating shaft 22, and a rubber pad 24 is arranged below the rotating plate 23; when the rotating shaft 22 is positioned in a vertical device, the bottom of the rubber pad 24 is tightly attached to the upper part of the second arc-shaped plate 3.

The bottom of the lower silicone layer 603 is further provided with a plurality of arc-shaped indentations 6031.

-the method of making the gasket is:

s1, preparing an upper silica gel layer 601, cutting the upper silica gel layer 601 into a sheet shape, and hollowing the lower part of the upper silica gel layer 601 to form a plurality of hemispherical grooves;

s2, preparing flexible sponge 602, cutting the flexible sponge 602 into two layers of sheets, and hollowing the upper and lower surfaces of the two layers of flexible sponge 602 to form three layers of hemispherical grooves arranged at intervals;

s3, placing the thermoplastic polyurethane elastic particles 604 into the grooves of the flexible sponge 602, stringing the three layers of thermoplastic polyurethane elastic particles 604 by using three transverse connecting rods 605, vertically sticking the transverse connecting rods 605 connected between every two adjacent layers of thermoplastic polyurethane elastic particles 604 by using vertical connecting rods 606 through glue, and finally sticking and connecting the two layers of flexible sponge 602 through the glue;

s4, placing the thermoplastic polyurethane elastic particles 604 into the upper silica gel layer 601, and adhering the upper silica gel layer 601 to the upper part of the flexible sponge 602 through glue;

s5, preparing a lower silica gel layer 603, cutting the lower silica gel layer 603 into a sheet shape, and hollowing the upper part of the lower silica gel layer 603 to form a plurality of hemispherical grooves;

s6, adhering and connecting the lower silica gel layer 603 to the lower part of the flexible sponge 602 through glue;

s7, hollowing out a plurality of arc-shaped concaves 6031 arranged at intervals on the lower part of the lower silicone layer 603.

The thickness of the upper silica gel layer is 10mm, the thickness of the flexible sponge is 20-30mm, the thickness of the lower silica gel layer is 10mm, and the diameter of the thermoplastic polyurethane elastic particles is 8 mm.

The device also comprises a circuit system connected to the flow pump, which is of common knowledge and not essential to the protection of this patent and therefore not described here.

By the scheme, the invention at least has the following advantages:

the invention can accurately measure through the flow pump at the lower part, and can completely prevent water from flowing out of the upper part through the blocking device arranged at the upper part, so that the water can only flow out through the flow pump at the lower part;

the shock pad has been set up to this device bottom, can alleviate the vibration that the operation of unrestrained pump brought, when guaranteeing the operation, can see the liquid level decline that the scale brought clearly through the naked eye.

The technical principle of the device is as follows:

the feed inlet is used for adding water, and water pushes away rotating plate and rubber pad and enters into the container after passing through first arc, imports water to the outside through the flow pump.

The rotation of the rotating plate is blocked by the blocking plate, so that the backflow can be prevented everywhere;

the gasket of bottom can play the effect of damping, and the three-layer thermoplastic polyurethane elastic particle that the centre set up has adopted the connecting rod of silica gel material to connect and has formed, is equivalent to using as inside frame usefulness, has solved the not problem that is squashed easily inadequately of single sponge elasticity dynamics of using.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, it should be noted that, for those skilled in the art, many modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (6)

1. The utility model provides a medical measurement container of accurate output with shock pad which characterized in that: the liquid filling device comprises a container (100), wherein a feeding hole (1) is formed in the top of the container (100), scales (4) are arranged on the inner wall of the container, a flow pump (5) is arranged at the bottom of the container, and the flow pump (5) is used for inputting liquid in the container (100) to the outside;

the bottom of the container (100) is also connected with a gasket for damping through glue;

the gasket comprises an upper silica gel layer (601), a flexible sponge layer (602) and a lower silica gel layer (603) which are sequentially connected from top to bottom; a first layer of thermoplastic polyurethane elastic particles (604) is filled between the upper silica gel layer (601) and the flexible sponge layer (602), and half of the first layer of thermoplastic polyurethane elastic particles (604) is positioned in the upper silica gel pad (601) and the other half is positioned in the flexible sponge layer (602);

a second layer of thermoplastic polyurethane elastic particles (604) is arranged in the middle of the flexible sponge layer (602);

a third layer of thermoplastic polyurethane elastic particles (604) is filled between the flexible sponge layer (602) and the lower silica gel layer (603), and half of the third layer of thermoplastic polyurethane elastic particles (604) is positioned in the flexible sponge layer (602) and the other half is positioned in the lower silica gel layer (603);

the first layer of thermoplastic polyurethane elastic particles (604), the second layer of thermoplastic polyurethane elastic particles (604) and the third layer of thermoplastic polyurethane elastic particles (604) are provided with a connecting frame.

2. A precision output medical metering container with a shock absorbing pad as claimed in claim 1, wherein: the connecting frame comprises three transverse connecting rods (605) which are transversely arranged and a plurality of vertical connecting rods (606); the three transverse connecting rods (605) respectively penetrate through the centers of the first layer of thermoplastic polyurethane elastic particles (604), the second layer of thermoplastic polyurethane elastic particles (604) and the third layer of thermoplastic polyurethane elastic particles (604) and are connected in series with each other; the vertical connecting rods (606) are vertically connected to three transverse connecting rods (605) which are transversely arranged and are positioned between two adjacent thermoplastic polyurethane elastic particles (604) in each layer.

3. A precision output medical metering container with a shock absorbing pad as claimed in claim 2, wherein: a blocking device is further arranged in the container (100) and below the charging opening (1), the blocking device comprises a first arc-shaped plate (2) on one side surface and a second arc-shaped plate (3) on the opposite side surface, the first arc-shaped plate (2) is positioned in the container (100), and the second arc-shaped plate (3) is positioned below the first arc-shaped plate (2);

a vertically arranged blocking plate (21) is arranged at the end part of the first arc-shaped plate (2), a rotating shaft (22) is arranged at one end, located on the blocking plate (21), of the first arc-shaped plate (2), a rotating plate (23) is arranged below the rotating shaft (22), and a rubber pad (24) is arranged below the rotating plate (23); when the rotating shaft (22) is positioned in the vertical device, the bottom of the rubber pad (24) is tightly attached to the upper part of the second arc-shaped plate (3).

4. A precision output medical metering container with a shock absorbing pad as claimed in claim 3, wherein: the bottom of lower silica gel layer (603) still is provided with a plurality of arc indent (6031).

5. The precise output medical metering container with the shock absorbing pad as set forth in claim 2, wherein the gasket is prepared by:

s1, preparing an upper silica gel layer (601), cutting the upper silica gel layer (601) into a sheet shape, and hollowing the lower part of the upper silica gel layer (601) to form a plurality of hemispherical grooves;

s2, preparing flexible sponge (602), cutting the flexible sponge (602) into two layers of sheets, and hollowing the upper and lower surfaces of the two layers of flexible sponge (602) to form three layers of hemispherical grooves arranged at intervals;

s3, placing thermoplastic polyurethane elastic particles (604) into grooves of flexible sponges (602), stringing three layers of thermoplastic polyurethane elastic particles (604) by three transverse connecting rods (605), vertically sticking the transverse connecting rods (605) connected between every two adjacent layers of thermoplastic polyurethane elastic particles (604) by vertical connecting rods (606) through glue, and finally sticking the two layers of flexible sponges (602) through the glue;

s4, putting the thermoplastic polyurethane elastic particles (604) into the upper silica gel layer (601), and adhering and connecting the upper silica gel layer (601) to the upper part of the flexible sponge (602) through glue;

s5, preparing a lower silica gel layer (603), cutting the lower silica gel layer (603) into a sheet shape, and hollowing the upper part of the lower silica gel layer (603) to form a plurality of hemispherical grooves;

s6, adhering and connecting the lower silica gel layer (603) to the lower part of the flexible sponge (602) through glue;

s7, hollowing a plurality of arc-shaped concave recesses (6031) arranged at intervals on the lower part of the lower silica gel layer (603).

6. A precision output medical metering container with a shock absorbing pad as claimed in claim 5, wherein: the thickness of the upper silica gel layer is 10mm, the thickness of the flexible sponge is 20-30mm, the thickness of the lower silica gel layer is 10mm, and the diameter of the thermoplastic polyurethane elastic particles is 8 mm.

Images