CN212816532U - Containing box capable of automatically discharging pressure pulse belt - Google Patents

Abstract

The utility model relates to the field of medical equipment, in particular to a containing box capable of automatically discharging pressure pulse bands, which comprises a shell, two motorized pulleys, a roller switch and a cover body, wherein the shell comprises a band storage cavity and a band taking cavity, a band loading port communicated with the outer part of the shell is arranged above the band storage cavity, the horizontal section of any horizontal height of the band storage cavity is rectangular, the lower part of the band storage cavity is communicated with the band taking cavity, and a band taking port communicated with the outer part of the shell is arranged at the side end of the band taking cavity; the two electric rollers are respectively rotatably arranged at the communication part of the belt storage cavity and the belt taking cavity, the distance between the two electric rollers is smaller than the diameter of the tourniquet belt, the distance between the circumferential surface of the electric roller and the inner wall of the shell is smaller than the diameter of the tourniquet belt, the roller switch is arranged outside the shell, and the two electric rollers are respectively connected with the roller switch and an external power supply in series; the cover body is rotatably connected with the shell body so as to open or close the tape loading opening. The utility model discloses can reduce the pollution in pressure arteries and veins area, make things convenient for the dress in pressure arteries and veins area to get, and convenient to carry can patrol the room along with the treatment car and use.

Description

Containing box capable of automatically discharging pressure pulse belt

[ technical field ] A method for producing a semiconductor device

The utility model relates to the field of medical equipment, in particular to an automatic go out and press holding box in arteries and veins area.

[ background of the invention ]

The tourniquet commonly used in hospitals at present is a hollow cylindrical band-shaped object made of rubber, and is commonly used in the processes of blood drawing, intravenous injection, hemostasis and the like; when in intravenous injection or blood drawing, the tourniquet is bound on the arm and the leg of a physical examiner, so that the vein is clearer, and the blood taking needle or the indwelling needle can be inserted into the vein vessel conveniently; when stopping bleeding, the tourniquet is tied on the corresponding affected part to press the artery and reduce the blood outflow. At present, the tourniquet is generally used again after being subjected to centralized disinfection treatment after being used, and the disinfected tourniquets are generally distributed to various departments in bundles for use; the ordinary box is inconvenient to take and use the tourniquet, the cover needs to be repeatedly opened and closed every time the tourniquet is taken and opened, and external pollutants are easy to fall into the box to pollute the tourniquet when the cover is opened and closed frequently; in order to take and use conveniently, the tourniquet can be randomly placed on a treatment vehicle or a treatment table, and the sanitary condition is not optimistic; in order to solve the problems, the Chinese utility model with the authorization notice number of CN 205441274U provides a box for storing and taking tubular articles, which can be used for storing and taking tourniquet belts, but the tourniquet belts are rubber products, and have the characteristics of larger adhesion and smaller density, if the export is smaller, the tourniquet belts are easy to be blocked above the export by the mutual adhesion and the friction force and are difficult to be taken out, and if the export is larger, a plurality of tourniquets are easy to fall off simultaneously, thereby causing unnecessary troubles.

[ Utility model ] content

In order to solve the problem, the utility model provides an automatic go out containing box of pressure arteries and veins area can reduce the pollution of pressing arteries and veins area, makes things convenient for the dress of pressing arteries and veins area to get.

In order to achieve the above purpose, the utility model adopts the technical proposal that:

a containing box capable of automatically discharging a tourniquet belt comprises a shell, two electric rollers, a roller switch and a cover body, wherein the shell comprises a belt storage cavity and a belt taking cavity, a belt loading port communicated with the outside of the shell is formed above the belt storage cavity, the horizontal section of any horizontal height of the belt storage cavity is rectangular, the length of all the sections is the same and is larger than that of the tourniquet belt, the lower part of the belt storage cavity is communicated with the belt taking cavity, the lower bottom surface of the belt storage cavity is an inclined surface inclined downwards from a position far away from the communication position to the communication position, and a belt taking port communicated with the outside of the shell is formed in the side end of the belt taking cavity; the two electric rollers are respectively rotatably arranged at the communication part of the belt storage cavity and the belt taking cavity, the length directions of the two electric rollers are parallel to the length direction of the belt storage cavity, the rotating axes of the two electric rollers are respectively superposed with the respective axes of the two electric rollers, the rotating directions of the tops of the two electric rollers are both directed to the side where the other electric roller is positioned, the distance between the two electric rollers is smaller than the diameter of the pulse pressing belt, the distance between the circumferential surface of the electric roller and the inner wall of the shell is smaller than the diameter of the pulse pressing belt, the roller switch is arranged on the outer side of the shell, and the two electric rollers are respectively; the cover body is rotatably connected with the shell body so as to open or close the tape loading opening.

Preferably, the roller switch is a press switch, the roller switch is arranged at the upper end of the shell, and the roller switch and the belt taking port are located on the same side of the shell.

Preferably, soft rubber granules which are arranged at intervals are fixedly arranged on the circumferential surfaces of the two electric rollers.

Preferably, the inner wall of the reservoir chamber is covered with polytetrafluoroethylene coating.

Preferably, the housing is made of a transparent material.

Preferably, the diameter of both motorized rollers is greater than three times the diameter of the tourniquet.

Preferably, the bottom of the shell is also provided with a non-slip mat.

Preferably, the electric gate and the gate switch are connected in series, the electric gate is installed on the shell, and the door body of the electric gate is connected with the shell in a sliding mode so as to close or open the belt taking port.

Preferably, the housing further comprises a power supply cavity, and the power supply cavity is arranged below the belt storage cavity; the power supply also comprises a built-in power supply which is arranged in the power supply cavity; the two electric rollers are respectively connected with the roller switch and the built-in power supply in series.

Preferably, the side surface of the belt taking cavity inclines towards the lower part of the belt taking port from the communication part of the belt storage cavity and the belt taking cavity, and the side surface is parallel to the length direction of the roller.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

the utility model can isolate the stored tourniquet belt from the external objects such as drawers, table boards or treatment vehicles, and when the tourniquet belt is not arranged, the cover body keeps a closed state, so that the cleanness of tubular objects can be kept, and the possibility of polluting the tourniquet belt is reduced; the utility model adopts the electric roller for active transmission, so that the situation that the tourniquet blocks the outlet or drops a plurality of tourniquets at one time due to self adhesion can not occur when the tourniquet is taken, and the tourniquet can be conveniently taken in the tourniquet taking cavity only by opening the roller switch; the utility model is convenient to carry and can be used together with the treatment vehicle.

[ description of the drawings ]

Fig. 1 is a schematic view of a containing box of an automatic pulse pressure belt according to an embodiment of the present invention.

Fig. 2 is a schematic view of a second embodiment of a containing box for an automatic pressure pulse belt according to an embodiment of the present invention.

Fig. 3 is a schematic view of a third embodiment of a containing box for an automatic tourniquet according to an embodiment of the present invention.

Fig. 4 is a schematic view of a fourth embodiment of a containing box for an automatic tourniquet according to an embodiment of the present invention.

Fig. 5 is a perspective cross-sectional view of a fourth embodiment of the container for an automatic tourniquet according to the embodiment of the present invention.

Wherein: 1-shell, 11-tape storage cavity, 111-tape loading port, 12-tape taking cavity, 121-tape taking port, 13-power supply cavity, 2-electric roller, 21-roller switch, 3-cover, 31-lug, 4-non-slip pad, 5-electric gate, 51-gate switch and 6-tourniquet.

[ detailed description ] embodiments

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The accompanying drawings are only for illustrative purposes and are only schematic drawings rather than actual drawings, which are not intended to limit the present disclosure, and in order to better illustrate the embodiments of the present disclosure, some components of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product.

Referring to fig. 1, in a preferred embodiment of the present invention, an automatic pressure pulse band placing box includes a housing 1, two electric rollers 21, a roller switch 21 and a cover 3, the housing 1 includes a band storing cavity 11 and a band taking cavity 12, a band placing opening 111 communicating with the outside of the housing 1 is disposed above the band storing cavity 11, the horizontal cross section of any horizontal height of the band storing cavity 11 is rectangular, and all the cross sections have the same length and are greater than the pressure pulse band 6, the lower side of the band storing cavity 11 is communicated with the band taking cavity 12, the lower bottom surface of the band storing cavity 11 is an inclined plane inclined downward from a position far away from the communicating position to the communicating position, and a band taking opening 121 communicating with the outside of the housing 1 is disposed at the side end of the band taking cavity 12; the two electric rollers 21 are respectively rotatably arranged at the communication part of the belt storage cavity 11 and the belt taking cavity 12, the length directions of the two electric rollers 21 are parallel to the length direction of the belt storage cavity 11, the rotating axes of the two electric rollers 21 are respectively superposed with the respective axes, the rotating directions of the tops of the two electric rollers 21 point to the side of the other electric roller 21, the distance between the two electric rollers 21 is smaller than the diameter of the pulse pressing belt 6, however, in order to prevent the tourniquet belt 6 from being excessively deformed to cause the two motorized rollers 21 to be stuck, preferably, the distance between the two motorized rollers 21 is greater than the radius of the tourniquet belt 6, the distance between the circumferential surface of the motorized roller 21 and the inner wall of the housing 1 is smaller than the diameter of the tourniquet belt 6, preferably, the distance between the circumferential surface of the motorized roller 21 and the inner wall of the housing 1 is smaller than the radius of the tourniquet belt 6, the roller switch 21 is arranged outside the housing 1, and the two motorized rollers 21 are respectively connected with the roller switch 21 and an external power supply in series; the cover 3 is rotatably connected to the case 1 to open or close the loading port 111.

In the embodiment, when the tourniquet is used, the cover body 3 is firstly opened, the disinfected tourniquet belt 6 is loaded into the belt storage cavity 11 from the belt loading opening 111, the length direction of the tourniquet belt 6 is parallel to the length direction of the electric roller 21, the tourniquet belt 6 is kept straight as much as possible when the tourniquet belt 6 is loaded, the tourniquet belt 6 is prevented from being bent as much as possible, the cover body 3 is closed after the tourniquet belt 6 is loaded, and when the tourniquet belt 6 is not loaded, the cover body 3 is kept in a closed state, so that the possibility of pollution of external pollutants to the tourniquet belt 6 in the belt storage cavity 11 is reduced; when the vein pressing belt 6 needs to be taken out, the roller switch 21 is turned on, the two electric rollers 21 rotate, the vein pressing belt 6 deforms and is clamped in a gap between the two electric rollers 21 through the adhesive force and the friction force between the rollers and the vein pressing belt 6, the vein pressing belt is transferred from the belt storage cavity 11 to the belt taking cavity 12 along with the rotation of the two electric rollers 21, in order to enable the vein pressing belt 6 to easily enter the gap between the two electric rollers 21, preferably, the diameters of the two electric rollers 21 are larger than three times of the diameter of the vein pressing belt 6, the vein pressing belt 6 is separated from the electric rollers 21 under the action of gravity after reaching the belt taking cavity 12 and finally falls to the bottom surface of the belt taking cavity 12, when the number of the vein pressing belts 6 falling into the belt taking cavity 12 reaches the actual required number, the roller switch 21 is turned off, the electric rollers 2 stop rotating, and the vein pressing belt 6 is taken out through the belt taking opening 121; the embodiment is convenient for storing and taking the tourniquet belt 6, the embodiment can enable the tourniquet belt 6 in storage to be isolated from external objects such as drawers, table tops or treatment vehicles, the cleanness of tubular objects can be kept, the possibility that the tourniquet belt 6 is polluted is reduced, the embodiment adopts the electric roller 2 for active transmission, the tourniquet belt 6 cannot block an outlet or fall off a plurality of times due to self adhesion when the tourniquet belt 6 is taken, and the tourniquet belt 6 can be taken conveniently in the taking chamber 12 only by opening the roller switch 21.

In order to facilitate the control of the roller switch 21, preferably, the roller switch 21 is a push switch, the roller switch 21 is arranged at the upper end of the housing 1, the roller switch 21 and the belt taking port 121 are positioned at the same side of the housing 1, when the tourniquet belt 6 is taken, the roller switch 21 is pushed to be opened, the tourniquet belt 6 falls into the belt taking cavity 12, and then the roller switch 21 is released, so that the tourniquet belt 6 can be taken out.

In order to enable the tourniquet belt 6 to be more smoothly clamped into the gap between the two electric rollers 21 and then be conveyed to the belt taking cavity 12, preferably, soft rubber granules are fixedly arranged on the circumferential surfaces of the two electric rollers 21 at intervals so as to increase the adhesive force and the friction force between the electric rollers 21 and the tourniquet belt 6 and reduce the situation that the tourniquet belt 6 slips above the rollers and is not easy to enter the gap between the two electric rollers 21.

Preferably, the inner wall of the belt storage cavity 11 is covered with polytetrafluoroethylene coating to reduce the adhesion and friction between the belt storage cavity 11 and the tourniquet belt 6, so that the tourniquet belt 6 can better move to the two motorized pulleys 21 along the inclined bottom surface of the belt storage cavity 11 under the action of gravity.

Preferably, the casing 1 is made of transparent material so as to observe the residual amount of the tourniquet 6 in the belt storage cavity 11 and the quantity of the tourniquets 6 falling into the belt taking cavity 12.

Preferably, a protrusion 31 is fixed on the end of the cover 33 opposite to the end connected to the housing 1, so as to provide a labor-saving point when opening the cover 33.

Preferably, the shell 1 is further provided with a non-slip mat 4, which increases the placing stability of the present embodiment.

Referring to fig. 2, on the basis of the above embodiment, in a second preferred embodiment, the device further includes an electric shutter 5 and a shutter switch 51, the electric shutter 5 and the shutter switch 51 are connected in series, the electric shutter 5 is installed on the housing 1, and a door body of the electric shutter 5 is slidably connected to the housing 1 to close or open the tape taking port 121.

In the embodiment, if the tourniquet 6 does not need to be taken for a long time, the gate switch 51 can be controlled to enable the electric gate 5 to move downwards to close the belt taking port 121, so that the contact between the tourniquet 6 and the outside is further reduced, and particularly in a humid environment, the tourniquet 6 is kept dry; when the tourniquet 6 is taken out, the gate switch 51 is controlled to open the electric gate 5, and then the roller switch 21 is controlled to take the tourniquet 6, so that when the tourniquet 6 is taken out frequently, the electric gate 5 does not need to be closed, and the electric gate 5 can be kept in a normally open state.

Referring to fig. 3, on the basis of the above embodiment, in the third preferred embodiment, the housing 1 further includes a power supply cavity 13, and the power supply cavity 13 is disposed below the tape storage cavity 11; the power supply also comprises a built-in power supply which is arranged in the power supply cavity 13; the two motorized drums 21 are connected in series with the drum switch 21 and the built-in power supply, respectively, and the motorized shutter 5 is connected in series with the shutter switch 51 and the built-in power supply.

In this embodiment, because of the built-in power supply, the two electric rollers 21 are respectively connected in series with the roller switch 21 and the built-in power supply, and the electric gate 5 is connected in series with the gate switch 51 and the built-in power supply, so that the embodiment does not need to search for an external power supply when in use, thereby reducing wiring troubles.

Referring to fig. 4 and 5, on the basis of the above embodiment, in the fourth preferred embodiment, the side surface of the belt taking cavity 12 is inclined from the connection position of the belt storage cavity 11 and the belt taking cavity 12 to the lower part of the belt taking port 121, and the side surface is the side surface parallel to the length direction of the roller; the inclined side surface of the belt taking cavity 12 enables the tourniquet 6 falling into the belt taking cavity 12 to roll down to a position closer to the belt taking opening 121, and further facilitates taking of the tourniquet 6.

The above description is for the detailed description of the preferred possible embodiments of the present invention, but the embodiments are not intended to limit the scope of the present invention, and all equivalent changes or modifications accomplished under the technical spirit suggested by the present invention should fall within the scope of the present invention.

Claims (10)

1. The utility model provides an automatic go out containing box of pressure arteries and veins area which characterized in that: the belt pressing device comprises a shell, two electric rollers, a roller switch and a cover body, wherein the shell comprises a belt storage cavity and a belt taking cavity, a belt loading port communicated with the outside of the shell is formed above the belt storage cavity, the horizontal section of any horizontal height of the belt storage cavity is rectangular, the length of all the sections is the same and is greater than that of a tourniquet belt, the lower part of the belt storage cavity is communicated with the belt taking cavity, the lower bottom surface of the belt storage cavity is an inclined surface inclined downwards from a position far away from the communication position to the communication position, and a belt taking port communicated with the outside of the shell is formed at the side end of the belt taking cavity; the two electric rollers are respectively rotatably arranged at the communication position of the belt storage cavity and the belt taking cavity, the length directions of the two electric rollers are parallel to the length direction of the belt storage cavity, the rotation axes of the two electric rollers are respectively superposed with the respective axes of the two electric rollers, the rotation directions of the tops of the two electric rollers point to the side of the other electric roller, the distance between the two electric rollers is smaller than the diameter of the pulse pressing belt, the distance between the circumferential surface of the electric roller and the inner wall of the shell is smaller than the diameter of the pulse pressing belt, the roller switch is arranged on the outer side of the shell, and the two electric rollers are respectively connected with the roller switch and an external power supply in series; the cover body is rotatably connected with the shell body so as to open or close the tape loading opening.

2. The automatic tourniquet container of claim 1, further comprising: the roller switch is a press switch, the roller switch is arranged at the upper end part of the shell, and the roller switch and the belt taking port are positioned on the same side of the shell.

3. The automatic tourniquet container of claim 1, further comprising: the circumferential surfaces of the two electric rollers are fixedly provided with soft rubber granules which are arranged at intervals.

4. The automatic tourniquet container of claim 1, further comprising: the inner wall of the storage belt cavity is covered with polytetrafluoroethylene coating.

5. The automatic tourniquet container of claim 1, further comprising: the shell is made of transparent materials.

6. The automatic tourniquet container of claim 1, further comprising: the diameters of the two electric rollers are larger than three times of the diameter of the pulse pressing belt.

7. The automatic tourniquet container of claim 1, further comprising: and the bottom of the shell is also provided with an anti-skid pad.

8. The automatic tourniquet container of claim 1, further comprising: still include electronic gate and gate switch, external power source establish ties, electronic gate is installed on the casing, the door body of electronic gate with casing sliding connection is in order to close or open get the area mouth.

9. The automatic tourniquet container of claim 1, further comprising: the shell further comprises a power supply cavity, and the power supply cavity is arranged below the tape storage cavity; the power supply also comprises a built-in power supply which is arranged in the power supply cavity; the two electric rollers are respectively connected with the roller switch and the built-in power supply in series.

10. The automatic tourniquet container of claim 1, further comprising: the side surface of the belt taking cavity inclines towards the lower part of the belt taking port from the communicating part of the belt storing cavity and the belt taking cavity, and the side surface is parallel to the length direction of the roller.

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