CN211485695U - Light-shading sleeve of infusion apparatus - Google Patents

Abstract

The utility model discloses a shading sleeve of an infusion apparatus. Belongs to the technical field of infusion shading auxiliary equipment, is convenient for shading a transparent infusion apparatus during infusion, and is easy for a user to know the liquid level height of infusion solution in an infusion bottle during use, and comprises an infusion bottle sleeve corresponding to the structure of the infusion apparatus and an infusion pipe sleeve connected with the infusion bottle sleeve; a drip cup sleeve and a regulator sleeve are respectively arranged on the infusion tube sleeve, and an infusion bottle observation window and a drip cup observation window are respectively arranged on the infusion bottle sleeve and the drip cup sleeve; the device also comprises a plastic transfusion hanging bottle sleeve of the transfusion net bag, an upper hook, a lower hook and a direct liquid level height observation mechanism, wherein the direct liquid level height observation mechanism comprises an insertion pipe, a connecting hose and a vertical glass pipe sealed at a lower pipe opening; the lower end of the side pipe wall of the vertical glass pipe is provided with a pipe wall hole communicated with the pipe cavity of the vertical glass pipe, and pipe orifices at two ends of the connecting hose are respectively in butt joint connection with the pipe wall hole of the vertical glass pipe and the lower pipe orifice of the inserting pipe.

Description

Light-shading sleeve of infusion apparatus

Technical Field

The utility model relates to an infusion shading auxiliary assembly technical field especially relates to an infusion set shading cover.

Background

The traditional infusion apparatus is made of transparent plastic aiming at common medicines, and medicines which are easy to decompose in the presence of light, such as a hypotensor sodium nitroprusside, are not suitable for application. In order to avoid the visible light decomposition of medicines, an opaque material is mostly adopted to carry out on-site packaging and shading on the infusion apparatus in clinic at present, and the effect is not reliable.

SUMMERY OF THE UTILITY MODEL

The utility model relates to a solve present transparent transfusion system and be used for seeing that there is not enough of special infusion shading auxiliary assembly when the readily degradable medicine of light is infused, provide one kind and be convenient for carry out the shading to transparent transfusion system when the infusion to the liquid level height of infusion solution in the infusion bottle is still easily known to the user when using, the effectual transfusion system shading cover of shading.

The technical problem is solved by the following technical scheme:

a shading sleeve of an infusion apparatus comprises an infusion bottle sleeve corresponding to the structure of the infusion apparatus and an infusion pipe sleeve connected with the infusion bottle sleeve; a drip cup sleeve and a regulator sleeve are respectively arranged on the infusion tube sleeve, and an infusion bottle observation window and a drip cup observation window are respectively arranged on the infusion bottle sleeve and the drip cup sleeve; the observation window is provided with a transfusion bottle sleeve window baffle and a drip cup sleeve window baffle through a bonding buckle; the window shield is made of shading cloth which is the same as the window shield, and a gap is arranged on the regulator sleeve; the whole structure is split, the back surface is split, the splicing buckle is arranged on the back surface, and the closed infusion set shading sleeve is formed after the splicing buckle is closed; the device also comprises a plastic transfusion hanging bottle sleeve of the transfusion net bag, an upper hook, a lower hook and a direct liquid level height observation mechanism, wherein the direct liquid level height observation mechanism comprises an insertion pipe, a connecting hose and a vertical glass pipe sealed at a lower pipe opening; the lower end of the side pipe wall of the vertical glass pipe is provided with a pipe wall hole communicated with the pipe cavity of the vertical glass pipe, and pipe orifices at two ends of the connecting hose are respectively connected with the pipe wall hole of the vertical glass pipe and the lower pipe orifice of the inserting pipe in a butt joint manner;

the outer surface of the connecting hose and the outer surface of the vertical glass tube are coated with shading coatings, and a cover is covered on the upper tube opening of the vertical glass tube; a hollow glass buoyancy ball is arranged in a tube cavity of the glass vertical tube, the upper surface of a glass rod is fixedly connected to the lower surface of the hollow glass buoyancy ball, the lower surface of the glass rod is fixedly connected with a solid glass gravity center ball, and the lower end surface of a vertical observation needle provided with a height measurement scale mark is fixedly connected to the upper surface of the hollow glass buoyancy ball; the center of the solid glass gravity center ball, the center line of the glass rod, the center of the hollow glass buoyancy ball and the center line of the vertical observation needle all fall on the same vertical line; the hollow glass buoyancy ball floats on the infusion solution when the infusion solution is filled in the tube cavity of the glass vertical tube at the hollow glass buoyancy ball; the lower end of the upper hook is fixedly connected to the upper surface outside the infusion bottle sleeve, and the upper end of the lower hook is fixedly connected to the upper top surface inside the infusion bottle sleeve; the upper end of the vertical glass tube is fixedly connected to the upper hook through a connecting rod; a through hole which can be hermetically sleeved on the connecting hose is arranged on the side surface of the infusion bottle sleeve; when the solid glass gravity center ball is positioned at the bottommost end of the tube cavity of the vertical glass tube, the top end face of the vertical observation needle and the upper tube opening of the vertical glass tube are on the same horizontal plane.

Before infusion, the adhesive buttons on the split seams are opened to enable the light-shielding sleeve of the infusion apparatus to be in a flat-laying state, the infusion apparatus is placed according to the corresponding position, the infusion bottle is placed in the plastic infusion hanging bottle sleeve of the infusion net bag, the infusion bottle is hung on the lower hook by means of the plastic infusion hanging bottle sleeve of the infusion net bag, and the mouth of the infusion bottle is arranged downwards. The transfusion tube is placed in the transfusion tube sleeve. Then closing the bonding buckle on the slit, and covering the infusion set in a shading sleeve of the infusion set; then the upper hook is hung on the infusion support 16. The lid on the glass vertical tube was then removed.

After the cover on the vertical glass tube is taken down, the infusion solution in the infusion bottle can enter the tube cavity of the vertical glass tube, the hollow glass buoyancy ball floats on the infusion solution, and the upper section of the vertical observation needle extends out of the upper tube opening of the vertical glass tube.

In the infusion process, the user can know the height of the infusion solution in the infusion bottle by observing the height measurement scale marks on the vertical observation needle.

In the infusion process, a user can observe the liquid level and the dropping speed in the infusion bottle and the drip cup through the observation window, and the dropping speed is adjusted through the adjusting wheel exposed in the gap of the adjuster sleeve.

The technical scheme is convenient for shading the transparent infusion apparatus during infusion, and the user can easily know the liquid level height of the infusion solution in the infusion bottle when in use, so that the shading effect is good.

Preferably, the insertion tube is made of the same material as the insertion tube on the infusion tube; the connecting hose is made of the same material as the infusion tube.

Preferably, the solid glass gravity center ball, the glass rod, the hollow glass buoyancy ball and the vertical glass tube are all made of the same material as the infusion bottle.

Preferably, the lower end of the upper hook and the upper end of the lower hook are arranged oppositely. The reliability is good.

The utility model discloses can reach following effect:

the utility model discloses be convenient for carry out the shading to transparent transfusion system when the infusion to the liquid level height of infusion solution in the infusion bottle is still easily known to the user when using, and the shading is effectual, the good reliability.

Drawings

Fig. 1 is a schematic view of a connection structure of the present invention.

Fig. 2 is a schematic view of a connection structure of the present invention for the seam.

Fig. 3 is a schematic view of a locally enlarged connection structure of the hollow glass buoyancy ball of the present invention.

Fig. 4 is a schematic view of a connection structure in a use state when the liquid level of the infusion solution of the present invention is high.

Fig. 5 is a schematic view of a connection structure in a use state when the liquid level of the infusion solution of the present invention is low.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

An embodiment of a light shading sleeve of an infusion set is shown in figures 1-5. Comprises a transfusion bottle sleeve 1 corresponding to the transfusion device structure and a transfusion pipe sleeve 4 connected with the transfusion bottle sleeve 1; a drip cup sleeve 5 and an adjuster sleeve 8 are respectively arranged on the transfusion tube sleeve 4, and a transfusion bottle observation window 2 and a drip cup observation window 6 are respectively arranged on the transfusion bottle sleeve 1 and the drip cup sleeve 5; the observation window is provided with a transfusion bottle sleeve window baffle 3 and a drip cup sleeve window baffle 7 through a bonding buckle; the window shield is made of the same shading cloth as the window shield, and a gap 9 is arranged on the regulator sleeve 8; the whole structure is split, the back surface is a split seam 10, a bonding buckle is arranged on the split seam, and a closed light-shading sleeve of the infusion apparatus is formed after the bonding buckle is closed; the device also comprises an infusion net bag plastic infusion bottle hanging sleeve 13, an upper hook 15, a lower hook 14 and a liquid level height direct observation mechanism, wherein the liquid level height direct observation mechanism comprises an insertion pipe 29, a connecting hose 27 and a glass vertical pipe 20 with a sealed lower pipe opening; the lower end of the side pipe wall of the vertical glass pipe is provided with a pipe wall hole 26 communicated with the pipe cavity of the vertical glass pipe, and pipe orifices at two ends of the connecting hose are respectively connected with the pipe wall hole of the vertical glass pipe and the lower pipe orifice of the inserting pipe in a butt joint manner;

the outer surface of the connecting hose and the outer surface of the vertical glass tube are coated with shading coatings (not shown in the drawing), and a cover 18 is covered on the upper tube cover of the vertical glass tube; a hollow glass buoyancy ball 23 is arranged in a tube cavity 19 of the glass vertical tube, the upper surface of a glass rod 24 is fixedly connected to the lower surface of the hollow glass buoyancy ball, the lower surface of the glass rod is fixedly connected with a solid glass gravity center ball 25, and the lower end surface of a vertical observation needle 22 provided with a height measurement scale mark 21 is fixedly connected to the upper surface of the hollow glass buoyancy ball; the center of the solid glass gravity center ball, the center line of the glass rod, the center of the hollow glass buoyancy ball and the center line of the vertical observation needle all fall on the same vertical line; the hollow glass buoyancy ball floats on the infusion solution when the infusion solution is filled in the tube cavity of the glass vertical tube at the hollow glass buoyancy ball; the lower end of the upper hook is fixedly connected to the upper surface outside the infusion bottle sleeve, and the upper end of the lower hook is fixedly connected to the upper top surface inside the infusion bottle sleeve; the upper end of the vertical glass tube is fixedly connected to the upper hook through a connecting rod 17; a through hole 28 which can be sleeved on the connecting hose in a sealing way is arranged on the side surface of the infusion bottle sleeve; when the solid glass gravity center ball is positioned at the bottommost end of the tube cavity of the vertical glass tube, the top end face of the vertical observation needle and the upper tube opening of the vertical glass tube are on the same horizontal plane.

The insertion tube is made of the same material as the insertion tube on the infusion tube; the connecting hose is made of the same material as the infusion tube.

The solid glass gravity center ball, the glass rod, the hollow glass buoyancy ball and the glass vertical pipe are all made of the same material as the infusion bottle.

The lower end of the upper hook and the upper end of the lower hook are arranged oppositely.

Before infusion, the adhesive button on the split seam is opened to enable the light-shielding sleeve of the infusion apparatus to be in a flat-laying state, the infusion apparatus is placed according to the corresponding position, the infusion bottle 12 is placed in the plastic infusion hanging bottle sleeve of the infusion net bag, the infusion bottle is hung on the lower hook by means of the plastic infusion hanging bottle sleeve of the infusion net bag, and the mouth of the infusion bottle is arranged downwards. The infusion tube 11 is placed in the infusion tube sleeve. Then closing the bonding buckle on the slit, and covering the infusion set in a shading sleeve of the infusion set; then the upper hook is hung on the infusion support 16. The lid on the glass vertical tube was then removed.

After the cover on the vertical glass tube is taken down, the infusion solution in the infusion bottle can enter the tube cavity of the vertical glass tube, the hollow glass buoyancy ball floats on the infusion solution, and the upper section of the vertical observation needle extends out of the upper tube opening of the vertical glass tube.

During the infusion process, the user can know the height of the infusion solution 30 in the infusion bottle by observing the height measurement scale marks on the vertical observation needle.

In the infusion process, a user can observe the liquid level and the dropping speed in the infusion bottle and the drip cup through the observation window, and the dropping speed is adjusted through the adjusting wheel exposed in the gap of the adjuster sleeve.

The embodiment is convenient for shading the transparent infusion apparatus during infusion, and the user can easily know the liquid level height of the infusion solution in the infusion bottle when using the transparent infusion apparatus, so that the shading effect is good.

The embodiments of the present invention have been described above with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and those skilled in the art can make various changes or modifications within the scope of the appended claims.

Claims (4)

1. A shading sleeve of an infusion apparatus comprises an infusion bottle sleeve corresponding to the structure of the infusion apparatus and an infusion pipe sleeve connected with the infusion bottle sleeve; a drip cup sleeve and a regulator sleeve are respectively arranged on the infusion tube sleeve, and an infusion bottle observation window and a drip cup observation window are respectively arranged on the infusion bottle sleeve and the drip cup sleeve; the observation window is provided with a transfusion bottle sleeve window baffle and a drip cup sleeve window baffle through a bonding buckle; the window shield is made of shading cloth which is the same as the window shield, and a gap is arranged on the regulator sleeve; the whole structure is split, the back surface is split, the splicing buckle is arranged on the back surface, and the closed infusion set shading sleeve is formed after the splicing buckle is closed; the device is characterized by also comprising an infusion net bag plastic infusion bottle hanging sleeve, an upper hook, a lower hook and a liquid level height direct observation mechanism, wherein the liquid level height direct observation mechanism comprises an insertion pipe, a connecting hose and a glass vertical pipe with a sealed lower pipe opening; the lower end of the side pipe wall of the vertical glass pipe is provided with a pipe wall hole communicated with the pipe cavity of the vertical glass pipe, and pipe orifices at two ends of the connecting hose are respectively connected with the pipe wall hole of the vertical glass pipe and the lower pipe orifice of the inserting pipe in a butt joint manner; the outer surface of the connecting hose and the outer surface of the vertical glass tube are coated with shading coatings, and a cover is covered on the upper tube opening of the vertical glass tube; a hollow glass buoyancy ball is arranged in a tube cavity of the glass vertical tube, the upper surface of a glass rod is fixedly connected to the lower surface of the hollow glass buoyancy ball, the lower surface of the glass rod is fixedly connected with a solid glass gravity center ball, and the lower end surface of a vertical observation needle provided with a height measurement scale mark is fixedly connected to the upper surface of the hollow glass buoyancy ball; the center of the solid glass gravity center ball, the center line of the glass rod, the center of the hollow glass buoyancy ball and the center line of the vertical observation needle all fall on the same vertical line; the hollow glass buoyancy ball floats on the infusion solution when the infusion solution is filled in the tube cavity of the glass vertical tube at the hollow glass buoyancy ball; the lower end of the upper hook is fixedly connected to the upper surface outside the infusion bottle sleeve, and the upper end of the lower hook is fixedly connected to the upper top surface inside the infusion bottle sleeve; the upper end of the vertical glass tube is fixedly connected to the upper hook through a connecting rod; a through hole which can be hermetically sleeved on the connecting hose is arranged on the side surface of the infusion bottle sleeve; when the solid glass gravity center ball is positioned at the bottommost end of the tube cavity of the vertical glass tube, the top end face of the vertical observation needle and the upper tube opening of the vertical glass tube are on the same horizontal plane.

2. The shading sleeve of the infusion apparatus according to claim 1, wherein the insertion tube is made of the same material as the insertion tube on the infusion tube; the connecting hose is made of the same material as the infusion tube.

3. The light-shielding sleeve of the infusion apparatus according to claim 1, wherein the solid glass gravity center ball, the glass rod, the hollow glass buoyancy ball and the vertical glass tube are all made of the same material as the infusion bottle.

4. The light-shading sleeve of the infusion set according to claim 1, wherein the lower end of the upper hook and the upper end of the lower hook are arranged in a facing manner.

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