CN111671646A - Light-proof liquid visual container - Google Patents

Abstract

The invention relates to a photophobic liquid visual container which comprises an inner-layer solution bottle, a middle baffle layer and a container shell, wherein the inner-layer solution bottle, the middle baffle layer and the container shell are sequentially arranged from inside to outside; the outer side of the bottle wall of the inner-layer solution bottle is provided with volume scales; the middle baffle layer and the container shell are made of light-tight materials; the outer wall surface of the container shell is provided with a slotted window, and the position of the slotted window corresponds to the position of the volume scale; the middle baffle layer can be slidably arranged between the inner-layer solution bottle and the container shell, when the middle baffle layer slides to a first position along the circumferential direction of the inner-layer solution bottle, the slotted window is closed by the middle baffle layer, and the volume scales cannot be observed through the slotted window; when the middle baffle layer slides to a second position along the circumferential direction of the inner solution bottle, the slotted window is opened by the middle baffle layer, and the volume scale can be observed through the slotted window.

Description

Light-proof liquid visual container

Technical Field

The invention relates to the technical field of medical devices, in particular to a photophobic liquid visual container.

Background

Many of the fluids used in clinical applications need to be preserved in the dark, such as iodine drinks, nitro-based liquids, gasoline, and other commonly used developers, chemical reagents, corrosive reagents, etc. used in oncology, radiology, or clinical laboratory. The reagent to be protected from light is generally stored in a dark or dark brown container for clinical use.

In the prior art, the liquid stored in the dark container is not easy to observe the liquid level when in use, and particularly, under the condition of insufficient light, the content of the liquid in the container needs to be carefully observed. In addition, when the liquid is poured, the liquid level is inconvenient to observe, the pouring amount is not easy to grasp, and the excessive pouring causes waste. If carefully observing, the medical staff sometimes need to squat down to get close to and look straight on the container to see the liquid level, which brings inconvenience to clinical work.

Disclosure of Invention

The invention aims to provide a photophobic liquid visual container, and aims to solve the technical problems of how to realize a container capable of storing photophobic liquid, and the container has photophobic performance, is convenient for medical personnel to observe a liquid plane in the container, and particularly can see the change of the liquid plane when the container is toppled, so that the comfort level of clinical operation is improved.

In order to achieve the purpose, the invention provides a photophobic liquid visual container which comprises an inner-layer solution bottle, a middle baffle layer and a container shell, wherein the inner-layer solution bottle, the middle baffle layer and the container shell are sequentially arranged from inside to outside; the outer side of the bottle wall of the inner-layer solution bottle is provided with volume scales; the middle baffle layer and the container shell are made of light-tight materials; a slotted window is arranged on the outer wall surface of the container shell, and the position of the slotted window corresponds to the position of the volume scale; the middle baffle layer is slidably arranged between the inner-layer solution bottle and the container shell, when the middle baffle layer slides to a first position along the circumferential direction of the inner-layer solution bottle, the slotted window is closed by the middle baffle layer, and the volume scale cannot be observed through the slotted window; when the middle baffle layer slides to a second position along the circumferential direction of the inner solution bottle, the slotted window is opened by the middle baffle layer, and the volume scale can be observed through the slotted window.

The slotted window is vertically arranged on the outer wall surface of the container shell.

The middle baffle layer is arc-shaped, and the radian of the middle baffle layer is matched with the radians of the inner solution bottle and the container shell.

Preferably, the container housing is further provided with a guide slot, the side wall of the intermediate baffle layer is provided with a handle extending towards the container housing, the handle penetrates through the container housing from the guide slot, and when the handle slides in the guide slot, the handle drives the intermediate baffle layer to switch between the first position and the second position.

Further preferably, the intermediate barrier layers include a first intermediate barrier layer and a second intermediate barrier layer, which are each independently slidable along the circumferential direction of the inner solution bottle between the inner solution bottle and the outer container shell.

A first handle extending toward the container housing is disposed on a side wall of the first intermediate barrier layer, and a second handle extending toward the container housing is disposed on a side wall of the second intermediate barrier layer.

Preferably, the guide grooves include a first guide groove and a second guide groove, the first guide groove corresponds in position to the first handle, and the second guide groove corresponds in position to the second handle.

The first handle penetrates the container housing from the first guide slot, and the first handle moves the first intermediate barrier layer between the first position and the second position as the first handle slides within the first guide slot.

The first guide slot of the second handle penetrates the container housing, and the second handle drives the second intermediate baffle layer to switch between the first position and the second position when the second handle slides in the second guide slot.

Further preferably, the slotted window comprises a first slotted window and a second slotted window, the volume scales comprise a first volume scale and a second volume scale, and the position of the first slotted window corresponds to the position of the first volume scale; the position of the second slotted window corresponds to the position of the second volume scale; when the first intermediate baffle layer slides to a first position along the circumferential direction of the inner solution bottle, the first intermediate baffle layer closes the first slotted window, and the first volume scale cannot be observed through the first slotted window; when the first intermediate baffle layer slides to a second position along the circumferential direction of the inner solution bottle, the first intermediate baffle layer opens the first slotted window, and the first volume scale can be observed through the first slotted window; when the second intermediate baffle layer slides to the first position along the circumferential direction of the inner solution bottle, the second intermediate baffle layer closes the second slotted window, and the second volume scale cannot be observed through the second slotted window; when the second intermediate baffle layer slides to a second position along the circumferential direction of the inner solution bottle, the second intermediate baffle layer opens the second slotted window, and the second volume scale can be observed through the second slotted window.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that: the photophobic liquid visual container disclosed by the invention adopts the design of the movable baffle plate, realizes the function of observing the plane of the solution in the container during use under the condition of photophobic storage, and is convenient and simple to operate.

In clinical practical use, the middle baffle layer can be slid to the position for shielding the slotted window when the solution is stored at ordinary times, so that the whole container is protected from light, the baffle can be slid to the position of the slotted window when the solution is observed in volume or poured, and the condition in the solution bottle can be observed through the slotted window of the shell.

Through the design, the medical staff can conveniently observe the liquid level in the container in use, and particularly can not hold the amount of the liquid which is not easy to pour when pouring, so that the clinical operation is facilitated.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Fig. 1 is a schematic structural view of a light-resistant liquid visual container of the present invention in an open state of an intermediate barrier layer.

Fig. 2 is a schematic structural diagram of the light-shielding liquid visual container in the closed state of the intermediate baffle layer.

Fig. 3 is a longitudinal cross-sectional view of a light-resistant liquid visualization container of the present invention.

Fig. 4 is a top view of a light-resistant liquid visualization container of the present invention.

Detailed Description

The present invention is described in more detail below to facilitate an understanding of the present invention.

As shown in fig. 1 to 4, the photophobic liquid visual container of the present invention comprises an inner solution bottle 1, an intermediate baffle layer 2 and a container shell 4 which are sequentially arranged from inside to outside, wherein the bottle wall of the inner solution bottle is made of a transparent material, and the inner solution bottle is used for containing photophobic liquid; the outer side of the bottle wall of the inner-layer solution bottle is provided with volume scales 11; the middle baffle layer and the container shell are made of light-tight materials; a slotted window 42 is arranged on the outer wall surface of the container shell, and the position of the slotted window corresponds to the position of the volume scale; the middle baffle layer is slidably arranged between the inner solution bottle and the container shell, and when the middle baffle layer slides to a first position along the circumferential direction of the inner solution bottle (as shown in fig. 2, the middle baffle layer is in a closed state), the slotted window is closed by the middle baffle layer, and at the moment, the volume scale cannot be observed through the slotted window; when the intermediate baffle layer slides to the second position along the circumferential direction of the inner solution bottle (as shown in fig. 1, the intermediate baffle layer is in an open state), the slotted window is opened by the intermediate baffle layer, and the volume scale can be observed through the slotted window.

The slotted window is vertically arranged on the outer wall surface of the container shell.

The middle baffle layer is arc-shaped, and the radian of the middle baffle layer is matched with the radians of the inner solution bottle and the container shell.

Preferably, the container housing is further provided with a guide slot 41, the side wall of the intermediate baffle layer is provided with a handle 3 extending towards the container housing, the handle penetrates through the container housing from the guide slot, and when the handle slides in the guide slot, the handle drives the intermediate baffle layer to switch between the first position and the second position.

When the photophobic liquid visual container is used, if the handle 3 slides to the leftmost side (namely, the second position) of the guide groove 41 shown in fig. 1, the middle baffle layer 2 opens the slotted window 42, the volume scales can be observed through the slotted window, a medical worker can conveniently observe the liquid level in the container, particularly, the change of the liquid level can be observed when the container is toppled, and the comfort level of clinical operation is improved.

If the handle 3 is slid in the direction of the arrow in fig. 1 to the rightmost side (i.e., the first position) of the guide slot 41 shown in fig. 2, the intermediate baffle layer 2 closes the slotted window 42, and the volume scale cannot be viewed through the slotted window, thereby achieving the light-shielding effect.

It is further preferred that the intermediate barrier layer 2 comprises a first intermediate barrier layer 21 and a second intermediate barrier layer 22, the first intermediate barrier layer 21 and the second intermediate barrier layer 22 being capable of sliding along the circumferential direction of the inner solution bottle between the inner solution bottle and the outer container shell independently of each other.

A first handle 31 is provided on the side wall of the first intermediate barrier layer 21 extending towards the container housing and a second handle 32 is provided on the side wall of the second intermediate barrier layer 22 extending towards the container housing.

Preferably, the guide groove 41 includes a first guide groove and a second guide groove, the first guide groove corresponding in position to the first handle 31, and the second guide groove corresponding in position to the second handle 32.

The first handle penetrates the container housing from the first guide slot, and the first handle moves the first intermediate barrier layer between the first position and the second position as the first handle slides within the first guide slot.

The first guide slot of the second handle penetrates the container housing, and the second handle drives the second intermediate baffle layer to switch between the first position and the second position when the second handle slides in the second guide slot.

Further preferably, the slotted window 42 comprises a first slotted window 42 and a second slotted window 422, the volume scale 11 comprises a first volume scale 111 and a second volume scale 112, and the position of the first slotted window 42 corresponds to the position of the first volume scale 111; the position of the second slotted window 422 corresponds to the position of the second volume scale 112; when the first intermediate baffle layer slides to a first position along the circumferential direction of the inner solution bottle, the first intermediate baffle layer closes the first slotted window, and the first volume scale cannot be observed through the first slotted window; when the first intermediate baffle layer slides to a second position along the circumferential direction of the inner solution bottle, the first intermediate baffle layer opens the first slotted window, and the first volume scale can be observed through the first slotted window; when the second intermediate baffle layer slides to the first position along the circumferential direction of the inner solution bottle, the second intermediate baffle layer closes the second slotted window, and the second volume scale cannot be observed through the second slotted window; when the second intermediate baffle layer slides to a second position along the circumferential direction of the inner solution bottle, the second intermediate baffle layer opens the second slotted window, and the second volume scale can be observed through the second slotted window.

The foregoing describes preferred embodiments of the present invention, but is not intended to limit the invention thereto. Modifications and variations of the embodiments disclosed herein may be made by those skilled in the art without departing from the scope and spirit of the invention.

Claims (10)

1. The photophobic liquid visual container is characterized by comprising an inner-layer solution bottle, a middle baffle layer and a container shell which are sequentially arranged from inside to outside, wherein the bottle wall of the inner-layer solution bottle is made of transparent materials, and the inner-layer solution bottle is used for containing photophobic liquid; the outer side of the bottle wall of the inner-layer solution bottle is provided with volume scales; the middle baffle layer and the container shell are made of light-tight materials; a slotted window is arranged on the outer wall surface of the container shell, and the position of the slotted window corresponds to the position of the volume scale; the middle baffle layer is slidably arranged between the inner-layer solution bottle and the container shell, when the middle baffle layer slides to a first position along the circumferential direction of the inner-layer solution bottle, the slotted window is closed by the middle baffle layer, and the volume scale cannot be observed through the slotted window; when the middle baffle layer slides to a second position along the circumferential direction of the inner solution bottle, the slotted window is opened by the middle baffle layer, and the volume scale can be observed through the slotted window.

2. A liquid-tight visual container as claimed in claim 1 wherein said slotted window is vertically cut into the outer wall of said container housing.

3. A liquid visual container as claimed in claim 1 wherein the intermediate baffle is arcuate in shape, the curvature of the intermediate baffle matching the curvature of the inner solution bottle and the outer container shell.

4. A liquid visual container as claimed in claim 1 wherein said container housing further defines guide slots, and said intermediate barrier layer has a handle extending from a side wall thereof through said container housing and extending toward said container housing, said handle moving said intermediate barrier layer between said first and second positions as said handle slides within said guide slots.

5. A liquid visual container as claimed in claim 1 wherein said intermediate barrier layers comprise a first intermediate barrier layer and a second intermediate barrier layer, each of which is independently slidable along the circumference of the inner solution bottle between the inner solution bottle and the outer container shell.

6. The light-resistant liquid visual container of claim 4, wherein the side wall of the first intermediate barrier layer is provided with a first handle extending toward the container housing, and the side wall of the second intermediate barrier layer is provided with a second handle extending toward the container housing.

7. A liquid visual container of claim 6, wherein the guide groove comprises a first guide groove and a second guide groove, the first guide groove is corresponding to the first handle, and the second guide groove is corresponding to the second handle.

8. The light-resistant liquid visual container of claim 7 wherein the first handle penetrates the container housing from the first guide slot, the first handle moving the first intermediate barrier layer between the first position and the second position as the first handle slides within the first guide slot.

9. A liquid-tight visual container as claimed in claim 8, wherein said first guide slot of said second handle penetrates said container housing, and said second handle causes said second intermediate barrier layer to switch between said first position and said second position as said second handle slides within said second guide slot.

10. A liquid-tight visual container as claimed in claim 9, wherein said slotted window comprises a first slotted window and a second slotted window, said volume scale comprises a first volume scale and a second volume scale, and the position of said first slotted window corresponds to the position of said first volume scale; the position of the second slotted window corresponds to the position of the second volume scale; when the first intermediate baffle layer slides to a first position along the circumferential direction of the inner solution bottle, the first intermediate baffle layer closes the first slotted window, and the first volume scale cannot be observed through the first slotted window; when the first intermediate baffle layer slides to a second position along the circumferential direction of the inner solution bottle, the first intermediate baffle layer opens the first slotted window, and the first volume scale can be observed through the first slotted window; when the second intermediate baffle layer slides to the first position along the circumferential direction of the inner solution bottle, the second intermediate baffle layer closes the second slotted window, and the second volume scale cannot be observed through the second slotted window; when the second intermediate baffle layer slides to a second position along the circumferential direction of the inner solution bottle, the second intermediate baffle layer opens the second slotted window, and the second volume scale can be observed through the second slotted window.

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