CN213168883U - Water container for laboratory - Google Patents

Abstract

The utility model discloses a water container for laboratory, which comprises a packaging bottle and a split charging bottle matched with the packaging bottle; the packaging bottle comprises a packaging bottle body, a packaging bottle cap, a first water stop sheet, a second water stop sheet and a rotating rod; the packaging bottle comprises a packaging bottle body and is characterized in that the packaging bottle body comprises a packaging bottle mouth, the first water-stop sheet is fixedly arranged inside the packaging bottle mouth, the second water-stop sheet is rotatably arranged inside the packaging bottle mouth, and the rotating rod is fixed on the second water-stop sheet; the split charging bottle comprises a split charging bottle body and a split charging bottle cap, the split charging bottle body comprises a split charging bottle opening, the inner diameter of the split charging bottle opening is larger than the outer diameter of the packaging bottle opening, and a clamping groove is further formed in the split charging bottle opening. The utility model discloses a laboratory is with water container has effectively avoided the pollution of non-enzyme water when the exclusive use of non-enzyme water in the laboratory and partial shipment use, and convenient to use, low cost.

Description

Water container for laboratory

Technical Field

The utility model relates to the field of packaging technology, especially, relate to a water container is used in laboratory.

Background

The laboratory Water without enzyme (DNase/RNase-Free Distilled Water) is easy to be polluted because no special container exists when being used and subpackaged, and the waste of resources is caused.

Therefore, it is highly desirable to provide a laboratory water container that is easy to use, highly protective, and can be used alone or in combination.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a water container is used in laboratory.

The utility model provides a technical problem adopt following technical scheme:

a water container for a laboratory comprises a packaging bottle and a split charging bottle matched with the packaging bottle;

the packaging bottle comprises a packaging bottle body, a packaging bottle cap, a first water stop sheet, a second water stop sheet and a rotating rod; the packaging bottle comprises a packaging bottle body and a rotating rod, wherein the packaging bottle body comprises a packaging bottle mouth, the packaging bottle cap is arranged on the packaging bottle mouth, the first water-stop sheet is fixedly arranged inside the packaging bottle mouth, the second water-stop sheet is rotatably arranged inside the packaging bottle mouth and is positioned below the first water-stop sheet, and the rotating rod is fixed on the second water-stop sheet;

the split charging bottle comprises a split charging bottle body and a split charging bottle cap, the split charging bottle body comprises a split charging bottle opening, the inner diameter of the split charging bottle opening is larger than the outer diameter of the packaging bottle opening, a clamping groove is further formed in the split charging bottle opening, and the split charging bottle cap is arranged on the split charging bottle opening.

Further, threads are formed on the outer portion of the bottle mouth of the packaging bottle, and the bottle cap of the packaging bottle is connected with the bottle mouth of the packaging bottle through the threads; the bottle mouth of the packaging bottle is provided with 2 strip-shaped holes which are respectively arranged at two ends of the bottle mouth of the packaging bottle with the same diameter, the bottle mouth of the packaging bottle is also internally provided with a guide groove, the guide groove is horizontally attached to the inner side surface of the bottle mouth of the packaging bottle, and the strip-shaped holes and the guide groove are positioned on the same radial tangent plane of the bottle mouth of the packaging bottle;

the first water-stop sheet and the second water-stop sheet are both formed into a U-arc shape, and the radius of the first water-stop sheet and the radius of the second water-stop sheet are equal to the inner radius of the bottle mouth of the packaging bottle; the number of the rotating rods is 2, the rotating rods are respectively and vertically arranged on the cambered surface of the second water-stop plate, and the axes of the two rotating rods are overlapped;

the cambered surface of the second water-stop sheet is attached to the bottom surfaces of the guide grooves, and the rotating rods respectively extend out of the bottle mouth of the packaging bottle from the two strip-shaped holes; the first water stop sheet is horizontally arranged above the second water stop sheet, and the cambered surface of the first water stop sheet is attached to the inner side surface of the bottle mouth of the packaging bottle.

Further, the width of the strip-shaped hole is smaller than the thickness of the second water-stop plate.

Further, the periphery of the upper surface of the second water-stop sheet is provided with a water-stop strip, and the water-stop strip is made of materials including but not limited to rubber.

Further, a thread is formed on the outer portion of the opening of the sub-packaging bottle, and the bottle cap of the sub-packaging bottle is connected with the opening of the sub-packaging bottle through the thread; the clamping groove is formed by downwards opening the top of the bottle opening of the split bottle along the axial direction of the bottle opening of the split bottle.

The utility model discloses following beneficial effect has: the utility model discloses a laboratory is with water container through the design to the bottleneck of packing bottle and split charging bottle, has effectively avoided the pollution of non-enzyme water when the exclusive use of non-enzyme water in the laboratory and partial shipment use, and convenient to use, low cost.

Drawings

Fig. 1 is a schematic structural view of a packing bottle of the present invention;

fig. 2 is a front view of the packing bottle body of the present invention;

fig. 3 is a top view of the packing bottle body of the present invention;

fig. 4 is a left side view of the packing bottle body of the present invention;

fig. 5 is an assembly view of a second water stop sheet according to the present invention;

fig. 6 is a schematic structural view of the center opening bottle of the present invention;

fig. 7 is a schematic structural view of the center opening bottle body of the present invention.

The notation in the figures means: 1-packaging bottle body; 2-packaging bottle cap; 3-a first water-stop sheet; 4-a second water-stop sheet; 5-rotating the rod; 6-bottle mouth of packaging bottle; 7-a guide groove; 8-a strip-shaped hole; 9-subpackage bottle body; 10-split bottle cap; 11-split bottle opening; 12-card slot.

Detailed Description

The technical solution of the present invention will be further explained with reference to the following embodiments and accompanying drawings.

Example 1

The embodiment provides a water container for a laboratory, which comprises a packaging bottle and a dispensing bottle matched with the packaging bottle.

As shown in fig. 1-5, the packaging bottle comprises a packaging bottle body 1, a packaging bottle cap 2, a first water stop sheet 3, a second water stop sheet 4 and a rotating rod 5; the packaging bottle comprises a packaging bottle body 1 and is characterized in that the packaging bottle body 1 comprises a packaging bottle mouth 6, a packaging bottle cap 2 is arranged on the packaging bottle mouth 6, a first water-stop sheet 3 is fixedly arranged inside the packaging bottle mouth 6, a second water-stop sheet 4 is rotatably arranged inside the packaging bottle mouth 6 and located below the first water-stop sheet 3, and a rotating rod 5 is fixed on the second water-stop sheet 4.

Specifically, threads are formed on the outer portion of the packaging bottle mouth 6, and the packaging bottle cap 2 is connected with the packaging bottle mouth 6 through the threads; the packaging bottle mouth 6 is provided with strip-shaped holes 8, the number of the strip-shaped holes 8 is 2, and the strip-shaped holes are respectively arranged at two ends of the packaging bottle mouth 6 with the same diameter; a guide groove 7 is further formed in the bottle mouth 6 of the packaging bottle, and the guide groove 7 is horizontally attached to the inner side face of the bottle mouth 6 of the packaging bottle; the strip-shaped hole 8 and the guide groove 7 are positioned on the same radial tangent plane of the bottle mouth 6 of the packaging bottle;

the first water-stop sheet 3 and the second water-stop sheet 4 are both formed into a major arc shape, and the radius of the first water-stop sheet 3 and the radius of the second water-stop sheet 4 are equal to the inner radius of the bottle mouth 6 of the packaging bottle; the number of the rotating rods 5 is 2, the rotating rods are respectively and vertically arranged on the cambered surface of the second water-stop sheet 4, and the axes of the two rotating rods 5 are overlapped;

the cambered surface of the second water-stop sheet 4 is attached to the bottom surface of the guide groove 7, and the rotating rods 5 respectively extend out of the bottle mouth 6 of the packaging bottle from the two strip-shaped holes 8, so that the second water-stop sheet 4 can be rotatably arranged inside the bottle mouth 6 of the packaging bottle; the first water-stop sheet 3 is horizontally arranged above the second water-stop sheet 4, and the cambered surface of the first water-stop sheet 3 is attached to the inner side surface of the bottle mouth 6 of the packaging bottle. Preferably, the width of the strip-shaped hole 8 is smaller than the thickness of the second water stop sheet 4, so as to prevent the second water stop sheet 4 from deviating during the rotation process.

When the water container for the laboratory is used, when the plane corresponding to the cambered surface on the first water-stop sheet 3 is parallel to the plane corresponding to the cambered surface on the second water-stop sheet 4, the packaging bottle is in a closed state; the rotating rod 5 is rotated to drive the second water-stop sheet 4 to rotate, so that the first water-stop sheet 3 and the second water-stop sheet 4 are staggered, and the packaging bottle is opened. In the process, in order to prevent the enzyme-free water from flowing out of the matching gaps between the second water stop sheet 4 and the bottle mouth 6 of the packaging bottle and the first water stop sheet 3 when the packaging bottle is in the closed state, the periphery of the upper surface of the second water stop sheet 4 is provided with a water stop strip, and the water stop strip is made of but not limited to rubber.

As shown in fig. 6-7, the dispensing bottle includes a dispensing bottle body 9 and a dispensing bottle cap 10, the dispensing bottle body includes a dispensing bottle opening 11, the inner diameter of the dispensing bottle opening 11 is larger than the outer diameter of the packaging bottle opening 6, the dispensing bottle opening 11 is further provided with a clamping groove 12, and the dispensing bottle cap 10 is disposed on the dispensing bottle opening 11.

Specifically, a thread is formed on the outer portion of the opening 11 of the dispensing bottle, and the bottle cap 10 of the dispensing bottle is connected with the opening 11 of the dispensing bottle through the thread; the clamping groove 12 is formed by downwards opening from the top of the split bottle opening 11 along the axial direction of the split bottle opening 11.

The utility model discloses a laboratory is with water container when carrying out the partial shipment, will pack dwang 5 on bottle bottleneck 6 and arrange the draw-in groove 12 of seting up on the bottle bottleneck 11 of split charging respectively in, then rotatory split charging bottle will pack bottle bottleneck 6 and open or close, and then accomplish the partial shipment of no enzyme water in the packing bottle. On the other hand, the utility model provides a packing bottle can also the exclusive use, directly opens packing bottle bottleneck 6 with rotatory dwang 5 of hand promptly, then pours the enzyme-free water into the container in, closes packing bottle bottleneck 6 through manual at last.

The utility model discloses a laboratory is with water container through the design to the bottleneck of packing bottle and split charging bottle, has effectively avoided the pollution of non-enzyme water when the exclusive use of non-enzyme water in the laboratory and partial shipment use, just the utility model discloses a water container is in convenient to use, and its manufacturing cost is also very cheap.

The sequence of the above embodiments is only for convenience of description and does not represent the advantages and disadvantages of the embodiments.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (5)

1. A water container for a laboratory is characterized by comprising a packaging bottle and a split charging bottle matched with the packaging bottle;

the packaging bottle comprises a packaging bottle body, a packaging bottle cap, a first water stop sheet, a second water stop sheet and a rotating rod; the packaging bottle comprises a packaging bottle body and a rotating rod, wherein the packaging bottle body comprises a packaging bottle mouth, the packaging bottle cap is arranged on the packaging bottle mouth, the first water-stop sheet is fixedly arranged inside the packaging bottle mouth, the second water-stop sheet is rotatably arranged inside the packaging bottle mouth and is positioned below the first water-stop sheet, and the rotating rod is fixed on the second water-stop sheet;

the split charging bottle comprises a split charging bottle body and a split charging bottle cap, the split charging bottle body comprises a split charging bottle opening, the inner diameter of the split charging bottle opening is larger than the outer diameter of the packaging bottle opening, a clamping groove is further formed in the split charging bottle opening, and the split charging bottle cap is arranged on the split charging bottle opening.

2. The water container for the laboratory according to claim 1, wherein threads are formed on the outside of the bottle mouth of the packaging bottle, and the bottle cap of the packaging bottle is connected with the bottle mouth of the packaging bottle through the threads; the bottle mouth of the packaging bottle is provided with 2 strip-shaped holes which are respectively arranged at two ends of the bottle mouth of the packaging bottle with the same diameter, the bottle mouth of the packaging bottle is also internally provided with a guide groove, the guide groove is horizontally attached to the inner side surface of the bottle mouth of the packaging bottle, and the strip-shaped holes and the guide groove are positioned on the same radial tangent plane of the bottle mouth of the packaging bottle;

the first water-stop sheet and the second water-stop sheet are both formed into a U-arc shape, and the radius of the first water-stop sheet and the radius of the second water-stop sheet are equal to the inner radius of the bottle mouth of the packaging bottle; the number of the rotating rods is 2, the rotating rods are respectively and vertically arranged on the cambered surface of the second water-stop plate, and the axes of the two rotating rods are overlapped;

the cambered surface of the second water-stop sheet is attached to the bottom surfaces of the guide grooves, and the rotating rods respectively extend out of the bottle mouth of the packaging bottle from the two strip-shaped holes; the first water stop sheet is horizontally arranged above the second water stop sheet, and the cambered surface of the first water stop sheet is attached to the inner side surface of the bottle mouth of the packaging bottle.

3. The laboratory water container of claim 2 wherein the width of the strip-shaped apertures is less than the thickness of the second water-stop sheet.

4. A laboratory water container as claimed in claim 2 wherein the second water barrier is provided with a water barrier strip around the upper surface.

5. The water container for the laboratory according to claim 1, wherein the opening of the dispensing bottle is externally formed with a thread, and the cover of the dispensing bottle is connected with the opening of the dispensing bottle through the thread; the clamping groove is formed by downwards opening the top of the bottle opening of the split bottle along the axial direction of the bottle opening of the split bottle.

Images