CN214609269U - Slidable association's a key push type knockout - Google Patents

Abstract

The utility model relates to a slidable one-key push type knockout that ties, it can fix the container that contains chemical, can be with its inside content safety release discharge after opening the container. Particularly, the utility model discloses a can slide a key push type knockout of tying and reach the purpose, it includes: the body is provided with a sealing plug capable of sealing the inlet, a bottom sealing cover is fixed in the body, and the bottom sealing cover is arranged on a container with a nozzle; a probe capable of opening a sealing plug on the body and engaging the nozzle to release the contents of the container for removal; and an operation tool for operating the probe on the body. Therefore, the device can firmly fix the container containing the contents of chemical substances and the like, not only can prevent the contents from being polluted by the outside, but also can safely remove and release the contents.

Description

Slidable association's a key push type knockout

Technical Field

The utility model relates to a slidable One-key push type knockout of tying (One-touch dispensing for slide maintaining), the container that chemical is contained in its inside fastening, and the container can discharge the content safety release of container when opening.

Background

In general, when a container containing a content such as a chemical substance is opened, if the container is not sealed well between a discharge tool for discharging the content and the container, the content leaks to a position between the discharge tool and the container, and such a leakage problem is likely to occur.

In particular, when the contents such as chemical substances are mixed with foreign matters, the contamination or the purity is deteriorated. The problem of transfer release and discharge of the contents is very important.

In the prior art, when inserting the probe at the nozzle of the container, other special tools are not used, but the probe is inserted and then the contained contents are discharged.

When the probe is inserted into the container by a method of bare-handed operation, the probe cannot be accurately inserted into the nozzle in the insertion process, so that the phenomenon of insertion dislocation frequently occurs.

That is, if the probe is not accurately inserted into the nozzle, it is very likely to cause leakage of the contents to a position between the probe and the nozzle when discharging the discharged contents, resulting in such a leakage problem.

In addition, if the opening of the container is not sealed, when the probe is inserted into the container, other foreign substances such as dust may be mixed into the inlet of the container. Therefore, if such foreign matter sticks to the probe and is inserted therein, a problem of contamination occurs.

In addition, when the conventional spiral probe is fastened, foreign substances are generated due to friction of the metal material. If the foreign matter flows into the container, it is contaminated by the contamination source and the purity is lowered.

Furthermore, when the probe is manually inserted, the cross section of the stopper Seal (Brake Seal) may contact the probe and the nozzle during the insertion process, causing residual substances to fall into the container, which may cause contamination.

Related patent documents

(patent document 1) Korean patent No. 10-1438507 (published: 2014.09.12)

SUMMERY OF THE UTILITY MODEL

(problem to be solved)

The utility model discloses a solve the problem among the prior art and propose, its main aim at provides a key push type knockout that relates to slidable association, and its inside container that contains contents such as chemicals can be fastened to prevent that the content from being contaminated, shift the release discharge with the content safely effectively.

(means for solving the problems)

In order to achieve the above object, the present invention provides a push-button type dispenser capable of sliding connection, comprising: the body is provided with a brake sealing plug for sealing the inlet, a bottom sealing cover is fixed in the body, and the bottom sealing cover is arranged on a container with a nozzle; a probe which opens a stopper seal on the body and which can discharge the contents of the container; and a running tool running the probe on the body.

And, the body may include: a holder to inject gas into the interior of the container.

And, the body may include: a body guiding the probe.

Also, the running tool may include: the adjustment part of the probe is fixed and raised or lowered.

And, may further include: and a fixing means for fixing and maintaining the ascending and descending states of the adjusting part.

Further, the fixing tool may further include: a cover arranged on the adjusting part; a fixing pin formed protruding from the cap or introduced thereinto; a guide portion that guides the fixing pin on the fixing cover; a locking piece on the body into which the fixing needle is insertable.

Further, the fixing tool further includes: pressing down the key to make the fixing pin bulge on the adjusting part; a spring to cause the fixing pin to rebound.

And, the body may further include: a sliding body fastening the inlet portion of the container.

And, the body may further include: and the sliding block is used for preventing the bottom sealing cover of the container from being damaged.

And, the body may further include: a bottom closure, coupled to the container, is fastened to the body but may also be detachable from the body.

And, the bottom cover can be inserted or separated from one side direction of the body in a sliding way.

(effects of the utility model)

In the utility model discloses in, the entry part of container can fasten steadily, consequently can further discharge the content safety release of container.

Furthermore, the utility model can prevent the foreign matters from mixing into the container, and prevent the foreign matters from causing the pollution of the content.

Further, leakage of the contents can be prevented when the contents are discharged.

In addition, the bottom sealing cover is designed to be in a slidable fixing mode, so that the problem that the bottom sealing cover and the sliding body are not combined stably can be prevented, the generated bad phenomenon is reduced, and the convenience in use and the stability in combination are further improved.

Drawings

Fig. 1 is a perspective view showing a slidably-associated one-key press type dispenser according to an embodiment of the present invention.

Fig. 2 is a perspective view showing an operation state of the slidably-associated one-key press type dispenser according to the embodiment of the present invention.

Fig. 3 is a side-sectional view showing a slidably-associated one-key press type dispenser according to an embodiment of the present invention.

Fig. 4 is a side cross-sectional view showing a state in which a tool is fixed in operation in the slidably-associated one-key press-type dispenser according to the embodiment of the present invention.

Fig. 5 and 6 are side-sectional thumbnails showing the use states of the slidably-associated one-key push-type dispenser according to the embodiment of the present invention.

(reference symbols of the drawings)

100: slidable association's a key push type knockout

1: a body 11: main body

111: first insertion port 112: bushing

12: the holder 121: injection space

122: injection port 123: discharge port

13: the slide body 131: fixing sheet

132: second insertion port 14: sliding block

2: the probe 21: guiding groove

22: operation block 3: running tool

31: the adjusting block 32: regulating part

321: guide line 4: fixing tool

41: the closing cap 42: guide part

421: top cap 422: end closure

43: fixing pin 431: brake part

432: operation needle 44: spring

45: pressing the key 451: hook for hanging articles

452: inclined surface 46: lock block

461: first fixing groove 462: second fixing groove

200: container with a lid

10: the reservoir 20: liner device

201: nozzle 202: inner pipe

30: bottom cover 301: bolt part

302: a latch block 303: closed hole

304: gas inlet/outlet 305: sealing plug

O: ring

Detailed Description

In describing the present invention, reference will be made to the drawings, which are more particularly described in connection with specific embodiments. For the already well-known technical parts, the contents of the parts will be omitted or the description will be simplified for convenience.

Before the formal explanation, the container 200 containing the chemical substance will be briefly explained.

The container 200 includes: a liquid storage tank 10; a spacer 20 containing an attachment structure; and a bottom closure 30.

The liquid storage tank 10 is a structure for accommodating the spacer, and mainly uses a metal can.

The packing tool 20 is a container for containing contents such as chemicals, is inserted into the liquid storage tank 10, and includes a bag (not shown) that can be deformed when an external force is applied; a nozzle 201 for discharging the contents releasably and a pipe 202 are provided inside.

The bottom closure 30 serves as a structure for closing the gasket 20 and functions as an inlet of the container 200. The lower part of the water tank is expanded to the outer side, and the outer surface of the water tank is in a step shape; the interior of the tank body is communicated with the liquid storage tank 10 from the upper end to the lower end and is combined with the liquid storage tank 10 in a bolt mode. The bottom cover 30 has a bolt portion 301 formed at an upper portion thereof, and is coupled to a sealing cover (not shown), and a latch 302 extending outward is provided on an outer surface of the bolt portion 301. The bottom cover 30 has a closed hole 303 formed therein, and the closed hole 303 is provided with a sealing plug 305. A gas inlet/outlet hole 304 into which the gas can flow around the closed hole 303 is formed to be inclined outward. At this time, the gas inlet and outlet hole 304 is formed inside the bottom cover 30. That is, when the bottom cover 30 is coupled to the liquid storage tank 10, the sealing plug 305 is brought into close contact with the gasket 20 to seal the gasket 20. Thus, when the plug 305 seals the packing 20 in a normal state, it is possible to prevent foreign matter from flowing into the packing 20, and only when the plug 305 is opened, it is possible to take out the contents contained in the packing 20.

As shown in fig. 1 to 5, a slidable one-key pressing type dispenser 100 according to an embodiment of the present invention includes: a body 1; a probe 2; a running tool 3; and a fixing tool 4. A bottom closure 30 may also be included here.

The body 1, which holds the bottom cover 30 and guides and introduces the probe 2, and also as a means of supporting the running tool 3 and the holding tool 4, further comprises: a main body 11; a holder 12; a slide main body 13; and a slider 14.

The body 11, which is a structure for introducing the probe 2 and the holder 12, has an upper portion and a lower portion formed in a cylindrical shape through the upper and lower portions, an inner diameter and an outer diameter of the upper and lower portions being formed substantially in a stepped structure outward, and an inner circumferential surface of the upper end being formed in a convex structure inward. Further, a boundary of the inner circumferential surface of the main body 11 formed in a step shape is formed to be convex toward a lower portion, a first insertion port 111 is formed to cut a partial area of a lower portion side, and the main body 11 is also combined with the sliding main body 13 in a bolt form. And, the body 11 introduces the probe 2 inside and is provided with a bush 112, right corresponding to the probe 2.

The holder 12, which is a structure for introducing the probe 2 and injecting the gas into the interior of the reservoir 10, is formed with a through structure from the upper end downward, but the upper end thereof corresponds to the lower end of the body 11, and the lower side of the lower end thereof is formed with a conical injection space 121 having a head cut off, into which the gas can be injected 121. The holder 12 is provided with a ring O for sealing a region between the holder 12 and the probe 2, and a ring O provided on an inner circumferential surface thereof; a ring O disposed outside the lower end for sealing the area of the holder 12 and the bottom closure 30. An injection port 122 connected to the injection space 121 is formed on an outer side surface of the holder 12; and a discharge port 123 connected to the injection port. The holder 12 is fixedly disposed between the main body 11 and the sliding body 13, but can be raised and lowered between the main body 11 and the sliding body 13. Accordingly, if gas is injected through the injection port 122, the gas flows into the injection space 121, and when the gas flowing in enters the interior of the liquid storage tank 10 through the gas inlet/outlet 304, the internal pressure of the liquid storage tank 10 becomes excessive, and the gas is discharged again through the discharge port 123, thereby adjusting the internal pressure of the liquid storage tank 10. A description thereof will be made later.

The sliding body 13 fixes the bottom cover 30 of the container 200, and as a means for preventing the retainer 12 from slipping off the body 11, although a cylindrical structure is formed to penetrate from the upper end to the lower end, the upper end of the sliding body 13 is extended and expanded outward to correspond to the lower end of the body 11. The slide body 13 is further formed with a fixing piece 131 having a lower end whose inner peripheral surface is partially protruded inward so as to correspond to the latch 302 of the bottom cover. A second insertion hole 132 corresponding to the insertion hole of the main body 11 is formed at one side of the sliding body 13, and the sliding body 13 is coupled to the main body 11 in a bolt manner, and the upper end thereof is closely attached to the lower end of the main body 11. Therefore, when the bolt 301 of the bottom cover is inserted into the first insertion hole 111 and the second insertion hole 132 in the state where the sliding body 13 and the body 11 are coupled, the bolt 301 of the bottom cover is disposed between the holder 12 and the sliding body 13, and the latch 302 of the bottom cover is latched to the latch piece 131, thereby preventing the sliding body 13 and the container 200 from being separated by slipping.

The sliding block 14 is a member for preventing the outer side surface of the bottom cover from being worn, is made of synthetic resin, and is formed substantially in a flat surface

And is shaped to pass through from the upper end to the lower end. The slide block 14 has an inner portion corresponding to a lower outer side surface of the slide body 13, and an outer side surface thereof has a polygonal structure. The slide block 14 is inserted to the outside of the lower end of the slide body 13, and is coupled to the slide body 13 in a bolt form. Here, when the slide block 13 is coupled to the slide main body 13 in a bolt manner, the lower end of the slide main body 13 protrudes partially beyond the lower end surface thereof. Therefore, when the sliding block 14 is tightly attached to the bottom cover, the bottom cover is tightly attached to the sliding main body 13, so that the bottom cover can be prevented from being scratched or damaged.

The probe 2 opens the sealing plug 305, and as a structure for releasing and discharging the content material contained in the cushion structure 20 in conjunction with the nozzle 201 of the cushion structure 20, a hollow cylindrical structure is formed substantially. The outer side surface thereof is formed with a stepped structure to correspond to the body 11, the bushing 112, the holder 12 and the nozzle 201, and a pair of guide grooves 21 are formed at the upper portion thereof to correspond to the guide wires 321 of the adjusting portion 32. The middle part of which can be inserted into the bushing 112 and is formed with a running block 22 that expands outward, said running block 22 can push the holder 12 into close abutment with the bottom cover 30. At this time, the probe 2 is inserted into the body 11 at the upper portion thereof, inserted into the bush 112 at the lower portion thereof, and inserted into the holder 12 at the lower portion thereof, so that it can be raised and lowered. And a plurality of rings O formed on the probe 2, the rings O formed at the bottom surface of the operation block 22 for sealing the portion between the holder 12 and the probe 2; a plurality of rings O are formed at the lower portion of the probe for sealing the portion between the holder 12 and the probe and the portion between the nozzle 201 and the probe 2. The operation and function of the probe 2 will not be described in detail here, and will be described in detail later.

The operation tool 3 includes, as a structure for operating the probe 2: an adjusting block 31, and an adjusting portion 32.

The adjusting block 31 is a structure for fixing the adjusting part 32, and has an upper end corresponding to one end of the adjusting part 32 and a lower end coupled to the main body 11 in a bolt manner.

The adjusting portion 32 is a structure for operating the probe 2, and has a planar shape substantially forming an "H" shape, one end of which is coupled to the adjusting block 31 and can rotate, and an inner side of which is formed with a pair of protruding guide lines 321 corresponding to the guide grooves 21 of the probe 2. At this time, the guide wire 321 can be inserted into the guide groove 21 of the probe 2. Thus, when the adjustment part 32 is rotated downward, the probe 2 is lowered; when the adjusting part 32 is rotated upward, the probe 2 is raised again.

The fixing tool 4 is a structure for fixing the adjusting portion 32 at a predetermined position, and includes: a cover 41; a guide section; a fixing pin 43; a spring 44; press the key 45; and a locking block 46.

The cover 41 is fixed in a box-like form with both upper and lower ends open as a structure for protecting the guide 42, the fixing pin 43, and the spring, and is closely attached to the bottom surface of the other end of the adjusting portion 32.

The guide portion 42 includes an upper cover 421 and a lower cover 422 as a structure for guiding and fastening the fixing pin 42.

The upper cap 421 is formed in a substantially cylinder shape corresponding to the fixing pins 43, is inserted in front of the fixing pins 43, and is fixed inside the cover 41.

The lower cap 422 is inserted behind the fixing pin 43 as a structure for preventing the fixing pin 43 and the spring from slipping off the upper cap 421, and is coupled to the upper cap 421 in a bolt form.

The fixing pin 43 is inserted into the upper cover 421 and the lower cover 422 as a structure for fixing the adjusting part 32 at a predetermined position, and has an outer surface corresponding to the upper cover 421 and the lower cover 422, and a stopper 431 formed on the outer surface to extend outward and to prevent slipping from the upper cover 421 and the lower cover 422. And one end of the fixing pin 43 partially protrudes from the lower cap 421 and the other end is provided with a moving pin 432, and the moving pin 432 is seated on the push button 45.

The spring 44 is provided inside the lower cover 421 to spring back the fixing pin 43, and is disposed between the stopper 431 and the lower cover 422. Thus, the fixing pin 43 can always maintain a partially projected state by the spring 44.

The push button 45 is disposed inside the adjustment part 32 as a structure for operating the fixing pin 43, and has one end rotatable together with the adjustment part 32 and the other end bent downward and formed at the tip with a hook 451 corresponding to the operating pin 432. That is, the operation needle 432 and the hook 451 are hooked to each other. Thus, when the push button 45 is pushed down, the operating pin 432 moves along the inclined surface 452 of the hook 451, and the fixed pin 42 moves rearward; if the push button 45 is released, the fixing pin 43 moves forward based on the elastic force of the spring 44. At this time, the operating pin 432 moves forward along the inclined surface 452 of the hook 451, and the push button 45 is automatically lifted.

The locking piece 46 is formed in a substantially long bar-shaped and stepped configuration in an outer shape, into which the fixing pin 43 is inserted. The locking piece 46 is formed at upper and lower ends thereof with first and second fixing grooves 461 and 462, respectively, and is coupled to the body 11 in a bolt form. At this time, the width of the locking piece 46 is smaller than the inner width of the regulating portion 32. Accordingly, after the adjustment part 32 is lifted, the push button 45 is pushed down, the fixing pin 43 is inserted into the first fixing groove 461, and the adjustment part 32 is maintained in a lifted state. When the push button 45 is pressed again, the adjustment portion 32 is rotated from the adjustment block 31 in an operable state. In addition, in a state where the push button 45 is pressed, when the push button 45 is released after the adjustment unit 32 is lowered, the fixing pin 43 is inserted into the second fixing groove 462, and the lowered state of the adjustment unit 32 can be maintained.

The bottom closure 30 corresponds to the bottom closure 30 described above and therefore will not be described in any unnecessary detail here.

The adjustment portion 32 of the slidably engageable one-touch dispenser 100 is lifted, and after the cover of the bottom cover 30 is removed, the bolt portion 301 of the container 200 can be inserted into the first insertion port 111 of the main body 11.

When the latch 302 of the bolt portion 301 is caught on the upper side of the fixing piece 131 of the slide body 13, the push button 45 is pushed down, and the fixing pin 43 is disengaged from the first fixing groove 461 of the locking piece 46.

When the fixing pin 43 is disengaged from the first fixing groove 461, the adjusting part 32 is rotated downward in a state where the push button 45 is pressed.

When the adjustment unit 32 is lowered, the guide wire 321 of the adjustment unit 32 presses the probe 2 and is lowered together with the probe 2.

When the probe 2 descends, the lower end of the probe 2 penetrates the bolt portion 301, the sealing plug 305 is opened, the lower end of the probe 2, which is opened by the sealing plug 305 and enters the sealing plug, is inserted into the nozzle 201 of the container 200, the portion between the probe 2 and the nozzle 201 is sealed, and the operation block 22 presses down the holder 12 and descends. Therefore, when the sealing plug 305 is opened, it is possible to prevent foreign substances from flowing into the interior of the packing 20 from the outside, and further prevent the contents contained in the reservoir from being contaminated. In addition, the bolt portion 301 can prevent the probe 2 from being inserted into the nozzle 201 in a state of being fastened to the holder 12 while being lowered, and further, can prevent the contents in the packing 20 from leaking and flowing out from between the probe 2 and the nozzle 201 by fastening the lower end of the probe 2 and accurately inserting the probe into the nozzle 201.

When the anchor 12 is lowered, a part of the lower end of the anchor is inserted into the inside of the bolt portion 301, and the bolt portion 301 and the anchor 12 are fastened to each other, and the portion between the bolt portion 301 and the anchor 12 is sealed.

At this time, if the push button 45 is released, the fixing pin 43 is pushed up and protruded by the elastic force of the spring 44, and is inserted into the second fixing groove 462 of the locking piece 46. Thus, the probe 2, the nozzle 201, the holder 12, and the bolt 301 can be maintained in close contact with each other in a state where the adjustment portion 32 is fixed.

When the probe 2 is inserted into the nozzle 201 to be fixed, gas may be injected thereinto through the injection port 122. In this case, the discharge port 123 may be provided with a relief valve (not shown) or a check valve (not shown) to perform assist control.

When gas is injected through the injection port 122, the gas enters the gas inlet/outlet 304 of the container 200 through the injection space 121, and the gas entering the gas inlet/outlet 304 is injected into the interior of the liquid storage tank 10. At this time, the gas injected into the interior of the liquid storage tank 10 fills the portion between the spacer 20 and the liquid storage tank 10, and the internal pressure of the liquid storage tank 10 rises.

If the internal pressure of the reservoir tank 10 is continuously increased, the packer 20 is contracted, and the contents contained in the packer 20 are discharged through the pipe 202, the nozzle 201, and the probe 2 in order.

Here, if excessive gas is injected into the interior of the liquid storage tank 10 beyond the pressure range allowed by the pressure inside the liquid storage tank 10, a part of the excessive gas injected into the liquid storage tank 10 is discharged through the discharge port 123 of the retainer 12. Thus, the internal pressure of the reservoir 10 is adjusted within a certain range, and the content of the reservoir 20 is further prevented from being discharged in an excessive amount.

After all the contents in the packing unit 20 are discharged, the adjustment unit 32 is lifted up in a state where the push button is pushed, and the probe 2 is separated from the nozzle 201. The largest ring O inserted into the probe 2 lifts the holder 12 and raises the holder 12.

When the probe 2 and the holder 12 are completely raised, the probe 2 and the holder 12 are completely separated from the bolt portion 301.

When the probe 2 and the holder 12 are completely detached from the bolt 301, the container 200 is separated from the associable one-touch dispenser.

Therefore, the present invention can safely, quickly and simply remove the sealing plug 305, prevent the inflow and contamination of the contents in the liner 20 by external foreign matters, and prevent the leakage of the contents.

In the description of the present invention, the same reference numerals are used for the same components and the description thereof may be omitted depending on the case, even though the description is different from the above-described embodiment.

As mentioned above, reference and understanding can be made to the embodiments according to the drawings for specific description of the present invention. The above embodiments are described as the most typical embodiments of the present invention, and are not limited to the embodiments of the present invention. Therefore, other aspects within the same scope as the embodiments of the present invention can be easily implemented by those skilled in the art having general technical knowledge in the technical field of the present invention, based on the description of the embodiments. Therefore, it is considered that this is the same utility model as the present invention and is the same field.

Claims (9)

1. A one-key pressing type dispenser capable of being slidably associated, comprising:

the body is provided with a sealing plug capable of sealing the inlet, a bottom sealing cover is fixed in the body, and the bottom sealing cover is arranged on a container with a nozzle;

a probe on said body capable of opening said sealing plug and engaging said nozzle to release the contents of said container for removal;

and a running tool running the probe on the body.

2. The one-touch liquid dispenser of claim 1,

the body includes: a holder to inject gas into the interior of the container.

3. The one-touch liquid dispenser of claim 1,

the body includes: a body guiding the probe.

4. The one-touch liquid dispenser of claim 1,

the running tool includes: and an adjustment unit for fixing the probe and raising or lowering the probe.

5. The slidably associated one-touch dispenser of claim 4, further comprising:

and a fixing means for fixing and maintaining the ascending and descending states of the adjusting part.

6. The slidably associated push-on dispenser of claim 5, wherein the securing means further comprises:

a cover arranged on the adjusting part;

a fixing pin formed to protrude from the cap or introduced thereinto;

a guide portion that guides the fixing pin on the fixing cover;

a locking piece on the body into which the fixing needle is insertable.

7. The slidably associated push-on dispenser of claim 6, wherein the securing means further comprises:

a push-down button disposed on the adjusting portion for moving the fixing pin rearward;

a spring to cause the fixing pin to rebound.

8. The slidably associated one-touch dispenser of claim 1, further comprising:

a bottom closure, coupled to the container, fastened to the body but also detachable from the body.

9. The one-touch dispenser of claim 8, wherein the dispenser further comprises a push button,

the bottom cover is slidably inserted into or removed from one side of the body.

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