JP3788720B2 - Mounting part for fluid communication and discharge device using the mounting part - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an apparatus comprising a tank and a discharge means, and an improved mounting system between the tank and the discharge means.
[0002]
[Prior art]
For example, spray devices intended for household cleaning such as partial cleaning of floor coverings such as carpets as well as cleaning hard surfaces such as windows, bathrooms and ovens are known. Most spray devices on the market are manual or motorized, i.e., these devices are equipped with a pump that is activated or operated by the consumer. Most commonly, this activation generates hydraulic pressure in the chamber by a displacement pump that pushes liquid from the chamber to the discharge nozzle in general. Many discharge patterns are possible, but conical spray is the most common. Generally, such spray devices include a tank filled with the active composition and means for discharging the active composition from within the tank. The spray device generally further includes a basic mounting system that secures the tank on the discharge means and provides fluid communication therebetween.
[0003]
Some of these mounting systems have a needle that connects the dispensing means and the tank in a leak-proof manner via a pierceable member.
[0004]
The following reference relates to a device comprising a tank and a discharge means which are fitted together by a needle / pierceable member.
[0005]
D1 (US Pat. No. 5,389,085) is a US patent of International Medical Consultants Inc. It discloses an automatic needle protector used in particular with a syringe. The needle protector has a cylinder slidably mounted on the syringe via a spring. In the normal position, the spring pushes the cylinder, which surrounds the needle. When vertical pressure is applied to the cylinder, the cylinder slides downward to come into contact with the needle.
[0006]
D2 (US Pat. No. 5,486,163) is a US patent of Haynes Miller Inc. It discloses a shield that protects the needle of a syringe, and an annular connector connects between them and is hinged on the connector so that it can pivot between a first protected position and a second open position. And at least one protective arm.
[0007]
While the above invention solves several problems, it still has some drawbacks. After the tank is removed from the instrument, the person can touch the needle if the person puts his hand in the recess of the instrument. Such needles are generally very sharp and are susceptible to harm upon contact, particularly if a portion of the discharge liquid remains on the needle. This is true for any user, but especially for children. In fact, children have been found to be very curious and easy to put their hands into the wells of the dispensing device while playing.
[0008]
Accordingly, one main object of the present invention includes a vented tank filled with liquid and a dispensing device, wherein the tank and the dispensing device are fitted to prevent leakage during use of the device, and the tank is removed from the dispensing device. It is to provide a user with a liquid discharge device in which attachment between a discharge device and a tank is performed so as to prevent contact with a needle of an attachment portion when it is detached.
[0009]
SUMMARY OF THE INVENTION
The present invention includes at least one pierceable means and at least one needle for piercing the at least one pierceable means, and prevents leakage between the dispensing device and a tank connected to the dispensing device. With respect to the attachment portion that is in fluid communication with the state, this attachment portion includes a protection means that prevents contact with at least one needle when the tank is not connected to the discharge device.
[0010]
The present invention further relates to a discharge device and a tank that can be removably connected by the mounting portion.
[0011]
The present invention will now be described in detail with reference to the accompanying drawings.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
In the present invention, an apparatus 1 is provided for dispensing a product on a surface, preferably a cleaning agent, more preferably a cleaning agent for the treatment of carpets or other large textile covers. This device 1 is a combination of a tank 10 containing a composition, preferably a liquid cleaning agent, and a device for discharging the cleaning agent. Any type of device having a dispensing device and a tank can use a mounting section described below to provide fluid communication between the dispensing device and the tank. However, in the following description of the invention, for clarity purposes, one embodiment of the dispensing device 11 preferably includes a housing, a spray arm 12, and a means for guiding product from the tank 10 to the spray arm. Will be described in more detail.
[0013]
Preferably, the discharge device 11 includes a manual or electric pump. More preferably, the discharge device 11 pumps the product from the tank 10 and passes through the spray arm to drive the product discharge opening (or openings) provided in the spray arm to the surface to be treated. including. Thus, the discharge device 11 connected to the tank 10 constitutes the electric spray device 1 as shown in FIG. 4 as an example. The liquid discharge opening is preferably a nozzle selected such that the spray product is in a continuous stream or film, or a discontinuous stream or film of fine particles, or a mist or foam. Since the fine particle is the most effective method for covering a large surface area with a small amount of product with a small amount of product, the spray pattern is most preferably this fine particle. In general, the discharge rate of cleaning agents suitable for carpet cleaning is generally from about 20 ml / min to about 400 ml / min, preferably from about 150 ml / min to about 250 ml / min. A device that can use the mounting according to the invention is, for example, a device for spraying household cleaners or laundry cleaners or perfumes. In a preferred embodiment, such an apparatus is used to dispense a cleaning liquid for cleaning surfaces such as cloth, carpet, floor and ceiling.
[0014]
The spray arm 12 preferably has one nozzle 13 but can also have a number of nozzles arranged along the length of the spray arm. The spray arm 12 makes it easy to control where the cleaning agent is sprayed. For example, when cleaning carpets, the spray arm 12 can easily avoid spraying cleaning agents on furniture and walls, and can reach corners that are otherwise difficult to reach. it can. Further, the ergonomically designed spray arm 12 eliminates the need for the user to warp during spraying. The spray arm 12 is preferably capable of extending and / or removing the discharge means from the housing.
[0015]
Dispensing device
According to one preferred embodiment of the present invention, the mounting portion described below is used in the discharge device 11 having means for guiding the cleaning agent from the tank 10 through the spray arm 12 to the cleaning agent discharge opening. Yes, the cleaning agent is discharged from the discharge opening. The means for guiding the cleaning agent is a pipe which can be, for example, a flexible pipe, and more importantly is connected to the tank 10 and the spray arm 12 through a mounting system which will be described in more detail later. . The means for guiding the product from the tank 10 to the spray arm 12 is preferably housed in the housing together with any pipes.
[0016]
For any type of device 1 used with an attachment according to the present invention, the dispensing device 11 has a piercing means or pierceable means that is adapted to the corresponding pierceable means or piercing means of the tank 10, respectively. is important. Preferably, the dispensing device has piercing means fitted into the corresponding pierceable means of the tank. More preferably, the piercing means of the dispensing device is realized by at least one needle 15 that is compatible with the pierceable means of the tank 10, as shown in FIGS. More preferably, the pierceable means of the tank is integrated in a cap that closes the tank. Even more preferably, the pierceable means is an elastic membrane (or septum) and the dispensing device comprises two needles, one connected to the pumping means and the other is a one-way valve or vent membrane, While the contents are removed from the tank, air flows into the tank 10 and thus acts as a ventilation system.
[0017]
Alternatively, the piercing means is arranged on the tank side, and the piercing means is provided in the discharge device. In the following part of the description, only a preferred embodiment having a needle on the dispensing device side and a pierceable means on the tank side will be further described, but this should not be construed to limit the scope of the invention.
[0018]
In the first use, when the consumer inserts the tank 10 into the discharge device 11, the elastic membrane 14 is pierced as shown in FIG. 1C, and the gap between the inside of the tank 10 and the discharge device 11 leaks. Fluid communication in a preventive state. Next, the contents of the tank are pumped through one needle 15 to the pump and further to the nozzle of the spray arm and discharged onto the surface to be treated. Thus, in order to make fluid communication between the tank and the housing of the discharge means in a leak-proof state, it is very easy to attach and detach the tank to and from the housing of the discharge means, and it is clear to the consumer Is provided. It also provides an attachment that is not very complex (needle and elastic membrane) and is therefore very inexpensive to manufacture.
[0019]
In a particularly preferred embodiment of the invention, the means for guiding the product from the tank 10 through the spray arm 12 to the liquid discharge opening comprises an electric pump. The electric pump can be, for example, a gear pump, impeller pump, piston pump, screw pump, peristaltic pump, diaphragm pump or other small pump. In one embodiment, the pump is a gear pump with a typical speed of 6000-12000 rpm.
[0020]
The electric pump needs to be driven by means such as an electric motor. Electric motors are typically 1-50 mN. m torque is generated. An electric motor needs to be provided with a power source. The power source may be a main power source (optional but via a transformer), but may also be a disposable battery or a rechargeable battery. Most preferably, it is one or more AA rechargeable or disposable batteries, the batteries being housed in a package. The voltage output of the battery is generally 1.5 to 12 volts, but the preferred output is 3 to 6V.
[0021]
In one embodiment of the invention, the pump is reversible and can discharge liquid from the tank 10, and the liquid from the surface or just from the pipe of the discharge device 11 to the same, preferably another tank 10. Can be sucked back. In general, a very small amount of liquid can be sucked back from the surface, and such a reversible pump is not a substitute for a vacuum cleaner. Several methods can be used to reverse the pump. In one example, the pump and motor are connected to a timer and electronics so that after a period of time (eg, 15 seconds) after the motor is no longer used, it automatically restarts and reverses its direction of rotation. . As a result, residual product in the tube or extension of the dispensing device 11 is sucked back into the tank 10. As a result, when replacing a product with another, the product can be easily replaced without mixing the new product with the previous one. For example, the consumer uses the dispensing device 11 to dispense the first type of composition, then waits for the pump to suck the first composition back from the pipe, and then removes the tank 10 or its contents. The second composition can be discharged by replacement, and the two compositions do not mix inside the pipe.
[0022]
In a preferred embodiment of the present invention, the dispensing device 11 is adapted to be fitted with at least one corresponding protrusion and / or depression 16 of the tank and / or at least one depression and / or protrusion 17. The tank 10 is detachably fixed in the discharge device 11 in a leak-proof state, and the tank 10 and its discharge means are in fluid communication only when the protrusion and the recess are fitted to each other. The ten protrusions and the depressions 16 have a shape that fits with either or both of the protrusions and depressions 17 of the discharge device 11. Preferably, the discharge means has at least one protrusion which is fitted into a corresponding fitting recess of the tank, as shown in FIGS. Further, preferably, the protrusion and the recess 16 of the tank 10 have a shape that is accurately fitted to both or either of the protrusion and the recess 17 of the discharge device 11. In fact, it is preferred that the overall shape of the tank matches the overall shape of the depression of the discharge means, which can improve the maintenance of the tank. However, the shape of the tank is different from the shape of the housing of the discharge means, but it can be fitted into the tank so as to allow fluid communication between the two. However, it will be readily appreciated that the risk of leakage increases if the overall shape of the tank is not properly maintained by the shape of the discharge means.
[0023]
Handling means
The device 1 according to the invention is preferably hand-held and therefore preferably comprises holding means, more preferably it is integrated with the housing of the dispensing device 11. The holding means may be any kind of handle 18 that allows the user to lift the device 1 and carry it to the place where spraying is to be performed. The handle 18 may be a part of the tank 10 or a part of the housing of the discharge device 11. When cleaning carpets, the device 1 can be carried throughout the room and / or operated in all directions during use. The handle 18 may be a simple protrusion or depression that can be gripped by the user, but may be a more complex structure for ergonomic reasons.
[0024]
In one alternative embodiment of the invention, the housing of the dispensing device 11 comprises means that allow the user to carry it without using their hands. In the first example, the housing includes a clip that allows the user to hang the housing on the belt. In another example, the housing includes at least one shoulder strap that allows it to be carried on the shoulder / back. Other such means can be applied that allow the user to use both hands for other tasks.
[0025]
tank
The apparatus 1 comprises at least one tank 10 of any type capable of containing a liquid product, wherein the product comprises an embodiment when it has a solid and a solvent that sequentially dissolves the solid. Shall be included. Also included are liquids containing small particles in the suspension. The tank 10 is preferably placed in the housing of the dispensing device 11 and can be made of any suitable material such as metal, alloy, glass, but is preferably made of plastic. It comprises at least one chamber having at least one composition. Preferably, the tank is vented. That is, the tank 10 is provided with means for connecting to the discharge device 11, which fluidly connects the two so that fluid can flow out of the tank into the discharge device 11, but at the same time air flows into the tank 10. This means that the decrease in contents can be compensated. Especially when the tank is rigid and its contents are continuously pumped by an electric pump and / or when it is used for a long time without stopping the discharge of the contained product Clearly, such a vented tank is necessary. In fact, while the contents are removed from the tank, they need to be replaced with the same amount of gas or air, otherwise a dent will occur, and after a while it will stop the pump. Several alternative solutions can be envisaged, for example, the tank is formed in two parts and one rigid outer shell is combined with a flexible retractable inner pouch or the flexible pouch is at least a base such as a base Combine with one rigid part. In such a system, the inner pouch gradually contracts during product discharge, so there is no need to replace the discharged contents with gas and thus no venting system. However, such alternative systems have proven to be technically difficult and expensive to manufacture.
[0026]
In a preferred embodiment of the present invention, the discharge means has two needles, one for discharging liquid from the tank, and the other for allowing air to flow into the tank and the contents in the tank. This is to compensate for the decrease in the. With such a connection system, the tank can be properly vented, whereby the contents can be properly pumped and discharged continuously. However, as a modification, the tank can be vented by a one-way valve or a gas permeable membrane.
[0027]
The at least one tank 10 can be fixed in the housing of the dispensing device 11, in which case it preferably has one opening, more preferably a reclosable opening. Alternatively, at least one tank 10 can be removed from the housing of the dispensing device 11 so that it can be replaced when empty, or can be refilled with, for example, tap water.
[0028]
In the first embodiment, the dispensing device 11 has one tank 10 with one chamber containing one or more compositions, preferably one composition.
[0029]
In the second embodiment, the dispensing device 11 has one tank 10 with at least two separate chambers, each of which reacts different compositions, for example immiscible compositions or 2 One reaction solution can be included. Such a tank 10 is manufactured, for example, by extrusion blow molding.
[0030]
In the third embodiment, the discharge device 11 has at least two individual tanks. These tanks have different shapes and can be configured, for example, in a complementary shape. Alternatively, different tanks can be inserted into the dispensing device 11 at different positions. Such tanks can have one or more chambers containing the same or most preferably different products.
[0031]
In the fourth embodiment, the discharge device 11 is for connecting at least one part for connecting a tank 10 containing a liquid such as a solvent or water and a small cartridge of concentrated composition, for example liquid, gel or granulate. And at least one other part. When the consumer uses the discharge device 11, the composition contained in the cartridge is dissolved in a solvent or water, and the active liquid composition thus obtained is discharged from the spray nozzle 13. Alternatively, the cartridge is coupled directly into a portion of the tank 10. For example, the cartridge can be screwed into a suitable opening in the housing or tank 10. The cartridge includes a sealing portion that, when fully screwed, closes the appropriate opening in a sealed manner.
[0032]
In all of the above embodiments, when the discharge device 11 includes a plurality of tanks 10, the ratio of the liquid to be pumped can be changed for each tank 10. For example, this can be accomplished by selecting different diameter pipes for each tank 10 or by adding flow control means to the pipe between the tank 10 and the pump.
[0033]
In another embodiment, it is possible to provide a kit including the discharge device 11 and at least one tank 10 containing a product, and fitting the discharge device and the tank with the attachment portion of the present invention. Preferably, the kit includes a dispensing device 11 and a set of several removable tanks each containing a different product. The different products can be products that treat various parts such as carpets, kitchen surfaces, bathroom surfaces, cars, etc.
[0034]
In a particularly preferred embodiment of the invention, the neck 19 of the tank 10 is eccentric with respect to the central axis of the tank 10 on the cross section of the tank 10, and the tank 10 is non-cylindrical. This is clearly shown in FIGS. 3A-3F. Such a shape prevents the tank 10 from performing lateral and / or rotational movement into the housing of the discharge means, especially during use, thereby preventing leakage.
[0035]
In a preferred embodiment of the present invention, the tank 10 has at least one recess and / or protrusion 16 or at least one corresponding protrusion and / or recess 17 of the discharge device 11 of the device. The tank 10 is detachably fixed in the discharge device 11 in a leak-proof state, and the tank 10 and the discharge means are in fluid communication only when the protrusion and the recess are fitted to each other. The protrusions and depressions 16 of the tank 10 have a shape that fits into and / or one of the protrusions and depressions 17 of the discharge device 11. Preferably, the tank 10 has at least one recess 16 that fits into a corresponding fitting projection 17 of the dispensing device 11 as shown in FIGS. Also, preferably, for the above reason, the protrusion 10 and the recess 16 of the tank 10 have a shape that can be accurately fitted to either or both of the protrusion and the recess 17 of the discharge device 11. The indentation can be an integral part of the tank wall, but as a modification, the indentation is formed by securing a cap having an outer diameter larger than the outer diameter of the tank neck to the tank neck.
[0036]
Tank / discharge device lock mechanism
It has been found that an apparatus having a dispensing device and tank assembly and moving in all directions during use is likely to leak between the tank 10 and the dispensing device 11. This clearly spills the product into an unexpected location, which is obviously dirty, but can be dangerous depending on the nature of the discharged product.
[0037]
Preferably, the provided tank 10 is non-cylindrical and has an eccentric neck 19. This provides stability and prevents lateral and rotational movement of the tank 10 within the housing of the discharge means. In particular, the non-cylindrical tank prevents rotational movement. However, there will still be some leakage due to axial movement of the tank 10 (ie, along the longitudinal axis of the tank). In order to prevent such axial movement, the device 1 more preferably comprises a releasable locking mechanism 25 between the tank 10 and the housing of the discharge device. Therefore, the tank 10 has at least one indentation and / or protrusion, the discharge device 11 has the corresponding protrusion and / or indentation, and the protrusion and the indentation are fitted to each other. Only when they are combined, the tank 10 is detachably fixed in the discharge device 11 in a leak-proof state, and the tank 10 and the discharge means are in fluid communication. Further, the protrusion 10 and the recess 16 of the tank 10 are connected to the discharge device 11. It is a particularly preferable feature of the present invention that it has a shape that fits into the protrusions and the depressions. Preferably, for the reasons described above, the protrusion and the recess 16 of the tank 10 have a shape that can be accurately fitted to the protrusion and / or the recess 17 of the discharge device 11.
[0038]
In the first embodiment, as shown in FIGS. 1A to 1C, the tank 10 has one recess 16 provided on one of the side walls, that is, provided in the main body portion thereof. The discharge device 11 is provided with a single protrusion 17 arranged so that the needle 15 of the discharge device 11 pierces the elastic membrane 14 of the tank cap and fluidly communicates between the two so as to fit into the recess 16 accurately. It has been. As a result, the tank 10 is maintained in close contact with the housing of the discharge device 11, so that leakage of liquid at the interface between the needle 15 and the pierceable means 14 is prevented.
[0039]
In the second embodiment of the present invention, as shown in FIGS. 3A to 3F, whether the tank 10 has a recess near the top, for example, the neck 19 or directly in the cap 28, Alternatively, the recess is formed by the difference in outer diameter between the bottle neck 19 and the cap 28 itself. In the latter case, if the outer diameter of the cap 28 is larger than the outer diameter of the neck 19 of the tank, a recess is formed when the cap is fixed on the neck. The discharge device 11 is provided with a single protrusion arranged so that the needle 15 of the discharge device 11 pierces the rubber partition 14 of the tank cap 28 and fluidly communicates between the two, so that it fits into the recess. . This second embodiment will be preferred over the first embodiment. In practice, the tank is preferably manufactured by an extrusion blow molding process. For this reason, the tolerance of the tank is not as accurate as the tolerance of the punch to be injection molded. In order to prevent the movement of the tank 10 in the housing of the discharge means, high precision is required for fitting the lock mounting system. This is very important in the connection area between the needle 15 and the elastic membrane 14 where the risk of leakage is highest. It has been found that by minimizing the distance between the locking mechanism 25 and the elastic membrane / needle mounting portion, the tank 10 is better fixedly held in the housing at the elastic membrane / needle mounting portion.
[0040]
In any case, according to the present invention, at least one recess and / or protrusion of the tank 10 is located at a position less than 25 cm, preferably less than 20 cm, more preferably less than 10 cm from the top of the tank 10. This is a preferred feature of the device 1.
[0041]
As shown in FIGS. 1A-1C, it is very advantageous that the locking mechanism 25 between the tank 10 and the dispensing device 11 is releasable. For this purpose, the at least one protrusion is movable and can be engaged and disengaged with respect to the corresponding recess. Preferably this is a push button, press-button (press-button
type) or other suitable means for releasing at least one protrusion from at least one indentation. More preferably, the lock mechanism 25 is a push button type releasable lock mechanism 25. It has a movable projection 17 attached with spring means 27 such as a helical metal spring 27 or a plastic spring blade. The protrusion 17 is connected to a push button that the consumer can touch from outside the device housing. When the tank 10 is in place and locked in the housing, the user can press the button to release the protrusion 17 from the tank recess and remove the tank 10 from the device 1.
[0042]
The protrusion can have any shape as long as the protrusion is accurately combined with the recess. For example, it can be a simple pin, but it can also be a hook, or even a more complex shape such as a door key.
[0043]
As will be described in more detail below, it is an important feature of the present invention that the needle 15 attached to the dispensing device 11 is protected from contact by the consumer by a spring-biased protective plate 20. The plate 20 prevents contact with the needle 15 when the dispensing device does not contain the tank 10 and allows free contact with the needle 15 whenever the tank 10 is fully inserted into the dispensing device 11. To do.
[0044]
In a highly preferred embodiment of the present invention, the spring-biased movable protrusion 17 that releasably locks the tank 10 in the recess of the dispensing device is further provided with a protective plate 20 as shown in FIG. 1A. Means for locking in a position to prevent contact with the needle 15 is provided. This provides double safety because the protective plate 20 cannot be moved without first pressing the movable protrusion. Actually, the linked movement for moving the protective plate 20 to a position where it can come into contact with the needle 15 simultaneously with the pressing of the movable protrusion cannot occur by chance because the movable protrusion and the protective plate 20 are not located at the same place. Even if a child plays for a long time with that instrument, it is even more difficult for the child. Thus, this system that links the locking mechanism 25 with the spring biased protective plate 20 adds the advantages of the device 1 as a child-resistant feature.
[0045]
In the second embodiment of the present invention, as shown in FIGS. 2A to 2D, the protection plate 20 is fixed at the locked position while preventing contact with the needle by the snap ring 21. As shown in FIG. 3, the snap ring 21 is a flexible, generally annular spring, preferably made of metal, but can be made of other suitable flexible materials. The snap ring includes a main ring 23 that is interrupted at the central portion, and two extending portions 24 that extend above the main ring 23. The snap ring 21 is inserted between the attachment portion of the discharge device 11 and the protection plate 20. In the normal position, the diameter of the main ring 23 of the snap ring is smaller than the outer diameter of the base of the protective plate 20 so that the protective plate cannot be lowered to the bottom of the instrument mounting, so that it is in the “needle protected” position. It is locked to. Whenever the tank 10 is inserted into the dispensing device 11, the shoulder of the tank presses against the extended portion 24 of the snap ring 21, resulting in an increase in the diameter of the main ring 23, as shown in FIGS. 2C and 2D. Therefore, the diameter of the main ring 23 is larger than the outer diameter of the protection plate 20. For this reason, the protective plate 20 can slide down and come into contact with the needle 15, and the needle punctures the elastic membrane 14 of the tank, as shown in FIG. 2D.
[0046]
Tank / discharge device mounting part
As described above, the tank 10 is fitted to the dispensing device 11 by at least one piercing means 15, for example at least one needle 15, which pierces the at least one pierceable means 14. Preferably, at least one needle 15 is in the recess of the instrument in which the tank 10 is normally located during use, and the pierceable means 14 is located on the tank 10.
[0047]
The at least one needle 15 used in the present invention can be of several shapes or components, such as stainless steel, tantalum, zirconium, etc., but preferably metal stainless steel 304 or similar stainless steel. Made of steel. More preferably, the outer diameter is 0.7 to 7 mm, more preferably the outer diameter is 0.7 to 2.5 mm. Preferably, the inner diameter is 0.5 to 2 mm, more preferably the inner diameter is 0.5 to 1.5 mm. When at least one needle is a bevel-edged needle, the tip angle is preferably 15 ° to 30 °, more preferably the tip angle of the needle 15 is 21 °. However, other needle shapes can be used.
[0048]
It has been found that the beveled edge needle is at least partially occluded by a portion of the elastic membrane, which can render the instrument inoperable. This is because the heel portion of the needle bevel is very sharp and when the needle is inserted into the elastic membrane, this sharp heel portion protrudes a small portion of the elastic membrane, which slides into the needle passage and blocks the passage. It is. One solution to avoid this problem is to use a non-coring needle, defined as a needle that is designed and manufactured so that the material in which the needle is inserted cannot be ejected. . There are various types of non-coring needles. For example, it can be accomplished by sandblasting the heel portion of the bevel and eroding it until it loses its sharpness. Alternatively, by shaping the needle like a pencil tip and providing a hole in the side of the needle instead of the tip, the beveled sharp edge will not cut off a portion of the pierceable material and separate it. To. Alternatively, the tip of the needle is shaped like a scalpel and a hole is provided in the side of the needle rather than the blade so that the beveled sharp edge does not cut and separate a portion of the pierceable material. . Such non-coring needles are known in the art, and those skilled in the art will be able to properly select the proper shape and dimensions of the needle for the purposes of the present invention.
[0049]
It has been found that after removing the tank 10 from the dispensing device, the person can touch the needle 15 if the person puts his hand into the depression of the dispensing device. Such a needle 15 is generally very sharp and will be harmful when touched, especially if a portion of the dispensed product remains on it. This is true for any user, but especially for children. In fact, it has been found that children are very curious and can easily put their hands into the depressions of the dispensing device 11 while playing.
[0050]
For this reason, according to the present invention, if the tank 10 is not connected to a discharge device, it has a protective plate 20 that prevents contact with at least one needle 15 between the bottle and the discharge device. This is an important feature of the department.
[0051]
Preferably, as shown in FIGS. 1A to 1C, the protection means 20 is a movable protection plate 20. More preferably, the protective plate 20 has a cap-shaped recess 22. The protective plate 20 is spring biased and automatically returns to a position that prevents contact with the needle 15 whenever the tank 10 is removed from the dispensing device. Any type of spring can be used, but preferably the spring 27 is a helical spring 27 as shown in FIGS. 1A-1C. When the tank 10 is inserted into the neck 19 of the discharge device, the neck 19 and / or the lid presses the protective plate 20, so that the needle 15 can come into contact with the tank 10 and the pierceable means 14 is pierced. Fluid communication is made between the discharge device 11 in a leak-proof state.
[0052]
Drillable means
After removing the tank 10 from the dispensing device, for example, if the user wants to temporarily use the dispensing device 11 to dispense another product, there may be a situation where a certain amount of product remains in the tank 10. . In this case, it is natural that the remaining product leaks from the open pierceable means 14 of the tank 10, but this is clearly undesirable for the consumer. It is also important that during use of the device 1 the attachment between the tank 10 and the dispensing device is in a leak-proof condition so that no liquid can contact the interior of the device. In fact, the instrument may be an electrical instrument, and leakage of liquid into the electrical circuit can cause damage to the dispensing instrument or harm the user, which is of course undesirable.
[0053]
In the following description, for the sake of clarity, only an example in which the pierceable means 14 of the tank 10 is a pierceable membrane 14 will be described. However, this does not limit the scope of the invention, as the pierceable means 14 can be obtained in other ways. For example, the pierceable means 14 may be a part of the tank wall integrally formed with the tank 10 by, for example, a co-injection molding process, but may also be a part added to the tank 10 wall by an adhesive or welding process.
[0054]
If the tank 10 has been in the instrument for more than a month, most known membranes will remain in a deformed shape, more specifically, the shape of the needle 15 drilled into it will be in the shape of one or more holes. This will of course make the container more likely to leak. This phenomenon is generally called setting-up and appears within 2-3 weeks after the needle 15 is inserted. Surprisingly, it has been found that the pierceable membrane 14 described below provides an excellent leak-proof condition even when pierced with the needle 15 of the dispensing device. Furthermore, it has been found that even if the tank 10 has been in the dispensing device for more than a month, removing the tank 10 from the device closes the membrane 14 again, preventing curing and concomitant leakage. . For membranes according to the invention, such a membrane is advantageous.
[0055]
This is accomplished by forming a film 14 that does not harden after being perforated. It has been found that this effect can be obtained by forming the membrane 14 with at least one layer of one or more materials including at least one layer of elastic material. Preferably, the membrane 14 is formed of at least one layer of elastic material that provides good resealing properties, i.e., whenever the membrane 14 is perforated, the perforation means 15 remains within the membrane 14 for an extended period of time. Even if it remains, the elastic layer prevents the membrane 14 from hardening, and after removing the piercing means 15, e.g. the needle 15, from the membrane 14, the membrane 14 restores its initial, ie closed shape, to prevent leakage. Can do. Additional layers made of various materials may be used. For example, the inner layer of the film 14 may be constituted by one layer of a material having chemical resistance against the contents of the tank 10. Alternatively, a material such as metal, plastic, aluminum, alloy, paper or cardboard, Teflon, or other suitable material may be added to the layer of elastic material to form a combined layer.
[0056]
In a first preferred embodiment, the membrane 14 is formed of a single layer of silicon, which provides excellent material memory and good chemical resistance to the tank contents. Have.
[0057]
In the second embodiment, the film 14 is made of a combination of silicon and inert PET. Membrane 14 recloses after drilling because silicon provides excellent resilience to the material, while inert PET provides chemical resistance to the product contained within tank 10. In a highly preferred embodiment of the present invention, the elastic membrane 14 is in contact with the atmosphere and an inner layer made of inert PET intended to contact the interior of the tank 10 and in particular to provide chemical resistance to its contents. It consists of two layers with a silicon outer layer.
[0058]
In both of the above embodiments, the thickness of the membrane 14 is an important parameter and affects the material's resiliency. The membrane 14 is preferably less than 1 cm in thickness, more preferably less than 6 mm, and even more preferably less than 4 mm, all thicknesses being the central portion of the membrane 14, ie the area to be perforated (see FIG. 2) It is measured at the part of the film 14 constituting
[0059]
The membrane 14 can have any suitable shape, but is circular and has an overall diameter of preferably 0.5 to 5 cm, more preferably 0.7 to 2 cm, and even more preferably 0.9 to 1.1 cm. It has been found that when the overall diameter is 1 cm, the ratio of 3.6 mm thickness of the intermediate perforable portion provides good resiliency to the single layer of silicon film 14 and well prevents curing.
[0060]
As described above, the pierceable membrane 14 may be part of the instrument, but is preferably the tank 10 or part of the cap 28 that closes the tank 10 and is the most preferred embodiment of the present invention. The pierceable membrane 14 is then attached to the upper portion of the cap 28. It must be installed in such a way that it is very difficult to remove without the use of tools. It can be mechanically inserted by a rib that fits into the groove, as shown in FIG. 2, but it can also be attached by some other means such as heat sealing, gluing or welding. Also, the same injection mold can be used for simultaneous injection molding with the cap itself, which has the advantage of low manufacturing costs. If it is made of silicon or a similar elastic material, the membrane 14 can also be cast and then UV cured.
[0061]
The cap can have any suitable shape, for example, it can have a truncated profile, as shown in FIG. It can be screwed to the neck 19 of the tank 10 with, for example, one or more threads, but can also be secured with other suitable means, such as bayonet mounting means, clip means, and the like. However, as mentioned above, if the tank 10 has a pierceable cap with a membrane 14 made of silicon and the cap can be fixed to the neck 19 of the tank 10 but cannot be removed, the mounting according to the invention The apparatus 1 using the unit is further successfully realized. In such an embodiment, if the adult user needs to remove the tank 10 from the instrument when the tank 10 is not yet empty, the pierceable membrane 14 will be reclosed upon removal of the tank 10, thereby Since the product contained inside cannot leak and the cap cannot be removed without the use of this tool with the aid of a fairly large lever, the tank 10 is difficult to open for children. is there. This means that the child is less likely to touch the composition contained therein. With non-return triangular lug, the cap can be screwed, but by means such as a screw thread that can not be screwed off, such a non-removable attachment It can be carried out.
[Brief description of the drawings]
FIG. 1A is a schematic cross-sectional view showing one embodiment of the attachment means with the tank separated, partially connected and fully connected to the dispensing device, respectively.
FIG. 1B is a schematic cross-sectional view showing one embodiment of the attachment means with the tank separated, partially connected and fully connected to the dispensing device, respectively.
1C is a schematic cross-sectional view showing one embodiment of the attachment means with the tank separated, partially connected and fully connected to the dispensing device, respectively. FIG.
FIG. 2A is a schematic cross-sectional view showing another embodiment of the attachment means with the tank separated, partially connected and fully connected to the dispensing device, respectively.
FIG. 2B is a schematic cross-sectional view showing another embodiment of the attachment means with the tank separated, partially connected and fully connected to the dispensing device, respectively.
FIG. 2C is a schematic cross-sectional view showing another embodiment of the attachment means, with the tank separated, partially connected and fully connected to the dispensing device, respectively.
FIG. 2D is a schematic cross-sectional view showing another embodiment of the attachment means with the tank separated, partially connected and fully connected to the dispensing device, respectively.
FIG. 3 is a perspective view of one embodiment of a spring fitted to a protective plate.
FIG. 4 is a side view of the instrument in a state in which a tank is fitted.

Claims (4)

At least one pierceable means;
And at least one needle for piercing the at least one pierceable means,
An attachment for fluid communication between a discharge device and a tank connected to the discharge device,
Protection means having a spring-biased movable protection plate for preventing contact with the at least one needle when the tank is not connected to the dispensing device ;
Means for locking the spring-biased movable protective plate in a position that prevents contact with the at least one needle ;
The spring biased movable protection plate moves after pressing the movable projection by the tank when the tank is inserted into the discharge device, and the at least one needle pierces the pierceable means, An attachment portion characterized in that the tank and the discharge device can be in fluid communication without leakage.   The attachment portion according to claim 1, wherein the at least one needle and the protection means are provided on the discharge device side, and the punchable means is provided on the tank side.   The attachment part according to claim 1 or 2, wherein the pierceable means is an elastic pierceable membrane.   A device comprising a dispensing device and a tank for the device, wherein the dispensing device and the tank are detachably connectable by means of an attachment according to claims 1 to 3.

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