JP4854820B1 - Water server for easy replacement of water bottles - Google Patents

Abstract

An object of the present invention is to improve the efficiency of exchanging water bottles in a water server that supplies drinking water from water bottles that are exchangeably supported.
A relative slider 141 that variably connects the tube opening of the water supply bottle 10 supported by the water supply bottle support part 110 in an inverted state and the water supply connection tool 120 supported by the water supply connection tool support part, and the water supply bottle 10 Including a lock mechanism 1421 and 1422 that locks the operation of the relative slider 141 in a state where the tube opening of the tube and the water supply connector 120 are connected, and a release mechanism 143 that releases the lock state of the lock mechanism 1421 and 1422. A water supply connector attaching / detaching mechanism for controlling the attachment / detachment of the bottle opening of the bottle 10 and the water supply connector 120 is provided. When the user places the water bottle 10 on the water bottle support 110, the tube opening of the water bottle 10 is removed by the water supply connector attaching / detaching mechanism. It was set as the structure connected to the water supply connector 120. FIG.
[Selection] Figure 1

Description

  The present invention relates to a water server that can supply water by mounting a water supply bottle having a replaceable structure, and can be easily taken out as water or hot water by a user's operation. Applications of the present invention include not only commercial water supply but also general water supply installed in general households and companies. Further, anything that can be supplied by the water server of the present invention can be applied as long as it is liquid, and in addition to drinking water, hot water, various drinks, coffee, tea, tea, soups and soups may be used.

In general, a water server that can supply water by mounting a water supply bottle having a replaceable structure and can be easily taken out as water or hot water by a user's operation has gained popularity and is widely used.
In the structure of water servers that have been widely used in the past, a water supply bottle is disposed at the top of the apparatus main body, and water in the water supply bottle is naturally dropped to conduct water to each system.
For example, the configuration of a water server disclosed in Japanese Patent Application Laid-Open No. 2010-63799 includes a liquid supply unit 20 to which a water supply bottle 22 for storing liquid can be attached, and a raw material for storing raw material, as shown in FIG. The beverage preparation unit 30 includes a storage unit 50 and a mixing unit 80 that mixes the liquid supplied from the liquid supply unit and the raw material supplied from the raw material storage unit.
As described above, in the water server disclosed in Japanese Patent Application Laid-Open No. 2010-63799, since the water supply bottle 22 is attached to the upper part, when the drinking water in the water supply bottle 22 is supplied to the beverage preparation unit 30, You can use your own weight.
However, the conventional water server described above has the advantage that the water flow uses gravity during normal use and power consumption in the device is reduced, but it is difficult to replace the water bottle. It required a lot of effort. In other words, since the water bottle is provided at the top of the device body, when replacing the water bottle, the water bottle is removed from the top of the device body, and a new water bottle is set again at the top of the device body. Raising and lowering work was necessary. The water tank filled with water is heavy and requires a strong force to lift and set to the top of the main body of the device, which is a burden for women and children who are weak and elderly people who are hurting their backs. There was too much problem. Further, since the water supply bottle is disposed at the uppermost part of the apparatus main body, the center of gravity of the apparatus main body is on the upper side, which is unstable and there is a problem in the safety of the apparatus.
In order to improve the above-described problems of the conventional water server, there is a device in which a water bottle is placed below.
The water server disclosed in Japanese Patent Laid-Open No. 2001-153523 is devised to place a water supply bottle below. In Japanese Patent Laid-Open No. 2001-153523, as shown in FIG. 17, a water supply bottle 5 (numbered in the figure) is detachably disposed on the bottom of the apparatus main body, and a pump is provided from the water supply bottle 5 to a water supply system. The structure in which the water supply pipe | tube 62 (numbering in a figure) which supplies water is formed is disclosed. In this way, by devising the water bottle 5 downward, when the water bottle 5 is replaced, the water bottle 5 can be removed from the lower part of the apparatus body and a new water bottle 5 can be set again at the lower part of the apparatus body. As in the water server disclosed in Japanese Unexamined Patent Publication No. 2010-63799, it is not necessary to raise and lower the water supply bottle. In addition, the stability is improved by lowering the center of gravity of the main body of the device, and the water server is less likely to fall down even during an earthquake.
JP 2010-63799 A JP 2001-153523 A

As described above, by devising the water bottle to be placed downward in the water server, it is not necessary to raise or lower the water bottle even when the water bottle 5 is replaced, and the center of gravity of the apparatus main body can be lowered downward. Therefore, the merit of improving the stability of the entire apparatus can be obtained.
However, the water server disclosed in Japanese Patent Laid-Open No. 2001-153523 has the following problems.
First, it is a sanitary problem. In the water server disclosed in Japanese Patent Application Laid-Open No. 2001-153523, the water bottle is only allowed to stand at the lower part of the apparatus, that is, the water bottle is left standing with its opening facing upward, and water is supplied by a pump. The water pipe to be pierced through the opening. When the water bottle is left standing with the opening up, in order to pump the water to the end, it is necessary to lengthen the water pipe and pass it from the upper surface to the lower surface of the water bottle. For this reason, a water pipe such as metal enters deeply into the water in the water bottle, and there is a problem in terms of hygiene unless the water pipe is sufficiently maintained.
On the other hand, as in the conventional water server disclosed in Japanese Patent Application Laid-Open No. 2010-63799, if the water bottle is supported in the inverted state on the uppermost part of the apparatus main body, the water bottle is directly placed at the opening of the inverted water bottle. Since an appropriate amount is pumped out by the connected water supply connector, a jig or the like does not enter deeply into the water in the water supply bottle, which is excellent in terms of hygiene.
However, in the configuration of the water server in which the water bottle disclosed in Japanese Patent Laid-Open No. 2001-153523 is simply disposed in the lower part of the apparatus, the water bottle disclosed in Japanese Patent Laid-Open No. 2010-63799 is in an inverted state. Even assuming a configuration in which the configurations to be supported are combined, such a water server configuration has a problem in that it is very difficult to replace the water supply bottle. That is, it is a problem that it is structurally difficult to install the water bottle below the apparatus and set the water bottle in the inverted posture by connecting it to the water supply connector.
In other words, if it is a type in which the water bottle is arranged at the lower part of the apparatus, it is not necessary to lift the water bottle greatly at the time of replacing the water bottle, and it is easy from the viewpoint of raising and lowering the water bottle, but the water bottle is inverted. If it is in the posture, the opening of the water bottle is positioned at the lowest point, and the water bottle itself blocks the view, so it is possible to make the connection between the opening of the water bottle and the water supply connector while visually observing Can not. Also, if the location of the water bottle is located below the inside of the device, the housing of the device itself obstructs the field of view, and it is difficult to put the hand in the back of the device, which hinders workability. Will occur.
Japanese Patent Application Laid-Open No. 2001-153523 discloses a device that installs a loading platform under a water supply bottle and pulls out the water supply bottle. However, in a type in which the water supply bottle is connected to the water supply connector in an inverted posture, the water supply connector is used. Cannot be pulled out easily because it is connected to the water supply system inside the device. To the extent that the water bottle is pulled out slightly by the loading platform, the connection location of the water bottle in the inverted position remains hidden in the back, and there is no change in the state where the water bottle replacement work efficiency is hindered.
In view of the above problems, the present invention provides a merit that the water bottle is not required to be raised and lowered by disposing the water bottle in the lower part of the apparatus, and the hygiene by directly connecting the water bottle to the water supply connector in the inverted posture. It is another object of the present invention to provide a water server in which the efficiency of replacing water bottles is improved by adopting a structure that makes it very easy to replace water bottles while obtaining advantages in terms of surface.

In order to achieve the above object, the water server of the present invention is a water server that supplies drinking water from a water bottle that is exchangeably supported, and a water bottle support section that supports the water bottle in an inverted state, and the water supply A water supply connector support part that supports a water supply connector that is connected to the inside of the water supply bottle through the bottle opening of the bottle and takes out the drinking water, and a water supply connection of the water bottle supported by the water bottle support part and the water supply connection A relative slider that connects the water supply connector supported by a tool support portion with a variable distance between them, and a state in which the operation of the relative slider is locked in a state where the water bottle connector and the water supply connector are connected. And a release mechanism that releases the lock state of the lock mechanism, and controls the attachment / detachment of the water bottle connector and the water supply connector. A water supply connector attaching / detaching mechanism, and when the user places the water bottle on the water bottle support portion, the water supply connector attaching / detaching mechanism connects the tube opening of the water supply bottle to the water supply connector. It is a water server.
Here, the lock mechanism includes a first lock portion provided on the side of the water supply bottle support portion and a second lock portion provided on the side of the water supply connector support portion, with respect to the tube opening of the water supply bottle It is preferable that the first lock portion and the second lock portion are disposed so as to fit in a state where the connection pipe of the water supply connector is normally fitted.
For example, if the sliding direction of the relative slider is the vertical direction, when replacing the water bottle, simply place the full water bottle in the inverted state, place it on the water bottle support from above, and push it from above. The water bottle is naturally connected to the water supply connector as well as being locked by the lock mechanism.
Here, in the above configuration, a spring is built in the relative slider, and the spring contracts in a locked state of the lock mechanism and is in a state of being biased with respect to the water bottle support portion and the water bottle. When the lock mechanism is unlocked by the release mechanism, the water bottle support portion and the water bottle are raised along the relative slider by the biasing force of the spring, and the water bottle inlet is connected to the water bottle port. It is preferable to have a mechanism for detaching from the connection tool.
In addition, when energizing with a spring, the arrangement position of the first lock part and the second lock part is such that the water bottle support part on which the water bottle is placed in the full state of the water bottle is the spring. In a position where the water bottle is fitted to the position where the water bottle is pushed down while being compressed, and the water bottle support portion on which the water bottle is placed in a state where the water bottle is nearly empty is released to a position where the water bottle is pushed up by the spring. It is preferable to have a configuration.
In this way, by energizing with the spring, when the lock mechanism is released by the release mechanism, the water supply bottle placed on the water supply bottle support is raised by the elastic force of the spring and is removed from the water supply connector.
In the water server of the present invention, the water bottle replacement including the water bottle support part, the water supply connector, the water supply connector support part, and the water supply connector attachment / detachment mechanism so that the water bottle can be easily replaced. It is preferable that a unit slide mechanism that slides the entire unit back and forth is provided, and that the water bottle replacement operation can be performed in a state where the whole water bottle replacement unit is pulled forward.
Thus, by pulling out the water bottle replacement unit together with the front of the apparatus, the water bottle can be replaced at the user's hand and workability can be improved.
Before and after pulling out the water bottle replacement unit and replacing the water bottle, connect the connection pipe between the water supply system and the water supply connector in the device so that the connection between the water supply system and the water supply connector in the device is not disconnected. Even if the connecting portion has a margin length and the entire water bottle replacement unit is housed in the apparatus, or the state in which the entire water bottle replacement unit is drawn forward by the unit slide mechanism, the apparatus It is preferable that the connection of the inner water supply system and the connection pipe of the water supply connector is maintained.
Before and after the work of pulling out the water bottle replacement unit and the work of replacing the water bottle, the work efficiency may be reduced if the water supply system in the apparatus is connected to the water supply connector, but the connection is maintained. If so, the work efficiency is not lowered.
Next, a part of the unit slide mechanism is provided with an activation part of the release mechanism. The unit slide mechanism pulls out the entire water bottle replacement unit to the front, and the release mechanism releases the lock mechanism. It is also possible to devise so that the lock mechanism is automatically released when the operation is linked and the whole water bottle replacement unit is pulled forward.
In this way, the work efficiency can be improved by linking the pull-out operation of the water bottle replacement unit and the unlocking operation of the lock mechanism.
In addition, in the operation | movement which cancels | releases a water supply bottle from a water supply connector support part, in order to pull out reliably, it is preferable that the water supply bottle is firmly fixed with respect to the water supply bottle support part. Therefore, the water bottle has a fitting shape in which the water bottle has a hook, the water bottle support part fits with the water bottle in the water bottle, and the water bottle stops movement of a vertical component with respect to the water bottle. It is preferable to provide it.
Here, in the water server of the present invention, the water bottle support part and the water supply connector support part are arranged in the vicinity of the lower part in the casing of the water server, and the mounting position of the water bottle is the water If it is near the lower part of the server casing, stability can be improved.

  According to the water server of the present invention, the water bottle can be easily attached and detached, the efficiency of replacing the water bottle can be improved, and the water bottle can be lifted and lowered by disposing the water bottle in the lower part of the apparatus. And the merit in terms of hygiene is obtained by directly connecting the water supply bottle to the water supply connector in the inverted posture.

FIG. 1 is a diagram schematically illustrating a configuration example centering on a structure relating to water bottle replacement of the water server 100 according to the first embodiment of the present invention.
FIG. 2 is a view showing the water supply bottle 10 taken out.
FIG. 3 is a view showing the water supply bottle support 110 with the water supply bottle 10 attached.
FIG. 4 is a diagram for briefly explaining the support structure of the water supply bottle 10 of the water supply bottle support 110.
FIG. 5 is a diagram simply showing a configuration example of the water supply connector 120 and a configuration example of the water supply connector support part 130.
FIG. 6 is a diagram explaining the movement of the relative slider 141 and the locking operation by the locking mechanism 142 in an easy-to-understand manner.
FIG. 7 shows how the lock state of the water supply bottle 10 and the water supply connector 120 is released by the action of the lock release mechanism 143.
FIG. 8 is a diagram for explaining the movement of the unit slide mechanism 150.
FIG. 9 is a diagram for explaining the structure of the guide 152, the base 153, etc. of the unit slide mechanism 150, and a diagram for explaining an example of the structure of the spiral connecting portion 125 and the telescopic rod 126.
FIG. 10 is a diagram showing the basic posture of the water server 100 and the forward movement of the entire water bottle replacement unit by the unit slide mechanism 150.
FIG. 11 is a diagram showing unlocking by the unlocking mechanism 143. FIG.
FIG. 12 is a view showing removal of the used water supply bottle 10 and attachment of a new water supply bottle 10.
FIG. 13 is a diagram showing locking by the locking mechanism 142.
FIG. 14 is a diagram showing the pushing-back movement of the entire water bottle replacement unit by the unit slide mechanism 150. FIG.
FIG. 15 is a flowchart showing a procedure for replacing the water supply bottle 10 in the water server 100 according to the present invention.
FIG. 16 is a diagram showing a configuration of a conventional water server disclosed in Japanese Unexamined Patent Publication No. 2010-63799.
FIG. 17 is a diagram showing a configuration of a conventional water server disclosed in Japanese Patent Laid-Open No. 2001-153523.

Hereinafter, the best mode for carrying out the present invention will be described specifically by way of examples. In addition, this invention is not limited to the structure of these Examples.
Hereinafter, embodiments of the water server of the present invention will be described with reference to the drawings. The present invention is not limited to these examples.
Here, the water server will be described as a type that can supply water by selecting cold water and hot water.

The water server 100 according to the first embodiment of the present invention will be described.
Here, a description will be given of a configuration example in which the entire water bottle replacement mechanism is disposed near the lower part of the water server casing, and the water bottle mounting position is near the lower part of the water server casing.
FIG. 1 is a diagram schematically illustrating a configuration example centering on a water bottle replacement mechanism of a water server 100 according to a first embodiment of the present invention. 1A is a front view of the water server 100, and FIG. 1B is a right side view of the water server 100. In FIG. 1A, a housing 190 such as a front door is not shown in detail and the configuration inside the apparatus is simply shown so that the configuration of the contents of the apparatus can be easily understood. In FIG. 1B, in order to make the configuration of the apparatus easy to understand, the side wall 151 provided with a guide 152 existing inside the wall surface is not shown, but is simply shown by a dotted line. The configuration in the apparatus is simply indicated by a solid line.
The water server 100 of the present invention includes a water bottle support part 110, a water supply connector 120, a water supply connector support part 130, a water supply connector attachment / detachment mechanism 140, and a unit slide mechanism 150 as a structure related to water bottle replacement. It has become.
The housing 190 is illustrated in a simplified manner. The water supply bottle is shown as a water supply bottle 10. The water server 100 includes other components such as a thermal unit / water injection unit 101 and a water supply system 102. However, the components are simply illustrated or omitted here, and the components related to the water bottle replacement mechanism are mainly described. Explain.
First, the water supply bottle 10 will be described. FIG. 2 is a view showing the water supply bottle 10 taken out.
The water supply bottle 10 is a large bottle in which drinking water or the like is stored, and may be a plastic bottle, for example. There is a tube opening 11 and has a small hole 12 having an inner diameter into which the connection pipe 121 of the water supply connector 120 is fitted, as will be described later. The opening of the small hole 12 is covered with a plug 13.
FIG. 2B is a diagram illustrating a method of conducting with the inside of the water supply bottle 10 in this configuration example. As will be described later, when connecting with the water supply connector 120, the water bottle 10 is approached to the water supply connector 120 from above, and the small hole 12 of the tube port 11 is inserted into the connection pipe 121. As shown in the left figure of FIG. 2 (B), the tip of the rod-shaped connecting pipe 121 comes into contact with the stopper 13, and when the water supply bottle 10 moves downward, the connecting pipe 121 pushes the stopper 13 upward. The tip portion reaches the inside of the water supply bottle 10. The rod-like connecting pipe 121 is hollow, and a small hole 122 is opened at the tip thereof, and the inside of the water supply bottle 10 and the connecting pipe 121 are conducted through the small hole 122, so that the water inside the water supply bottle 10 is water. Can be taken out through the water supply connector 120.
Conversely, when the water supply bottle 10 is pulled upward, the connection pipe 121 of the water supply connector 120 is pulled out from the small hole 12 of the water supply bottle 10.
In addition, as shown in FIG. 2 (A), a collar 14 is provided on the outer wall surface of the tube port 11 of the water supply bottle 10. This flange 14 is fitted with the fitting shape 112 of the water bottle support 110. The fitting between the flange 14 and the fitting shape 112 will be described later.
The above-described configuration example of the water supply bottle 10 is an example, and may be a configuration of another water supply bottle.
Next, the water supply bottle support part 110 will be described. The water supply bottle support part 110 is a member that supports the water supply bottle 10, and has a mortar shape here. FIG. 3 (A) is a view showing the water bottle support part 110 with the water bottle 10 attached. FIG. 3B simply shows a longitudinal section of the water bottle support 110.
As shown in FIG. 3B, a mortar-shaped depression corresponding to the outer shape of the water supply bottle 10 is provided on the upper surface of the water supply bottle support 110, and the water supply bottle 10 is mounted in an inverted state in this depression. To do.
Next, as shown in FIG. 3A, a claw of the first lock portion 1421 of the lock mechanism 142 is provided on the outer peripheral wall surface of the water supply bottle support portion 110. In this configuration example, the claw of the first lock portion 1421 is provided at four locations on the outer peripheral wall surface at intervals of approximately 90 degrees. The claws of the first lock portion 1421 are fitted with the second lock portion 1422 as will be described later.
Further, as shown in FIG. 3, a relative slider 141 is provided at the bottom of the water supply bottle support 110. Here, four relative sliders 141 are provided on the bottom wall surface at intervals of approximately 90 degrees. The structure of the relative slider 141 is not limited, but in this configuration example, a cylindrical inner cylinder and an outer cylinder that become the guides 1411 are combined, and are configured to slide up and down to expand and contract. A spring serving as a lifter 1412 is built inside. The relative slider 141 will be described later.
Next, the support structure of the water supply bottle 10 in the water supply bottle support part 110 is demonstrated. FIG. 4 is a diagram for briefly explaining the support structure of the water supply bottle 10 of the water supply bottle support 110. Note that the bottom surface of the water supply bottle support 110 is simply schematically illustrated as a rectangle.
As shown in FIG. 4, a hole of the water supply bottle receiving part 111 is opened in the bottom surface of the water supply bottle support part 110 so that the tube port 11 of the water supply bottle 10 is accommodated. Thus, the entire water supply bottle 10 is supported on the water supply bottle support part 110 in an inverted state. In this example, the hole of the water supply bottle receiving portion 111 is provided as a circular shape corresponding to the diameter of the tube opening 11.
The water bottle support portion 110 is provided with a fitting portion 112, and a pin 113 is charged therein. As shown in FIG. 4 (B), the pin 113 loaded inside is a mechanism that is fed out by a spring or an actuator (not shown) by pressing a button or operating a wire, and the pin 113 is a water bottle. It has a structure in which it fits with 10 ridges 14. Thus, it is being fixed by the fitting part 112, and the water supply bottle 10 fulfill | performs the function which joins both firmly firmly, not the state in which it is only placed on the water supply bottle support part 110.
In the example of FIG. 4, the fitting shape 112 is a two-piece pin, and the interval between the two pieces is larger than the outer diameter of the tube port 11 of the water supply bottle 10 and smaller than the diameter of the flange 14. That is, as shown in FIG. 4 (B), the cylinder port 11 of the water supply bottle 10 is sandwiched between the two pieces of pins, and the movement of the vertical component of the water supply bottle 10 is restrained by the pins 113 of the fitting portion 112. It has become. That is, the movement of the vertical component orthogonal to the paper surface of FIG. 4 is restrained by the engagement between the flange 14 and the pin 113 of the fitting portion 112 of the water bottle support 110, and the water bottle support 110 and the water bottle 10 are moved up and down. It will be firmly integrated in the direction.
Such fitting has the following effects. As shown in FIG. 2 (B), the connection pipe 121 of the water supply connector 120 is inserted into the small hole 12 of the water supply bottle 10 and joined with a large frictional force, so that the water supply bottle 10 is connected to the water supply connector 120. When pulling out from the case, a large tension may be generated. As will be described later, the water supply bottle 10 fixed to the water supply bottle support part 110 by the water supply connection / removal mechanism 140 is detached from the water supply connection tool 120 fixed to the water supply connection tool support part 130. The water bottle 10 plays a role of restraining the movement of the vertical component with respect to the water bottle support portion 110 of the water bottle 10 so that the water bottle 10 moves firmly and integrally. In other words, the water bottle support 110 and the water bottle 10 are firmly attached so that the pin 113 of the fitting portion 112 and the flange 14 do not lose the tension applied when the water bottle 10 is pulled out of the water supply connector 120. The effect of being integrated with is obtained.
Next, the water supply connector 120 will be described. The water supply connector 120 is an instrument that is connected to the tube port 11 of the water supply bottle 10 and takes out the water inside the water supply bottle 10 by being electrically connected to the inside of the water supply bottle 10.
FIG. 5A and FIG. 5B are diagrams showing a configuration example of the water supply connector 120. 5A is a perspective view, and FIG. 5B is a cross-sectional view. In this configuration example, a hollow connecting pipe 121 stands at the center, and a small cup 123 surrounds the periphery. As shown in FIG. 2B, the water supply bottle 10 and the water supply connector 120 are connected by inserting the connection pipe 121 into the tube port 11 of the water supply bottle 10. A small hole 122 is formed in the side surface of the connection pipe 121, and the small hole 122 enters the inside of the water supply bottle 10 from the tube port 11 of the water supply bottle 10, whereby the inside of the water supply bottle 10 and the water supply connector 120 are electrically connected. It will be. Further, the water supply connector 120 is provided with a pipe pipe 124, which plays a role of connecting water taken out through the connection pipe 121 to the water supply system 102 in the apparatus.
Next, the water supply connector support part 130 will be described. FIG. 5 (c) simply shows a configuration example of the water supply connector support section 130, and FIG. 5 (D) is a diagram simply showing the internal structure of the water supply connector support section 130 in a longitudinal sectional view. .
Although the water supply connector support part 130 is a part which supports the water supply connector 120, in the structural example shown in FIG.5 (c) and FIG.5 (D), the water supply connector support part 130 is a plate-shaped thing, The water supply connector 120 is attached to the center part. The water supply connector 120 is fixed to the water supply connector support part 130.
In the configuration example shown in FIGS. 5C and 5D, four relative sliders 141 are provided on the upper surface of the water supply connector support portion 130 at intervals of 90 degrees. In this configuration example, the relative slider 141 is provided between the bottom surface of the water supply bottle support 110 and the top surface of the water supply connector support 130, as shown in FIGS. 3 (A) and 3 (B). The relative slider 141 is connected to the bottom surface of the water supply bottle support 110, and is connected to the upper surface of the water supply connector support 130 as shown in FIGS. 5 (C) and 5 (D). In the configuration example shown in FIGS. 5C and 5D, four unlocking mechanisms 143 are provided on the upper surface of the water supply connector support portion 130 at intervals of 90 degrees. The operation of the lock release mechanism 143 will be described later.
Next, the water supply connector attaching / detaching mechanism 140 will be described.
The water supply connector attaching / detaching mechanism 140 remains in a state where the relative distance between the tube port 11 of the water bottle 10 supported by the water bottle support 110 and the water supply connector 120 supported by the water connector support 130 is opposed to each other. This is a mechanism for controlling the desorption of both. In other words, the water supply connector 10 is relatively moved by the water supply connector attaching / detaching mechanism 140 so that the water supply bottle 10 and the water supply connector 120 face each other while facing each other.
In this configuration example, the water supply connector attachment / detachment mechanism 140 includes a relative slider 141, a lock mechanism 142, and a release mechanism 143.
The relative slider 141 is a mechanism that variably connects the relative positions of the water supply bottle support 110 and the water supply connector support 130. In this example, as an example, the position on the water supply connector support part 130 side is fixed, and the position on the water bottle support part 110 side is vertically variable. For example, a vertical guide 1411 is provided between the bottom surface of the water bottle support 110 and the top surface of the water supply connector support 130, and the water bottle support 110 moves up and down along the guide 1411. It is a mechanism. Also, a lifter 1412 for lifting the water bottle support 110 is provided from the bottom surface of the water bottle support 110 to the top surface of the water supply connector support 130, and the water bottle support when the lock is released as will be described later. It works to lift the part 110. In this configuration example, a lifter 1412 is built in the guide 1411 as a spring.
FIG. 6 is a diagram illustrating the movement of the relative slider 141 so that it can be easily understood. The members related to the operation of the relative slider 141 are mainly shown, and the operations of the water supply bottle 10, the water supply bottle support 110, the water supply connector 120, the water supply connector support 130, and the water supply connector attachment / detachment mechanism 140 are mainly shown. ing. FIG. 6B is a view shown in a longitudinal section.
As shown in the left figure of FIG. 6 (A) and the left figure of FIG. 6 (B), when the user presses the upper surface of the water bottle 10 by hand from above, the water bottle on which the water bottle 10 is placed is placed. The entire support portion 110 is lowered along the guide 1411. In this configuration example, a spring which is a later-described lifter 1412 is incorporated, and the lifter 1412 is compressed and elastic energy is accumulated in accordance with the downward movement of the water supply bottle support 110, and the lock mechanism 142 is locked. , The water bottle support 110 and the water bottle 10 are biased by the lifter 1412.
As shown to the right figure of FIG. 6 (A) and the right figure of FIG. 6 (B), in the state which the water bottle support part 110 was pushed down and reached | attained near the lowest position, it was supported by the water bottle support part 110 The tube port 11 of the water supply bottle 10 is in a state of being fitted and connected to the water supply connector 120 supported by the water supply connector support part 130. Here, as will be described later, the movement of the water supply bottle support 110 is locked by the lock mechanism 142, and the connection between the tube port 11 of the water supply bottle 10 and the water supply connector 120 is locked.
Although the mechanism of the lock mechanism 142 is not limited, in this configuration example, as shown in FIG. 6, the first lock portion 1421 is provided on the outer peripheral wall surface of the water supply bottle support portion 110, and the second water supply connector support portion 130 side has the second. The lock portion 1422 is provided, and the arrangement positions of the first lock portion 1421 and the second lock portion 1422 are adjusted so as to fit each other as shown in FIG. That is, the first lock portion 1421 and the second lock portion 1422 are fitted together in a state where the connection pipe 121 of the water supply connector 120 is normally fitted into the tube port 11 of the water bottle 10. Yes.
The first lock part 1421 and the second lock part 1422 are arranged at positions from the position where the water bottle support part 110 on which the water bottle 10 is placed is pushed down while pressing the spring in the full state of the water bottle 10. The water bottle support part 110 on which the water bottle 10 is placed in a state where the water bottle 10 is nearly empty may be below the position where the water bottle is pushed up by the spring. If the water bottle is disposed under this condition, as shown in FIG. 6, when the water bottle is replaced, the lock mechanism 142 is always locked when the full water bottle 10 is attached, as shown in FIG. 7 described later. As described above, when removing the water bottle 10 that is nearly empty, the water bottle support 110 is lifted upward by the lifter 1422 due to unlocking by the unlock mechanism 143, and the lock mechanism 142 is accidentally locked again. There is no.
As shown in FIG. 6, the water bottle 10 is naturally guided to the relative slider 141 and connected to the water supply connector 120 by simply pressing the upper surface of the water bottle 10 by hand, and the water bottle 10 and the water supply connector 120 are connected to each other. It is locked by the lock mechanism 142 in a connected state. If the water supply bottle 10 is full, the weight of the water supply bottle 10 is heavy and may be 10 kg or more. Therefore, the water supply bottle support 110 on which the water supply bottle 10 is placed is easily guided to the relative slider 141. Then, the water bottle 10 is connected to the water supply connector 120.
Next, release of the locked state will be described.
FIG. 7 shows a state where the lock state of the water supply bottle 10 and the water supply connector 120 is released by the action of the lock release mechanism 143. The structure of the lock release mechanism 143 is not limited, but the engagement state of the lock mechanism 142 is released. For example, the lock release mechanism 143 mechanically or electromagnetically pulls the second lock portion 1422 of the lock mechanism 142 in the outer circumferential direction by a button or lever operation, and disengages the lock mechanism 142 from the first lock portion 1421. (Detailed mechanism is not shown). There can be various combinations of the lock mechanism 142 and the release mechanism 143.
Here, since a spring is built in the lifter 1412 and the lifter 1412 is pushed down and the water bottle supporter 110 is biased upward, when the lock state is released by the lock release mechanism 143, the lifter 1412 is released. The water supply bottle support part 110 is lifted by the urging force. If the water supply bottle 10 is empty, the weight of the water supply bottle is light, and the water supply bottle support 110 on which the water supply bottle 10 is placed can be lifted upward. In addition, the water supply bottle 10 can be lifted to an appropriate position by appropriately selecting the length and strength of the spring.
As described above, the water supply connector attaching / detaching mechanism 140 adjusts the distance between the water bottle support 110 and the water supply connector support 130, and the locked state in which the tube port 11 of the water bottle 10 and the water supply connector 120 are connected and released. The state is to be switched.
Next, the unit slide mechanism 150 will be described.
The unit slide mechanism 150 slides the entire water bottle replacement unit including the water bottle support part 110, the water supply connector 120, the water supply connector support part 130, and the water supply connector attachment / detachment mechanism 140 back and forth.
FIG. 8 is a diagram for explaining the movement of the unit slide mechanism 150. It is the figure which looked at the water server from the right side surface, and the housing | casing 190 has shown only the outline. The unit slide mechanism 150 is simply shown, and the water supply bottle 10, the water supply bottle support 110, the water supply connector 120, the water supply connector support 130, and the water supply connector attaching / detaching mechanism 140 are also shown in a simple manner.
In this configuration example, as shown in FIG. 9A, the unit slide mechanism 150 includes a side plate 151 on the side surface, a guide 152 provided as a convex rail on the bottom of the side plate, a base 153 for moving the water bottle replacement unit, A concave groove 154 provided on the side surface of the pedestal is provided with a groove 154 that can be fitted into the guide 152 and slidable, and a frame 155 provided at the bottom of the pedestal 153. It has a structure that allows the body to be pulled forward.
By providing the unit slide mechanism 150, the water bottle replacement unit 10 can be replaced while the entire water bottle replacement unit is pulled forward. In particular, when the water bottle 10 is attached to the water bottle support part 110 from above, there is an advantage that the operation can be facilitated if the entire water bottle replacement unit is pulled forward.
Here, the idea that the connection part 125 which connects the connection pipe 121 of the water supply system 102 in the apparatus and the water supply connector 120 has a margin length will be described.
When the water bottle 10 is normally attached to the water server, the water supply system 102 in the water server device and the water bottle 10 are connected via the water supply connector 120, but the connection pipe 121 of the water supply connector 120 and the device in the device are connected. The water supply system 102 is connected by a hollow pipe connecting portion 125. Here, as described above, since the entire water bottle replacement unit can be pulled out forward by the unit slide mechanism 150, the connection pipe 121 of the water supply connector 120 is separated from the water supply system 102 in the apparatus. The entire water bottle replacement unit is pulled out in front of the apparatus by the length corresponding to the width of the water bottle 10. Therefore, the length that should be covered by the connecting portion 125 is increased by the length corresponding to the drawn length. Therefore, the connection portion 125 has a margin length. If the connecting portion 125 has a margin length, the water supply system 102 and the water bottle 10 in the water server device can be used regardless of whether the entire water bottle replacement unit is housed in the device or pulled out in front of the device. Connection is maintained.
Here, the structure of the connecting portion 125 is not particularly limited as long as it has a margin length. For example, the hollow pipe is flexible and can be spiral. With such a spiral and expandable configuration, the connecting portion 125 hangs down even if the distance between the connection pipe 121 of the water supply connector 120 and the water supply system 102 in the apparatus becomes short or long. Therefore, it is possible to always ensure the connection between the two while maintaining a good posture. In addition, as shown in FIG. 9B, there is a contrivance that a telescopic rod body 126 is inserted through the spiral shaft of the connecting portion 125. The telescopic rod 126 can be extended and contracted in length, and the helical connecting portion 125 is supported by the extensible rod 126. Therefore, the connecting portion can be connected in accordance with the pull-out operation and the push-back operation by the unit slide mechanism. It is possible to prevent the 125 from being loosened when expanding and contracting.
Next, a device for interlocking the forward pulling operation of the entire water bottle replacement unit of the unit slide mechanism 150 and the unlocking operation of the lock mechanism 142 by the unlock mechanism 143 will be described.
As described above, the lock release mechanism 143 may be configured to activate the release operation of the lock mechanism 142 by manual button or lever operation, but when the unit water slide unit 150 is pulled forward, If the buttons and levers of the lock release mechanism 143 are automatically linked, the user can automatically unlock the water bottle 10 by the operation of pulling out the entire water bottle replacement unit forward. There is no particular limitation on the mechanism of the linkage between the forward drawing operation of the entire water bottle replacement unit and the unlocking operation of the lock release mechanism 143. For example, it is locked to a part of the movement locus of the water bottle replacement unit by the unit slide mechanism 150. An operation unit of the release mechanism 143 is provided, and it is possible to devise such that the lock release mechanism 143 is automatically activated when the water bottle replacement unit is pulled forward.
Next, a procedure for replacing the water supply bottle 10 using the water server 100 of the present invention will be summarized.
10 to 12 are diagrams simply showing the flow of replacement of the water supply bottle 10. FIG. 13 is a flowchart simply showing a procedure for replacing the water supply bottle 10.
As a first step of the replacement work, first, when the opening / closing door provided on the front surface of the apparatus housing 190 is opened (step S1 in FIG. 15) (not shown), the water supply bottle 10 is placed around the user's knee. It is installed at a position where it can be seen in the front in the inverted state.
As shown in FIG. 10, in the basic posture of the water server, the water bottle 10 in use is installed in an inverted state in the water server 100, and the tube port 11 is accommodated in the water bottle receiver 111 of the water bottle support 110. The entire water supply bottle 10 is supported on the water supply bottle support part 110 in an inverted state. The ridge 14 of the water bottle 10 is fitted and fixed to the fitting shape 112 of the water bottle support 110. In the state of this basic posture, the relative distance between the water supply bottle support 110 and the water supply connector support 130 is the shortest, and the water bottle 10 is normally attached to the water supply connector 120. It has become. In addition, the weight of the full water supply bottle 10 is large, and is naturally stable in a state where it is normally attached to the water supply connector 120.
Next, as shown from the right side to the left side in FIG. 10, the user slides the water bottle 10 together with the unit including the water bottle support part 110 and the water supply connector support part 130 forward. Since there is a unit slide mechanism 150, it can slide smoothly forward (step S2 in FIG. 15).
Next, FIG. 11 shows a process in which the water supply bottle 10 is removed from the water supply connector 120. When the lock mechanism 142 is unlocked by operating the button or lever of the lock release mechanism 143 (not shown) (step S3 in FIG. 15), the first lock member 1421 and the second lock member of the lock mechanism 142 are displayed. 1422 is unlocked, and the relative distance between the water supply bottle support 110 and the water supply connector support 130 is variable. In this example, the water bottle support part 110 can move up and down along the relative slider 141. In this configuration example, the water bottle support unit 110 is pushed up a little as the lock mechanism 142 is unlocked because it is biased by the lifter 143.
Here, since the ridge 14 of the water bottle 10 is fitted with the fitting shape 112 of the water bottle support 110, the water bottle 10 is firmly fixed to the water bottle support 110, and in this state When the water bottle support 110 is pushed up, the tube port 11 of the water bottle 10 and the connection pipe 121 of the water supply connector 120 are separated from each other, and if the connection tube 121 comes out of the small hole 12, the tube port 11 of the water bottle 10. Will be in the state of being normally removed from the connecting pipe 121 of the water supply connector 120 and removed.
FIG. 12 is a diagram illustrating a procedure for removing the used water bottle 10 that has been emptied from the water bottle support 110 and attaching a new full water bottle 10 to the water bottle support 110 for replacement.
In addition, since the water supply bottle 10 is pulled out to the front of the apparatus together with the water supply bottle replacement unit including the water supply bottle support 110, the used water supply bottle 10 is in a state where it can be easily replaced.
Next, a button operation or a lever operation is performed so as to return the fitting shape 112 fitted to the empty bottle 14 of the used water bottle 10 into the fitting portion 111 (not shown), The fitting shape 112 is removed from the flange 14 (step S4 in FIG. 15).
Next, a new water bottle 10 that is full of water is placed on the water bottle support 110 and replaced (step S5 in FIG. 15). The user only needs to replace the water supply bottle 10, and there is no need to directly work on the connection work between the water supply bottle 10 and the water supply connector 120.
After the replacement, the fitting shape 112 is fitted to the flange 14 of the new water bottle 10 (step S6 in FIG. 15).
Next, in FIG. 13, the replaced water supply bottle 10 is pressed down until the lock mechanism 142 is locked. The water bottle support part 110 approaches the water supply connector support part 130, and the tube port 11 of the water bottle 10 is connected to the connection pipe 121 of the water supply connector 120. The lock mechanism 142 locks the connection between the water supply bottle 10 and the water supply connector 120 (step S7 in FIG. 15).
Next, FIG. 14 shows a state in which the replaced water bottle 10 is pushed back into the apparatus housing 190 while the replaced water bottle 10 is placed on the water bottle support 110. This is the reverse of the movement shown in FIG.
As shown from the left side to the right side of FIG. 14, the entire water bottle replacement unit is pushed back into the apparatus housing 190 (step S8 in FIG. 15), and the front door is closed when the replacement operation of the water bottle 10 is completed (step in FIG. 15). S9).
The above is the operation of the water bottle replacement mechanism.
As described above, the unit slide mechanism 150 and the water supply connector attachment / detachment mechanism 150 allow the water supply connector 120 to be attached to and detached from the tube port 11 of the water supply bottle 10.
As described above, the water server of the present invention has the merit that the water bottle is not required to be raised and lowered by arranging the water bottle in the lower part of the apparatus, and the hygiene by directly connecting the water bottle to the water supply connector in the inverted posture. In addition, the water bottle replacement work is extremely easy and the water bottle replacement work efficiency is high. In other words, in the replacement work of the water bottle, the pull-out operation of pulling out the used water bottle forward facilitates the replacement work of the water bottle, and also functions as a guide that moves the water bottle in the vertical direction and the lock mechanism and the unlock mechanism. This makes it easy to replace the water bottle, and even a weak woman or an elderly person who is hurting her back can easily complete the water bottle replacement.
Although the preferred embodiment of the configuration example of the water server of the present invention has been illustrated and described above, it will be understood that various modifications can be made without departing from the technical scope of the present invention. Therefore, the technical scope of the present invention is limited only by the description of the appended claims.

  The water server of the present invention can be widely applied to a type of water server that can supply water by replacing and replacing a water supply bottle. The present invention can be applied not only to water supply for business use but also to a water server for water supply for general use installed in a general household or company. Further, anything that can be supplied by the water server of the present invention can be applied as long as it is liquid, and in addition to drinking water, hot water, various drinks, coffee, tea, tea, soups and soups may be used.

Claims (10)

In a water server that supplies drinking water from a water bottle that is supported interchangeably,
A water bottle support part for supporting the water bottle in an inverted state;
A water supply connector support part for supporting a water supply connector that conducts the inside of the water bottle through the tube opening of the water bottle and takes out the drinking water;
A relative slider that variably connects the tube opening of the water supply bottle supported by the water supply bottle supporter and the water supply connector supported by the water supply connector supporter, the tube opening of the water supply bottle, and the A lock mechanism that locks the operation of the relative slider in a state in which the water supply connector is connected; and a release mechanism that releases the lock state of the lock mechanism; and the tube port of the water bottle and the water supply connector A water supply connector desorption mechanism for controlling desorption,
A water server configured such that when a user places the water bottle on the water bottle support portion, a tube port of the water bottle is connected to the water supply connector by the water supply connector attaching / detaching mechanism. The lock mechanism includes a first lock part provided on the side of the water supply bottle support part and a second lock part provided on the side of the water supply connector support part, and the water supply connection to the tube port of the water supply bottle 2. The water server according to claim 1 , wherein the first lock portion and the second lock portion are disposed so as to fit in a state in which the connection pipe of the tool is normally fitted. A spring is built in the relative slider, and the spring is contracted in a locked state of the lock mechanism and is biased with respect to the water bottle support portion and the water bottle. When the lock mechanism is unlocked, the water bottle support part and the water bottle rise along the relative slider by the urging force of the spring, and the tube port of the water bottle separates from the water connector. The water server according to claim 1 or 2. The arrangement position of the first lock portion and the second lock portion is such that the water bottle support portion on which the water bottle is placed is pushed down while pressing the spring while the water bottle is full. The water according to claim 2 , wherein the water bottle is a position where the water bottles are fitted to each other, and the water bottle support part on which the water bottle is placed is disengaged by a position where the water bottle is pushed up by the spring. server. A unit slide mechanism that slides the entire water bottle replacement unit including the water bottle support part, the water supply connector, the water supply connector support part, and the water supply connector attachment / detachment mechanism back and forth, and the water bottle replacement The water server according to any one of claims 1 to 4, wherein the water bottle can be replaced while the entire unit is pulled forward. Even when the connection portion connecting the water supply system in the apparatus and the connection pipe of the water supply connector has a margin length, the water supply bottle replacement unit is replaced by the unit slide mechanism even when the entire water supply bottle replacement unit is in the apparatus. 6. The water server according to claim 5, wherein the connection between the water supply system in the apparatus and the connection pipe of the water supply connector is maintained even when the entire unit is drawn forward.   By forming the connection portion in a spiral shape with a flexible hollow pipe, the connection portion is provided with elastic force as a spiral body, and the connection portion can freely extend and retract according to the pulling-out operation and the pushing-back operation by the unit slide mechanism. The water server according to claim 6, wherein   A telescopic telescopic rod body is inserted through the spiral shaft of the connection portion, and the connection portion is assumed to not loosen when following the pull-out operation and the push-back operation by the unit slide mechanism. The water server according to claim 7. A part of the unit slide mechanism is provided with an activation portion of the release mechanism, and the pull-out of the whole water bottle replacement unit by the unit slide mechanism and the release operation of the lock mechanism by the release mechanism are interlocked. The water server according to any one of claims 1 to 8, wherein the lock mechanism is automatically disengaged when the entire water bottle replacement unit is pulled forward. The water bottle support part and the water supply connector support part are arranged near the lower part in the casing of the water server, and the mounting position of the water bottle is near the lower part in the casing of the water server. The water server according to any one of claims 1 to 9.

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