CN213416261U - Sliding type water cooling and heating device - Google Patents

Abstract

The utility model relates to a cold and hot hydrophone of slidingtype, it makes the angle of pushing into and pull out the raw water bucket rack when the drawer is installed with the mode that can angle regulation on the drawer that is formed at the lower tip of casing, thereby can make raw water bucket rack configuration become the change operation of slope state in order conveniently and carry out the raw water bucket easily when pulling out the drawer, and form the support guiding piece that guides raw water bucket and insert the route on raw water bucket rack, thereby can be pulled out and make the raw water bucket accurately inserted along supporting the guiding piece under the state that the slope disposes at raw water bucket rack, can carry out raw water bucket change operation from this more easily.

Description

Sliding type water cooling and heating device

Technical Field

The utility model relates to a cold and hot hydrophone of slidingtype. More particularly, the present invention relates to a hot and cold water dispenser of a slide type in which a raw water bucket rack is installed on a drawer formed at a lower end of a housing in such a manner that an angle of the raw water bucket rack is adjustable when the drawer is pushed in and pulled out, so that the raw water bucket rack can be disposed in an inclined state when the drawer is pulled out to conveniently and easily perform a replacement work of a raw water bucket, and a support guide for guiding an insertion path of the raw water bucket is formed on the raw water bucket rack, so that the raw water bucket can be accurately inserted along the support guide in a state where the raw water bucket rack is pulled out and disposed in an inclined state, thereby more easily performing the replacement work of the raw water bucket.

Background

Recently, environmental pollution has been increased due to rapid development of industry, and water quality pollution has reached a severe level, so that most of homes or government offices have purified water to drink as drinking water.

As the water purification apparatus, a cold water heater or a water purifier is mainly used, the cold water heater broadly refers to an apparatus that heats or cools water to be supplied as cold water and hot water, and in a narrow sense refers to an apparatus that receives water stored in a raw water tank to heat or cool water to be supplied as cold water and hot water. The hot and cold water heater hereinafter refers to a cold and hot water heater in a narrow sense.

The cold and hot water heater is generally configured such that a raw water bucket mounting portion is formed at an upper end portion of a housing, and cold water and hot water are generated by receiving water from a raw water bucket mounted on the raw water bucket mounting portion and cooling or heating the water, and the cold water and the hot water are stored in a cold water tank and a hot water tank, respectively, and the cold water and the hot water can be obtained by a separate water intake tap.

Such a cold/hot water heater needs to be replaced with a new one when the water in the raw water tank is exhausted, but since the raw water tank is heavy and large, it is not easy to replace the cold/hot water heater by lifting it to the upper end portion of the cold/hot water heater, and in this process, there is a problem that the water in the raw water tank is sprinkled on the floor or the clothes of the replacement operator are wet by the water.

In order to solve such problems, recently, a structure capable of slidably inserting and placing the raw water bucket on the lower end portion of the housing of the cold and hot water device has been developed, but in this case, the operation of lifting the raw water bucket in an upright state and accurately inserting the raw water bucket into the raw water bucket placing frame formed on the lower end portion of the housing is not easy, and a large force is required, so that it is difficult for a child or a woman of low strength to perform the raw water bucket replacement operation.

SUMMERY OF THE UTILITY MODEL

Technical subject

The utility model discloses a solve prior art's problem and design, an object of the utility model is to provide a make the angle of pushing into and pull out the raw water bucket rack obtain adjusting with the mode installation raw water bucket rack that can angle regulation on the drawer that is formed at the lower tip of casing to can make raw water bucket rack configuration become the cold and hot hydrophone of slidingtype of the change operation of slope state in order to conveniently and carry out the raw water bucket easily when pulling out the drawer.

Another object of the present invention is to provide a support guide for guiding the insertion path of the raw water barrel on the raw water barrel placing frame, so that the raw water barrel can be accurately inserted along the support guide in a state where the raw water barrel placing frame is pulled out and disposed in an inclined manner, and thus the sliding type water chiller/heater for replacing the raw water barrel can be more easily performed.

Means for solving the problems

The utility model provides a cold and hot hydrophone of slidingtype, a serial communication port, include: a housing having an accommodating space formed therein so as to accommodate a raw water bucket therein, an opening/closing door formed on a lower end portion of a front surface thereof so as to open the inner space, and a water intake tap formed on one side of the front surface thereof so as to take raw water; a drawer slidably attached to the housing so as to be able to be pushed into and pulled out of the housing internal space; a raw water bucket placing frame which is formed in a manner that the raw water bucket can be inserted and placed, slides with the drawer, and is combined with the drawer in a manner that the placing angle of the raw water bucket can be adjusted; and an angle adjusting mechanism which is formed in a mode of adjusting the configuration angle of the raw water bucket placing frame according to the pushing-in and pulling-out of the drawer, wherein the angle adjusting mechanism is formed in a mode of enabling the raw water bucket placing frame to be vertically configured under the condition that the drawer is pushed in, and enabling the raw water bucket placing frame to be upwards obliquely configured in the outer side direction under the condition that the drawer is pulled out.

In this case, the raw water bucket rack may be coupled to the drawer such that a lower center portion thereof is angularly adjustable by rotating about a horizontal hinge axis, and the angle adjusting mechanism may include: a guide roller formed on a lower end portion in a pushing direction of the raw water bucket rack; and a guide plate fixedly installed in the inner space of the housing, and forming a guide groove in a manner that the guide roller is inserted into the guide groove in the process of pushing in and pulling out the raw water bucket placing rack, wherein the guide groove is formed to have an inclined section which is inclined more and more upwards towards the pulling-out direction at least on a partial section, and the raw water bucket placing rack is configured to rotate and incline by taking the hinge shaft as the center in the process that the guide roller moves along the inclined section of the guide groove.

Further, the raw water bucket rack may include: a rack body which is formed into a hollow column shape with an opened upper surface in a mode of inserting a raw water barrel into an inner space; and a support guide protruding upward on an outer circumferential surface of the rack body in such a manner as to guide an insertion path of the raw water bucket inserted into the rack body.

Further, the support guide may include: two guide support frames which are arranged along an outer peripheral surface of the rack body at intervals and protrude upward from the outer peripheral surface of the rack body; and a guide connecting portion formed to form the same plane with the inner peripheral surface of the rack body and connecting the two guide support frames.

Further, a support step portion may be formed on a pulling-out direction end of the drawer in such a manner as to be able to support a support guide of the raw water bucket rack in a state where the raw water bucket rack is arranged obliquely.

Technical effects

According to the utility model discloses, have following effect: the raw water bucket placing rack is installed on the drawer formed at the lower end part of the shell in an angle-adjustable mode, so that the angle of the raw water bucket placing rack is adjusted when the drawer is pushed in and pulled out, and the raw water bucket placing rack can be configured to be in an inclined state when the drawer is pulled out, so that the replacement operation of the raw water bucket is conveniently and easily executed.

Further, the following effects are provided: a support guide for guiding the insertion path of the raw water bucket is formed on the raw water bucket placing frame, so that the raw water bucket can be accurately inserted along the support guide in the state that the raw water bucket placing frame is pulled out and is obliquely arranged, and therefore, the raw water bucket replacement operation can be more easily carried out.

Drawings

Fig. 1 is a perspective view schematically showing an outer shape of a sliding type water cooler/heater according to an embodiment of the present invention.

Fig. 2(a) and 2(b) are perspective views schematically showing an operating state of the sliding type cold/hot water heater according to the embodiment of the present invention.

Fig. 3 is an enlarged view showing a drawer pushed state of the sliding type hot and cold water heater according to an embodiment of the present invention.

Fig. 4 and 5 are enlarged perspective views of the sliding type water cooler/heater according to the embodiment of the present invention, viewed from different angles.

Fig. 6(a) and 6(b) are operation state diagrams showing the drawer push-in and pull-out operation states of the sliding type cold and hot water heater according to the embodiment of the present invention.

Fig. 7(a) and 7(b) are views exemplarily showing still another form of the guide groove of the guide plate according to the embodiment of the present invention.

Fig. 8 is a diagram for explaining a raw water bucket replacement method of the slide type water cooling and heating apparatus according to an embodiment of the present invention.

Detailed Description

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings. In the description of the reference numerals of the constituent elements in the drawings, it should be noted that the same reference numerals are used for the same constituent elements as far as possible even if they are shown in different drawings. In the description of the present invention, a detailed description of a related known structure or function will be omitted when it is determined that the detailed description may obscure the gist of the present invention.

Fig. 1 is a perspective view schematically showing an outer shape of a sliding type water chiller/heater according to an embodiment of the present invention, fig. 2(a) and 2(b) are perspective views schematically showing an operating state of the sliding type water chiller/heater according to an embodiment of the present invention, fig. 3 is a view showing an enlarged state of pushing a drawer of the sliding type water chiller/heater according to an embodiment of the present invention, fig. 4 and 5 are enlarged perspective views showing a drawer pulled-out state of the sliding type water chiller/heater according to an embodiment of the present invention from different angles, fig. 6(a) and 6(b) are operating state views showing an operating state of pushing and pulling the drawer of the sliding type water chiller/heater according to an embodiment of the present invention, and fig. 7(a) and 7(b) are views exemplarily showing still another form of a guide groove of a guide plate according to an embodiment of the present invention, fig. 8 is a diagram for explaining a raw water bucket replacement method of the slide type water cooling and heating apparatus according to an embodiment of the present invention.

The utility model discloses a cold and hot hydrophone of slidingtype of an embodiment is as the cold and hot hydrophone that forms with the mode that can change the raw water bucket slidingtype, constitutes for including casing 100, drawer 200, raw water bucket rack 300 and angle adjustment mechanism 400.

The case 100 forms an external shape of a hot/cold water heater, and has a receiving space formed therein, and receives therein a plurality of components such as a cooling device, a cold water tank, a heating device, and a hot water tank. A water intake tap 101 is formed on the front side of the housing 100 so as to be able to take raw water. An opening/closing door 110 is formed at a lower end portion of the front surface of the casing 100 so as to open the inner space of the casing 100, and the raw water bucket 10 is accommodated in the inner space of the casing 100 opened by the opening/closing door 110.

The drawer 200 is slidably coupled to the housing 100 so as to be pushed into and pulled out of an inner space of the housing 100 opened by the opening and closing door 100. For the sliding of the drawer 200, a separate guide block 120 is fixedly installed inside the housing 100, and the drawer 200 slides in a horizontal direction along the guide block 120 and is pulled out of the housing 100 or pushed into the housing 100.

The raw water bucket placing rack 300 is formed to be able to insert and place the raw water bucket 10, and is coupled to the drawer 200 to be integrally slid together with the drawer 200 and pulled out or pushed in from the casing 100. At this time, the raw water bucket placing frame 300 is coupled to the drawer 200 in such a manner that the disposition angle can be adjusted. Thus, as the disposition angle of the raw water bucket placing frame 300 is adjusted, the placing angle of the raw water bucket 10 inserted into the raw water bucket placing frame 300 is adjusted.

The angle adjusting mechanism 400 is formed to adjust the disposition angle of the raw water bucket rack 300 according to whether the drawer 200 is pushed in and pulled out. Such an angle adjusting mechanism 400 configures the raw water bucket rack 300 in an upright state in such a manner that the raw water bucket 10 inserted and placed on the raw water bucket rack 300 becomes in an upright state in a case where the drawer 200 is pushed into the inside of the housing 100, and configures the raw water bucket rack 300 in an upward inclined state in an outward direction in such a manner that the raw water bucket 100 inserted and placed on the raw water bucket rack 300 is inclined upward in an outward direction in a case where the drawer 200 is pulled out to the outside of the housing 100.

That is, as shown in fig. 2(a) and 3, when the drawer 200 is slidably pushed into the inside of the casing 100, the raw water bucket rack 300 is configured in an upright state such that the raw water bucket 10 of the raw water bucket rack 300 becomes an upright state, and as shown in fig. 2(b), 4, and 5, when the drawer 200 is pulled out to the outside of the casing 100, the raw water bucket rack 300 is configured in an outward direction inclined upward such that the raw water bucket of the raw water bucket rack 300 is configured in an outward direction inclined upward. The disposition angle of the raw water bucket rack 300 is changed by the angle adjusting mechanism 400 according to whether the drawer 200 is pushed in or pulled out.

In more detail, as shown in fig. 5, the raw water bucket rack 300 is coupled to the drawer 200 such that the center portion of the lower end portion thereof can be angularly adjusted by rotating about a horizontal hinge axis 301.

In this case, the angle adjustment mechanism 400 includes: a guide roller 410 formed on a pushing-in direction lower end portion of the raw water bucket rack 300; and a guide plate 420 fixedly installed in the inner space of the case 100, and forming a guide groove 421 in such a manner that the guide roller 410 is inserted and guided in the process of pushing and pulling the raw water bucket rack 300 together with the drawer 200. The guide groove 421 is formed to have a tilt section which is more and more tilted upward toward the drawing direction at least on a partial section, and the raw water bucket placing frame 300 is rotated and tilted centering on the hinge shaft 301 in the process that the guide roller 410 moves along the tilt section of the guide groove 421.

As shown in fig. 3 to 6(b), the guide groove 421 may be formed to have a form integrally having a straight inclined section, and in this case, since the guide roller 410 continues to move along the inclined section of the guide groove 421 during the drawer 200 is pulled out, the raw water bucket rack 300 continues to be gradually inclined during the drawer pull-out. In contrast, as shown in fig. 7(a), the guide groove 421 may be formed to have a partial horizontal section and a partial inclined section, in which case the raw water bucket placing rack 300 is pulled out in a horizontal state since the guide roller 410 moves along the horizontal section of the guide groove 421 at the section where the drawer 200 starts to be pulled out, and when pulled out by a predetermined section or more, the guide roller 410 moves along the inclined section of the guide groove 421, so that the raw water bucket 300 becomes inclined from this section, and is continuously and gradually inclined as the pulling-out process proceeds. Further, as shown in fig. 7(b), the guide groove 421 may be formed to have a form integrally having a curved inclined section, in which case the same form as the guide groove 421 integrally having a straight inclined section allows the raw water bucket rack 300 to continue to be gradually inclined during the drawing-out of the drawer 200, but the inclined arrangement state may be more abrupt as approaching the final drawing-out process.

Thus, the inclined configuration state of the fresh water bucket placing frame 300 can be adjusted in various ways according to the form of the guide grooves 421, so that a user can form various guide grooves 421 according to needs.

To summarize the above-described pushing and pulling processes of the drawer 200 and the arrangement angle state of the raw water bucket placement frame 300, as shown in fig. 6(a), when the drawer 200 is pushed into the inner space of the casing 100, the guide roller 410 moves downward along the guide groove 421, and thus the raw water bucket placement frame 300 is rotated clockwise with respect to the direction shown in fig. 6(a) centering on the hinge shaft 301 and is arranged in an upright state. In this state, as shown in fig. 6(b), when the drawer 200 is pulled out from the housing 100 to the external space, the guide roller 410 moves upward along the guide groove 421, and thus the raw water bucket placing frame 300 rotates counterclockwise around the hinge shaft 301 and is disposed in a tilted state.

As such, when the raw water bucket rack 300 is obliquely arranged in a state of being pulled out to the outside, the work of replacing the raw water bucket 10 onto the raw water bucket rack 300 can be easily performed. That is, even if the operation of lifting the raw water bucket 10 in an upright state and accurately inserting the raw water bucket into the raw water bucket placing frame 300 is not directly performed by a replacement operator, the raw water bucket 10 may be placed on the raw water bucket placing frame 300 and the raw water bucket 10 may be moved along the inclined surface of the raw water bucket placing frame 300 by the self weight of the raw water bucket 10, whereby the raw water bucket 10 may be more conveniently and easily inserted.

On the one hand, the raw water bucket rack 300 is constituted to include: a rack body 310 formed in a hollow column shape with an upper surface opened in such a manner that the raw water bucket 10 is inserted into an inner space; and a support guide 320 protruding upward on an outer circumferential surface of the rack body 310 in such a manner as to guide an insertion path of the raw water bucket 10 inserted into the rack body 310.

For example, the rack body 310 may be formed in a hollow cylindrical shape having an upper end opened in a manner corresponding to the cylindrical raw water bucket 10, and a needle port may be formed on a central portion of an inner side of the lower end in a manner capable of communicating with the inside of the inserted raw water bucket 10 to receive water. Further, although not shown, a supply pipe is connected to a lower end of the rack body 310 so as to supply water received from the raw water tub 10 to the cold water tank and the hot water tank.

The support guide 320 is formed to protrude upward toward the outer circumferential surface of the rack body 310 to guide the insertion path of the raw water bucket 10, and may be formed to include, for example, as shown in fig. 3 and 4: two guide supports 321 which are arranged along the outer circumferential surface of the rack body 310 at intervals and protrude upward from the outer circumferential surface of the rack body 310; and a guide connecting portion 322 formed to be flush with the inner circumferential surface of the rack body 310 and connecting the two guide support frames 321. When the rack body 310 is formed in a hollow cylindrical shape corresponding to the cylindrical raw water bucket 10, the guide connection part 322 may be formed in a cylindrical curved shape so as to form the same plane with the inner circumferential surface of the rack body 310.

According to such a structure, in the process of inserting the raw water bucket 10 into the rack body 310 of the raw water bucket support frame 300, the insertion path of the raw water bucket 10 can be guided by the support guide 320, so that even if the replacement operator does not insert the raw water bucket 10 to the correct position, the raw water bucket 10 can be accurately inserted into the rack body 310 guided by the support guide 320.

That is, as shown in fig. 8, when the drawer 200 is pulled out, the raw water bucket rack 300 is pulled out together to be in an inclined arrangement state in which, if the raw water bucket 10 is placed on the upper end of the support guide 320 of the raw water bucket rack 300 in a state in which one side is stuck and the raw water bucket 10 is inclined to the rack body 310 side, the raw water bucket 10 is moved down obliquely along the support guide 320 and inserted into the rack body 310. Therefore, as long as the replacement operator inserts the raw water bucket 10 into the support guide 320 of the raw water bucket placing rack 300 in such a manner that one side thereof is caught, the raw water bucket 10 can be very easily inserted into the placing rack body 310 thereafter, and thus the raw water bucket replacement work can be more conveniently and easily performed.

On the other hand, the raw water bucket placing frame 300 is in an inclined arrangement state together with the drawer 200 in a state of being pulled out to the outside of the casing 100, and the raw water bucket placing frame 300 should be able to maintain the inclined arrangement state in this state. For this, a support step portion 210 is formed on the end of the drawer 200 in the drawing direction so as to be able to support the support guide 320 of the raw water bucket rack 300 in a state where the raw water bucket rack 300 is arranged obliquely.

According to such a structure, the raw water bucket placing frame 300 makes the supporting guide 320 supported by the supporting step 210 of the drawer 200 in the inclined arrangement state, and thus even if the raw water bucket 10 is inserted into the inside, the supporting step 210 supports, thereby stably maintaining the inclined arrangement state.

The above description is only an exemplary illustration of the technical idea of the present invention, and a person of ordinary skill in the art to which the present invention belongs can make various modifications and changes within a scope not departing from the essential features of the present invention. Therefore, the embodiments of the present disclosure are intended to illustrate rather than to limit the technical ideas of the present disclosure, and the scope of the technical ideas of the present disclosure is not limited by such embodiments. The scope of protection of the present invention should be interpreted by the claims, and all technical ideas within the scope of equivalent to the claims are understood to fall within the scope of the present invention.

Claims (4)

1. A sliding type water cooling and heating device is characterized by comprising:

a housing having an accommodating space formed therein so as to accommodate a raw water bucket therein, an opening/closing door formed on a lower end portion of a front surface thereof so as to open the inner space, and a water intake tap formed on one side of the front surface thereof so as to take raw water;

a drawer slidably attached to the housing so as to be able to be pushed into and pulled out of the housing internal space;

a raw water bucket placing frame which is formed in a manner that the raw water bucket can be inserted and placed, slides with the drawer, and is combined with the drawer in a manner that the placing angle of the raw water bucket can be adjusted; and

an angle adjusting mechanism which is formed in a mode of adjusting the configuration angle of the raw water barrel placing frame according to the push-in and pull-out of the drawer,

the angle adjusting mechanism is formed to enable the raw water barrel placing frame to be vertically configured under the condition that the drawer is pushed in and enable the raw water barrel placing frame to be upwards inclined towards the outer side direction under the condition that the drawer is pulled out,

the raw water barrel placing frame enables the center part of the lower end to be combined with the drawer in an angle-adjusting mode by taking a horizontal hinge shaft as a center,

the angle adjustment mechanism includes:

a guide roller formed on a lower end portion in a pushing direction of the raw water bucket rack; and

a guide plate fixedly installed in the inner space of the housing and forming a guide groove in a manner that the guide roller is inserted into the guide groove in the process of pushing and pulling out the raw water bucket placing rack,

the guide groove is formed to have a slant section which is more and more inclined upward toward the drawing direction at least in a partial section, and the raw water bucket rack is disposed to be rotated and inclined centering on the hinge shaft in the process that the guide roller moves along the slant section of the guide groove.

2. The sliding type cold and hot water heater according to claim 1,

raw water barrel rack includes:

a rack body which is formed into a hollow column shape with an opened upper surface in a mode of inserting a raw water barrel into an inner space; and

a support guide protruding upward on an outer circumferential surface of the rack body in such a manner as to guide an insertion path of the raw water bucket inserted into the rack body.

3. The sliding type cold and hot water heater according to claim 2,

the support guide includes:

two guide support frames which are arranged along an outer peripheral surface of the rack body at intervals and protrude upward from the outer peripheral surface of the rack body; and

and a guide connecting portion formed to form the same plane with the inner peripheral surface of the rack body and connecting the two guide support frames.

4. The sliding type cold and hot water heater according to claim 3,

a support step portion is formed at the end of the drawer in the pulling-out direction so as to support the support guide of the raw water barrel placing rack in a state where the raw water barrel placing rack is arranged obliquely.

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