CN1590942A - Distributor of refrigerator - Google Patents

Abstract

A distributor of electric refrigerator for supplying water is composed of a recess, a water supplying valve, a cover for water-supplying unit, a turnable cover, a tap, an elastic part for turning said cover, a locking unit for said cover of water-supplying unit, a supporting part and a flexible connecting tube for tap. When the water is supplying, said tap is only exposed.

Description

Refrigerator dispenser

Technical field

The present invention relates to refrigerator, especially, can open and close the refrigerator dispenser of admission port selectively by feedwater portion cover is set.

Background technology

Recently, in the large-scale refrigerator, the front of door of refrigerator possesses distributor is arranged.Distributor can not opened door of refrigerator and also can feed water, and therefore, can prevent that the cold air of refrigerator is leaked to the outside, and it is also convenient to use.

As shown in Figure 1, 2, the refrigerator dispenser that distributor is installed 10 of prior art is formed at the front of door 1 part in the depressed part 11 of inboard depression.On depressed part 11, be provided with admission port 12 projectedly toward the below.Admission port 12 is connected by the water pot (figure does not show) of giving of tube connector D1 and storage of water.Admission port 12 side ends of tube connector D1 are provided with water-supply valve (figure does not show).12 the rear in the admission port, be provided with projectedly toward the below open and close water-supply valve (figure does not show) give taps 14.

The distributor 10 that possesses said structure presses to distributor 10 inboards for taps 14 when user's usefulness cup handle, and water-supply valve will be opened, and feeds water in cup.

But the distributor 10 of above-mentioned prior art because of always being exposed on the external with the admission port 12 that is connected to water pot, foreign matter is entered into to water pot by admission port 12, and the outward appearance of distributor 10 is not attractive in appearance yet.

Summary of the invention

Technical problem to be solved by this invention provides a kind of end of admission port that do not allow and is exposed to the outside, and the refrigerator dispenser that can wholesomely use.

In order to solve the problems of the technologies described above, the technical solution used in the present invention is: a kind of refrigerator dispenser comprises to the front of door of refrigerator one side and protruding, the admission port that the water that makes refrigerator inside of downward direction setting flows out; Be arranged on admission port below face in front of the door give taps; With the lower end to the taps below is the center, can rotate toward the front and back of door, opens and closes the feedwater portion cover of admission port; Feedwater portion covers on cuts under the state that closes the admission port, in order not allow feedwater portion cover continue to rotate toward the place ahead of door, plays the supporting assembly of support effect; Give the elastomeric element of elastic force toward the place ahead direction of door for feedwater portion cover.

Described supporting assembly is that the support end of upper end, the place ahead covers in the support feedwater portion that is formed at the outside of admission port.

Described feedwater portion cover is the center with the hinge axis that is embedded in its bottom, can be toward the front and back rotation of door.

Described elastomeric element is the torsionspring that is arranged on the hinge axis.

The present invention can be a kind of refrigerator dispenser also, comprises the depressed part that the front part of door of refrigerator is caved in to the inside and form; On the top of depressed part, protrude from the front of door, the admission port that the water that makes refrigerator inside of downward direction setting flows out; Be arranged on the taps of giving of depressed part back; Being arranged on the bottom surface of depressed part, is the center with the bottom, the feedwater portion cover of the switching admission port that can rotate toward the fore-and-aft direction of door; Feedwater portion covers on cuts under the state that closes the admission port, in order not allow feedwater portion cover continue to rotate toward the place ahead of door, plays the supporting assembly of support effect; Give the elastomeric element of elastic force toward the place ahead direction of door for feedwater portion cover.

Described supporting assembly comprises that being formed at feedwater portion covers the bottom, props up the support sector that is held in the depressed part bottom surface; Be formed at the outside, admission port, support the support end of upper end, feedwater portion cover the place ahead.

Described feedwater portion cover is to be the center with the hinge axis that is embedded in its bottom, can be toward the front and back rotation of door.

Described elastomeric element is the torsionspring that is arranged on the hinge axis.

The present invention can be a kind of refrigerator dispenser also, comprises the depressed part that the front part of door of refrigerator is caved in to the inside and form; Be arranged on the taps of giving of depressed part back; Being adjacent to front one side of the door on depressed part top, is the center with the upper end, can rotate toward the fore-and-aft direction of door, and front one side is formed with the feedwater portion cover of opening portion; In the opening portion of feedwater portion cover, be the center with the upper end, the feedwater portion lid that can rotate toward the fore-and-aft direction of door; Admission port at feedwater portion lid medial surface; Rotate in order to allow feedwater portion cover, and give the elastomeric element of elastic force to the place ahead of door; Feedwater portion cover does not have under the state of the rear rotation of door, and locking feedwater portion cover does not rotate, and feedwater portion cover is removed the locked component of the lock-out state of feedwater portion cover under the state of the rear rotation of door; In order not allow feedwater portion cover continue to rotate, play the supporting assembly of support effect toward the place ahead of door; The flexible pipe that is connected that connects admission port and tube connector by the opening portion.

Described feedwater portion cover is to be the center with the 1st hinge axis that is embedded in the upper end, can be toward the front and back rotation of door; Feedwater portion lid is to be the center with the 2nd hinge axis that is embedded in the upper end, can be toward the front and back rotation of door.

Described locked component comprises that the end has the steady arm of hook, steady arm is positioned at the medial surface of feedwater portion lid, opening portion by feedwater portion cover prolongs certain-length toward the top, cover is the center with the 1st hinge axis when feedwater portion, do not have under the state of the rear rotation of door, locked component can be fit to the boss that is formed on feedwater portion cover medial surface top, and cover is the center with the 1st hinge axis when feedwater portion, under the state of the rear rotation of door, the hook of steady arm breaks away from from boss.

Described elastomeric element one end is fixed on medial surface one side of depressed part, and the other end is fixed on the hook, and under hook and the state that matches of boss, the elongation of elastomeric element will reach maximum.

Described supporting assembly is in the front of the door that is adjacent to feedwater portion cover bottom, supports the support end of feedwater portion cover bottom.

The front part of described feedwater portion cover is recessed to form, and feedwater portion lid is set in the front of feedwater portion cover depression, and the front of feedwater portion cover is the curved surface with identical radius of curvature with the front of feedwater portion lid.

Medial surface bottom at feedwater portion cover is provided with button, if feedwater portion cover is the center with the 1st hinge axis, toward the rear rotation of door, button will start to taps.

Described connection flexible pipe is made with flexible material.

Distributor of the present invention has only when by the actual feedwater in admission port the time, and the end of admission port just is exposed to the outside.Therefore, can prevent that foreign matter from entering to water pot by the admission port, and make the outward appearance of distributor more attractive in appearance.

Description of drawings

Fig. 1 is the refrigerator front elevation that distributor is installed of prior art.

Fig. 2 is the profile of the distributor of prior art.

Fig. 3 is the profile of distributor of the present invention.

Fig. 4 is the profile of the distributor of an alternative embodiment of the invention.

Fig. 5 is the profile of the distributor of another embodiment of the present invention.

Fig. 6 a and Fig. 6 b are the movement state diagrams of the embodiment that provides among Fig. 5.

Among the figure, 20,30,40: distributor; 31,41: depressed part; 22,32,42: the admission port; 24,34,44: give taps; 26,36,46: feedwater portion cover; 26a, 36a: support sector; 28,38: elastomeric element; 32a: support end; 46a: button; 46b: opening portion; 48: feedwater portion lid; 48a: elastomeric element; 48b: steady arm; 48c: hook; 49: connect flexible pipe; 52: support end; 54: boss; H1, H2, H3, H4: hinge axis.

The specific embodiment

Below in conjunction with the drawings and specific embodiments refrigerator dispenser of the present invention is described in further detail:

Embodiment 1

As shown in Figure 3, distributor 20 of the present invention is installed on the front of door.One side is provided with admission port 22 in the front of door.Admission port 22 protrudes from the front of door, and towards the below.Admission port 22 by tube connector D2 with is connected for water pot (figure does not show), and be provided with water-supply valve (scheming not show) at the admission port of tube connector D2 22 side ends.

22 outsides, admission port have the support end 22a that protrude past below.Support end 22a to support the feedwater portion that will illustrate below to cover the place ahead of 26.In addition, the front of the door below admission port 22 be provided with open and close water-supply valve give taps 24.Below to taps 24, being provided with of level is embedded in the hinge axis H1 that 26 bottoms are covered by feedwater portion.

Feedwater portion cover 26 protrudes to the place ahead of door and forms.At ordinary times, feedwater portion cover 26 is cut and is closed admission port 22.In order to feed water, push away feedwater portion with cup and covered 26 o'clock, feedwater portion cover 26 will be the center with hinge axis H1, toward rear (clockwise direction in the drawing) rotation of door, open admission port 22.And the upper end, rear of feedwater portion cover 26 the rear of pushing door to for taps 24, makes it to start.

Feedwater portion cover 26 is being cut under the state that closes admission port 22, the upper end, the place ahead of feedwater portion cover 26 is propped up and is held on the support end 22a in 22 outsides, admission port, making feedwater portion cover 26 can be not the center with hinge axis H1, continuation only can be rotated toward the rear (clockwise direction in the drawing) of door 2 to the place ahead of door 2 (counter clockwise direction in the drawing) rotation.

In addition, hinge axis H1 is provided with elastomeric element 28.Elastomeric element 28 can be a torsionspring.When feedwater portion cover 26 is the center with hinge H1, toward rear (clockwise direction in the drawing) rotation of door, elastomeric element 28 will be toward the opposite directions of feedwater portion cover 26 rotations, promptly to the place ahead of door (in the drawing counterclockwise), cover 26 for feedwater portion and give elastic force.

When pushing away feedwater portion with cup when covering 26, feedwater portion cover 26 will be the center with hinge axis H1, to the rear of door (clockwise direction in the drawing) rotation, thus open admission port 22.On the contrary, when taking cup away, elastomeric element 28 give elastic force will for feedwater portion cover 26, and making feedwater portion cover 26 is the center with hinge axis H1, to the place ahead of door (in the drawing counterclockwise) rotation, closes admission port 22 thereby cut again.In the present embodiment, elastomeric element 28 is torsionsprings, but is not limited thereto, and also helical spring can be set in the upper end, rear of feedwater portion cover 26.

Below, the course of work of the embodiment of the invention of above-mentioned formation is elaborated:

At first, when the user pushes away feedwater portion when covering 26 with cup, feedwater portion cover 26 will be the center with hinge axis H1, to the rear of door (clockwise direction in the drawing) rotation, thereby is openly cut the admission port of closing 22 by feedwater portion cover 26.26 rotations of feedwater portion cover, the upper end, rear of feedwater portion cover 26 will make the rear of pushing door to for taps 24 to taps 24 to start water-supply valve.Water-supply valve starts, and will open for water pot, therefore by and the tank connected admission port 22 of feeding water, water will supply in the cup.

When having supplied with the cup of suitable quantity of water when taking away, with hinge axis H1 is the center, and the feedwater portion cover 26 that has rotated to the rear of door (clockwise direction in the drawing) is because of the elastic force of elastomeric element 28, will be the center with hinge axis H1, to the place ahead of door (counter clockwise direction in the drawing) rotation.Like this, give taps 24 stop motions, feedwater stops, and admission port 22 is also cut again and closed simultaneously.

Because the upper end, the place ahead of feedwater portion cover 26 is supported to hold 22a to support.Support end 22a in the admission port 22 the outside.Therefore, feedwater portion cover 26 is being cut on the minimum position that closes admission port 22, and can not continue with hinge axis H1 is the center, to the place ahead of door (counter clockwise direction in the drawing) rotation.

Embodiment 2

As shown in Figure 4, in the present embodiment, distributor 30 is installed in the depressed part 31 of the front one side direction inner recess of door.The top of depressed part 31 is provided with admission port 32.Admission port 32 protrudes from the front of door, and towards the below.Admission port 32 by tube connector D3 with is connected for water pot (figure does not show), and be provided with water-supply valve (scheming not show) at the admission port of tube connector D3 32 side ends.

Be provided with in depressed part 31 back open and close water-supply valve give taps 34.In the bottom surface of depressed part 31, flatly be provided with and be embedded in the hinge axis H2 that 36 bottoms are covered by feedwater portion.

At ordinary times, feedwater portion cover 36 is cut and is closed admission port 32.In order to feed water, push away feedwater portion with cup and covered 36 o'clock, feedwater portion cover 36 will be the center with hinge axis H2, toward rear (clockwise direction in the drawing) rotation of door, thus open admission port 32.And the upper end, rear of feedwater portion cover 36 the rear of pushing door to for taps 34, makes it to start.

Feedwater portion cover 36 forms projectedly to the place ahead of door.The bottom of feedwater portion cover 36 is formed with the 36a of support sector.The 36a of support sector is supported by the bottom surface of depressed part 31.32 the outside in the admission port, the support end 32a that protrudes toward the below supports the upper end, the place ahead of feedwater portion cover 36.

Feedwater portion cover 36 is being cut under the state that closes admission port 32, the 36a of support sector of feedwater portion cover 36 props up the bottom surface that is held in depressed part 31, the upper end, the place ahead of the portion of feedwater simultaneously cover 36 is propped up and is held on the support end 32a in 32 outsides, admission port, making feedwater portion cover 36 can be not the center with hinge axis H2, continues the place ahead (counter clockwise direction in the drawing) rotation to door.

In the present embodiment, 32 outsides possess the end of support 32a in the admission port, possess the 36a of support sector in the bottom of feedwater portion cover 36.But, might not possess both simultaneously.As mentioned above, cutting under the state that closes admission port 32, as long as realization feedwater portion cover 36 is not that the place ahead (counter clockwise direction in the drawing) rotation to door is continued at the center with hinge axis H2, embodiment as shown in Figure 3 is such, and one of them that possesses among support end 32a and the 36a of support sector is also harmless.

Hinge axis H2 is provided with elastomeric element 38.When feedwater portion cover 36 is the center with hinge axis H2, toward rear (clockwise direction in the drawing) rotation of door 3, elastomeric element 38 will be toward the place ahead of door 3 (in the drawing counterclockwise), covers 36 to feedwater portion and give elastic force.In the present embodiment, elastomeric element 38 is torsionsprings.But, might not be like this.

Embodiment 3

As shown in Figure 5, in the present embodiment, distributor 40 is installed in the depressed part 41 of the front one side direction inner recess of door, in the back of depressed part 41, is provided with to taps 44.But, might not be confined to this.Embodiment as shown in Figure 3 is such, distributor 40 be arranged on the door the front also harmless.

Above to taps 44, be provided with and give the water pot tube connector D4 that (figure does not show) is connected, be provided with in the end of tube connector D4 by the water-supply valve of starting for taps 44 (scheming not show).With depressed part 41 adjacency the door front one side, flatly be provided with the 1st hinge axis H3.The 1st hinge axis H3 is embedded in the upper end of feedwater portion cover 46.

Feedwater portion cover 46 can be the center with the 1st hinge axis H3, does dead axle and rotates.The medial surface bottom of feedwater portion cover 46 possesses button 46a is arranged.When the user pushes away feedwater portion when covering 46 with cup, feedwater portion cover 46 will be the center with the 1st hinge axis H3, to the rear of door (in the drawing counterclockwise) rotation.When feedwater portion cover 46 is rear (in the drawing counterclockwise) rotation of middle mind-set door with the 1st hinge axis H3, covers 46 inboard basifacial button 46a in feedwater portion and will give taps 44 rear of pushing door to for taps 44 thereby start.

In addition, the front of feedwater portion cover 46 forms curved surface.The lateral surface part of feedwater portion cover 46 is recessed to form.Feedwater portion cover 46 fronts that are recessed to form one side is formed with opening portion 46b.Feedwater portion cover 46 front upper that are recessed to form flatly are provided with the 2nd hinge axis H4.The 2nd hinge axis H4 is embedded in the top of feedwater portion lid 48.In feedwater portion cover 46 fronts that are recessed to form, feedwater portion lid 48 is the center with the 2nd hinge axis H4, can rotate toward the place ahead (clockwise direction in the drawing) of door.

Cover the front of the door of 46 bottoms being adjacent to feedwater portion, be formed with and support end 52.Support end 52 to prevent that feedwater portion cover 46 from continuing to rotate to the place ahead of door 4 (clockwise direction in the drawing).

The medial surface bottom of feedwater portion lid 48 is provided with admission port 42.Admission port 42 is that the rotation by feedwater portion lid 48 opens and closes.That is, feedwater portion lid 48 is the center with the 2nd hinge axis H4, when not toward the place ahead (clockwise direction in the drawing) rotation of door, makes the lateral surface of feedwater portion cover 46 and feedwater portion cover 48 medial surface and matches, and will cut and close admission port 42.When feedwater portion lid 48 is the center with the 2nd hinge axis H4, rotate toward the place ahead (clockwise direction in the drawing) of door, will open admission port 42.

The front of feedwater portion lid 48 forms with identical radius of curvature with the front of feedwater portion cover 46, gives unified aesthetic feeling.

In addition, in feedwater portion lid 48, be formed with the steady arm 48b that the end possesses hook 48c.Steady arm 48b is the medial surface prolongation institute measured length from feedwater portion lid 48, forms hook 48c in the end.Hook 48c forms hook shape.As shown in Figure 5, at feedwater portion lid 48 not under the state of the rear of door (in the drawing counterclockwise) rotation, hook 48c and be formed at feedwater portion and cover the boss 54 on 46 medial surface tops and match, thus locking feedwater portion covers 48 and can not move.

Under the state of feedwater portion cover 46 rears toward door (counter clockwise direction in the drawing) rotation, hook 48c can break away from from boss 54, removes the lock-out state of feedwater portion lid 48.Like this, feedwater portion lid 48 is the center with the 2nd hinge axis H4, can rotate toward the place ahead (clockwise direction in the drawing) of door.Under this state, not necessarily feedwater portion cover 46 must rotate to and start the degree of giving taps 44, could allow hook 48c break away from from boss 54.As long as 46 rotations of feedwater portion cover are decided more than the angle, both just can break away from.

In addition, the end of elastomeric element 48a is fixed in hook 48c, and the other end of elastomeric element 48a is fixed in medial surface one side of depressed part 41.Elastomeric element 48a is under the state that hook 48c and boss 54 match, and it is maximum that its elongation will reach.When hook 48c and boss 54 disengagings, elastomeric element 48a will spur the fixing hook 48c of an end, make it motion.That is to say that feedwater portion lid 48 not have toward the rear of door (in the drawing counterclockwise) rotation, promptly link up with under the state that 48c and boss 54 match that elastomeric element 48a links up with 48c because the elastic force of itself spurs.Because of linking up with 48c and boss 54 are the states that match, so hook 48c can not rotate.Feedwater portion lid 48 can be not the center with the 2nd hinge axis H4 also, toward the place ahead (clockwise direction in the drawing) rotation of door.

When the rotation of feedwater portion cover 46 rears toward door (counter clockwise direction in the drawing), hook 48c will break away from from boss 54.Elastomeric element 48a will spur the fixing hook 48c of an end, makes it rotation.Hook 48c rotation in a single day, the feedwater portion lid 48 that is provided with steady arm 48b will be toward the place ahead (clockwise direction in the drawing) rotation of door 4.

Under the state of the place ahead (clockwise direction in the drawing) rotation of door 4, the elongation of elastomeric element 48a or compressive state will can not have influence on the rotation of feedwater portion lid 48 at feedwater portion lid 48.Therefore, elastomeric element 48a will can not drag hook 48c again.And, even in elastomeric element 48a, have small extending force or restoring force, because of elastomeric element 48a and steady arm 48b roughly in line, so even elastomeric element 48a drags hook 48c, hook 48c can not rotate yet, and will keep the open state of admission port 42.

In addition, cover an end that is connected with connection flexible pipe 49 on the 48 inboard basifacial admission ports 42 in feedwater portion, the other end that connects flexible pipe 49 is connected with tube connector D4 by the opening portion 46b that is formed at feedwater portion cover 46.Connecting flexible pipe 49 is to make with flexible material.Can not play harmful effect when therefore, feedwater portion lid 48 rotates.

Below, with reference to figure 6a and Fig. 6 b, describe the course of work in detail to present embodiment with said structure:

At first, when the user pushes away feedwater portion when covering 46 with cup, shown in Fig. 6 a, feedwater portion cover 46 will be the center with hinge axis H3, to the rear of door (in the drawing counterclockwise) rotation.If 46 rotations of feedwater portion cover, be arranged at feedwater portion and cover the hook 48c of the steady arm 48b of 48 medial surfaces and just cover disengaging the boss 54 of 46 medial surface upper lateral parts from being formed at feedwater portion.Then, steady arm 48b is owing to the extending force that is subjected to the fixing elastomeric element 48a of an end rotates.The feedwater portion lid 48 that is provided with steady arm 48b will be the center with the 2nd hinge axis H4, toward rear (clockwise direction in the drawing) rotation of door, thus open admission port 42.

In this state, if the rear of being pressed against door for taps 44 will start water-supply valve for taps 44.Because the startup of water-supply valve is stored in to the water in the water pot (scheming not show) and will supplies in the cup by admission port 42 successively through tube connector D4 with after being connected flexible pipe 49.

When supplying to the cup of suitable quantity of water when taking away, feedwater portion lid 48 will be the center with the 2nd hinge axis H4, to the rear of door (counter clockwise direction in the drawing) rotation, closes admission port 42 thereby cut again again.And, 48 rotations of feedwater portion lid, hook 48c will be fit in the boss 54.Because the place ahead of past door pushes away the power of feedwater portion lid 48, feedwater portion cover 46 also rotates toward the place ahead (clockwise direction in the drawing) of door.As shown in Figure 5, return to initial position.

Among the embodiment in Fig. 4, the hinge axis that covers pivot as feedwater portion is the bottom that is arranged at depressed part.But, not necessarily so.It is also harmless that hinge axis is arranged at the top of depressed part.Among the embodiment in Fig. 5, the 2nd hinge axis that covers pivot as feedwater portion is the top that is arranged at depressed part.But, also not necessarily so.It is also harmless that the 2nd hinge axis is arranged at the bottom of depressed part.

Basic fundamental thought of the present invention is: the rotating open-close admission port can start the feedwater portion cover to taps.Right of the present invention is not only limited to the embodiment of above explanation, but in the claim scope.In the middle of technical field of the present invention, the people with certain knowledge can carry out various distortion and change in the interest field of being put down in writing.

Claims (16)

1, a kind of refrigerator dispenser is characterized in that comprising to the front of door of refrigerator one side and protrudes, the admission port (22) that the water that makes refrigerator inside of downward direction setting flows out; Be arranged on admission port (22) below face in front of the door give taps (24); With the lower end to taps (24) below is the center, can rotate toward the front and back of door, opens and closes the feedwater portion cover (26) of admission port (22); Feedwater portion cover (26) is being cut under the state that closes admission port (22), in order not allow feedwater portion cover (26) continue the place ahead rotation of past, plays the supporting assembly of support effect; Give the elastomeric element (28) of elastic force toward the place ahead direction of door for feedwater portion cover (26).

2, refrigerator dispenser according to claim 1 is characterized in that described supporting assembly is that the support end (22a) of upper end, (26) the place ahead covers in the support feedwater portion that is formed at the outside of admission port (22).

3, refrigerator dispenser according to claim 1 and 2 is characterized in that described feedwater portion's cover (26) is the center with the hinge axis (H1) that is embedded in its bottom, can be toward the front and back rotation of door.

4, refrigerator dispenser according to claim 3 is characterized in that described elastomeric element (28) is the torsionspring that is arranged on the hinge axis (H1).

5, a kind of refrigerator dispenser is characterized in that comprising the depressed part (31) that the front part of door of refrigerator is caved in to the inside and form; Top in depressed part (31) protrudes from the front of door, the admission port (32) that the water that makes refrigerator inside of downward direction setting flows out; What be arranged on depressed part (31) back gives taps (34); Being arranged on the bottom surface of depressed part (31), is the center with the bottom, the feedwater portion cover (36) of the switching admission port (32) that can rotate toward the fore-and-aft direction of door; Feedwater portion cover (36) is being cut under the state that closes admission port (32), in order not allow feedwater portion cover (36) continue past the place ahead rotation, plays the supporting assembly of support effect; Give the elastomeric element (38) of elastic force toward the place ahead direction of door for feedwater portion cover (36).

6, refrigerator dispenser according to claim 5 is characterized in that described supporting assembly comprises that being formed at feedwater portion covers (36) bottom, props up the support sector (36a) that is held in depressed part (31) bottom surface; Be formed at the outside, admission port (32), support the support end (32a) of upper end, feedwater portion cover (36) the place ahead.

7,, it is characterized in that described feedwater portion cover (36) is be the center with the hinge axis (H2) that is embedded in its bottom, can rotate toward the front and back of door according to claim 5 or 6 described refrigerator dispenser.

8, refrigerator dispenser according to claim 7 is characterized in that described elastomeric element (38) is the torsionspring that is arranged on the hinge axis (H2).

9, a kind of refrigerator dispenser is characterized in that comprising the depressed part (41) that the front part of door of refrigerator is caved in to the inside and form; What be arranged on depressed part (41) back gives taps (44); Being adjacent to front one side of the door on depressed part (41) top, is the center with the upper end, can rotate toward the fore-and-aft direction of door, and front one side is formed with the feedwater portion cover (46) of opening portion (46b); In the opening portion (46b) of feedwater portion cover (46), be the center with the upper end, the feedwater portion lid (48) that can rotate toward the fore-and-aft direction of door; Admission port (42) at feedwater portion lid (48) medial surface; Rotate to the place ahead of door in order to allow feedwater portion cover (48), and give the elastomeric element (48a) of elastic force; Feedwater portion cover (46) does not have under the state of the rear rotation of door, and locking feedwater portion's cover (46) does not rotate, and feedwater portion cover (46) is removed the locked component of the lock-out state of feedwater portion cover (46) under the state of the rear rotation of door; In order not allow feedwater portion cover (46) continue to rotate, play the supporting assembly of support effect toward the place ahead of door; Be connected flexible pipe (49) by what opening portion (46b) connected admission port (42) and tube connector.

10, refrigerator dispenser according to claim 9 is characterized in that described feedwater portion cover (46) is be the center with the 1st hinge axis (H3) that is embedded in the upper end, can rotate toward the front and back of door; Feedwater portion lid (48) is be the center with the 2nd hinge axis (H4) that is embedded in the upper end, can rotate toward the front and back of door.

11, refrigerator dispenser according to claim 10, it is characterized in that described locked component comprises that the end has the steady arm of hook (48c) (48b), steady arm (48b) is positioned at the medial surface of feedwater portion lid (48), opening portion (46b) by feedwater portion cover (46) prolongs certain-length toward the top, when feedwater portion cover (46) is the center with the 1st hinge axis (H3), do not have under the state of the rear rotation of door, locked component can be fit to the boss (54) that is formed on feedwater portion cover (46) medial surface top, when feedwater portion cover (46) is the center with the 1st hinge axis (H3), under the state of the rear rotation of door, the hook (48c) of steady arm (48b) breaks away from from boss (54).

12, refrigerator dispenser according to claim 11, it is characterized in that described elastomeric element (48a) end is fixed on medial surface one side of depressed part (41), the other end is fixed on the hook (48c), under the state that hook (48c) and boss (54) match, the elongation of elastomeric element will reach maximum.

13, refrigerator dispenser according to claim 12 is characterized in that described supporting assembly is in the front of the door that is adjacent to feedwater portion cover (46) bottom, supports the support end (52) of feedwater portion cover (46) bottom.

14, refrigerator dispenser according to claim 13, a front part that it is characterized in that described feedwater portion's cover (46) is recessed to form, feedwater portion lid (48) is set in the front of feedwater portion cover (46) depression, and the front of feedwater portion cover (46) is the curved surface with identical radius of curvature with the front of feedwater portion lid (48).

15, according to claim 9,10,11,12,13 or 14 described refrigerator dispenser, it is characterized in that being provided with button (46a) in the medial surface bottom of feedwater portion cover (46), if feedwater portion cover (46) is the center with the 1st hinge axis (H3), toward the rear rotation of door, button (46a) will start to taps (44).

16, refrigerator dispenser according to claim 15 is characterized in that described connection flexible pipe (49) makes with flexible material.

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