CN101868680A - The pump motor installation structure that is used for ice machine - Google Patents

Abstract

The invention provides a kind of pump motor installation structure that is used for ice machine, its purpose is to prevent that ice making decrease in efficiency and dust from entering ice-making compartment etc., and also simplifies the operation of putting into and taking out the ice making tank.Until Machine Room (12) groove is set from ice-making compartment and holds district (30), and ice making tank (T) is contained in groove in the mode that allows to be drawn out of and holds in the district (30).Be placed with division Machine Room (12) and groove holds the motor installation component (36) in district (30) dividing to establish removedly in the upper ends portion (32B) of partition wall (32) that Machine Room (12) and groove hold district (30).Pump motor (PM) is installed in (12) side towards the Machine Room of motor installation component (36), and pump (WP) be installed in motor installation component (36) hold district (30) side towards groove.Motor installation component (36) is set at the interior motor support (74) of ice making tank (T) from supported underneath.

Description

The pump motor installation structure that is used for ice machine

Technical field

The present invention relates to be used for the pump motor installation structure of ice machine, and relate in particular to have and be contained in that groove holds in the district and allow the ice making tank of from machine, being extracted out and make the pump motor installation structure that is used for ice machine that the ice making water in the ice making tank is fed to the pump motor that the pump of ice making unit activates.

Background technology

Ice machine has wherein divides the ice machine main body that forms by ice-making compartment and Machine Room, and the mechanism for ice maker that constitutes the evaporimeter of freezing mechanism and be made of ice making unit etc. is arranged in the ice-making compartment, and compressor, condenser of constituting freezing mechanism etc. are arranged in the Machine Room.In the bottom of ice-making compartment or be provided with groove from the bottom of ice-making compartment until the bottom of Machine Room and hold the district, and groove holds the district and is configured in the mode that allows to be drawn out of the ice making tank to be contained in groove and holds in the district.And the desired location place above the ice making tank is furnished with the pump motor, and this pump motor activates the pump that the ice making water in the ice making tank is fed to the ice making unit that is arranged in the ice-making compartment.Ice making water in the ice making tank is by being supplied to the ice making unit by the motor actuated pump of pump, and makes ice in the ice making unit, not have icing ice making water to flow in the ice making tank in the ice making unit downwards and collected temporarily, and then be supplied to the ice making unit.The pump motor installation structure of this ice machine is for example open in patent documentation 1 and 2.

Patent documentation 1: Japanese Unexamined Patent Application Publication 2006-519974 communique

Patent documentation 2:WO00/70278

Disclosed ice machine has the holding tank (ice making tank) that removably is attached at the ice-making compartment bottom and pump and pump motor that the ice making water in the holding tank is fed to the ice making unit is installed on the wall of rear side in the ice-making compartment in patent documentation 1.This pump motor installation structure need take off pump and pump motor and also needs they are lifted from wall, so that extract holding tank out from machine, is intrinsic at the difficult problem of the operating aspect of dismounting holding tank.And, because it need make the space that pump and pump motor can move up at pump motor top belay,, and cause hindering the problem of dwindling the ice machine size in addition aspect layout so ice machine is restricted.And because the moisture that produces during ice making water evaporation, chlorine etc. are attached on the pump motor, so the pump motor corroded easily or broken down, and this also is a shortcoming.

And, in patent documentation 2 disclosed downward flow type ice making machine have can be contained in with extracting out groove hold the district in aqua storage tank (ice making tank), this groove holds the district and is provided with from the ice-making compartment bottom until the bottom, Machine Room, this ice machine and have the structure of arranging pump, pump motor, float switch etc. towards the position of Machine Room at aqua storage tank.In this pump motor installation structure, when extracting aqua storage tank out from machine, pump, pump motor, float switch etc. are drawn out of with aqua storage tank integral body.And because the pump motor is positioned at the Machine Room side, so it has the advantage that produces the corrosion of pump motor hardly.Yet,, so can worry the distortion of aqua storage tank during use because the weight that it has pump, pump motor, float switch etc. is applied to the structure of aqua storage tank all the time.And, it has by the tight structure that contacts sharing system icehouse and Machine Room between aqua storage tank and the partition wall, so if aqua storage tank is out of shape as mentioned above like that, then between aqua storage tank and partition wall, produce the gap, to cause trouble, for example enter in the ice-making compartment owing to cooling gas leakage causes the decline of ice making efficient and dust.

Summary of the invention

Therefore, in view of foregoing problems intrinsic in the conventional art, the invention is intended to compatibly address these problems, and the purpose of this invention is to provide a kind of pump motor installation structure that is used for ice machine, it prevents that ice making decrease in efficiency and dust from entering ice-making compartment etc., and puts into and take out the operation of ice making tank and improvement is also being arranged aspect the maintainability by simplification.

In order to address the above problem and realize predeterminated target, be summarized as according to a first aspect of the invention, a kind of pump motor installation structure that is used for ice machine, comprise: the ice making tank, be contained in to stride across and hold in the district, and allow from machine, to be extracted out by clipping the groove that ice-making compartment that wall limits and Machine Room be provided with; And the pump motor, be connected with the pump that the ice making water in the ice making tank is fed to the ice making unit in the ice-making compartment,

Wherein in being arranged at the Machine Room and divide in the upper ends portion of partition wall that groove holds the district, being placed with removedly and dividing the Machine Room and groove holds the motor installation component in district; And

The pump motor be installed in the motor installation component towards the Machine Room side, and pump be installed in the motor installation component hold district's side to hold in the ice making tank in the district towards groove towards being contained in groove.

According to the pump motor installation structure that is used for ice machine of the present invention, it is medium to prevent that ice making decrease in efficiency and dust from entering ice-making compartment, and also can improve maintainability by the operation that the ice making tank was put into and taken out in simplification.

Description of drawings

To be expression hold the schematic isometric that the state of ice making tank has been extracted in the district out from the groove of the bottom that is arranged on ice-making compartment and Machine Room to Fig. 1.

Fig. 2 is that expression ice making tank is contained in the schematic isometric that groove holds the state in the district.

Fig. 3 represents the stereogram that the motor installation component of pump motor wherein is installed and is arranged at the pump support member of ice making tank.

Fig. 4 is the cutaway view along Fig. 2 line IV-IV intercepting wherein.

Fig. 5 is that the line IV-IV along Fig. 2 cuts expression motor installation component open and is placed on the cutaway view that holds the state on the ice making tank of extracting out in the district from groove.

Fig. 6 is an expression and a stereogram of the integrally formed motor installation component of member.

Fig. 7 is an expression and a stereogram of another example of the integrally formed motor installation component of member.

Fig. 8 is the stereogram of another example of integrally formed member of expression and motor installation component.

Fig. 9 is the stereogram of another embodiment of representing to place the upper ends portion of motor installation component thereon.

The specific embodiment

Next, illustrate according to the pump motor installation structure that is used for ice machine of the present invention by preferred embodiment with reference to the accompanying drawings below.The present invention is intended to be applied in all such ice machines: this ice machine has wherein divides the ice machine main body that forms by ice-making compartment and the Machine Room adjacent with ice-making compartment, and have and be contained in groove in the mode that allows from machine, to be extracted out and hold ice making tank in the district, this groove holds the district and is provided with from the ice-making compartment bottom until the bottom, Machine Room, and this ice machine also has the pump motor that is connected with the pump that the ice making water in the ice making tank is fed to the ice making unit.Therefore, in these embodiments, the position relevant with pump motor installation structure only is described, and owing to the framework of ice machine main body is differently constructed at each ice machine with each plate, freezing mechanism, ice making unit etc., so omitted explanation and diagram about them.In these embodiments, the direction (bottom of Fig. 1) of extracting the ice making tank out is defined as the front side of ice machine, and the frontal left of observing from the front side is as the left side of ice machine, and positive right side of face is as the right side of ice machine.

Embodiment

Fig. 1 omits the ice-making compartment 10 that limits by the right wall (wall) 16 that clips explanation after a while in the ice machine main body that ice machine main body and freezing mechanism etc. are shown schematically in ice machine and the stereogram of Machine Room 12.The mechanism for ice maker that in ice-making compartment 10, for example is furnished with the evaporimeter that constitutes freezing mechanism and constitutes by the ice making unit etc., and in Machine Room 12, be furnished with the compressor that constitutes freezing mechanism and condenser etc.Ice-making compartment 10 and the Machine Room 12 division base plate 14 by constituting both bottoms of ice-making compartment 10 and Machine Room 12 with below the storage chamber (not shown) that marks off demarcate.

As shown in Fig. 1 and Fig. 2, ice-making compartment 10 four sides around be positioned at the right wall 16 of the boundary of Machine Room 12, with right wall 16 be located opposite from the left wall 18 in the left side of ice-making compartment 10, respectively join to the rear end of right wall 16 and left wall 18 the rear end rear wall 20 and join the front end of right wall 16 respectively to and the antetheca 22 of the front end of left wall 18 around constituting.Right wall 16, left wall 18 and rear wall 20 have the lower end separately that is fixed to division base plate 14.Antetheca 22 has the little height dimension of height dimension that is configured to than left wall 18 and right wall 16, with below form the groove illustrate later and insert mouthfuls 24.The upper plate (not shown) that upper opening 26 is configured the ice machine main body covers.Right wall 16, left wall 18, rear wall 20, antetheca 22 and upper plate have be encapsulated in wherein each from insulator, thereby allow ice-making compartment 10 to be constructed to heat insulating box.

Machine Room 12 demarcates with ice-making compartment 10 by right wall 16, and is limited by the right plate that constitutes the ice machine main body, back plate, header board, upper plate etc.On the upper surface of Machine Room 12 sides of dividing base plate 14, be furnished with substrate 28, the compressor, condenser of the Heavy Weight of freezing mechanism etc. are installed on this substrate 28.

As depicted in figs. 1 and 2, be formed with groove from the bottom of ice-making compartment 10 until the bottom of the Machine Room 12 adjacent with ice-making compartment 10 and hold district 30, ice making tank T is contained in this groove in the mode that allows to be extracted out from machine holds in the district.That is to say, groove holds district 30 and is made of the second housing region 30B that are communicated with the first housing region 30A space of first housing region 30A that limits in the bottom of ice-making compartment 10 by the first groove 16A that is arranged on right wall 16 lower front side and the 12 lower front side qualification in the Machine Room, and roughly presents L shaped shape in vertical view.And, be formed with the second groove 28A that mating groove holds district 30 in the front left side of substrate 28.Thereby groove is held district 30 be defined as the upper surfaces of dividing base plate 14 and be set to the groove placed side and be set to smooth and have height H.

As shown in Figure 1, the second housing region 30B and Machine Room 12 that groove holds district 30 are designed to, divided fully by longitudinal subdivision wall (partition wall) 32 and the motor installation component 36 that illustrates later, described longitudinal subdivision wall 32 uprightly is provided with along the border that groove holds between district 30 and the Machine Room 12.Longitudinal subdivision wall 32 is monolithic molding parts of being made by for example synthetic resin, and has along the horizontally extending lower end of lower edge installed part 32A, along the horizontally extending upper ends part of upper end-face edge (upper ends portion) 32B and along the crooked to the right front end installed part 32C of front edge.Lower end installed part 32A is used for longitudinal subdivision wall 32 is installed in substrate 28.The 32B of upper ends portion is used for the state that is placed on it motor installation component 36 being installed.Front end installed part 32C is used to install the door member 48 that illustrates later.In addition, unshowned heat insulating component is attached on the longitudinal subdivision wall 32, so that ice-making compartment 10 and groove are held district's 30 heat isolation.

As Fig. 3 and shown in Figure 6, motor installation component 36 is monolithic molding parts of being made by for example synthetic resin, and form rectangular plate shape, with under the state that is positioned on the 32B of upper ends portion of longitudinal subdivision wall 32, covering is by right wall 16 and longitudinal subdivision wall 32 forms and insert mouthful 24 openings that are communicated with 34 with groove.In the time of on motor installation component 36 being placed on the 32B of upper ends portion, motor installation component 36 is constructed at its left surface and right wall 16 butts, makes it possible to sealing machine chamber 12 and groove and holds district 30.And motor installation component 36 not only is provided with the motor installing zone 38 of the rectangular frame shape that is used to install pump motor PM, and is provided with the switch installing zone 40 that is used for the float switch (not shown) and the pipe jointing part 42 that is connected with feed pipe or the like.Form opening 44 on motor installing zone 38, it allows to be connected to the insertion of the pump WP (Fig. 6) of pump motor PM.In addition, the position of removing motor installing zone 38 on the upper surface of motor installation component 36 is equipped with heat insulating component 46, isolates so that ice-making compartment 10 and groove are held district's 30 heat.

And as Fig. 3 and shown in Figure 6, motor installation component 36 has towards allowing groove to hold distinguishes the door member 48 that 30 grooves that are communicated with machine exterior insert mouth 24, and a motor installation component 36 and a member 48 are with the state monolithic molding of about right-angle bending.When ice making tank T is contained in groove when holding in the district 30, door member 48 is positioned at groove and inserts mouthfuls 24 right side, and plays ice-making compartment 10 and groove are held the effects that district's 30 heat are isolated.In addition, door member 48 also can form with the shape that can cover groove insertion mouthful 24 whole open areas.

As depicted in figs. 1 and 2, motor installation component 36 and door member 48 can be fixed to the 32B of upper ends portion and the front end installed part 32C of longitudinal subdivision wall 32 discretely by first mounting screw (fixture) S1 and the second mounting screw S2.That is to say, form first screw insertion hole 52 in the right back bight of motor installation component 36, this first screw insertion hole 52 cooperates with first screwed hole 50 in the bight that is formed on the 32B of upper ends portion.When suitably having located motor installation component 36, first screwed hole 50 and first screw insertion hole 52 are worked in coordination, by the first mounting screw S1 being screwed in first screwed hole 50, thereby motor installation component 36 is fixed with the state that is placed on the 32B of upper ends portion via first screw insertion hole 52.And, being formed with second screw insertion hole 56 in the vertical central authorities of the right-hand member of door member 48, this second screw insertion hole 56 cooperates with second screwed hole 55 of the lower end that is formed on front end installed part 32C.When suitably having located door member 48, second screwed hole 55 and second screw insertion hole 56 are worked in coordination, by the second mounting screw S2 being screwed in second screwed hole 55, thereby door member 48 is fixed to the front end installed part 32C of longitudinal subdivision wall 32 via second screw insertion hole 56.In addition, by taking off the first mounting screw S1 and the second mounting screw S2 that screws in respectively in first screw insertion hole 52 and second screw insertion hole 56 respectively, motor installation component 36 can be separated from longitudinal subdivision wall 32 with door member 48.

In the present embodiment, as described and also Fig. 3 and Fig. 5 illustrate, the pump motor PM that is connected with pump WP is constructed to be installed in the motor installing zone 38 that is arranged at motor installation component 36 in the above.That is to say that pump motor PM has the installing plate 58 of rectangular plate shape, this installing plate 58 cooperates with the motor installing zone 38 of rectangular frame shape.As Fig. 4 and shown in Figure 6, form the 3rd screw insertion hole 62, the three screw insertion holes 62 at the front end of installing plate 58 and cooperate with the 3rd screwed hole 60 of the front end that is formed on motor installing zone 38.And, as shown in Figure 4, being formed with card claw stop 58A with rearwardly projecting state in the rear end of installing plate 58, this card claw stop 58A is only blocked ends receiving portion 38A at the card that is formed at motor installing zone 38 rear ends.Thereby, inserted from upper surface via opening 44 as pump WP and card claw stop 58A be limited to card only during receiving portion 38A, under installing plate 58 and the situation that motor installing zone 38 cooperates, the 3rd mounting screw S3 is screwed in the 3rd screwed hole 60 via the 3rd screw insertion hole 62 that cooperates with the 3rd screwed hole 60, thereby allow pump motor PM is fixed to motor installation component 36, and opening 44 is also covered fully by installing plate 58.

Thereby, as Fig. 2 and shown in Figure 4, when motor installation component 36 is fixed to the 32B of upper ends portion of longitudinal subdivision wall 32, pump motor PM be installed to motor installation component 36 on the upper surface of Machine Room 12 sides.And pump WP is installed in holding on the lower surface of distinguishing 30 sides towards groove of motor installation component 36, so that hold in the ice making tank T that distinguishes in 30 towards being contained in groove.That is to say, because pump motor PM is positioned at the Machine Room 12 that isolates with ice-making compartment 10 (groove holds district 30), so pump motor PM is constructed to can not adhered to by the moisture that produces owing to the evaporation of the ice making water in the ice making tank T, chlorine etc.

As depicted in figs. 1 and 2, ice making tank T forms to have and can cooperate and be received into the dish type that the groove with height H holds the shape and size of district in 30, and is made of first groove district T1 that is contained in the first housing region 30A and the second groove district T2 outstanding to the right from the first groove district T1 and that be contained in the second housing region 30B.The bottom surface of ice making tank T side direction forward has a down dip and is also downward-sloping to the right, and is the darkest at the right-hand member position of the second groove district T2.Ice making tank T top edge on complete cycle, extend ground and be provided with level and outward extending horizontal ribs 70, and on the end edge of horizontal ribs 70, on complete cycle, be provided with the vertical rib 72 of giving prominence to upward along horizontal ribs 70 with extending.

As Fig. 3 and shown in Figure 6, promptly be provided with motor support 74 (motor support portion) in the second groove district T2 at the position of ice making tank T towards Machine Room 12, when extracting ice making tank T out, this motor support 74 is from supported underneath motor installation component 36.Motor support 74 is at the outstanding upward rib that is provided with of the isolated upper surface from horizontal ribs 70 of front and back side, and in the present embodiment, is furnished with four motor support 74 altogether away from each other on left and right directions and fore-and-aft direction.As shown in Figure 4, each motor support 74 has the size of the projecting height of determining by this way, when ice making tank T holds district 30 when extracting out from groove, the end of motor support 74 contacts with the lower surface of motor installation component 36 on being placed on the 32B of upper ends portion.That is to say that the motor installation component 36 with pump motor PM mounted thereto is configured to, be accommodated in groove and hold each motor support portion 74 of the ice making tank T in the district 30 from supported underneath.

(effect of embodiment)

Next, illustrate according to the effect of the ice machine of the present embodiment of structure as mentioned above.

When ice making tank T is contained in groove when holding in the district 30, the motor installation component 36 that pump WP and pump motor PM are installed on it is set to the second groove district T2 of ice making tank T from the top.Pump WP and pump motor PM are not installed on the motor installation component 36 by installing plate 58 loosely, and motor installation component 36 also by be arranged on four motor support 74 in the ice making tank T each from supported underneath, thereby stably be placed on the ice making tank T.Then, the pump WP that is connected with pump motor PM is in the state that hangs down in the ice making tank T.

Then, insert mouthfuls 24, the ice making tank T that is placed with the motor installation component 36 that pump motor PM is installed is thereon pushed groove hold district 30 via groove at the front surface opening of ice machine main body.At this, hold in district's process of 30 ice making tank T being pushed groove, the right-hand member that is placed on the motor installation component 36 on the ice making tank T with slip when the upper surface of the 32B of upper ends portion in the longitudinal subdivision wall 32 contact.Then, as shown in Figure 4, when ice making tank T be contained in fully groove hold the district 30 in the time, the upper surface of the 32B of upper ends portion in the rear end of motor installation component 36 and the longitudinal subdivision wall 32 is overlapping, and the right-hand member of door member 48 also is connected to the front surface of the front end installed part 32C in the longitudinal subdivision wall 32.

Then, when motor installation component 36 is positioned with respect to longitudinal subdivision wall 32, first screwed hole 50 and first screw insertion hole 52 cooperate, therefore by the first mounting screw S1 being screwed in first screwed hole 50, thereby motor installation component 36 is fixed to longitudinal subdivision wall 32 via first screw insertion hole 52.And second screwed hole 54 and second screw insertion hole 56 cooperate, and therefore by via second screw insertion hole 56 the second mounting screw S2 being screwed in second screwed hole 55, thereby door member 48 are fixed to longitudinal subdivision wall 32.Thereby, as Fig. 2 and shown in Figure 5, motor installation component 36 and door member 48 are installed on the longitudinal subdivision wall 32 that is fixed in substrate 28, therefore suitably divide fluting and hold district 30 and Machine Room 12, and pump WP is in ice making tank T, and pump motor PM is also in Machine Room 12.In addition, when motor installation component 36 was placed and is fixed to the 32B of upper ends portion and goes up, motor installation component 36 was connected to right wall 16 at its left surface, thereby had sealed Machine Room 12 and groove holds district 30.

When holding district 30 extraction ice making tank T from groove, at first take off the first mounting screw S1 and the second mounting screw S2, and insert mouthful 24 extraction ice making tank T from groove forward subsequently.This moment is as Fig. 1 and shown in Figure 5, and motor installation component 36 is by each motor support 74 supports of ice making tank T, thereby and it move forward in the height and position level that is positioned on the 32B of upper ends portion of longitudinal subdivision wall 32, and transfer to ice making tank T.That is to say that the motor installation component 36 that pump motor PM is installed on it is transferred to via groove and inserted mouthful 24 ice making tank T that extract out forward, thereby and do not need to move up pump WP and pump motor PM just can extract ice making tank T out.

By this way, be divided into groove according to the ice machine of present embodiment by motor installation component 36 and hold 30 (ice-making compartment 10) and Machine Rooms 12, district, the pump motor PM that is connected with pump WP is installed on this motor installation component 36, thereby can partly omit the wall of sharing system icehouse 10 and Machine Room 12, so that can bring the minimizing of cost by the reduction of structural elements.In addition, because motor installation component 36, so hold unqualified gap between the district 30 in Machine Room 12 and groove, thus the reduction of ice making efficient can be prevented, and can prevent that dust from entering groove and holding in district 30 and the ice-making compartment 10.And pump motor PM is installed in Machine Room 12 sides, thereby because the moisture that brings of ice making evaporation of water, chlorine etc. can not be attached to pump motor PM, makes it possible to compatibly prevent owing to adhere to the corrosion of the pump motor PM that causes and the generation of fault.

Then, when when the front side of ice machine is extracted ice making tank T out, the motor installation component 36 that pump WP and pump motor PM are installed on it moves with ice making tank T with the state that is placed on the ice making tank T, thereby do not need pump WP and pump motor PM are upwards lifted, and can implement to extract out the operation of ice making tank T simply.Therefore similarly, when ice making tank T being received into groove and holding in the district 30, do not need pump WP and pump motor PM are upwards lifted yet, can implement the operation of holding of ice making tank T simply yet.And because need be in the top belay space, position of arranging pump motor PM, so the volume of Machine Room 12 can be done lessly, and the free degree that is arranged in the layout of the appurtenances in the Machine Room 12 becomes bigger.

And, the motor installation component 36 that is placed on the 32B of upper ends portion is fixed to the 32B of upper ends portion by the first mounting screw S1, therefore, even because the rotation of pump motor PM and pump WP produces vibration, motor installation component 36 also can remain on the state of suitably installing.And, because being provided with, motor installation component 36 inserts mouthfuls 24 door member 48 towards groove, therefore can hold district's 30 heat and isolate, and because the reduction of structure member quantity, so reduction that also can expected cost groove.

In addition, the motor installation component 36 that pump WP and pump motor PM are installed on it is fixed with the state on the 32B of upper ends portion that is placed on longitudinal subdivision wall 32, therefore, even be arranged on the interior motor support 74 of ice making tank T from supported underneath motor installation component 36, the gross weight of pump WP, pump motor PM etc. is not applied to ice making tank T yet.Thereby ice making tank T is owing to the applying of weight of pump WP, pump motor PM is out of shape generation hardly.Even under the situation of ice making tank T distortion, because the division that 36 pairs of grooves of motor installation component hold between district 30 and the Machine Room 12 is suitably kept, the feasible decline that can prevent ice making efficient, and can prevent that also dust from entering groove and holding district 30 and ice-making compartment 10.

(change)

Though in the present embodiment, illustration motor installation component 36 and door member 48 with the integrally formed situation in rectangular position each other, but a motor installation component 36 and a door member 48 also can be as shown in Figure 7 by being configured as the single plane shape in the boundary setting from hinge 80.Be configured as by this way under the situation of single plane shape at motor installation component 36 and door member 48, motor installation component 36 and door member 48 are by monolithic molding, and spending to motor installation component 36 crooked 90 from hinge 80 places with back door member 48, thereby making it can form the shape identical with the attached state shown in Fig. 6.

Door member 48 also can as mention in the above and also shown in Figure 8 like that, form the shape of form fit of inserting the opening of mouth 24 with groove.In this case, the door member 48 that the covering groove inserts mouth 24 constitutes single member with motor installation component 36 integral body, thereby passes through the reduction of structure member quantity, can expect further to reduce cost.And, because covering groove fully, door member 48 inserts mouth 24, hold the raising of the effect of heat insulation of district 30 and Machine Room 12 so can expect groove.

And, as shown in Figure 9, can increase along the position that right wall 16 levels are extended to the right the 32B of upper ends portion.In this case, three limits of motor installation component 36 are that left hand edge, back edge and right hand edge can be supported by the 32B of upper ends portion, therefore motor installation component 36 supports with being stabilized, and the weight of pump WP and pump motor PM etc. can be accepted by the 32B of upper ends portion.Thereby when motor installation component 36 being placed on the 32B of upper ends portion, each motor support 74 can be constructed to from the lower surface of motor installation component 36 spaced apart, and can prevent that the weight of pump WP and pump motor PM etc. is applied to ice making tank T.

And, can be provided with the recess of the tip engages of each motor support 74 at the position of each motor support 74 of the cooperation on the lower surface of motor installation component 36, be limited to the protuberance of motor support 74 etc.In this case, in the time of on motor installation component 36 being placed on ice making tank T, each motor support 74 engages with motor installation component 36, with box lunch extract out forward ice making tank T and with ice making tank T be received into groove hold the district 30 in the time, motor installation component 36 can be placed on the ice making tank T with being stabilized.

The motor support portion 74 that is arranged among the ice making tank T is not restricted to the protuberance of illustrative in the present embodiment rib shape, but can be other shapes yet, as long as they can be from supported underneath motor installation component 36.For example, by horizontal ribs 70 itself is formed the shape that bloats upward, can allow this convex camber to play the function of motor support portion 74.

Claims (4)

1. pump motor installation structure that is used for ice machine comprises: ice making tank (T), and be contained in to stride across and hold in the district (30), and permission is extracted out from machine by clipping the groove that ice-making compartment (10) that wall (16) limits and Machine Room (12) are provided with; And pump motor (PM), be connected with the pump (WP) that the ice making water in the ice making tank (T) is fed to the ice making unit in the ice-making compartment (10),

Wherein in being arranged at Machine Room (12) and divide in the upper ends portion (30B) of partition wall (32) that groove holds district (30), being placed with division Machine Room (12) and groove removedly and holding the motor installation component (36) in district (30); And

Pump motor (PM) is installed in (12) side towards the Machine Room of motor installation component (36), and pump (WP) be installed in motor installation component (36) hold district (30) side to hold in the ice making tank (T) in the district (30) towards groove towards being contained in groove.

2. the pump motor installation structure that is used for ice machine according to claim 1, wherein motor support portion (74) is located to be provided with in the position (T2) that holds in the district (30) of the groove that is contained in Machine Room (12) side in ice making tank (T), and this motor support portion is from the described motor installation component of supported underneath (36) when extracting ice making tank (T) out.

3. the pump motor installation structure that is used for ice machine according to claim 1 and 2 comprises the fixture (S1) that can fix described motor installation component (36) and described upper ends portion (32B) discretely.

4. according to any described pump motor installation structure that is used for ice machine of claim 1 to 3, wherein said motor installation component (36) has a member (48), and this member inserts mouth (24) towards allowing described groove to hold the groove that is communicated with between district (30) and the machine exterior.

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