JP6785411B2 - Washing machine - Google Patents

Description

The present invention relates to a washing machine, and more particularly to a washing machine provided with a heated water generator for heating the washing water.

Conventionally, this type of washing machine has increased the detergency by activating the detergent by heating the washing water (see, for example, Patent Document 1).

FIG. 12 is a perspective view of a water tank in a conventional washing machine described in Patent Document 1. FIG. 13 is a rear perspective view of the water tank with the heater of the conventional washing machine removed. FIG. 14 is a cross-sectional view of a heater assembly in which a heater in a conventional washing machine is mounted on the bottom of a water tank.

In FIG. 12, the washing machine main body (not shown) has a water tank 200 internally suspended and vibration-proof supported by a suspension (not shown). Inside the water tank 200, a washing machine / dehydration tank (not shown) is rotatably arranged.

The inner bottom of the water tank 200 has a bulging portion 110 that bulges downward, and a heater 120 including a sheathed heater or the like is housed inside the bulging portion 110. Further, a drain port 113 is attached below the bulging portion 110.

In the above configuration, the operation of the conventional washing machine soaking process will be described.

Put the laundry in the washing and dehydrating tub together with the necessary detergent, and operate the operation switch (not shown) to start the operation. When the operation is started, a predetermined amount of water is supplied into the water tank 200 by the water supply device.

Subsequently, in order to dissolve the detergent, water supply stirring in which the washing / dehydrating tub rotates at a low speed is performed.

After that, a soaking step is performed in which the washing water is heated for a long time by the heat generated by the heater 120.

By raising the temperature of the washing water by the above-mentioned soaking step, the detergent is activated, so that washing can be performed effectively.

As shown in FIG. 14, a support member 140 for supporting the heating portion 121 of the heater 120 is configured on the bottom surface of the water tank 200 of the conventional washing machine. The support member 140 is bent according to the shape of a large number of bent heating portions 121, and supports the heating portions 121 so as not to move. Further, the tip portion 141 of the support member 140 is fastened to the boss 150 by the fastening member 143.

Hereinafter, a method of attaching and separating the heater and the water tank of the heater assembly of the conventional washing machine described above will be described.

When the heater 120 is attached to the water tank 200, the heating part 121 of the heater 120 is inserted into the bulging part 110 from the opening 130 at the lower part of the water tank 200 from the outside of the water tank 200. By inserting the heater 120 into the support member 140 in the bulging portion 110, the heater 120 is stably supported without moving.
When the insertion of the heater 120 is completed, the heater 120 is firmly supported and fixed in the bulging portion 110 by squeezing the nut that fixes the heater 120 and the washing / dehydrating tub.

On the other hand, when maintaining the heater assembly, the heater 120 can be separated from the water tank 200 by a method opposite to the above-mentioned mounting operation.
That is, the heater 120 can be pulled out from the bulging portion 110 by loosening the nut, pulling the heater 120, and pulling it out from the bulging portion 110.

Special Table 2005-512742A

In the above-mentioned conventional configuration, when the heater assembly is maintained, it is necessary to pull out the heater from the bulging part. However, since the washing / dehydrating tank is arranged inside the water tank, the heater is installed from the outside of the water tank. At the time of insertion, the inside of the water tank cannot be visually recognized, and it cannot be confirmed whether or not the heater is securely attached to the support member on the inner bottom surface of the water tank. Further, since it is necessary to insert the heater into the water tank in a situation where the position of the support member inside the water tank cannot be confirmed, the heater may collide with the support member and be damaged.

As described above, the washing machine having the above-mentioned conventional configuration has a problem in convenience when maintaining the hot water generator.

Therefore, an object of the present invention is to provide a washing machine capable of easily performing maintenance of a hot water generator.

In order to solve the above problems, a washing machine according to the present invention, a washing machine main body, is supported in the interior of the washing machine main body, a water tank having a water outlet at the bottom, the drain outlet below the previous SL drain outlet The drain cock unit is connected to a heater unit for heating washing water, and the heater unit is provided in a heater accommodating container formed in a substantially rectangular shape and the heater accommodating container. built, possess a heater for heating the washing water, the said heater container is the side surface, the drainage cock unit and drainage cock connecting opening communicating is formed on the upper surface, the water tank bottom and communicating This is a configuration in which an outflow path portion is formed.

With this configuration, the heater unit is provided separately from the water tank, so that the state inside the heater unit can be easily confirmed and maintenance can be performed.

The washing machine of the present invention can easily check the internal state of the heater unit provided at the bottom of the water tank and perform maintenance.

Longitudinal sectional view of the washing machine according to the first embodiment Rear view of the water tank of the washing machine and an exploded perspective view of the heater unit Perspective view of the heater unit of the washing machine (A) Top view of the heater unit of the washing machine, (b) Cross-sectional view of the heat unit AA in FIG. 4 (a) of the washing machine. Cross-sectional view of the heater unit of the washing machine Cross-sectional view of the bottom of the water tank and the heater unit of the washing machine Enlarged sectional view of the main part of the heater unit of the washing machine The bottom surface of the water tank of the washing machine and the BB sectional view of the heater unit in FIG. 4 (a). Enlarged sectional view of the main part of the heater unit of the washing machine Partial cross-sectional perspective view showing the flow of washing water in the heater unit of the washing machine Graph of water temperature in the heater storage container of the washing machine and water temperature in the aquarium Perspective view of the aquarium in a conventional washing machine Rear perspective view of the aquarium with the heater of the washing machine removed Heater assembly with the heater in the washing machine mounted on the bottom of the aquarium

The first invention includes a washing machine main body, is supported in the interior of the washing machine main body, a water tank having a water outlet at the bottom, a drain cock unit for connecting to the drain outlet below the previous SL drain outlet, a the drain space unit is connected to the heater unit for heating the wash water, the heater unit includes a heater container formed in a substantially rectangular parallelepiped shape, being incorporated in the heater container, a heater for heating the wash water , have a, the heater container is the side surface, the drainage cock connecting opening communicating with the drain space unit is formed, on the upper surface, by the outflow path portion communicating with said tub bottom is formed , The internal condition of the heater unit can be checked and maintenance can be easily performed.

In the second invention, in particular, the heater of the washing machine of the first invention is inserted and fixed through an opening at an end portion in the longitudinal direction of the heater storage container, and the drain cock connection opening is the heater. Since the outflow path portion is formed on the upper surface on the root side of the heater, the washing water flowing into the heater accommodating container is efficiently utilized while effectively utilizing the radiant heat of the heater. Can be heated to.

(Embodiment 1)
Hereinafter, the first embodiment will be described with reference to FIGS. 1 to 11.

[1-1. Constitution]
[1-1-1. Washing machine configuration]
FIG. 1 is a vertical cross-sectional view of the washing machine according to the first embodiment.

In FIG. 1, the washing machine main body 11 internally has a water tank 13 suspended and vibration-proof supported by a suspension 12. Inside the water tub 13, a washing / dehydrating tub 15 that also serves as a washing tub and a dehydration tub is rotatably provided. A pulsator 18 is rotatably arranged at the bottom of the washing / dehydrating tub 15.

A transmission mechanism portion 20 is provided on the outer bottom portion of the water tank 13. The transmission mechanism unit 20 internally includes a reduction gear for washing (not shown), a switching clutch for the washing / dehydrating shaft 14 (not shown), and a brake for stopping the washing / dehydrating tank 15 (not shown). Is built-in.

A motor 21 is attached to the outer bottom of the water tank 13, and a motor-side pulley 22 is attached to the motor 21. A mechanical side pulley 23 is connected to the washing / dehydrating shaft 14, and the motor side pulley 22 and the mechanical side pulley 23 are connected to each other by a belt 24. With the above configuration, the power of the motor 21 is transmitted to the washing / dehydrating shaft 14 via the belt 24. Further, by controlling the switching clutch, it is possible to realize a state in which only the pulsator 18 is rotated and a state in which the pulsator 18 and the washing / dehydrating tank 15 are simultaneously rotated by using the motor 21.

An upper frame body 25 is arranged on the upper part of the washing machine main body 11. A laundry inlet / outlet 26 for communicating the washing / dehydrating tub 15 with the outside is formed in a substantially central portion of the upper frame body 25, and the laundry inlet / outlet 26 is covered with a door body 27 so as to be openable and closable. It has been done. On the rear side of the upper frame body 25, an operation display unit 29 for performing various input settings and displaying the set contents is arranged. Inside the rear side of the upper frame body 25, a water supply valve 30 and a water injection case 31 that can be opened and closed by electromagnetic force are arranged.

Inside the washing machine main body 11, a control device (not shown) having a control means (not shown) for controlling a motor 21 or the like, sequentially controlling a series of washing, rinsing, and dehydrating processes, and controlling the water temperature of washing water (not shown). (Not shown) is arranged.

A fluid balancer 16 is arranged above the washing / dehydrating tub 15. On the back surface of the washing machine main body 11, a back plate 17 is detachably arranged so as to cover the back opening (inspection port) 11a.

FIG. 2 is a perspective view of the bottom surface of the water tank of the washing machine and an exploded perspective view of the heater unit according to the first embodiment. As shown in FIG. 2, the bottom of the water tank 13 has a first drainage port 33a and a second drainage port 33b.

[1-1-2. Heater unit configuration]
FIG. 3 is a perspective view of the heater unit of the washing machine according to the first embodiment, FIG. 4 (a) is a top view of the heater unit of the washing machine, and FIG. 4 (b) is a heat unit in FIG. 4 (a). AA cross-sectional view, FIG. 5 is a cross-sectional view of the heater unit of the washing machine, FIG. 6 is a cross-sectional view of the bottom surface of the water tank and the heater unit of the washing machine, and FIG. 7 is a main part of the heater unit of FIG. An enlarged cross-sectional view, FIG. 8 is a bottom view of the water tank of the washing machine, and a cross-sectional view of the heater unit BB in FIG. 4 (a), and FIG. 9 is an enlarged cross-sectional view of a main part of the heater unit of FIG. Is.

The heater unit 32 of the first embodiment will be described below.

As shown in FIG. 1, the heater unit 32 is fixed at a position on the outer bottom portion on the back side of the water tank 13 where the back plate 17 can be removed for maintenance.

As shown in FIG. 2, the heater unit 32 includes a substantially rectangular parallelepiped heater accommodating container 37 having both ends open in the longitudinal direction, a heater 38 inserted from one opening of the heater accommodating container 37, and a heater accommodating container. It is composed of a sheet metal member 36 that is inserted through the other opening of 37 and covers the heater 38, and a lid 51 that covers the other opening into which the sheet metal member 36 is inserted.

Each part will be described below.

[A. Heater storage container 37]
The heater accommodating container 37 is made of heat-resistant resin and has a substantially rectangular parallelepiped shape with both ends open in the longitudinal direction. Of the openings in the longitudinal direction of the heater accommodating container 37, one opening is a heater insertion opening 37b into which the heater 38 is inserted, and the other opening is a sheet metal member insertion in which the sheet metal member 36 is inserted and covered by the lid 51. The opening 37c.

In the vicinity of the heater insertion opening 37b on the upper surface of the heater storage container 37, a tubular outflow path portion 37g communicating with the second drain port 33b at the bottom of the water tank 13 is formed.

A drainage cock connecting opening 37a communicating with the drainage cock unit 34 is provided in the vicinity of the sheet metal member insertion opening 37c on the side surface adjacent to the surface having the outflow path portion 37g. The drain cock unit 34 and the heater accommodating container 37 are detachably attached by screw fastening (not shown) or the like.

As shown in FIG. 2, the drainage cock unit 34 is welded and fixed by a welding boss 45 at a position where the inflow port 34a and the first drainage port 33a at the bottom of the water tank 13 communicate with each other. The water tank 13 and the heater storage container 37 are communicated with each other via the drain cock unit 34. As shown in FIGS. 2, 3 and 4 (b), the drain cock unit 34 has a drainage path side opening 34c. The drainage path side opening 34c is connected and communicated with the drainage path 41. By opening the drain valve (not shown) of the drain cock unit 34, the washing water in the water tank 13 and the heater accommodating container 37 is drained to the outside of the washing machine main body 11 through the drain path 41.

In the present embodiment, the water tank 13 and the drain cock unit 34 are welded and fixed, but the present invention is not limited to this, and the water tank 13 and the drain cock unit 34 may be detachably attached by fastening screws or the like.

[B. Sheet metal member 36]
As shown in FIG. 2, the sheet metal member 36 surrounding the heater 38 has a substantially rectangular parallelepiped shape in which both ends in the longitudinal direction are open. The sheet metal member 36 is inserted into the heater accommodating container 37 in the forward direction from the sheet metal member insertion opening 37c.

Since the radiant heat generated from the heater 38 is conducted and diffused through the sheet metal member 36, it is possible to reduce the risk that the heat is concentrated and melted in a part of the heater accommodating container 37 to generate holes.

The sheet metal member 36 is composed of two sheet metal parts. As shown in FIGS. 2 and 6, one end of the sheet metal member 36 is spot welded along the spot welded portion 42 in the longitudinal direction. As shown in FIGS. 6 and 7, the other end of the sheet metal member 36 has a separating portion 36a which is not welded and has a constant gap. Therefore, the sheet metal member 36 has a substantially U-shape. The sheet metal member 36 is bent to form a support piece 40 recessed inward. The support piece 40 fixes the heater 38 housed in the heater storage container 37 so as not to move.

A method of fixing the sheet metal member 36 and the heater accommodating container 37 will be described with reference to FIGS. 5, 6 and 7.

As shown in FIG. 5, a strip-shaped rib 37d is stretched and formed on the inner wall of the heater accommodating container 37 corresponding to the position of the separating portion 36a in the state where the sheet metal member 36 is inserted into the heater accommodating container 37. .. When the sheet metal member 36 is inserted into the heater accommodating container 37 from the sheet metal member insertion opening 37c in the forward direction, the band-shaped rib 37d is located at the separation portion 36a.

As shown in FIGS. 6 and 7, the width dimension W of the strip-shaped rib 37d at the position where the sheet metal member 36 is inserted into the heater accommodating container 37 and comes into contact with the sheet metal member 36 is directed from the rear side to the front side. It is formed to be wide.

The width dimension W1 of the sheet metal member insertion opening 37c side (rear side) end of the strip-shaped rib 37d in FIG. 7 is larger than the separation width of the separation portion 36a in the state where the sheet metal member 36 is housed in the heater accommodating container 37. It is formed narrowly. The width dimension W2 of the heater insertion opening 37b side (front side) end of the strip-shaped rib 37d in FIG. 7 is wider than the separation width of the separation portion 36a when the sheet metal member 36 is housed inside the heater storage container 37. Is formed. Further, as shown in FIG. 8, as the sheet metal member insertion opening 37c side (rear side) toward the heater insertion opening 37b side (front side), the inner wall lower surface 39a of the heater accommodating container 37 moves upward, and the inner wall upper surface 39b is gradually inclined downward. Therefore, as the sheet metal member 36 is inserted from the sheet metal member insertion opening 37c side (rear side) toward the heater insertion opening 37b side (front side), the separation width of the separation portion 36a becomes narrower.

According to the above configuration, when the sheet metal member 36 is inserted into the heater accommodating container 37 from the sheet metal member insertion opening 37c side (rear side) toward the heater insertion opening 37b side (front side), the strip-shaped rib is inserted from the middle of the insertion. The width W of 37d is wider than the separation width of the separation portion 36a of the sheet metal member 36. Therefore, by press-fitting the sheet metal member 36 into the heater accommodating container 37, the end portion of the separating portion 36a of the sheet metal member 36 is recessed into the strip-shaped rib 37d. In this way, the sheet metal member 36 can be supported and fixed in the heater accommodating container 37, and the sheet metal member 36 can be prevented from rattling during the dehydration rotation of the washing / dehydrating tank 15.

In the first embodiment, the sheet metal member 36 is formed by spot welding two sheet metals, but may be formed by molding one sheet metal, for example.

[C. Heater 38]
The heater 38 will be described with reference to FIG.

The heater 38 is inserted through the heater insertion opening 37b of the heater storage container 37.

The heater 38 is composed of a heating portion 38a, a terminal portion 38b, and a connecting portion 38c.

The heating unit 38a is located inside the heater accommodating container 37 and generates heat for heating the washing water in the heater accommodating container 37. Further, as shown in FIG. 2, the heating portion 38a is bent many times on the same plane. With the above configuration, the surface area of the heating unit 38a is increased, so that the washing water can be efficiently heated.

The terminal portion 38b is electrically connected to the heating portion 38a. Further, the terminal portion 38b is electrically connected to an external power source (not shown) and a control device (not shown) located outside the heater accommodating container 37. The electric power from the external power source is supplied to the heating unit 38a via the terminal unit 38b.

The connecting portion 38c is interposed between the heating portion 38a and the terminal portion 38b. The connecting portion 38c is provided with a flexible member 38d having a size corresponding to the heater insertion opening 37b of the heater accommodating container 37. In FIG. 8, the heater 38 can be fixed in the heater accommodating container 37 by tightening the nut 43 while the heating portion 38a is inserted in the heater insertion opening 37b. That is, by tightening the nut 43, a forward force is applied to the bolt 44 and the pressure welding plate 47 welded to the bolt 44, and the flexible member 38d is compressed in the front-rear direction and expands in the circumferential direction. The heater insertion opening 37b can be sealed. With the above configuration, it is possible to prevent the washing water in the heater accommodating container 37 from leaking from the heater insertion opening 37b. The flexible member 38d is formed of a packing such as rubber that is elastically deformed.

Further, as shown in FIG. 2, the connection portion 38c is provided with a temperature detection unit 56 for measuring the water temperature in the heater accommodating container 37. The temperature detection unit 56 is composed of a thermistor or the like.

[D. Lid 51]
As shown in FIGS. 8 and 9, the lid 51 detachably covers the opening 37c for inserting the sheet metal member of the heater accommodating container 37 by screw fastening (not shown).

The opening 37c for inserting the sheet metal member covered by the lid 51 has a back opening 11a of the washing machine main body 11 in order to remove the lid 51, check the inside of the heater accommodating container 37, and maintain the heater unit 32. It is provided on the back side.

The sheet metal member insertion opening 37c covered by the lid 51 is attached at a position facing the heater 38 inserted in the heater accommodating container 37. With the above configuration, the state of the heater 38 can be easily visually recognized by removing the lid 51 from the heater accommodating container 37.

The lid 51 is formed with an inclined rib 51a that presses the sheet metal member 36 inserted into the heater accommodating container 37 against the inner wall surface side of the heater accommodating container 37. The end portion of the sheet metal member 36 inserted into the heater accommodating container 37 on the sheet metal member insertion opening 37c side (rear side) is widened toward the inner wall lower surface 39a and the inner wall upper surface 39b by the inclined rib 51a.

Further, in a state where the heater accommodating container 37 is attached to the bottom of the water tank 13, ribs 37e for supporting the sheet metal member 36 are stretched and formed on the inner wall lower surface 39a and the inner wall upper surface 39b of the heater accommodating container 37. The rib 37e suppresses the direct transfer of the heat of the sheet metal member 36 heated by the heater 38 to the inner wall lower surface 39a and the inner wall upper surface 39b.

With the above configuration, the sheet metal member 36 is supported and fixed by the inclined ribs 51a and the ribs 37e by covering the opening 37c for inserting the sheet metal member with the lid 51 in a state where the sheet metal member 36 is inserted into the heater accommodating container 37. To. Therefore, the sheet metal member 36 is prevented from swinging in the heater accommodating container 37.

The heater unit 32 is configured as described above.

[1-2. Washing machine operation]
Next, the operating operation of the washing machine of the present embodiment will be described.

The user opens the door body 27, puts clothes into the washing / dehydrating tank 15 from the laundry loading / unloading port 26, closes the door body 27, and operates the operation display unit 29 to start the hot water washing course.

When the washing process is started, the water supply valve 30 is opened, and water is injected from the water injection case 31 into the water tank 13. The injected water flows into the heater accommodating container 37 from the first drain port 33a and the second drain port 33b at the bottom of the water tank 13.

Here, in the hot water washing course, after the washing step with the heated water by the heater 38 is completed, the rinsing and dehydrating steps are executed.

In the hot water washing course, when the water in the water tank 13 reaches a predetermined water level due to water injection into the water tank 13, the heater 38 of the heater unit 32 is turned on. The control device controls the temperature of the washing water by turning on and off the heater 38 according to the temperature of the washing water in the water tank. For the method of detecting the water temperature in the aquarium, see [1-5. Water temperature detection method in the aquarium] will be explained.

When the water temperature in the water tank 13 reaches a predetermined temperature M1 (for example, 55 ° C.), the heater 38 is turned on.
Set to FF. Further, when the measured water temperature in the water tank drops to a predetermined temperature M2 or less (for example, 53 ° C. or less), the heater 38 is turned on. By the above method, the washing water in the water tank 13 can be adjusted to a predetermined water temperature.

The predetermined temperatures M1 and M2 may be set for each operation course (for example, a sterilization course or a mud stain course). By changing the predetermined temperatures M1 and M2 depending on the operation course, the washing water can be adjusted to a water temperature suitable for the purpose of each operation course.

By opening the drain cock of the drain cock unit 34, the washing water is drained to the outside of the washing machine main body 11. Here, since the washing water in the water tank 13 flows out to the outside of the washing machine main body 11 via the drain cock unit 34, the outflow path portion 37 g, and the heater storage container 37, the washing water in the heater storage container 37 at the time of drainage It is possible to prevent the accumulation of washing water and foreign matter.

Further, after the completion of hot water washing, even if the operation of adding water to the washing / dehydrating tank 15 and stirring with the pulsator 18 is repeated until the water temperature in the water tank 13 becomes a predetermined temperature or less (for example, 50 ° C. or less). Good. When the water temperature in the water tank 13 becomes 50 ° C. or lower, the drain valve of the drain cock unit 34 opens, and the washing water is drained to the outside of the washing machine main body 11. When the water temperature in the water tank 13 is equal to or higher than a predetermined temperature (for example, 50 ° C. or higher) and the water level in the water tank 13 reaches the limit, temporary drainage is performed for a predetermined time.

With the above configuration, even in an environment where drainage flows down to the road surface, drainage can be performed with the water temperature lowered.

On the other hand, if the outflow path 37g of the heater storage container 37 is blocked by lint of clothing or the like, the flow of water between the heater storage container 37 and the water tank 13 may be obstructed. If the flow of water between the heater accommodating container 37 and the water tank 13 is obstructed, it is assumed that the inside of the heater unit 32 becomes overheated even though the water temperature in the water tank is M1 or less. In such a case, control is performed so that the heater 38 is turned off when the measured water temperature of the temperature detection unit 56 that detects the water temperature in the heater storage container 37 reaches the heater superheat set temperature (for example, 95 ° C.). Therefore, overheating in the heater unit 32 can be prevented, scale generation and deterioration of the heater accommodating container 37 can be suppressed.

[1-3. Flow of washing water in the heater unit]
FIG. 10 is a partial cross-sectional perspective view showing the flow of washing water in the heater unit of the washing machine according to the first embodiment.

The flow of washing water in the heater unit 32 when the heater 38 is turned on in the hot water washing course will be described with reference to FIG.

An outflow path portion 37g communicating with the inner bottom portion of the water tank 13 is formed on the heating portion 38a root side of the upper surface of the heater accommodating container 37, and the inner bottom portion of the water tank 13 is formed on the side of the heating portion 38a tip portion on the side surface of the heater accommodating container 37. A drainage cock unit 34 that communicates with is connected.

The washing water that has been heated in the heater storage container 37 and whose water temperature has risen rises in the heater storage container 37.

Here, since the distance from the heater 38 is closer to the outflow path portion 37g than to the drain cock connection opening 37a , the water temperature in the heater accommodating container 37 is the drain cock when the heater 38 is turned on. The outflow path portion 37g is higher than the connection opening 37a. Therefore, washing濯水elevated heater container 37, as indicated by the arrow D in FIG. 10, is released as the water tank 13 to outflow path portion 37 g.

In order to supplement the high-temperature washing water discharged from the heater storage container 37 to the water tank 13, the low-temperature and heavy washing water in the water tank 13 is sent from the inflow port 34a to the front of the drain cock on the upstream side of the drain cock of the drain cock unit 34. It flows through the path 34b and flows into the inner bottom of the heater accommodating container 37 (arrow C in FIG. 10). The washing water flowing into the heater accommodating container 37 is heated by effectively utilizing the radiant heat of the heater 38 while flowing from the vicinity of the tip of the heating portion 38a of the heater 38 toward the vicinity of the root, so that the washing water is efficiently heated. Can be made to.

As shown in FIG. 10, when the outflow path portion 37g is located above the drain cock connection opening 37a, the low-temperature washing water flowing into the heater storage container 37 from the water tank 13 and the heater storage container 37 Hot water can be efficiently circulated by utilizing the difference in specific gravity from the high-temperature washing water flowing out to the water tank 13.

As shown in FIG. 10, the upper end of the outflow path portion 37g is located above the inflow port 34a of the drainage cock unit 34. With the above configuration, the pressure difference between the upper end and the lower end of the outflow path portion 37g is larger than the pressure difference between the upper end and the lower end of the drain cock front path 34b, so that the pressure difference in the heater accommodating container 37 High-temperature washing water tends to flow out from the outflow path portion 37 g to the water tank 13. Therefore, hot water can be circulated more efficiently.

As described above, by providing two paths (inflow port 34a, outflow path portion 37) connecting the water tank 13 and the heater storage container 37 at positions different from the heater 38, the washing water in each path is provided. By utilizing the difference in water temperature, the washing water in the water tank 13 and the washing water in the heater storage container 37 can be circulated by natural convection. Therefore, the number of parts can be reduced and the cost can be reduced without requiring an external force such as a pump.

Further, since the heater accommodating container 37 has a smaller capacity than the water tank 13, the washing water in the heater accommodating container 37 has a higher rate of temperature rise by the heater 38 than the washing water in the water tank 13, and the water temperature becomes higher. Therefore, bacteria and the like contained in the washing water flowing into the heater storage container 37 can be effectively sterilized.

Further, by rotating the pulsator 18 at regular intervals, the washing water in the water tank 13 is agitated, and the water temperature in the water tank 13 can be made uniform.

In the first embodiment, the larger the opening area of the first drain port 33a and the second drain port 33b, the more active the circulation of the washing water between the heater unit 32 and the water tank 13. However, when the first drainage port 33a and the second drainage port 33b have a perfect circular shape and the opening area is increased, the welding boss 45 and the female screw 46 around the first drainage port 33a and the second drainage port 33b are formed. Since it interferes, it is necessary to remodel the bottom of the water tank 13.

Therefore, by forming the first drainage port 33a in a substantially elliptical shape as shown in FIG. 2, the opening area of the first drainage port 33a can be increased without changing the positions of the welding boss 45 and the female screw 46. it can. Therefore, the washing water in the water tank 13 and the heater storage container 37 can be efficiently circulated at low cost without investing a large amount of mold.

Further, the cross-sectional area of the outflow path portion 37g may be larger than the cross-sectional area of the drainage cock front path 34b. Since the volume of the high-temperature washing water in the heater storage container 37 is larger than that of the low-temperature washing water in the water tank 13, the cross-sectional area of the outflow path portion 37g through which the high-temperature washing water passes is increased to increase the cross-sectional area of the heater storage container 37. The washing water of the water tank 13 and the washing water of the water tank 13 can be efficiently circulated.

Further, as shown in FIG. 8, the lower surface 39a of the inner wall on the bottom side of the heater accommodating container 37 is gradually inclined downward from the heater insertion opening 37b toward the drain cock connection opening 37a. With the above configuration, at the time of drainage, the washing water in the heater accommodating container 37 flows toward the drain cock connection opening 37a, passes through the drain cock unit 34 and the drain path 41, and flows out to the outside of the washing machine main body 11. .. Therefore, it is possible to prevent the washing water and foreign matter from staying in the heater storage container 37 at the time of drainage.

[1-4. Checking the status of the heater unit and maintenance method]
Foreign matter such as relatively large lint generated from clothing may adhere to the heater 38 or block the outflow path portion 37g, so that the heated water in the heater accommodating container 37 cannot flow out to the water tank 13. .. In addition, a defect may occur in the parts of the heater unit 32. Therefore, it is necessary to check the state inside the heater unit 32 and repair it as necessary.

The state confirmation and maintenance method in the heater unit 32 will be described below.

In order to check the state of the heater unit 32, the back plate 17 covering the back opening 11a on the rear side of the washing machine main body 11 is removed, and the lid of the heater storage container 37 attached to the bottom surface of the water tank 13 from the back opening 11a. Remove the body 51. Since the heater accommodating container 37 and the lid 51 are fixed by fastening the screws, the lid 51 can be removed by removing the screws.

By the above method, the state of the heater 38 in the heater storage container 37 can be confirmed from the back opening 11a of the washing machine main body 11, and lint and the like adhering to the surface of the heater 38 can be removed if necessary. Therefore, it is not necessary to attach / detach the lead wire connector connected to the heater 38, so that the heater 38 can be easily confirmed and maintained.

If the sheet metal member 36 is to be repaired or replaced, it can be removed by pulling out the sheet metal member 36 from the heater accommodating container 37.

Further, the heater unit 32 and the water tank 13, and the heater unit 32 and the drain cock unit 34 are fastened with screws or the like (not shown) and are detachably attached. With the above configuration, when it is necessary to remove foreign matter that has entered the heater unit 32 or when it is necessary to replace the heater unit 32, the washing machine main body 11 is laid down sideways and from the bottom of the washing machine main body 11. By removing the heater unit 32 from the water tank 13 and the drain cock unit 34, maintenance of the heater unit 32 alone becomes possible. Further, since only the damaged parts of the heater unit 32 can be maintained, the time and cost required for repair can be reduced.

[1-5. Water temperature detection method in the aquarium]
FIG. 11 is a graph of the water temperature in the heater container of the washing machine and the water temperature in the water tank according to the first embodiment.

When the heater 38 is turned on, the water in the heater accommodating container 37 is heated by the heater 38. Since the volume of the heater storage container 37 is smaller than that of the water tank, the water temperature in the heater storage container 37 is usually 10 to 40 ° C. higher than the water temperature in the water tank 13, but the heater 38 is turned off for a predetermined time. After that, the water temperature in the water tank 13 and the water temperature in the heater accommodating container 37 are gradually made uniform.

Hereinafter, a method of estimating the water temperature in the water tank 13 using the temperature detecting unit 56 provided in the heater 38 will be described.

In the hot water washing course, the heater unit 32 is turned on when a predetermined water level is reached by injecting water into the water tank 13. The time at this time is Ta0. Next, the heater 38 is turned off after a predetermined time has elapsed since the heater 38 was turned on (the time at this time is set to Ta1). After turning off the heater 38 and after a predetermined time elapses (the time at this time is set to Ta2) when the water temperature in the heater storage container 37 and the water temperature in the water tank 13 become substantially uniform, the heater is stored by the temperature detection unit 56. By measuring the water temperature of the container 37, the water temperature in the water tank 13 can be estimated.

It is desirable that the ON time (Ta0 to Ta1) of the heater 38 is calculated from the output of the heater 38, the amount of water in the water tank 13, the amount of clothing, and the like. For example, when the output of the heater is 1500 W, the amount of water in the water tank 13 is 66 L, the amount of clothing is 5 kg, and the initial water temperature is 20 ° C. to a predetermined temperature of 55 ° C., it takes about 130 minutes.

The predetermined time (Ta1 to Ta2) for turning off the heater 38 is preferably, for example, 1 to 5 minutes.

By rotating the pulsator 18 for a predetermined time after turning off the heater 38 for a predetermined time, the washing water in the water tank 13 is agitated, and the equilibrium of the water temperature difference between the water tank 13 and the heater accommodating container 37 can be promoted. Therefore, the water temperature difference between the heater accommodating container 37 and the inside of the water tank 13 becomes small in a short time, and the water temperature in the water tank 13 can be detected accurately.

Next, a control method for adjusting the washing water in the water tank 13 to a predetermined target set water temperature (for example, 53 ° C.) using the temperature detection unit 56 will be described.

After the water supply to the water tank 13 is completed, the first energization time of the heater 38 is calculated from the amount of water supplied to the water tank 13, the water temperature, and the like, and the heater 38 is turned on for the first energization time. Here, the heater 38 may continue to be ON during the first energizing time, or may be operated intermittently.

Within the first energization time, the temperature rising rate Vt of the washing water in the water tank 13 is calculated from the estimated water temperature of the washing water in the water tank 13 by the temperature detection unit 56. The second heater 38 from the water temperature T1 in the water tank 13 after the temperature rise rate Vt and the end of the first energization time (the time at this time is Tb1) until the washing water in the water tank reaches the target set water temperature. Calculate the energizing time of. Here, the heater 38 may be continuously turned on during the second energizing time, or may be operated intermittently.

After the heater 38 is continuously turned on for the second energization time, the water temperature T2 in the water tank 13 is estimated by the temperature detection unit 56 and compared with the target set water temperature. When the water temperature T2 is lower than the target set water temperature, the heater 38 is turned on for a predetermined time, and the temperature detection unit 56 again estimates the inside of the water tank 13. When the water temperature T2 is higher than the target set water temperature, the heater 38 is turned off for a predetermined time, and the temperature detection unit 56 again estimates the inside of the water tank 13.

By the above method, the temperature of the washing water in the water tank 13 can be adjusted by using the temperature detection unit 56 that measures the water temperature in the heater storage container 37. Therefore, it is not necessary to dispose a water temperature detection unit in the water tank, and a low-cost and highly reliable washing machine can be provided.

In the present embodiment, the drainage cock unit 34 and the outflow path portion 37 g formed in the heater accommodating container 37 form a connecting path between the water tank 13 and the heater accommodating container 37, but the present invention is limited to this. It's not something. For example, the inflow path portion and the outflow path portion may be formed in the heater accommodating container 37, and the water tank 13 and the heater accommodating container 37 may directly communicate with each other without passing through the drain cock unit 34. In that case, the drain cock unit 34 may be connected to the bottom surface or the side surface of the heater storage container 37 with the heater storage container 37 attached to the bottom of the water tank 13.

In the present embodiment, the configuration of detecting the water temperature in the water tank 13 by the temperature detecting unit 56 arranged in the heater accommodating container 37 has been described, but the present invention is not limited to this, and for example, the water tank 13 The water temperature in the water tank 13 may be measured by disposing a temperature detection unit in the water tank composed of a thermistor or the like inside or in the drain cock unit 34.

In the present embodiment, two connecting paths between the water tank 13 and the heater storage container 37 are provided, that is, a drain cock unit 34 and an outflow path portion 37 g, but the present invention is not limited to this, and the water tank is not limited to this. Three or more connecting paths between the 13 and the heater accommodating container 37 may be provided.

In the present embodiment, the sheet metal member 36 is configured by molding two sheet metals, but may be composed of, for example, one sheet metal.

In the present embodiment, the lid 51 is provided in the opening on the back side of the washing machine main body 11 of the heater storage container 37 in a state where the heater unit 32 is attached to the outer bottom surface of the water tank 13. The lid 51 may be provided in the direction in which the opening / closing opening of the washing machine main body 11 in the heater accommodating container 37 is provided. Therefore, the opening in the heater accommodating container 37 opened and closed by the lid 51 may be formed on the front side of the washing machine main body 11 or may be formed on the side surface side of the washing machine main body 11.

In the present embodiment, the first drainage port 33a is formed in a substantially elliptical shape, but the second drainage port approximately may be formed in an elliptical shape, or the first drainage port 33a and the second drainage port 33a and the second. The drain port 33b may have a substantially elliptical shape.

In the present embodiment, the configuration in which the inner bottom of the water tank 13 and the heater accommodating container 37 communicate with each other to circulate hot water by natural convection has been described, but the present invention is not limited to this. For example, the heater accommodating container 37 and the washing / dehydrating tub 15 are communicated with each other via a circulation pump, and the washing water warmed in the heater accommodating container 37 by the circulation pump is discharged into the washing / dehydrating tub 15 to release hot water. It may be configured to circulate.

In the present embodiment, a guide body for flowing the washing water in the water tank 13 may be provided at the inflow port 34a of the drain cock unit 34. With the above configuration, the washing water can be efficiently flowed from the water tank 13 into the heater storage container 37 by utilizing the centrifugal force driven by the pulsator 18.

In the present embodiment, the vertical washing machine has been described as an example of the washing machine, but the present invention is not limited to this, and a drum type washing machine may be used.

As described above, the first embodiment has been described as an example of the technology disclosed in the present application. However, the technique in the present disclosure is not limited to this, and can be applied to embodiments in which changes, replacements, additions, omissions, etc. have been made. It is also possible to combine the components described in the first embodiment to form a new embodiment.

As described above, the washing machine according to the present invention can be applied not only to household washing machines but also to commercial washing machines.

11 Washing machine body 12 Suspension 13 Water tank 14 Washing / draining shaft 15 Washing / draining tank 17 Back plate 16 Fluid balancer 18 Parsator 20 Transmission mechanism 21 Motor 22 Motor side pulley 23 Mechanical side pulley 24 Belt 25 Upper frame body 26 Washing Outlet 27 Door 29 Operation display 30 Water supply valve 31 Water injection case 32 Heater unit 33a First drain port 33b Second drain port 34 Drain cock unit 34a Inflow port 34b Drain cock front route 34c Drain route side opening 36 Sheet metal Member 36a Separation part 37 Heater storage container 37a Drain cock connection opening 37b Heater insertion opening 37c Sheet metal member insertion opening 37d Band-shaped rib 37e Rib 37g Outflow path part 38 Heater 38a Heating part 38b Terminal part 38c Connection part 38d Possible Flexible member 39a Inner wall lower surface 39b Inner wall upper surface 40 Support piece 41 Drainage path 42 Spot welded part 43 Nut 44 Bolt 45 Welding boss 46 Female screw 51 Lid body 51a Inclined rib 56 Temperature detector

Claims (2)

The washing machine body and
A water tank that is supported inside the washing machine body and has a drain at the bottom,
A drainage cock unit connected to the drainage port is provided.
The drain cock unit is connected to a heater unit that heats the washing water.
The heater unit is
A heater storage container formed in a substantially rectangular parallelepiped shape,
It has a heater built in the heater accommodating container and heats washing water.
The heater storage container is
An opening for connecting a drain cock that communicates with the drain cock unit is formed on the side surface.
A washing machine in which an outflow path portion communicating with the inner bottom portion of the water tank is formed on the upper surface. The heater is inserted and fixed through an opening at the longitudinal end of the heater accommodating container.
The washing machine according to claim 1, wherein the drainage cock connection opening is formed on a side surface on the tip end side of the heater, and the outflow path portion is formed on an upper surface on the root side of the heater.

Images