CN1724795A - Condensate water moving structure of clothes drying machine - Google Patents

Abstract

The invention is a condensed water moving structure for clothing dryer, comprising base, condenser, water collection tank, condensing pump, pipe part and drawer, where the base is installed at the bottom of the clothing dryer; the condenser is formed on one side of the base and produces the condensed water by heat exchange; the water collection tank is formed on one surface of the base and collects the condensed water together; the condensing pump pumps the condensed water collected in a condensed water storage part to the top of the clothing dryer; the pipe part is connected with the condensing pump to form a condensed water moving channel; the drawer is formed on the top of the clothing dryer and to make the moving condensed water through the pipe part gather together. The invention can make the condensed water smoothly moving to the top of the clothing dryer.

Description

Condensed water moving structure of clothes dryer

Technical Field

The present invention relates to the field of clothes dryers.

Background

In general, a washing machine, a dryer, or a washing and drying machine including a drum device is a device that uses a rotational motion of a drum, that is, laundry in the drum rotates after the drum starts to rotate, and the laundry ascends or descends due to the rotational motion.

For example, in a drum washing machine, laundry collides with wash water by rising and falling, and dirt on the laundry is removed by the collision motion.

In the drum dryer, hot air generated by an electric heater or a gasoline burner is supplied into the drum to absorb moisture remaining on the drying object, thereby drying the drying object.

The present invention relates to a dryer for drying laundry by rotation of a drum, and thus, the present invention will be described below by taking a drum device of the dryer as an example.

Fig. 1 is a schematic sectional view of a dryer.

As shown in fig. 1, the dryer includes a cabinet 10, a drum 12, a door 13, and a belt 11. Wherein the cabinet 10 forms an external appearance of the dryer; the drum 12 is formed inside the cabinet 10 and has a cylindrical shape; the door 13 opens and closes the drum 12; the belt 11 is wound around the outer circumferential surface of the drum 12.

Further, the apparatus includes a motor shaft 21, a motor 17, and a cooling fan 16. Wherein, the motor shaft 21 is connected with the belt 11; the motor 17 is connected with the motor shaft and provides rotating force; the cooling fan 16 is connected to a motor shaft 21, rotated by a rotational force of the motor 17, and sucks indoor air.

Further, a drying fan 18 and a drying duct 19 are provided. Wherein the drying fan 18 is located opposite to the cooling fan 16, connected with the motor shaft 21 and circulates air inside the drum, and the drying duct 19 is a passage through which air sucked by the drying fan 18 moves to the drum 12, and has a heat generating part 20 installed therein.

In addition, the device also comprises a filter screen 14 and a circulating pipeline 15. A filter screen 14 is inserted under the opening of the door 13 to filter foreign substances such as lint contained in the wet air discharged from the drum, and a circulation duct 15 is a passage through which the air introduced from the filter screen 14 moves to a condenser (not shown).

The following description of the operation principle of the dryer is as follows:

first, power is applied to the dryer, the motor 17 starts to rotate, and the heater 20 installed in the drying duct 19 is heated. Further, the drum 12 is rotated by the rotation of the belt 11 connected to the motor shaft 21. As the drum 12 rotates, the drying object located inside the drum rotates along with the inner wall of the drum, and rises to the top and falls due to its own weight. Here, the drying object is lifted up by a lifting mechanism attached to an inner wall of the drum.

Further, the drying fan 18 connected to the motor shaft 21 is operated according to the rotation of the motor 17, and sucks the circulation air passing through the filter screen 14. The sucked air ascends along the drying duct 19 and becomes a high temperature drying state by the heater. When the high-temperature dry air passes through the inside of the drum, the high-temperature dry air absorbs moisture on the drying object and is in a high-temperature and humid state.

In addition, the air in a high temperature and humidity state moves into a condenser (not shown) along a circulation duct 15 after being filtered again by the filter screen 14.

In addition, as the cooling fan 16 connected to the motor shaft 21 rotates, indoor air outside the dryer is sucked. Further, the sucked indoor air is moved to the condenser by the cooling fan 16.

Here, the high-temperature and humid air moving into the condenser along the circulation duct 15 and the indoor air sucked by the cooling fan 16 and moving into the condenser cross each other and simultaneously pass through the condenser. Further, because of the structure of the condenser, the high-temperature and humid air and the indoor air are only heat-exchanged in a state where they are not mixed with each other.

Therefore, the high-temperature and high-humidity air releases heat to the indoor air when passing through the condenser, and becomes low-temperature and high-humidity air. As the temperature decreases, moisture contained in the air is condensed into condensed water and falls to the bottom surface of the condenser, and then flows into a water collecting tank (not shown) where the condensed water is collected.

The water flowing to the sump is moved to a condensed water storage (not shown) located at an upper portion of the dryer by a suction action of the condensing pump.

On the other hand, the indoor air passes through the condenser and exchanges heat with the high-temperature and high-humidity air, thereby raising the temperature of the indoor air.

In the above-mentioned structure of the dryer, a condensed water collecting and moving structure is required to collect condensed water generated by heat exchange and move the collected condensed water and finally discharge the condensed water to the outside of the dryer.

Disclosure of Invention

The invention provides a condensed water moving structure of clothes dryer, which collects the condensed water generated when the circulating air in the drum passes through the condenser to a certain place, and pumps the collected condensed water to the condensed water storage part at the upper end of the clothes dryer.

In order to solve the technical problems, the invention adopts the technical scheme that: the condensed water moving structure of the clothes dryer comprises a machine base, a condenser, a water collecting tank, a condensing pump, a condensed water guide pipe part and a drawer, wherein the machine base is arranged at the lower side of the clothes dryer; the condenser is formed at one side of the base and forms condensed water through heat exchange; the water collecting tank is formed on one side of the base and collects the condensed water from the condenser; the condensed water collected in the condensed water storage part is pumped to the upper side part of the clothes dryer by the condensed pump; the condensed water conduit part is connected with the condensate pump and forms a moving channel of the condensed water; the drawer is formed on the upper side of the clothes dryer and makes the condensed water moved by the condensed water conduit part gather together.

The condensed water conduit part comprises an inflow conduit, an outflow conduit and a connector, wherein one end of the inflow conduit is connected with a water collecting tank for collecting the condensed water moved out from the condenser; one end of the outflow conduit is connected with a condensed water falling groove arranged on the upper side surface of the drawer; a connector connects an inflow catheter and an outflow catheter

The inflow conduit and the outflow conduit are formed in a structure that can be detachably connected to the connector.

The connector connected to the outflow conduit may be connected at one end to another conduit.

In order to allow the condensed water overflowing from the drawer to be moved to the water collecting groove again, a condensed water outflow groove is provided at the bottom surface of the dispenser.

In order to allow the condensed water overflowing from the drawer to be moved to the water collecting tank again, a conduit connecting the bottom surface of the distributor and the water collecting tank is provided.

The above structure can make the condensed water collected to the lower part of the dryer move to the upper side part of the dryer easily, thereby having the effect of convenient for the user to discharge the condensed water.

The invention has the beneficial effects that: the condensed water moving structure of the clothes dryer of the present invention with the above structure has the effect of facilitating the condensed water formed by condensation to move to the upper part of the clothes dryer when passing through the condenser.

In addition, since the condensed water can be collected in the drawer as the condensed water storage part provided at the upper portion of the dryer, there is an effect that the user can collect the condensed water and pour it.

Drawings

Fig. 1 is a schematic sectional view of a dryer.

Fig. 2 is a schematic view of a dryer having a condensed water moving structure of the present invention.

Fig. 3 is a schematic view of a dryer stand having a condensed water storage part of the present invention.

Fig. 4 is a schematic view of a condensed water storage part of a dryer having an upper side part of the present invention.

Fig. 5 is a schematic view of a drawer constituting a condensed water storage portion.

FIG. 6 is a schematic view of a dispenser housing a drawer.

Fig. 7 is a rear view schematically showing a condensed water duct part of the dryer according to the present invention.

Description of the figures

100: the base 110: circulating air descending part

120: indoor air intake port 130: cooling fan mounting groove

140: motor heat sink 150: water collecting tank

160: motor shaft insertion port 170: circulating air channel

180: condenser 190: condensate pump

200: a drawer 300: dispenser

400: condensed water conduit structure 500: roller

600: clothes dryer

Detailed Description

The invention is described in further detail below with reference to the following figures and detailed description: fig. 2 is a schematic view of a dryer having a condensed water moving structure of the present invention.

As shown in fig. 2, the dryer of the present invention includes a front cover 610, a front cabinet 620, and a cylinder cover 630. Wherein the front cover 610 forms a front surface portion of the dryer; the front case 620 is installed in front of the front cover 610; the cylinder cover 630 is mounted on the rear surface of the front cover 610 and supports the front surface of the drum.

In addition, the refrigerator further includes a base 100, a drawer 200, and a condensed water conduit part 400. Wherein, the base 100 is installed on the bottom surface of the dryer, and is provided with a motor and the like; the drawer 200 is formed at the upper side of the dryer 600, and moves the condensed water at the lower part of the dryer into it and keeps it; the condensed water conduit part 400 connects the drawer and the condensate pump 190 provided on the housing 100. The unexplained symbol 640 is a door filter.

Fig. 3 is a schematic view of a dryer stand having a condensed water storage part of the present invention.

As shown in fig. 3, the dryer stand of the present invention includes a descending part 110, a condenser 180, and a circulation passage 170. Wherein, the descending part 110 descends the inside air, and the inside air passes through the filter screen at the door side after passing through the drum of the dryer; the condenser 180 forms an inlet at the lower side of the circulating air descending part 110 and is inserted long to the rear side of the base; the circulation air passage 170 is formed at the rear side of the condenser 180 and flows air passing through the condenser 180 therein.

Further, the front right side of the base 100 has an indoor air inlet 120 through which indoor air can be sucked and a cooling fan mounting groove 130 to which a cooling fan for sucking indoor air is mounted.

In addition, a motor for driving the drum of the dryer to rotate and a motor heat sink 140 for cooling heat generated from the motor are installed at the rear side of the cooling fan installation groove 130.

Further, a water collection tank 150 for collecting condensed water generated in the condenser 180 is provided at substantially the center of the base 100.

Specifically, the condensed water generated from the condenser 180 moves to the water collection tub 150 along a condensed water passage (not shown) formed on the bottom surface of the circulation air passage 170. Furthermore, the water collection tank 150 is provided with a condensate pump 190 so as to pump the condensate water collected in the water collection tank 150 to the upper side of the dryer.

The circulation of the gas occurring inside the housing 100 will be briefly described.

As described above, the air passes through the inside of the drum, becomes high-temperature and high-humidity, passes through the inside air of the filter net formed on the door and the cylinder head 630 side, passes through the circulating air dropping unit 110, and then passes through the condenser 180. The indoor air sucked through the indoor air suction port 120 passes through the condenser 180 after passing through the cooling fan.

Here, since the temperature of the indoor air is lower than that of the circulation air, heat exchange is performed in the process of passing through the condenser. Furthermore, the circulating air heat-exchanged while passing through the condenser 180 generates condensed water, and the condensed water flows to the sump 150.

In addition, the circulation air passing through the condenser 180 moves along the circulation air path 170 and moves to a drying duct (not shown) provided on a rear wall of the dryer. The indoor air having passed through the condenser 180 is discharged to the room again.

Fig. 4 is a schematic view of a condensed water storage part of a dryer having an upper side part of the present invention. Fig. 5 is a schematic view of a drawer constituting a condensed water storage portion. FIG. 6 is a schematic view of a dispenser housing a drawer.

As shown in fig. 4, 5 and 6, the drawer 200 of the condensed water storage part provided at the upper side of the dryer according to the present invention is inserted into the upper side of the dryer 600 and is connected to the water collecting tank 150 provided at the housing 100 through the condensed water conduit part 400. The drawer 200 is a concrete structure of the condensed water storage portion in the present invention.

In addition, the drawer 200 for storing condensed water of the present invention is located at the upper part of the dryer, and may be installed at the left or right side of the drum 500 for containing the laundry. Further, the drawer 200 is protected by a drawer protection plate 210 at an upper side. Specifically, the drum 500 is rotated by a belt 510 wound around the outer circumferential surface.

The condensed water generated in the condenser 180 positioned at the lower side of the dryer is collected into the water collecting groove 150 positioned at the bottom surface of the dryer, and the condensed water collected into the water collecting groove 150 is moved into the drawer 200 through the condensed water guide part 400 of the drawer 200.

In addition, the drawer 200 includes a drawer cover 220, a drawer handle, and a drawer main body 230. Wherein the drawer cover 220 forms a front surface portion of the drawer; the drawer handle is formed by sinking towards the inner part of the lower side of the drawer cover 220; the drawer main body 230 is formed long from the rear surface of the drawer cover 220, and a storage chamber capable of storing condensed water is formed inside thereof.

Specifically, at an upper side portion of the drawer cover 220, a latch hook capable of completely fastening the drawer 200 is formed. At least one pressing protrusion 240 is formed at an upper portion of the drawer 200 where the drawer cover 220 is coupled to the drawer main body 230 so as not to interfere with a top (not shown) of the dryer when the drawer 200 is inserted.

In addition, an overflow control part 260 is formed substantially at the upper end of the drawer main body 230, and the overflow control part 260 is connected to a condensed water conduit part 400 for moving condensed water in the water collecting tub 150.

The overflow control part 260 includes a condensed water dropping tank 261, an overflow storage part 262, and a siphon tube generating part 263. Wherein the condensed water dropping tank 261 receives the condensed water dropped from the condensed water conduit part 400; the overflow storage part 262 can contain the overflowing condensate water when the drawer 200 is full of the condensate water and the overflow phenomenon occurs; the siphon generation part 263 re-sends the overflowing condensate water to the sump.

The overflowing condensed water flows into the siphon generation part 263 and flows back to the sump again by the siphon principle.

The siphon principle is a phenomenon in which liquid is pushed up into the tube by the action of atmospheric pressure acting on a high liquid level, and the liquid at a high level can be flowed down through the tube to a low level without tilting the vessel. Further, a bypass pipe (not shown) vertically penetrating the drawer main body 230 is provided on the bottom surface of the overflow control part 260. And the overflowed condensed water flows to the water collecting tank through the branch pipe.

In addition, the bottom surface of the drawer main body 230 forms a curved surface. This is because the shape of the outer circumferential surface of the drum depends on the shape of the bottom surface of the drawer, since the drawer 200 is located at one side surface of the drum 500.

Further, a condensed water conduit accommodating curved surface having a concave shape is formed at the end of the drawer main body 230 to accommodate the condensed water conduit 400.

The dispenser 300 for accommodating the drawer 200 is an accommodating portion for accommodating the drawer 200, and a drawer protection plate 210 for protecting the drawer main body 230 accommodated therein is provided at an upper side portion thereof. Further, a dispenser recess 310 is formed at a bottom end of the dispenser 300.

Since the dispenser recess 310 is formed, condensed water overflowing from the drawer 200 can be collected, thereby preventing the condensed water from flowing to the front of the drawer along the bottom of the drawer and leaking to the outside of the dryer. Further, the bottom surface of the dispenser preferably has a slight inclination downward as it goes rearward from the front surface. This is a measure taken to prevent overflowing condensed water from flowing forward.

In addition, the side wall 332 of the dispenser 300, which is in contact with the drum 500, has the same curvature as the circumference of the drum. Further, the opposite side wall 330 is vertically formed, and a coupling rib to which the drawer protection plate 210 is coupled is formed at an upper end thereof.

Specifically, at the bottom surface of the dispenser recess 310, an insertion detection protrusion 350 that determines the degree of insertion when the drawer is inserted is formed.

The drawer insertion detecting protrusion 350 is slightly higher than the bottom surface of the dispenser at the start position of the dispenser recess 310. Accordingly, the drawer 200 may encounter the drawer insertion detecting protrusion 350 during the insertion process along the bottom surface of the dispenser. Accordingly, the user can judge that the drawer 200 is to be inserted into the end portion.

Further, a condensate conduit storage part 340 for storing the condensate conduit part 400 is formed on the rear side wall of the distributor 300 so as to protrude inward.

Further, since the side wall 330 of the dispenser is in contact with the outer circumferential surface of the drawer, in order to solve the problem that the condensed water overflowing from the drawer 200 may flow to the front along the wall surface, a plurality of drawer-staggered ribs 370 formed long in the front-rear direction may be formed on the side wall.

In addition, in order to return the condensed water overflowing from the drawer 200 to the water collecting tub 150, a groove is formed on the bottom surface of the dispenser 300, and a guide pipe 360 connected to the water collecting tub 150 is formed.

Fig. 7 is a rear view schematically showing a condensed water duct part of the dryer according to the present invention.

As shown in fig. 7, the rear of the dryer provided with the condensed water duct part 400 of the present invention includes a rear cover 650, a drying duct 660, and the condensed water duct part 400. Wherein the rear cover 650 forms a rear appearance of the dryer; a heater (not shown) for heating the circulating air raised by a circulating fan (not shown) is installed in the drying duct 660; the condensed water conduit part 400 is provided at a lower side of the rear cover 650.

Specifically, the condensed water conduit part 400 includes an inflow conduit 410, an outflow conduit 420, and a connector 430. Wherein,

an inflow guide pipe 410 having one end and a water collecting groove 150 for collecting condensed water moved from the condenser; one end of the outflow guide pipe 420 is connected to a condensed water dropping groove 261 provided at the upper side of the drawer 200; the connector connects the inflow conduit 410 and the outflow conduit 420.

The inflow conduit 410 and the outflow conduit 420 are structures that can be detachably connected to the connector 430. After the outflow conduit 420 is detached from the connector 430, if an additional connector connection pipe is installed, the passage of the condensed water may be changed.

In addition, the connector 430 may be formed to be bent at an angle, and the shape of the connector 430 is not limited to the embodiment of the present invention.

In addition, in order to prevent the connector 430 from falling off from the inflow conduit 410 or the outflow conduit 420 due to the water pressure inside the conduit, a thread is formed on the outer circumferential surface of the connector 430 inserted from the inside of the conduits 410, 420.

The upper side of the housing where the condensate conduit part 400 is provided includes a connector hook 450 and a separation preventing rib 440. Wherein, the hook 450 is vertically extended a certain length to the upper side, and the end is bent to form a hook shape; the separation prevention rib 440 is formed to be convex upward at a position offset from the connector hook 450 by a certain distance.

In addition, one end of the inflow conduit 410 is connected to the sump 150, and the condensed water in the sump 150 flows through the inflow conduit 410 by the action of the condensate pump 190. Further, the connector hook 450 and the connector separation preventing rib 440 prevent the connector 430 from moving forward, backward, leftward, and rightward, thereby serving to fix the condensed water conduit part 400.

Claims (6)

1. A condensed water moving structure of a clothes dryer is characterized in that: the dryer comprises a base, a condenser, a water collecting tank, a condensing pump, a condensed water guide pipe part and a drawer, wherein the base is arranged at the lower side of the dryer; the condenser is formed at one side of the base and forms condensed water through heat exchange; the water collecting tank is formed on one side of the base and collects the condensed water from the condenser; the condensed water collected in the condensed water storage part is pumped to the upper side part of the clothes dryer by the condensed pump; the condensed water conduit part is connected with the condensate pump and forms a moving channel of the condensed water; the drawer is formed on the upper side of the clothes dryer and makes the condensed water moved by the condensed water conduit part gather together.

2. The condensed water moving structure of the clothes dryer of claim 1, wherein: the condensed water conduit part comprises an inflow conduit, an outflow conduit and a connector, wherein one end of the inflow conduit is connected with a water collecting tank for collecting the condensed water moved out from the condenser; one end of the outflow conduit is connected with a condensed water falling groove arranged on the upper side surface of the drawer; a connector connects an inflow catheter and an outflow catheter

3. The condensed water moving structure of the clothes dryer of claim 2, wherein: the inflow conduit and the outflow conduit form a structure that can be detachably connected to the connector.

4. The condensed water moving structure of the clothes dryer of claim 2, wherein: the connector connected to the outflow conduit may be connected at one end to another conduit.

5. The condensed water moving structure of the clothes dryer of claim 1, wherein: in order to allow the condensed water overflowing from the drawer to be moved to the water collecting groove again, a condensed water outflow groove is provided at the bottom surface of the dispenser.

6. The condensed water moving structure of the clothes dryer of claim 1, wherein: in order to allow the condensed water overflowing from the drawer to be moved to the water collecting tank again, a conduit connecting the bottom surface of the distributor and the water collecting tank is provided.

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