CN116289105A - Washing method of eluting and drying integrated machine - Google Patents

Abstract

The invention discloses a washing method of an eluting and drying integrated machine, which comprises the following steps of: a cleaning step S1, namely cleaning the washing materials, wherein the capacity of the washing materials accounts for 1/15-1/20, preferably 1/18, of the capacity of the inner cylinder of the eluting and drying integrated machine; a dehydration step S2, wherein the washing materials are dehydrated; and a drying step S3, wherein the washing material is dried by hot air, the drying condition is that the highest wind speed of the hot air is 10-15 m/S, the temperature of the hot air is 130-180 ℃, preferably 130-160 ℃, and the drying time is 40-55 minutes, preferably 40-45 minutes. The washing method of the eluting and drying integrated machine has the advantages of low energy consumption and less drying time.

Description

Washing method of eluting and drying integrated machine

Technical Field

The invention belongs to the technical field of washing machines, and particularly relates to a washing method of an eluting and drying integrated machine.

Background

The earliest washing machines were of the agitator and wringer type. With the invention of various automation devices, agitator washing machines and centrifugal dehydrators controlled by timers have appeared. Since the 80 s of the last century, the functions of washing, dehydrating and drying are combined gradually, and the washing and dehydrating machine is formed by washing and dehydrating. After 2000 years, the washing machine has three functions of washing, dehydrating and drying.

At present, a part of washing and drying integrated machines or lower washing and upper drying structures or left washing and rear drying structures in the market are washing cylinder bodies used for washing and dewatering, drying cylinder bodies are divided into two cylinder bodies, washing materials are needed to be manually put into the drying cylinder bodies after dewatering, and only the appearance of the washing material is a washing machine shell, so that the washing and drying integrated machines cannot be really referred to. Even though the washing, drying and drying integrated machine sharing one cylinder body is available on the market, the drying stage time is long and often 2-3 hours due to the technical defect, and the practicability is very little. The reason why this structure is extremely unreasonable is as follows:

1) The air outlet pipe is arranged at the bottom in the shell of the eluting and drying integrated machine, and the air exhausted from the bottom still has a certain amount of waste heat and is directly exhausted outside the eluting and drying integrated machine to be wasted, so that the drying time is extremely long and the energy consumption is higher;

2) The air outlet pipe is arranged at the bottom in the shell of the eluting and drying integrated machine, so that an air exhaust fan can only be arranged at the bottom, and the bottom is provided with a motor, a belt pulley, a supporting beam, a damping spring and other parts, so that the occupation area of the eluting and drying integrated machine is larger;

3) The existing elution and drying integrated machine always has the problem that water vapor is emitted from the top of the drying heater in the cleaning step, and water drops formed by condensation in the dehydration step easily enter the drying heater, so that the drying efficiency of the drying step is affected.

Disclosure of Invention

The invention aims at the traditional mode of the existing elution and drying integrated machine and the traditional mode of independent drying combination, aims at the technical problems of long drying time (2-3 hours) and high energy consumption of the elution and drying integrated machine in the prior art, and aims to provide a novel washing method of the elution and drying integrated machine.

The invention relates to a washing method of an elution and drying integrated machine, which comprises the following steps in sequence:

a cleaning step S1, namely cleaning the washing materials, wherein the capacity of the washing materials accounts for 1/15-1/20, preferably 1/18, of the capacity of the inner cylinder of the eluting and drying integrated machine;

a dehydration step S2, wherein the washing materials are dehydrated;

and a drying step S3, wherein the washing materials are dried by hot air, the drying condition is that the highest wind speed of the hot air is 10-15 m/S, the temperature of the hot air is 130-180 ℃, preferably 130-160 ℃, and the drying time is 40-55 minutes, preferably 40-45 minutes.

Optionally, the cleaning step S1 specifically includes:

water inlet step S1a: the water quantity is 30-50% of the outer cylinder capacity of the eluting and drying integrated machine;

rinsing substep S1b: kneading for 5-15 minutes at the water temperature of 20-60 ℃ and the inner cylinder rotating speed of 30-40 r/min;

uniformly distributing step S1c: the rotating speed of the inner cylinder is increased to 50-55 r/min, so that the washing materials are uniformly distributed on the inner wall of the inner cylinder;

drainage substep S1d: draining all water in an outer cylinder of the eluting and drying integrated machine;

the dehydration step S2 specifically comprises the following steps: dehydrating for 10-12 minutes at the rotating speed of the inner cylinder of 750 r/min;

the washing step S1 and the dehydrating step S2 are repeated 1 to 3 times in total.

Optionally, the eluting and drying integrated machine of the present invention includes:

a washing machine housing;

an outer cylinder structure arranged in the washing machine shell;

the inner cylinder structure is arranged in the outer cylinder structure through the main shaft and the main bearing;

and the driving motor is connected with the main shaft of the inner cylinder structure through a belt pulley and a belt.

Optionally, the outer cylinder structure has:

the bottom of the outer cylinder is provided with a water outlet;

the air inlet is communicated with the top of the outer cylinder, and an air inlet door structure is arranged at the air inlet;

the air outlet pipe is sequentially provided with an inlet, a pipe body and an outlet, the inlet of the air outlet pipe is communicated with the water outlet at the bottom of the outer cylinder, the pipe body of the air outlet pipe is upwards climbed and clings to the outer wall of the outer cylinder from the inlet, and an air outlet air door structure is arranged at the position, close to the outlet, of the air outlet pipe;

the heater is arranged at the upper part in the shell of the washing machine and is positioned on the air inlet door structure;

the fan is arranged at the upper part in the shell of the washing machine and is communicated with the air outlet air door structure.

Optionally, the inlet of the air outlet pipe is horizontally tangent to the lowest point of the bottom of the water outlet of the outer cylinder; the outlet of the air outlet pipe is higher than the central line of the outer cylinder, the side surface of the pipe body of the air outlet pipe is an arc ring, the circle center of the arc ring is overlapped with the circle center of the outer cylinder, and the radius of the inner arc of the arc ring is equal to the radius of the outer cylinder, so that the pipe body of the air outlet pipe is seamlessly attached to the outer wall of the outer cylinder in a climbing manner.

Optionally, the inlet of the air outlet pipe is horizontally tangent to the lowest point of the bottom of the water outlet of the outer cylinder; and then the pipe body of the air outlet pipe continuously climbs and clings to the outer wall of the outer cylinder in the upward direction gradually from the inlet until the pipe body is longitudinally tangent with the furthest point of the side wall of the outer cylinder, then the outer side of the pipe body continues to vertically extend upwards in a straight line, and the inner side of the pipe body still continues to climbs and clings along the outer wall of the outer cylinder until the enlarged outlet is formed.

Optionally, the air inlet is provided with two opposite air collecting baffles which are folded towards the inner part of the outer cylinder, the inclination angle of the air collecting baffles is 30-60 degrees, and the minimum distance between the two opposite air collecting baffles is 20-30% of the inner diameter of the outer cylinder.

Optionally, the air inlet door structure has:

the air inlet door shell is arranged on the air inlet and is provided with a bottom plate, a top plate, a front plate, a rear plate, a left side plate and a right side plate, and the bottom plate of the air inlet door shell is provided with an air inlet opening leading to the inside of the outer cylinder;

the air inlet door can be installed at the air inlet opening of the bottom plate of the air inlet door shell in a covering manner;

the pair of air inlet cylinders are symmetrically arranged on the front plate, the rear plate, the top plate, the left side plate or the right side plate of the air inlet door shell, push rods of the pair of air inlet cylinders are symmetrically connected with the back surface of the air inlet air door, and the air inlet cylinders open or close the air inlet air door on the air inlet opening of the bottom plate of the air inlet door shell by pushing and pulling the air inlet air door.

Optionally, the air inlet air door structure still has push-and-pull and helps the piece, push-and-pull helps the piece to install in the air inlet door shell, the push rod of air inlet cylinder passes through push-and-pull helps the piece to connect the back of air inlet air door, push-and-pull helps the piece to have:

the two ends of the hexagonal shaft are fixedly connected to the front plate and the rear plate of the air inlet door shell respectively;

the inner rocker arm is fixedly arranged in the middle of the hexagonal shaft and is rotatably connected to the back surface of the air inlet air door through a connecting rod;

and the outer rocker arm is fixedly arranged outside the hexagonal shaft and is rotatably connected to the push rod of the air inlet cylinder.

Optionally, the air outlet damper structure has:

an air outlet door frame which is arranged on the inner pipe wall of the air outlet pipe close to the outlet, wherein the middle part of the air outlet door frame is provided with an air outlet opening;

the air outlet air door can be installed on the air outlet opening of the air outlet door frame in a covering manner;

the pair of air outlet cylinders are symmetrically arranged on the pipe walls of the air outlet pipes, which are close to the outlet, the push rods of the pair of air outlet cylinders are symmetrically connected to the back surface of the air outlet air door, and the air outlet air cylinders open or close the air outlet air door at the air outlet opening of the air outlet door frame by pushing and pulling the air outlet air door.

Optionally, the air outlet air door structure is further provided with a V-shaped push rod piece, and the V-shaped push rod piece is installed in the air outlet pipe and close to the outlet; the push rod of air-out cylinder passes through V type push rod spare is connected the back of air-out air door, V type push rod spare has:

the two ends of the long round shaft are fixed on the other two opposite pipe walls of the air outlet pipe, which are close to the outlet;

the upper balancing rod is rotatably connected with the push rod of the air outlet cylinder at one end, and is provided with an axial long through hole at the other end, and the long through hole movably penetrates through the long round shaft;

the lower connecting rod and the upper balance rod form a V shape with a variable angle, one end of the lower connecting rod is rotatably connected with the push rod of the air outlet cylinder, and the other end of the lower connecting rod is rotatably connected with the back surface of the air outlet air door.

Optionally, the outer cylinder has: the cylinder comprises a cylindrical outer cylinder body, a front cylinder plate and a rear cylinder plate which are fixed at two ends of the outer cylinder body, and the air inlet is arranged at the top of the outer cylinder body; the inlet of the air outlet pipe is arranged at the water outlet at the bottom of the outer cylinder body.

Optionally, the outer cylinder structure of the eluting and drying integrated machine further comprises:

the water inlet pipe is arranged at the upper part of the outer cylinder body;

a soap liquid inlet pipe arranged at the upper part of the outer cylinder body;

the main bearing flange is arranged at the center of the rear cylinder plate;

a pair of support beams symmetrically arranged at both lower sides of the outer cylinder body, and both ends of the support beams are respectively connected to the front cylinder plate and the rear cylinder plate;

a spring seat fixed at the lower part of the support beam;

a water containing tank connected to the water outlet at the bottom of the outer cylinder;

and the drainage flange is connected to the side surface of the water containing tank.

The invention aims at solving the technical problems that the fan in the prior art is arranged at the bottom in the shell of the washing machine, the occupied area is large, the waste heat of the wind of the air outlet pipe is directly discharged, and the energy consumption is high, and the invention aims to provide an outer cylinder structure of an elution and drying integrated machine.

The outer cylinder structure of the invention comprises:

the bottom of the outer cylinder is provided with a water outlet;

the air inlet is communicated and connected with the top of the outer cylinder;

the air outlet pipe is sequentially provided with an inlet, a pipe body and an outlet, the inlet of the air outlet pipe is communicated with the water outlet at the bottom of the outer cylinder, and the pipe body of the air outlet pipe starts to climb upwards from the inlet to be clung to the outer wall of the outer cylinder.

Optionally, the outlet of the air outlet pipe is higher than the central line of the outer cylinder, the side surface of the pipe body of the air outlet pipe is an arc ring, the circle center of the arc ring is overlapped with the circle center of the outer cylinder, and the radius of the inner arc of the arc ring is equal to the radius of the outer cylinder, so that the pipe body of the air outlet pipe is seamlessly climbed and clings to the outer wall of the outer cylinder.

Optionally, the inlet of the air outlet pipe is horizontally tangent to the lowest point of the bottom of the water outlet of the outer cylinder; and then the pipe body of the air outlet pipe continuously climbs and clings to the outer wall of the outer cylinder in the upward direction gradually from the inlet until the pipe body is longitudinally tangent with the furthest point of the side wall of the outer cylinder, then the outer side of the pipe body continues to vertically extend upwards in a straight line, and the inner side of the pipe body still continues to climbs and clings along the outer wall of the outer cylinder until the enlarged outlet is formed.

Optionally, the air inlet is provided with two opposite air collecting baffles which are folded towards the inner part of the outer cylinder, the inclination angle of the air collecting baffles is 30-60 degrees, and the minimum distance between the two opposite air collecting baffles is 20-30% of the inner diameter of the outer cylinder.

Optionally, an air inlet air door structure is installed at the air inlet, and an air outlet air door structure is installed at the air outlet pipe close to the outlet.

Optionally, the air inlet door structure has:

the air inlet door shell is arranged on the air inlet and is provided with a bottom plate, a top plate, a front plate, a rear plate, a left side plate and a right side plate, and the bottom plate of the air inlet door shell is provided with an air inlet opening leading to the inside of the outer cylinder;

the air inlet door can be installed at the air inlet opening of the bottom plate of the air inlet door shell in a covering manner;

the pair of air inlet cylinders are symmetrically arranged on the front plate, the rear plate, the top plate, the left side plate or the right side plate of the air inlet door shell, push rods of the pair of air inlet cylinders are symmetrically connected with the back surface of the air inlet air door, and the air inlet cylinders open or close the air inlet air door on the air inlet opening of the bottom plate of the air inlet door shell by pushing and pulling the air inlet air door.

Optionally, the air inlet air door structure still has push-and-pull and helps the piece, push-and-pull helps the piece to install in the air inlet door shell, the push rod of air inlet cylinder passes through push-and-pull helps the piece to connect the back of air inlet air door, push-and-pull helps the piece to have:

the two ends of the hexagonal shaft are fixedly connected to the front plate and the rear plate of the air inlet door shell respectively;

the inner rocker arm is fixedly arranged in the middle of the hexagonal shaft and is rotatably connected to the back surface of the air inlet air door through a connecting rod;

and the outer rocker arm is fixedly arranged outside the hexagonal shaft and is rotatably connected to the push rod of the air inlet cylinder.

Optionally, the air outlet damper structure has:

an air outlet door frame which is arranged on the inner pipe wall of the air outlet pipe close to the outlet, wherein the middle part of the air outlet door frame is provided with an air outlet opening;

the air outlet air door can be installed on the air outlet opening of the air outlet door frame in a covering manner;

the pair of air outlet cylinders are symmetrically arranged on the pipe walls of the air outlet pipes, which are close to the outlet, the push rods of the pair of air outlet cylinders are symmetrically connected to the back surface of the air outlet air door, and the air outlet air cylinders open or close the air outlet air door at the air outlet opening of the air outlet door frame by pushing and pulling the air outlet air door.

Optionally, the air outlet air door structure is further provided with a V-shaped push rod piece, and the V-shaped push rod piece is installed in the air outlet pipe and close to the outlet; the push rod of air-out cylinder passes through V type push rod spare is connected the back of air-out air door, V type push rod spare has:

the two ends of the long round shaft are fixed on the other two opposite pipe walls of the air outlet pipe, which are close to the outlet;

the upper balancing rod is rotatably connected with the push rod of the air outlet cylinder at one end, and is provided with an axial long through hole at the other end, and the long through hole movably penetrates through the long round shaft;

the lower connecting rod and the upper balance rod form a V shape with a variable angle, one end of the lower connecting rod is rotatably connected with the push rod of the air outlet cylinder, and the other end of the lower connecting rod is rotatably connected with the back surface of the air outlet air door.

Optionally, the outer cylinder has: the cylinder comprises a cylindrical outer cylinder body, a front cylinder plate and a rear cylinder plate which are fixed at two ends of the outer cylinder body, and the air inlet is arranged at the top of the outer cylinder body; the inlet of the air outlet pipe is arranged at the water outlet at the bottom of the outer cylinder body.

Optionally, the outer cylinder structure of the eluting and drying integrated machine further comprises:

the water inlet pipe is arranged at the upper part of the outer cylinder body;

a soap liquid inlet pipe arranged at the upper part of the outer cylinder body;

the main bearing flange is arranged at the center of the rear cylinder plate;

a pair of support beams symmetrically arranged at both lower sides of the outer cylinder body, and both ends of the support beams are respectively connected to the front cylinder plate and the rear cylinder plate;

a spring seat fixed at the lower part of the support beam;

a water containing tank connected to the water outlet at the bottom of the outer cylinder;

and the drainage flange is connected to the side surface of the water containing tank.

In the washing step, water vapor always flows out from the top of the drying heater, and water drops formed by condensation during the dehydration step easily enter the drying heater, so that the drying efficiency of the drying step is affected.

Optionally, the air inlet door structure has:

the air inlet door shell is arranged on the air inlet and is provided with a bottom plate, a top plate, a front plate, a rear plate, a left side plate and a right side plate, and the bottom plate of the air inlet door shell is provided with an air inlet opening leading to the inside of the outer cylinder;

the air inlet door can be installed at the air inlet opening of the bottom plate of the air inlet door shell in a covering manner;

the pair of air inlet cylinders are symmetrically arranged on the front plate, the rear plate, the top plate, the left side plate or the right side plate of the air inlet door shell, push rods of the pair of air inlet cylinders are symmetrically connected with the back surface of the air inlet air door, and the air inlet cylinders open or close the air inlet air door on the air inlet opening of the bottom plate of the air inlet door shell by pushing and pulling the air inlet air door.

Optionally, the air inlet air door structure still has push-and-pull and helps the piece, push-and-pull helps the piece to install in the air inlet door shell, the push rod of air inlet cylinder passes through push-and-pull helps the piece to connect the back of air inlet air door, push-and-pull helps the piece to have:

the two ends of the hexagonal shaft are fixedly connected to the front plate and the rear plate of the air inlet door shell respectively;

the inner rocker arm is fixedly arranged in the middle of the hexagonal shaft and is rotatably connected to the back surface of the air inlet air door through a connecting rod;

and the outer rocker arm is fixedly arranged outside the hexagonal shaft and is rotatably connected to the push rod of the air inlet cylinder.

In order to prevent water vapor from being emitted from a fan at the top during the cleaning step and water drops formed by condensation during dehydration from easily entering an air outlet pipe, the invention further provides an air outlet air door structure of an elution and drying integrated machine.

The air outlet air door structure of the eluting and drying integrated machine comprises:

an air outlet door frame which is arranged on the inner pipe wall at the outlet of the air outlet pipe of the elution and drying integrated machine, wherein the middle part of the air outlet door frame is provided with an air outlet opening;

the air outlet door can be installed on an air outlet opening of the air outlet door frame in a covering manner;

the air outlet cylinder is arranged on the pipe wall of the air outlet pipe of the elution and drying integrated machine, a push rod of the air outlet cylinder is connected to the back surface of the air outlet air door, and the air outlet cylinder opens or closes the air outlet air door at the air outlet opening of the air outlet air door frame by pushing and pulling the air outlet air door.

Optionally, the air outlet cylinder is at least one pair of air outlet cylinders, and is symmetrically arranged on two opposite pipe walls of the air outlet pipe close to the outlet; the push rods of the pair of air outlet cylinders are symmetrically connected to the back surface of the air outlet air door.

Optionally, the air outlet air door structure of the eluting and drying integrated machine is also provided with a V-shaped push rod piece, and the V-shaped push rod piece is arranged in the air outlet pipe and is close to the outlet; the push rod of the air outlet cylinder is connected to the back surface of the air outlet air door through the V-shaped push rod piece.

Optionally, the V-shaped pushrod member has:

the two ends of the long round shaft are fixed on the other two opposite pipe walls of the air outlet pipe, which are close to the outlet;

the upper balancing rod is rotatably connected with the push rod of the air outlet cylinder at one end, and is provided with an axial long through hole at the other end, and the long through hole is movably arranged on the long round shaft in a penetrating way;

the lower connecting rod and the upper balance rod form a V shape with a variable angle, one end of the lower connecting rod is rotatably connected with the push rod of the air outlet cylinder, and the other end of the lower connecting rod is rotatably connected with the back surface of the air outlet air door.

Optionally, a sealing strip is arranged on the air outlet door frame, and the air outlet door can be sealed by the sealing strip when being installed on the opening of the air outlet door frame in a covering manner.

The invention has the positive progress effects that:

1) According to the invention, the arrangement path of the air outlet pipe is changed, specifically, the pipe body of the air outlet pipe is attached to the outer wall of the outer cylinder in an ascending manner, so that the occupied area can be greatly reduced, the outer cylinder can be further heated by utilizing the waste heat of the discharged air, the waste heat of the discharged air is effectively utilized, the energy consumption is reduced, and the drying time is also reduced;

2) Unlike available technology, the air outlet channel is communicated vertically to the water outlet and the exhausted air is exhausted directly. According to the invention, the inlet of the air outlet pipe is communicated with the water outlet at the bottom of the outer cylinder in a tangential manner in the horizontal direction, so that the distance between the air exhaust duct and the inlet of the air outlet pipe is prolonged at the joint of the water outlet, and the distance of at least half of the width of the water outlet is prolonged, thereby further improving the contact time between the waste heat of the discharged air and the outer cylinder and more fully utilizing the waste heat of the discharged air.

3) By arranging the air inlet air door structure and the air outlet air door structure, the invention avoids the formation of condensed water and does not have condensed water, thereby improving the drying efficiency and further reducing the drying time and energy consumption.

Drawings

FIG. 1A is a side view of an elution and drying integrated machine (with parts such as an outer cylinder structure, an air outlet pipe and the like hidden) of the invention;

FIG. 1B is another side view of the elution bake integrated machine of the present invention;

FIG. 2A is a side view of the outer cylinder structure of the present invention;

FIG. 2B is another side view of the outer cylinder structure of the present invention;

FIG. 3A is a top view of the air intake damper structure of the present invention;

FIG. 3B is a cross-sectional view taken along line A-A of FIG. 3A (with the air intake damper closed);

FIG. 3C is a cross-sectional view taken along line A-A of FIG. 3A (with the air intake damper in an open position);

FIG. 4A is a side view of an outlet damper structure of the present invention;

FIG. 4B is another side view of the inventive air outlet damper structure (air outlet damper in closed condition);

fig. 4C is another side view of the inventive air outlet damper structure (with the air outlet damper in an open position).

Detailed Description

Other advantages and effects of the present invention will become apparent to those skilled in the art from the following disclosure, which describes the embodiments of the present invention with reference to specific examples. The invention may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present invention.

As shown in fig. 1A and 1B, the washing and drying integrated machine of the present invention includes a washing machine housing 10. The outer tub structure is provided within the washing machine housing 10. An inner cylinder structure (not shown) is provided in the outer cylinder structure by a main shaft 31, a main bearing (not shown) and the like, the main shaft 31 is penetrated in the main shaft bearing, and the main shaft bearing is welded to the plate center of the rear cylinder plate 213 of the outer cylinder structure by a flange 26. The material to be cleaned can be placed in the inner cylinder structure for cleaning. A drive motor (not shown) is drivingly connected to the main shaft of the inner cylinder structure by means of a pulley 61 and a belt 62. The heater 40 is provided at an upper portion inside the washing machine housing 10 and is located on the air intake damper structure of the outer tub structure. The heater 40 is used to heat the air entering the washing machine housing 10 to form hot air to enter the outer tub structure for drying the dehydrated laundry. The blower 50 is also provided at an upper portion inside the washing machine outer 10, beside the heater 40. The fan 50 is communicated with the air outlet pipe 23 of the outer cylinder structure by means of a flange and an air pipe 51 for pumping out the wet air in the outer cylinder structure.

As shown in fig. 2A to 2B, in the present example, the outer cylinder structure of the present invention has an outer cylinder 21, and a water outlet 24 is provided at the bottom of the outer cylinder 21. The water outlet 24 is used for discharging dirty water in the washed outer cylinder 21. The outer cylinder 21 has a cylindrical structure, and includes a cylindrical outer cylinder body 211, a front cylinder plate 212 and a rear cylinder plate 213 fixed to both ends of the outer cylinder body 211.

The outer cylinder structure also has an air inlet 22 and an air outlet pipe 23, wherein the air inlet 22 is arranged at the top of the outer cylinder body 211, and an alternative example is that the air inlet 22 is vertically connected with the top of the outer cylinder 21 in a communicating manner. The air inlet 22 is provided with two opposite air collecting baffles 22a which are folded towards the inner part of the outer cylinder 21, the inclination angle alpha of the air collecting baffles 22a is 30-60 degrees, and the minimum distance between the two opposite air collecting baffles is 20-30% of the inner diameter of the outer cylinder.

The air outlet pipe 23 has an inlet 231, a pipe body 232, and an outlet 233 in this order. The inlet 231 of the air outlet pipe 23 is arranged at the water outlet 24 at the bottom of the outer cylinder body 211, and the air outlet pipe 23 is communicated with the water outlet 24. The water outlet 24 thus constitutes not only a waterway during the cleaning process, but also an air duct during the drying process. A preferred example is that the inlet 231 of the air outlet pipe 23 is horizontally tangent to the lowest point of the bottom of the water outlet of the outer cylinder body 211, the pipe body 232 of the air outlet pipe 23 continuously climbs and clings to the outer wall of the outer cylinder 21 in the gradually upward direction (left side or right side) from the inlet 231 until the pipe body 232 is longitudinally tangent to the furthest point of the leftmost or rightmost side wall of the outer cylinder body 211, and then the outer side of the pipe body 232 continues to linearly extend vertically upwards while the inner side of the pipe body 232 continues to cling to the outer wall of the outer cylinder body 211, so that an enlarged outlet 233 is formed. By the design mode, waste heat in the air channel of the air outlet pipe 23 in the drying process can be radiated or thermally conducted into the outer cylinder 21 again through the outer wall of the outer cylinder 21, so that the waste heat in the air channel of the air outlet pipe 23 is effectively utilized, energy consumption is reduced, drying time is shortened, and drying efficiency is improved. In addition, the air outlet pipe 23 is attached to the outer wall of the outer cylinder 21 in a climbing manner, the outlet 233 of the air outlet pipe 23 is connected with the fan 50 by virtue of the air pipe, and the fan 50 can be arranged at the top of the washing machine shell 10, so that the occupied area of the washing machine shell 10 can be reduced. Optionally, outlet 233 of outlet duct 23 is higher than the centerline height of outer casing 21. The water can not overflow during the cleaning. Preferably, the side surface of the pipe body 232 of the air outlet pipe 23 is an arc ring, the center of the arc ring is overlapped with the center of the outer cylinder 21, and the radius of the inner arc of the arc ring is equal to the radius of the outer cylinder 21, so that the pipe body 232 of the air outlet pipe 23 can be easily attached to the outer wall of the outer cylinder 21 in a climbing manner without any gap. The air outlet pipe 23 with the design mode is simple to manufacture and attractive in appearance.

The outer cylinder structure further has a water inlet pipe 251 welded to the upper edge of the outer cylinder body 211. The soap liquid inlet pipe 252 is also welded on the upper edge of the outer cylinder 211; a flange 26 is provided at the plate center of the rear cylinder plate 213, the flange 26 being used to fix the main bearing as well as the main shaft, thereby fixing the inner cylinder structure within the outer cylinder structure. A pair of support beams 271 are symmetrically provided at both lower sides of the outer cylinder 211, and both ends of the support beams 271 are connected to the front cylinder plate 212 and the rear cylinder plate 213, respectively. The spring seat 272 is fixed to the lower portion of the support beam 271; the spring seat 272 can be sleeved with a spring 273, so that the suspension outer cylinder 21 can be used for damping vibration in the washing process, the dehydration rotating speed of the machine is improved, the water content of washing materials is reduced, and the drying time is further shortened. The water containing tank 281 is connected with the water outlet 24 at the bottom of the outer cylinder 211; the drain flange 282 is connected to a side portion of the water receiving tub 281, and is opened to drain water.

In order to prevent water vapor from being emitted from the top of the heater 40 during the washing process, water drops formed by condensation during the dehydration step easily enter the heater 40, thereby affecting the drying efficiency of the drying step. A preferred way is to install an air intake damper structure at the air intake 22 by means of a flange.

As shown in fig. 3A to 3C, the air intake door structure has an air intake door shell 221, which is mounted on the air intake 22, the air intake door shell 221 has a bottom plate 2211, a top plate 2212, a front plate 2213, a rear plate 2214, a left side plate and a right side plate, and the bottom plate 2211 of the air intake door shell 221 is provided with an air intake opening 2215 leading to the inside of the outer cylinder 21. Sealing strips are arranged around the air inlet 2215. Preferably, the sealing strip is a high temperature (180 ℃) resistant foam hollow extruded strip to help reduce sealing forces. The front surface of the air inlet door 222 is installed at the air inlet opening 2215 of the bottom plate of the air inlet door shell 221 in a covering manner and is sealed by a sealing strip. The back of the air inlet door 222 is provided with a fixed seat. A pair of air intake cylinders 223 are symmetrically mounted on the front plate 2213 of the air intake door shell 221 (of course, it is also possible to mount on the rear plate 2214, the top plate, the left side plate or the right side plate), the push rods of the two air intake cylinders 223 are symmetrically connected to the fixed seat on the back of the air intake door 222, and the air intake cylinders 223 push and pull the air intake door 222 to open or close the air intake door 222 on the air intake opening 2215 of the bottom plate 2211 of the air intake door shell 221.

An alternative way of attachment is to install push-pull aids in the intake housing 221. The push-pull auxiliary piece is provided with: a pair of hexagonal shafts 224, an inner rocker arm 225 and an outer rocker arm 226. Both ends of the hexagonal shaft 224 are fixedly installed on the front plate 2213 and the rear plate 2214 of the inlet casing 221 by means of shaft installation seats, respectively. The inner rocker arm 225 is fixedly arranged in the middle of the hexagonal shaft 224, the inner rocker arm 225 is rotatably connected to a fixed seat on the back of the air inlet door 222 through a connecting rod, and the inner rocker arm 225 is rotatably connected with the connecting rod and the fixed seat through pin shafts. An outer rocker arm 226 is fixedly mounted on the exterior of the hexagonal shaft 224, the outer rocker arm 226 being rotatably connected to the push rod of the air intake cylinder 223 by means of a pin. By the arrangement of the push-pull auxiliary member, the push rod of the air inlet air cylinder 223 is indirectly connected with the back surface of the air inlet air door 222 through the push-pull auxiliary member, and the air inlet air door 222 is opened or closed on the air inlet opening 2215 of the bottom plate 2211 of the air inlet door shell 221. Preferably, a distance of 4-10 mm is left between two fulcrums of the connecting rod, namely, between the pin shaft connecting the inner rocker arm 225 and the pin shaft connecting the fixing seat, so that the air inlet air door 222 cannot shake left and right.

When the push rod of the air intake cylinder 223 is not extended, as shown in fig. 3B, the air intake door 222 is in a closed state; when the push rod of the air inlet cylinder 223 extends, the outer rocker arm 226 is pushed to rotate by taking the hexagonal shaft 224 as a fulcrum, the inner rocker arm 225 is driven to rotate by taking the hexagonal shaft 224 as a fulcrum, and then the air inlet air door 222 connected with the connecting rod and the other end of the connecting rod is driven to move upwards, so that the air inlet air door 222 is opened, and the state that the air inlet air door 222 is opened is shown in fig. 3C; when the push rod of the air inlet cylinder 223 is retracted, the outer rocker arm 226 is pushed to reversely rotate by taking the hexagonal shaft 224 as a fulcrum, the inner rocker arm 225 is driven to reversely rotate by taking the hexagonal shaft 224 as a fulcrum, and then the air inlet air door 222 connected with the connecting rod and the other end of the connecting rod is pushed to downwards move, so that the air inlet air door 222 is closed.

As shown in fig. 4A to 4C, in order to prevent water vapor from being emitted from the top fan 50 during the washing step, water droplets formed by condensation during dehydration are likely to enter the air outlet pipe 23, thereby affecting the drying efficiency of the drying step. An air outlet damper structure is installed at the air outlet pipe 23 near the outlet 233. The air outlet door structure is provided with an air outlet door frame 234, and is arranged on a mounting hole 2331 of the inner pipe wall, which is arranged in the air outlet 23 and is close to the outlet 233 at a certain interval, and the middle part of the air outlet door frame 234 is provided with an air outlet opening 2341. The front of the air outlet door 235 may be mounted in a covering manner over the air outlet opening 2341 of the air outlet door frame 234. Preferably, sealing strips are arranged around the air outlet opening 2341, and the air outlet air door 235 is extruded on the sealing strips to realize better sealing. The pair of air outlet cylinders 236 are symmetrically installed on two opposite pipe walls of the air outlet pipe 23 near the outlet 233, push rods of the two air outlet cylinders 236 are symmetrically connected to the back surface of the air outlet air door 235, and the air outlet air cylinders 236 open or close the air outlet air door 235 at an air outlet opening 2341 of the air outlet door frame 234 by pushing and pulling the air outlet air door 235.

Likewise, an alternative connection is through the provision of a V-shaped push rod member by which the push rods of the two air outlet cylinders 236 are connected to two holders on the back of the air outlet damper 235. A V-shaped push rod member is mounted in the outlet duct 23 near the outlet 233. The V-shaped pusher member has an oblong shaft 237, an upper balance bar 238 and a lower link 239. The two ends of the long round shaft 237 are fixed on the other two opposite pipe walls of the air outlet pipe 23 near the outlet 233. One end of the upper balance rod 238 is rotatably connected with the push rod of the air outlet cylinder 236 by a pin shaft, the other end of the upper balance rod 238 is provided with an axial long through hole 2381, and the long through hole 2381 movably penetrates through the long round shaft 237. The lower connecting rod 239 and the upper balance rod 238 form a V shape with a variable angle, one end of the lower connecting rod 239 is rotatably connected with a push rod of the air outlet cylinder 236 by a pin shaft, and the other end of the lower connecting rod 239 is rotatably connected with a fixed seat on the back surface of the air outlet air door 235 by a pin shaft. The working principle of the air outlet air door structure is that the push rod of the air outlet air cylinder 236 is pushed out, and the variable angle of the V-shaped push rod piece is enlarged due to the long through hole 2381, so that the lower connecting rod 239 is driven to push the air outlet air door 235 to the air outlet opening 2341 of the air outlet door frame 234, and the air outlet air door structure is closed. Vice versa, when the push rod of the air outlet cylinder 236 is retracted, the variable angle of the V-shaped push rod member is reduced due to the long through hole 2381, so as to drive the lower link 239 to pull the air outlet door 235 upward and away from the air outlet opening 2341 of the air door frame 234, thereby opening the air outlet door structure.

The elution and drying integrated machine is simple in structure and easy to realize; the supporting beam and the spring seat can suspend the outer cylinder through the damping spring to reduce vibration during dehydration, improve the dehydration rotating speed of the eluting and drying integrated machine, reduce the water content of washing materials and further reduce drying time. The connecting flanges of the air inlet and the air outlet pipe are positioned at the upper part of the outer cylinder and are far away from the washing water level, so that the water immersion is avoided. The air outlet pipe is clung to the outer wall of the outer cylinder and is arranged on the same place, so that the air channel of the air outlet pipe is smooth, the structure is compact, and the eluting and drying integrated machine is attractive in appearance.

When the washing and drying integrated machine of the invention cleans and dewaters washing materials, the air inlet air door 222 and the air outlet air door 235 are closed tightly; when the washing materials are dried, the air inlet air door 222 and the air outlet air door 235 are opened, so that the washing cavity, the heater, the fan and the like form a drying air channel, the opening degree is large, and the ventilation quantity is sufficient.

The washing method of the eluting and drying integrated machine comprises the following steps in sequence:

the washing step S1 is to wash the washing materials, wherein the capacity of the inputted washing materials accounts for 1/18 of the capacity of an inner cylinder of the eluting and drying integrated machine, and specifically comprises the following steps:

water inlet step S1a: the amount of water entering is 50% of the outer cylinder capacity;

rinsing substep S1b: kneading for 10 minutes at the water temperature of 40 ℃ and the inner cylinder rotating speed of 35 r/min;

uniformly distributing step S1c: the rotating speed of the inner cylinder is increased to 53r/min, so that the washing materials are uniformly distributed on the inner wall of the inner cylinder;

drainage substep S1d: draining all water in an outer cylinder of the eluting and drying integrated machine;

a dehydration step S2, namely dehydrating the washing materials, and dehydrating for 10 minutes at the rotating speed of the inner cylinder of 750 r/min;

repeating the washing step S1 and the dehydrating step S2 for 2 times;

and a drying step S3, wherein the washing material is dried by hot air, the drying condition is that the highest wind speed of the hot air is 12m/S, the temperature of the hot air is 165 ℃, and the drying is carried out for 50 minutes, so as to obtain the dried material.

Effect examples

2 parts of a certain amount of wet linen are respectively subjected to drying comparison experiments by using the eluting and drying integrated machine (model XTH-25, with washing, dehydrating and drying functions) and the existing dryer (model GZD-15, pure drying, no washing and dehydrating functions), the temperature and drying time of hot air are shown in table 1, and the drying result is shown in table 2.

Table 1 real-time status comparison of drying humidity and drying temperature of the eluting and drying integrated machine of the present invention and the existing dryer

TABLE 2 energy consumption and time comparison of the elution and drying Integrated machine of the invention and the existing dryer

As can be seen from tables 1 and 2, the drying temperature in the outer cylinder of the eluting and drying integrated machine of the present invention is always higher than that in the existing dryer; the total drying time of the elution and drying integrated machine is 50 minutes, and the time is short; and the dried linen is drier, the water content is lower, and the power consumption required by unit water is less.

The present invention has been described in detail with reference to the embodiments of the drawings, and those skilled in the art can make various modifications to the invention based on the above description. Accordingly, certain details of the embodiments are not to be interpreted as limiting the invention, which is defined by the appended claims.

Claims (11)

1. The washing method of the eluting and drying integrated machine comprises the following steps in sequence:

a cleaning step S1, namely cleaning the washing materials, wherein the capacity of the washing materials accounts for 1/15-1/20, preferably 1/18, of the capacity of the inner cylinder of the eluting and drying integrated machine;

a dehydration step S2, wherein the washing materials are dehydrated;

and a drying step S3, wherein the washing material is dried by hot air, the drying condition is that the highest wind speed of the hot air is 10-15 m/S, the temperature of the hot air is 130-180 ℃, preferably 130-160 ℃, and the drying time is 40-55 minutes, preferably 40-45 minutes.

2. The washing method of the eluting and drying integrated machine as claimed in claim 1, wherein

The cleaning step S1 specifically includes:

water inlet step S1a: the water quantity is 30-50% of the outer cylinder capacity of the eluting and drying integrated machine;

rinsing substep S1b: kneading for 5-15 minutes at the water temperature of 20-60 ℃ and the inner cylinder rotating speed of 30-40 r/min;

uniformly distributing step S1c: the rotating speed of the inner cylinder is increased to 50-55 r/min, so that the washing materials are uniformly distributed on the inner wall of the inner cylinder;

drainage substep S1d: draining all water in an outer cylinder of the eluting and drying integrated machine;

the dehydration step S2 specifically comprises the following steps: dehydrating for 10-12 minutes at the rotating speed of the inner cylinder of 750 r/min;

the washing step S1 and the dehydrating step S2 are repeated 1 to 3 times in total.

3. The washing method of the eluting and drying integrated machine according to claim 1, wherein the eluting and drying integrated machine comprises:

a washing machine housing;

an outer cylinder structure arranged in the washing machine shell;

the inner cylinder structure is arranged in the outer cylinder structure through a main shaft, a main bearing and the like;

and the driving motor is connected with the main shaft of the inner cylinder structure through a belt pulley and a belt.

4. The washing method of the eluting and drying integrated machine as claimed in claim 1, wherein

The outer cylinder structure has:

the bottom of the outer cylinder is provided with a water outlet;

the air inlet is communicated with the top of the outer cylinder, and an air inlet door structure is arranged at the air inlet;

the air outlet pipe is sequentially provided with an inlet, a pipe body and an outlet, the inlet of the air outlet pipe is communicated with the water outlet at the bottom of the outer cylinder, the pipe body of the air outlet pipe is upwards climbed and clings to the outer wall of the outer cylinder from the inlet, and an air outlet air door structure is arranged at the position, close to the outlet, of the air outlet pipe;

the heater is arranged at the upper part in the shell of the washing machine and is positioned on the air inlet door structure;

the fan is arranged at the upper part in the shell of the washing machine and is communicated with the air outlet air door structure.

5. The washing method of the washing, drying and eluting integrated machine according to claim 4, wherein the outlet of the air outlet pipe is higher than the central line of the outer cylinder, the side surface of the pipe body of the air outlet pipe is an arc ring, the circle center of the arc ring is overlapped with the circle center of the outer cylinder, and the radius of the inner arc of the arc ring is equal to the radius of the outer cylinder, so that the pipe body of the air outlet pipe is seamlessly climbed and attached to the outer wall of the outer cylinder.

6. The washing method of the eluting and drying integrated machine according to claim 5, wherein the inlet of the air outlet pipe is horizontally tangent to the lowest point of the bottom of the water outlet of the outer cylinder; and then the pipe body of the air outlet pipe continuously climbs and clings to the outer wall of the outer cylinder in the upward direction gradually from the inlet until the pipe body is longitudinally tangent with the furthest point of the side wall of the outer cylinder, then the outer side of the pipe body continues to vertically extend upwards in a straight line, and the inner side of the pipe body still continues to climbs and clings along the outer wall of the outer cylinder until the enlarged outlet is formed.

7. The washing method of the washing, drying and eluting integrated machine according to claim 5, wherein the air inlet is provided with two opposite air collecting baffles which are folded towards the inner part of the outer cylinder, the inclination angle of the air collecting baffles is 30-60 degrees, and the minimum distance between the two opposite air collecting baffles is 20-30% of the inner diameter of the outer cylinder.

8. The washing method of the washing and drying integrated machine as claimed in claim 4, wherein the air inlet door structure comprises:

the air inlet door shell is arranged on the air inlet and is provided with a bottom plate, a top plate, a front plate, a rear plate, a left side plate and a right side plate, and the bottom plate of the air inlet door shell is provided with an air inlet opening leading to the inside of the outer cylinder;

the air inlet door can be installed at the air inlet opening of the bottom plate of the air inlet door shell in a covering manner;

the pair of air inlet cylinders are symmetrically arranged on the front plate, the rear plate, the top plate, the left side plate or the right side plate of the air inlet door shell, push rods of the pair of air inlet cylinders are symmetrically connected with the back surface of the air inlet air door, and the air inlet cylinders open or close the air inlet air door on the air inlet opening of the bottom plate of the air inlet door shell by pushing and pulling the air inlet air door.

9. The washing method of the washing and drying integrated machine according to claim 8, wherein the air inlet door structure further has a push-pull auxiliary member, the push-pull auxiliary member is installed in the air inlet door shell, the push rod of the air inlet cylinder is connected with the back surface of the air inlet door through the push-pull auxiliary member, and the push-pull auxiliary member has:

the two ends of the hexagonal shaft are fixedly connected to the front plate and the rear plate of the air inlet door shell respectively;

the inner rocker arm is fixedly arranged in the middle of the hexagonal shaft and is rotatably connected to the back surface of the air inlet air door through a connecting rod;

and the outer rocker arm is fixedly arranged outside the hexagonal shaft and is rotatably connected to the push rod of the air inlet cylinder.

10. The washing method of the washing and drying integrated machine according to claim 4, wherein the air outlet damper structure has:

an air outlet door frame which is arranged on the inner pipe wall of the air outlet pipe close to the outlet, wherein the middle part of the air outlet door frame is provided with an air outlet opening;

the air outlet air door can be installed on the air outlet opening of the air outlet door frame in a covering manner;

the pair of air outlet cylinders are symmetrically arranged on the pipe walls of the air outlet pipes, which are close to the outlet, the push rods of the pair of air outlet cylinders are symmetrically connected to the back surface of the air outlet air door, and the air outlet air cylinders open or close the air outlet air door at the air outlet opening of the air outlet door frame by pushing and pulling the air outlet air door.

11. The washing method of the washing, drying and eluting integrated machine according to claim 10, wherein the air outlet damper structure is further provided with a V-shaped push rod piece, and the V-shaped push rod piece is installed in the air outlet pipe near the outlet; the push rod of air-out cylinder passes through V-arrangement push rod spare is connected the back of air-out air door, V-arrangement push rod spare has:

the two ends of the long round shaft are fixed on the other two opposite pipe walls of the air outlet pipe, which are close to the outlet;

the upper balancing rod is rotatably connected with the push rod of the air outlet cylinder at one end, and is provided with an axial long through hole at the other end, and the long through hole movably penetrates through the long round shaft;

the lower connecting rod and the upper balance rod form a V shape with a variable angle, one end of the lower connecting rod is rotatably connected with the push rod of the air outlet cylinder, and the other end of the lower connecting rod is rotatably connected with the back surface of the air outlet air door.

Images