CN110644180B

CN110644180B - Spray type automatic conveying energy-saving washing machine

Info

Publication number: CN110644180B
Application number: CN201910847182.9A
Authority: CN
Inventors: 李维东; 刘顿; 程浩远; 胡若愚; 李鹤林; 冯秋实; 宋辰洋; 白云鹏
Original assignee: Wuhan University of Technology WUT
Current assignee: Wuhan University of Technology WUT
Priority date: 2019-09-09
Filing date: 2019-09-09
Publication date: 2020-08-04
Anticipated expiration: 2039-09-09
Also published as: CN110644180A

Abstract

The invention provides a spray type automatic conveying energy-saving washing machine, which comprises a shell, a conveying mechanism, an iron head clothes rack, a dewatering mechanism, a clothes conveying mechanism, a cleaning mechanism and a relay remote controller, wherein the shell is provided with a water inlet, a water outlet and a water outlet; the clothes feeding mechanism comprises a first driving motor, a first elastic coupling and a spiral spring; the transmission mechanism comprises a driving wheel, a bearing wheel, a tension wheel, a transmission belt and a belt hook; the belt hook is provided with an electromagnet and a relay; the iron head clothes rack comprises a clothes rack and an iron head; the cleaning mechanism comprises an end cover, a second driving motor, a second elastic coupling, a first lead screw, a first optical axis, a sliding block, a spray head and a spray head. The invention adopts the conveying mode of an industrial production line, thus breaking the limitation of single clothes putting; the water spray cleaning mode is adopted, the 'waterfall principle' is utilized, water is saved, and the cleaning effect is far higher than that of the traditional mode; no high-power electrical equipment, power saving, environmental protection, no vibration and no noise.

Description

Spray type automatic conveying energy-saving washing machine

Technical Field

The invention relates to the field of spray type automatic conveying washing machines, in particular to a spray type automatic conveying energy-saving washing machine.

Background

At present, the variety, the specification and the shape of the washing machine are developed and various and can be selected by people. However, there are only three types of pulsator type washing machines, drum type washing machines and agitator type washing machines, which are now eliminated, when distinguished from the washing pattern and structure.

The impeller type washing machine is that an impeller is arranged in a washing barrel, a motor rotates the impeller, and a water flow containing washing powder in a lifting barrel rotates in the same direction as clothes to clean the clothes; the drum type washing machine washes clothes by using a washing tub placed transversely to roll in the tub simultaneously with water flow and the clothes in a continuously rotating state.

Whether the impeller type or the roller type is adopted, the high-power motor cannot be used for driving a cylinder of water and clothes to rotate at a high speed, so that the following defects are caused:

1. the power of the motor limits the size of the cylinder, which is equivalent to directly limiting the maximum capacity of a single wash. In both the household washing machine and the commercial washing machine, the upper limit of the single laundry input amount exists in the mode, and the time efficiency is not high.

2. The clothes and the washing water coexist for a long time, the washed dirt and clothes cannot be fundamentally isolated, and only a mode of multiple water rinsing is adopted, so that the water resource is wasted, and the thorough washing cannot be realized.

3. The electric energy required by the long-term operation of the high-power motor is very high, and the high-power motor is not power-saving and environment-friendly.

4. The vibration and noise of the high-power motor in the operation process are considerable, and although various enterprises try to reduce vibration and noise, the problems cannot be fundamentally solved.

Disclosure of Invention

Aiming at the problems, the invention provides the spray type automatic conveying energy-saving washing machine, which abandons the traditional structure that a motor drives a cylinder body, adopts a conveying mode of an industrial production line, breaks through the limitation of single clothes throwing, can convey clothes inwards without limit theoretically as long as the machine does not stop, and can be hung and washed at any time. The water spraying cleaning mode is adopted, the waterfall principle is utilized, sewage after clothes are washed directly flows down and is drained away, the sewage does not continuously contact with the clothes, water is saved, and meanwhile, the cleaning effect is far higher than that of the traditional mode. High-power electrical equipment such as a high-power motor is omitted, and the electric-saving and environment-friendly effects are achieved. No vibration and noise exist in the working process, and the silent operation is really realized.

In order to solve the problems, the technical scheme provided by the invention is as follows:

a spray type automatic conveying energy-saving washing machine comprises a machine shell, a conveying mechanism for conveying clothes to be cleaned in a queue, an iron head clothes rack, a dewatering mechanism for dewatering the cleaned clothes, a clothes conveying mechanism and a cleaning mechanism;

the shell is a cubic box and comprises a base, a back plate, a top cover and a right side plate; the interior of the shell is divided into a left processing area and a right finished product storage area in the horizontal direction;

a suspension plate parallel to the ground is fixedly arranged on the back plate in the processing area;

the clothes conveying mechanism comprises a first driving motor fixedly arranged on the back plate; the rotating shaft of the first driving motor is vertical to the back plate; the clothes conveying mechanism also comprises a spiral spring which is fixedly connected with a rotating shaft of the first driving motor through a first elastic coupling; the central shaft of the spiral spring and the rotating shaft of the first driving motor are in a coaxial relationship;

the conveying mechanism is arranged in a space below the suspension plate and comprises a driving wheel, two bearing wheels and a tension wheel which are vertically arranged on the back plate from left to right and are sequentially arranged in a horizontal straight line at equal intervals; the driving wheel is fixedly connected with a rotating shaft of the conveying motor; the transmission motor is arranged on the outer side of the back plate; the driving wheel and the tensioning wheel are sleeved with a conveying belt; the outer side of the transmission belt is fixedly provided with belt hooks at equal intervals; the time interval between the two adjacent belt hooks running to the leftmost end of the conveyor belt is consistent with the time of one rotation of the first driving motor;

the belt hook is fixedly provided with an electromagnet and a relay which are electrically connected; the electromagnet is set to be in a magnetic state under the power-on state of the relay;

preferably, the belt hook is triangular, and the bottom edge of the belt hook is detachably mounted on the outer surface of the conveyor belt and points to the normal direction of the conveyor belt; the top point of the hook is fixedly provided with an electromagnet; the relay is a remote control relay and is in a long-pass state;

the iron head clothes rack comprises a clothes rack and an iron head; the clothes hanger is made of nonmagnetic materials, and the top end of the clothes hanger comprises a hook; the hook is made of nonmagnetic materials; the iron head is fixedly arranged at the top end of the hook;

preferably, the clothes hanger is made of plastic materials, and the top end of the clothes hanger comprises a plastic hook; the iron head is fixedly arranged at the top end of the plastic hook and is in an iron spherical shape.

The cleaning mechanism comprises a plurality of pairs of end covers which are symmetrically and fixedly arranged on the suspension plate along the longitudinal center line of the suspension plate; the distance between each pair of end covers is wider than the width of the conveyor belt; a second driving motor is fixedly arranged in the end cover; a rotating shaft of the second driving motor is downwards vertical to the ground direction and is fixedly connected with the first lead screw through a second elastic coupling; the lower part of the end cover is fixedly connected with a first optical axis; the first optical axis and the first lead screw are arranged in parallel; each first lead screw is in threaded connection with one sliding block through threads; the sliding block is provided with a vertical through hole and a horizontal through hole; the sliding block is in sliding connection with the first optical axis through the vertical through hole; the horizontal through hole is fixedly connected with one end of the spray head rod; the other end of the spray head rod is fixedly connected with the spray head;

preferably, the spray head is connected with the water tank through a pipeline.

The back plate is fixedly provided with a relay remote controller in the area of the right end of the conveyor belt with the same horizontal height as the conveyor belt; the relay remote controller is set to be powered off when the relay enters a set range or powered on when the relay leaves the set range.

Preferably, the set range is a circular area with the radius of the distance between the relay remote controller and the electromagnet when the belt hook moves on the right side of the conveyor belt to be in a horizontal state by taking the relay remote controller as a circle center.

Preferably, the dewatering mechanism comprises two fixed frames arranged on a base in the shell, and the installation direction is perpendicular to the running direction of the conveyor belt; two ball screws are vertically and rotatably arranged on each fixing frame; the space enclosed by the four ball screws is a cube; the upper end of the ball screw is fixedly connected with a rotating shaft of a third driving motor through a third elastic coupling; the shell of the third driving motor is fixedly connected with the suspension plate; two ends of the first U-shaped roller frame are in threaded connection with two ball screws close to the back plate; two ends of the second U-shaped roller frame are in threaded connection with two ball screws far away from the back plate; and the transverse shafts of the first U-shaped roller frame and the second U-shaped roller frame are respectively connected with a roller in a rotating way.

Preferably, the roller is mounted below the transfer mechanism.

Preferably, the roller is made of silica gel; the two rollers are in contact with each other.

Preferably, a clothes hanging rod perpendicular to the back plate is fixedly installed on the back plate of the finished product storage area; the clothes hanging rod is arranged right below the right edge of the conveying mechanism.

Preferably, a hot air blower is fixedly arranged on the back plate right below the clothes hanging rod, and the air direction is directed into the shell from the outside of the shell; an exhaust fan is fixedly installed on the right side plate, the installation height of the exhaust fan is equal to that of the hot air blower, and the wind direction of the exhaust fan is from the inside of the casing to the outside of the casing.

Compared with the prior art, the invention has the following advantages:

1. the clothes washing machine has the advantages that the traditional structure that the cylinder body is driven by the motor is abandoned, the conveying mode of an industrial production line is adopted, the limitation of single clothes putting is broken, theoretically, as long as the machine is not stopped, clothes can be sent into the machine without limit, and the clothes can be washed while being hung.

2. The water spraying cleaning mode is adopted, the waterfall principle is utilized, sewage after clothes are washed directly flows down and is drained away, the sewage does not continuously contact with the clothes, water is saved, and meanwhile, the cleaning effect is far higher than that of the traditional mode.

3. High-power electrical equipment such as a high-power motor is omitted, and the electric-saving and environment-friendly effects are achieved.

4. No vibration and noise exist in the working process, and the silent operation is really realized.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a schematic view of an installation structure of the clothes feeding mechanism of the present invention.

Fig. 3 is a perspective view of the transfer mechanism of the present invention.

Fig. 4 is a schematic view of a driving wheel mounting structure of the present invention.

Fig. 5 is an enlarged schematic view of a portion a of fig. 3.

Fig. 6 is a schematic structural view of the iron-head clothes hanger of the present invention.

Fig. 7 is a schematic view of the temporary connection of the iron-head hanger and the hook of the present invention.

FIG. 8 is a perspective view of the cleaning mechanism of the present invention.

Fig. 9 is a perspective view of the dehydration mechanism of the present invention.

FIG. 10 is a schematic view of the ironhead hanger of the present invention disengaged from the hook and hanging on the clothes rail.

The device comprises a machine shell 100, a base 110, a back plate 120, a top cover 130, a right side plate 140, a suspension plate 150, a first driving motor 200, a first elastic coupling 210, a spiral spring 220, an end cover 300, a second driving motor 310, a second elastic coupling 320, a first lead screw 330, a first optical axis 340, a slider 350, a spray head rod 360, a spray head 370, a driving wheel 400, a bearing wheel 410, a tension wheel 420, a conveying belt 430, a hook 440, an electromagnet 441, a remote control relay 442, an iron head hanger 450, a clothes hanger 451, an iron head 452, a hook 453, a conveying motor 460, a clothes hanging rod 500, a relay remote controller 510, a set range 520, a hot air blower 530, an exhaust fan 540, a fixed frame 600, a ball lead screw 610, a third driving motor 620, a third elastic coupling 630, a first U-shaped roller frame 641, a second U-shaped roller frame 642 and a roller 650.

Detailed Description

The present invention is further illustrated by the following examples, which are intended to be purely exemplary and are not intended to limit the scope of the invention, as various equivalent modifications of the invention will occur to those skilled in the art upon reading the present disclosure and fall within the scope of the appended claims.

A spray type automatic conveying energy-saving washing machine comprises a machine shell 100, and further comprises a conveying mechanism for conveying clothes to be cleaned in a queue, an iron head clothes rack 450, a dewatering mechanism for dewatering the cleaned clothes, a clothes conveying mechanism and a cleaning mechanism.

As shown in fig. 1, the housing 100 is a cubic box, and includes a base 110, a back plate 120, a top cover 130, and a right side plate 140; the inside of the cabinet 100 is horizontally divided into a left processing area and a right product storage area.

A suspension plate 150 parallel to the ground is fixedly arranged on the back plate 120 in the processing area.

As shown in fig. 2, the clothes feeding mechanism includes a first driving motor 200 fixedly installed on the back plate 120; the rotating shaft of the first driving motor 200 is perpendicular to the back plate 120; the clothes feeding mechanism further comprises a spiral spring 220 fixedly connected with a rotating shaft of the first driving motor 200 through a first elastic coupling 210; the central axis of the coil spring 220 and the rotation axis of the first driving motor 200 are in a coaxial relationship.

In the using process, the clothes hung on the special iron-head clothes rack 450 are hung on the spiral spring 220 one by one manually; the coil spring 220 rotates along the axis to push the clothes to move forward until the top edge of the coil spring 220 falls down.

As shown in fig. 3, the conveying mechanism is disposed in the space below the suspension plate 150, and includes a driving wheel 400, two bearing wheels 410 and a tension wheel 420, which are vertically installed on the back plate 120 and are arranged in a horizontal straight line from left to right at equal intervals; as shown in fig. 4, the driving wheel 400 is fixedly connected with the rotating shaft of the transmission motor 460; the transmission motor 460 is installed outside the back plate 120; a conveying belt 430 is sleeved outside the driving wheel 400 and the tension wheel 420; belt hooks 440 are fixedly arranged outside the conveyor belt 430 at equal intervals; the time interval between the two adjacent belt hooks 440 running to the leftmost end of the conveyor belt 430 is the same as the time of one rotation of the first driving motor 200.

As shown in fig. 5, the hook 440 is triangular, and an electromagnet 441 and a relay which are electrically connected are fixedly mounted on the hook; the bottom edge is detachably arranged on the outer surface of the conveyor belt 430 and points to the normal direction of the conveyor belt 430; the top point of the belt hook 440 is fixedly provided with an electromagnet 441; the relay is a remote control relay 442 and is in a long-pass state; the electromagnet 441 is set to a magnetized state in a relay energized state.

As shown in fig. 6, the iron head clothes rack 450 comprises a clothes rack 451 and an iron head 452; the clothes rack 451 is made of plastic materials, and the top end of the clothes rack comprises a plastic hook 453; the iron head 452 is fixedly mounted at the top end of the plastic hook 453 and is iron ball-shaped.

As shown in fig. 7, when the clothes reach the top edge of the coil spring 220 and fall, exactly one hook 440 passes through, and since the electromagnet 441 is in a magnetized state, the attraction iron head 452 moves towards it and finally attracts; thus, the iron head hanger 450 does not fall to the ground, but is firmly caught by the hook 440 and moves along with it.

As shown in fig. 8, the cleaning mechanism includes a plurality of pairs of end caps 300 fixedly mounted on the suspension plate 150 symmetrically along the longitudinal centerline of the suspension plate 150; the spacing between each pair of end caps 300 is wider than the width of the conveyor belt 430; a second driving motor 310 is fixedly installed in the end cover 300; the rotating shaft of the second driving motor 310 is downward perpendicular to the ground direction and is fixedly connected with the first lead screw 330 through a second elastic coupling 320; a first optical axis 340 is fixedly connected to the lower part of the end cap 300; the first optical axis 340 and the first lead screw 330 are arranged in parallel; each first lead screw 330 is in threaded connection with one slider 350 through threads; the sliding block 350 is provided with a vertical through hole and a horizontal through hole; the slider 350 is slidably connected with the first optical axis 340 through a vertical through hole; the horizontal through hole is fixedly connected with one end of the spray head rod 360; the other end of the nozzle rod 360 is fixedly connected with the nozzle 370.

The spray head 370 is connected to the water tank through a pipe.

The second driving motor 310 continuously rotates in forward and reverse directions to drive the sliding block 350 to reciprocate up and down; the spray head 370 continuously sprays water mist containing detergent to form a waterfall effect on the clothes, thereby achieving the purpose of cleaning.

As shown in fig. 9, the dewatering mechanism includes two fixing frames 600 installed on the base 110 inside the cabinet 100, and the installation direction is perpendicular to the running direction of the conveyor belt 430; each fixing frame 600 is vertically and rotatably provided with two ball screws 610; the space enclosed by the four ball screws 610 is a cube; the upper end of the ball screw 610 is fixedly connected with the rotating shaft of the third driving motor 620 through a third elastic coupling 630; the housing of the third driving motor 620 is fixedly connected with the suspension plate 150; two ends of the first U-shaped roller frame 641 are threadedly connected to the two ball screws 610 near the back plate 120; two ends of the second U-shaped roller frame 642 are in threaded connection with two ball screws 610 far away from the back plate 120; the lateral shafts of the first U-shaped roller frame 641 and the second U-shaped roller frame 642 are rotatably connected to a roller 650, respectively.

The third driving motor 620 continuously rotates in forward and reverse directions to drive the drum 650 to reciprocate up and down.

The rollers 650 are mounted below the transfer mechanism.

The roller 650 is made of silica gel; the two rollers 650 are in contact with each other.

The washed laundry passes between the two drums 650, and the pressure between the drums extrudes water to achieve the purpose of preliminary dehydration.

The back plate 120 is fixedly provided with a relay remote controller 510 in the right end area of the conveyor belt 430 with the same level as the conveyor belt 430; the relay remote controller 510 is configured such that the relay is de-energized when it enters the set range 520, or is energized when it leaves the set range 520.

As shown in fig. 10, the setting range 520 is a circular area having a radius of a distance from the relay remote controller 510 to the electromagnet 441 when the belt hook 440 moves horizontally on the right side of the conveyor belt 430 with the center of the circle being the relay remote controller 510.

When the iron head clothes rack 450 hung with the clothes to be squeezed to be dry enters the set range, the relay remote controller 510 is used to cause the remote control relay 442 to be powered off, further the electromagnet 441 is switched off, and then the iron head clothes rack 450 falls down.

A clothes hanging rod 500 vertical to the back plate 120 is fixedly arranged on the back plate 120 of the finished product storage area; the clothes rail 500 is installed just below the right edge of the transferring mechanism.

When the iron head clothes hanger 450 falls down, the hook 453 passes through the clothes hanging rod 500, and then the iron head clothes hanger is hung on the clothes hanging rod 500, so that the clothes do not move any more, and the manual recovery is waited.

A hot air blower 530 is fixedly installed on the back plate 120 right below the clothes rail 500, and the air direction is directed from the outside of the casing 100 to the inside of the casing 100; an exhaust fan 540 is fixedly installed on the right side plate 140, the installation height is equal to the height of the hot air blower 530, and the wind direction is directed from the inside of the casing 100 to the outside of the casing 100.

The hot air blower 530 is provided to send a large amount of hot air to the clothes on the clothes rail 500, evaporating water for further dehydration; the saturated water vapor is drawn out to the outside of the cabinet 100 by the exhaust fan 540, and the storage area of the finished product is kept dry.

The above embodiments are only used for illustrating the design idea and features of the present invention, and the purpose of the present invention is to enable those skilled in the art to understand the content of the present invention and implement the present invention accordingly, and the protection scope of the present invention is not limited to the above embodiments. Therefore, all equivalent changes and modifications made in accordance with the principles and concepts disclosed herein are intended to be included within the scope of the present invention.

Claims

1. An atomizing type automatic conveying energy-saving washing machine comprises a machine shell (100), and is characterized in that: the clothes washing machine also comprises a conveying mechanism for conveying clothes to be washed in a queue, an iron head clothes rack (450), a dehydration mechanism for performing dehydration operation on the washed clothes, a clothes conveying mechanism and a washing mechanism;

the casing (100) is a cuboid box and comprises a base (110), a back plate (120), a top cover (130) and a right side plate (140); the interior of the machine shell (100) is divided into a left processing area and a right finished product storage area in the horizontal direction;

a suspension plate (150) parallel to the ground is fixedly arranged on the back plate (120) in the processing area;

the clothes feeding mechanism comprises a first driving motor (200) fixedly arranged on a back plate (120); the rotating shaft of the first driving motor (200) is vertical to the back plate (120); the clothes conveying mechanism also comprises a spiral spring (220) fixedly connected with a rotating shaft of the first driving motor (200) through a first elastic coupling; the central shaft of the spiral spring (220) and the rotating shaft of the first driving motor (200) are in a coaxial relationship;

the conveying mechanism is arranged in a space below the suspension plate (150) and comprises a driving wheel (400), two bearing wheels (410) and a tension wheel (420), wherein the driving wheel, the two bearing wheels and the tension wheel are vertically arranged on the back plate (120) and are sequentially arranged in a horizontal straight line at equal intervals from left to right; the driving wheel (400) is fixedly connected with a rotating shaft of the transmission motor (460); the transmission motor (460) is arranged outside the back plate (120); a conveying belt (430) is sleeved outside the driving wheel (400) and the tensioning wheel (420); belt hooks (440) are fixedly arranged outside the conveyor belt (430) at equal intervals; the time interval when two adjacent belt hooks (440) run to the leftmost end of the conveyor belt (430) is consistent with the time of one rotation of the first driving motor (200);

an electromagnet (441) and a relay which are electrically connected are fixedly arranged on the belt hook (440); the electromagnet (441) is set to be in a magnetized state under the power-on state of the relay;

the iron head clothes rack (450) comprises a clothes rack (451) and an iron head (452); the clothes rack (451) is made of nonmagnetic materials, and the top end of the clothes rack comprises a hook (453); the hook (453) is made of a non-magnetic material; the iron head (452) is fixedly arranged at the top end of the hook (453);

the cleaning mechanism comprises a plurality of pairs of end covers (300) which are symmetrically and fixedly arranged on the suspension plate (150) along the longitudinal center line of the suspension plate (150); the distance between each pair of end covers (300) is wider than the width of the conveyor belt (430); a second driving motor (310) is fixedly arranged in the end cover (300); the rotating shaft of the second driving motor (310) is downwards vertical to the direction of the ground and is fixedly connected with the first lead screw (330) through a second elastic coupling (320); the lower part of the end cover (300) is fixedly connected with a first optical axis (340); the first optical axis (340) and the first lead screw (330) are arranged in parallel; each first lead screw (330) is in threaded connection with a sliding block (350) through threads; the sliding block (350) is provided with a vertical through hole and a horizontal through hole; the sliding block (350) is in sliding connection with the first optical axis (340) through a vertical through hole; the horizontal through hole is fixedly connected with one end of a spray head rod (360); the other end of the spray head rod (360) is fixedly connected with the spray head (370);

the back plate (120) is fixedly provided with a relay remote controller (510) in the right end area of the conveyor belt (430) with the same horizontal height as the conveyor belt (430); the relay remote controller (510) is set such that the relay is de-energized when entering a set range (520) or is energized when leaving the set range (520).

2. The spray type automatic conveying energy-saving washing machine according to claim 1, characterized in that: the dehydration mechanism comprises two fixed frames (600) arranged on a base (110) in the machine shell (100), and the installation direction is vertical to the running direction of the conveyor belt (430); each fixing frame (600) is vertically and rotatably provided with two ball screws (610); the space enclosed by the four ball screws (610) is cubic; the upper end of the ball screw (610) is fixedly connected with a rotating shaft of a third driving motor (620) through a third elastic coupling (630); the shell of the third driving motor (620) is fixedly connected with the suspension plate (150); two ends of the first U-shaped roller frame (641) are in threaded connection with two ball screws (610) close to the back plate (120); two ends of the second U-shaped roller frame (642) are in threaded connection with two ball screws (610) far away from the back plate (120); and the transverse shafts of the first U-shaped roller frame (641) and the second U-shaped roller frame (642) are respectively connected with a roller (650) in a rotating way.

3. The spray type automatic conveying energy-saving washing machine according to claim 1, characterized in that: the belt hook (440) is triangular, the bottom edge of the belt hook is detachably mounted on the outer surface of the conveyor belt (430), and the belt hook points to the normal direction of the conveyor belt (430); the top point of the belt hook (440) is fixedly provided with an electromagnet (441); the relay is a remote control relay (442) and is in a long-pass state.

4. The spray type automatic conveying energy-saving washing machine according to claim 3, characterized in that: the clothes rack (451) is made of plastic materials, and the top end of the clothes rack comprises a plastic hook; iron head (452) fixed mounting is colluded the top at plastics, and is the iron sphere shape.

5. The spray type automatic conveying energy-saving washing machine according to claim 1, characterized in that: the set range (520) is a circular area with the radius of the distance between the relay remote controller (510) and the electromagnet (441) when the belt hook (440) moves on the right side of the conveyor belt (430) and is in a horizontal state, and the center of the circle is the relay remote controller (510).

6. The spray type automatic conveying energy-saving washing machine according to claim 2, characterized in that: the roller (650) is mounted below the transport mechanism.

7. The spray type automatic conveying energy-saving washing machine according to claim 2, characterized in that: the roller (650) is made of silica gel; the two rollers (650) are in contact with each other.

8. The spray type automatic conveying energy-saving washing machine according to claim 1, characterized in that: a clothes hanging rod (500) vertical to the back plate (120) is fixedly arranged on the back plate (120) of the finished product storage area; the clothes rail (500) is arranged right below the right edge of the conveying mechanism.

9. The spray type automatic conveying energy-saving washing machine according to claim 1, characterized in that: the spray head (370) is connected with the water tank through a pipeline.

10. The spray type automatic conveying energy-saving washing machine according to claim 8, characterized in that: a hot air blower (530) is fixedly arranged on the back plate (120) right below the clothes hanging rod (500), and the air direction is directed from the outside of the shell (100) to the inside of the shell (100); an exhaust fan (540) is fixedly installed on the right side plate (140), the installation height of the exhaust fan is equal to that of the hot air blower (530), and the wind direction of the exhaust fan points to the outside of the casing (100) from the inside of the casing (100).