CN110863327A

CN110863327A - Wind-driven laundry equipment

Info

Publication number: CN110863327A
Application number: CN201911174414.5A
Authority: CN
Inventors: 郑凯文
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-11-26
Filing date: 2019-11-26
Publication date: 2020-03-06

Abstract

The invention discloses a wind-driven laundry device, comprising: wind power driving device, power transmission device, clothing belt cleaning device. The wind power driving apparatus includes: a tower, a wind wheel and a wind power driving shaft; the wind wheel is rotatably arranged outside the tower barrel, the wind power driving shaft is rotatably arranged inside the tower barrel, the wind wheel is in driving connection with the wind power driving shaft, and the wind wheel drives the wind power driving shaft to rotate; the laundry washing device includes: the device comprises a fixed seat, an external fixed cylinder and an internal rotating cylinder; the external fixed cylinder is arranged on the fixed seat, and the internal rotating cylinder rotates and is accommodated in the cylinder body of the external fixed cylinder; the wind power driving shaft is connected with the inner rotating cylinder through the power transmission device. The wind driven type washing equipment can realize the washing function of clothes without electric drive.

Description

Wind-driven laundry equipment

Technical Field

The invention relates to the technical field of clothes washing, in particular to wind driven type clothes washing equipment.

Background

Most of the conventional washing machines drive a motor by electric power. For example, traditional drum type washing machine, the motor that has obtained electric power and then drive the drum through relevant transport mechanism and rotate, and the drum rotates anticlockwise often clockwise, and clockwise rotates and anticlockwise rotates and switches in turn, like this, just can be better with the clothing sanitization in the bucket.

As can be seen from the above, the conventional electric-driven washing machine is not suitable for remote areas where electric power is insufficient.

In some areas with abundant wind power resources, the technical problem to be solved is how to skillfully utilize the advantage of abundant wind power resources and obtain the original driving force by utilizing wind power so as to drive the related mechanisms to move, thereby realizing the washing of clothes.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide the wind driven type washing equipment which can realize the washing function of clothes without electric drive.

The purpose of the invention is realized by the following technical scheme:

a wind-driven laundry appliance comprising: the device comprises a wind power driving device, a power transmission device and a clothes washing device;

the wind power driving apparatus includes: a tower, a wind wheel and a wind power driving shaft; the wind wheel is rotatably arranged outside the tower barrel, the wind power driving shaft is rotatably arranged inside the tower barrel, the wind wheel is in driving connection with the wind power driving shaft, and the wind wheel drives the wind power driving shaft to rotate;

the laundry washing device includes: the device comprises a fixed seat, an external fixed cylinder and an internal rotating cylinder; the external fixed cylinder is arranged on the fixed seat, and the internal rotating cylinder rotates and is accommodated in the cylinder body of the external fixed cylinder;

the wind power driving shaft is connected with the inner rotating cylinder through the power transmission device.

In one of the embodiments, the first and second electrodes are,

the power transmission device comprises a clothes washing power transmission mechanism and a clothes dewatering power transmission mechanism;

the laundry washing power transmission mechanism includes: the cleaning device comprises a cleaning power transmission gear set, a cleaning power transmission main shaft, a reciprocating rotation adjusting assembly and a cleaning clutch assembly; the wind power driving shaft is connected with the cleaning power transmission main shaft through the cleaning power transmission gear set, and the cleaning power transmission main shaft is connected with the reciprocating rotation adjusting assembly through the cleaning clutch assembly;

the clothes washing device also comprises a roller driving gear set arranged on the fixed seat, and the roller driving gear set is connected with the internal rotating cylinder;

wherein, the reciprocating rotation adjusting assembly comprises: a driving connecting rod and a pendulum type rotating shaft; an external thread is formed on the shaft body of the pendulum type rotating shaft, a sleeve is sleeved on the shaft body of the pendulum type rotating shaft, and an internal thread which is screwed with the external thread is formed on the inner ring of the sleeve; one end of the driving connecting rod is connected with the cleaning clutch assembly, and the other end of the driving connecting rod is connected with the sleeve; the pendulum type rotating shaft is connected with the roller driving gear set;

the laundry dehydration power transmission mechanism includes: a dehydration power transmission gear set, a dehydration power transmission main shaft and a dehydration clutch assembly; the wind power driving shaft is connected with the dehydration power transmission main shaft through the dehydration power transmission gear set; the dehydration power transmission main shaft is connected with the roller driving gear set through the dehydration clutch assembly.

In one embodiment, the washing power transmission gear set includes a washing power transmission driving gear and a washing power transmission driven gear which are engaged with each other, the washing power transmission driving gear is provided on the wind power driving shaft, and the washing power transmission driven gear is provided on the washing power transmission main shaft.

In one embodiment, the dewatering power transmission gear set includes a dewatering power transmission driving gear and a dewatering power transmission driven gear engaged with each other, the dewatering power transmission driving gear is provided on the wind power driving shaft, and the dewatering power transmission driven gear is provided on the dewatering power transmission main shaft.

In one of the embodiments, the first and second electrodes are,

the drum drive gear set includes: a roller driving shaft, a roller driving gearwheel, a roller driving pinion and a connecting gear; one end of the roller driving shaft is connected with the internal rotating cylinder, the roller driving pinion is arranged at the other end of the roller driving shaft, the roller driving pinion is positioned outside the cylinder body of the external fixed cylinder, the roller driving gearwheel is rotatably arranged on the fixed seat and is meshed with the roller driving pinion, the engaging gear is arranged on the roller driving gearwheel, and the central shaft of the engaging gear and the central shaft of the roller driving gearwheel are on the same straight line;

one end of the pendulum type rotating shaft is provided with a reciprocating rotating gear, and the reciprocating rotating gear is meshed with the connecting gear;

the dehydration clutch component is connected with the connecting gear.

In one embodiment, the rotor is composed of a plurality of blades, the tower is erected on the ground, and the rotation axis of the wind-driven shaft is perpendicular to the horizontal plane.

In one embodiment, the rotating shaft of the inner rotating cylinder is parallel to the horizontal plane, and the wall of the inner rotating cylinder is provided with a mesh structure.

In one embodiment, the outer fixed cylinder is a hollow cylinder structure, the central axis of the outer fixed cylinder is parallel to the horizontal plane, and the central axis of the outer fixed cylinder is on the same straight line with the central axis of the inner rotating cylinder.

In one embodiment, a water inlet is formed in the wall of the outer fixed cylinder, and a sealing cover is arranged at the water inlet.

In one embodiment, a water outlet is formed in the wall of the external fixed cylinder, and a valve is arranged at the water outlet.

The wind driven type washing equipment can realize the washing function of clothes without electric drive.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a structural view of a wind driven type laundry device according to an embodiment of the present invention;

FIG. 2 is a front view of the laundry washing device shown in FIG. 1;

FIG. 3 is a left side view of the laundry washing device shown in FIG. 2;

fig. 4 is a partial view of the wind-driven laundry device shown in fig. 1.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

As shown in fig. 1, a wind-driven laundry device 10 includes: wind power driving device 20, power transmission device 30, and laundry washing device 40. The wind power driving device 20 obtains the most original driving force under the action of wind, and the wind power driving device 20 transmits the obtained most original driving force to the clothes washing device 40 through the power transmission device 30, wherein the clothes washing device 40 is used for washing or dewatering clothes.

As shown in fig. 1, specifically, the wind power driving apparatus 20 includes: a tower 21, a wind wheel 22 and a wind power driving shaft 23. The wind wheel 22 is rotatably arranged outside the tower barrel 21, the wind power driving shaft 23 is rotatably arranged inside the tower barrel 21, the wind wheel 22 is in driving connection with the wind power driving shaft 23, and the wind wheel 22 drives the wind power driving shaft 23 to rotate. In this embodiment, the wind wheel 22 is composed of a plurality of blades, the tower 21 is erected on the ground, and the rotation axis of the wind-driven shaft 23 is perpendicular to the horizontal plane. Thus, the wind wheel 22 is rotated by the wind, and the rotating wind wheel 22 further drives the wind driving shaft 23 to rotate, so that the rotating wind driving shaft 23 can transmit the original driving force to the laundry washing device 40 through the power transmission device 30.

As shown in fig. 2 and 3, specifically, the laundry washing apparatus 40 includes: a fixed seat 41, an external fixed cylinder 42 and an internal rotating cylinder 43. The outer fixed cylinder 42 is attached to the fixed base 41, and the inner rotary cylinder 43 is rotatably accommodated in the cylindrical body of the outer fixed cylinder 42. In this embodiment, the rotation axis of the inner rotary drum 43 is parallel to the horizontal plane, and the wall of the inner rotary drum 43 is provided with a mesh structure 43 a; the external fixed cylinder 42 is a hollow cylinder structure, the central axis of the external fixed cylinder 42 is parallel to the horizontal plane, and the central axis of the external fixed cylinder 42 and the central axis of the internal rotating cylinder 43 are on the same straight line; a water inlet is arranged on the wall of the external fixed cylinder 42, and a sealing cover 42a is arranged at the water inlet; the wall of the external fixed cylinder 42 is also provided with a water outlet, and a valve 42b is arranged at the water outlet.

As shown in fig. 1, the wind-driven shaft 23 and the inner rotary cylinder 43 are connected to each other by a power transmission device 30.

If the washing of the clothes is to be realized, the sealing cover 42a on the outer fixed cylinder 42 is opened, and the clothes to be washed is put into the cylinder body of the inner rotating cylinder 43 (of course, the cylinder wall of the inner rotating cylinder 43 is also provided with the sealing cover for opening and closing); clean water and laundry detergent are injected into the external fixed cylinder 42 from the water inlet, and the clean water and the laundry detergent in the external fixed cylinder 42 further enter the cylinder body of the internal rotating cylinder 43 through the mesh structure 43 a; after a proper amount of mixed liquid is injected into the cylinder body, the sealing cover 42a is covered on the water inlet of the external fixed cylinder 42 again; thus, the internal rotary cylinder 43 is driven to reciprocate by the driving force conducted from the outside, thereby realizing the washing of the clothes;

if the clothes are dehydrated, the valve 42b at the water outlet is opened, so that the mixed liquid in the cylinder body flows out from the water outlet; when the mixed liquid in the drum is basically discharged, the driving force conducted from the outside drives the inner rotating drum 43 to rotate in a single direction, so that the dehydration of the clothes is realized;

after the washing and the dehydration of the laundry are completed, the driving force transmitted from the outside is cut off, so that the inner rotary drum 43 does not rotate any more, and thus, the laundry can be taken out from the drum body.

As can be seen from the above, the laundry washing device 40 needs to perform not only the washing function but also the dewatering function, and therefore, the specific structure of the power transmission device 30 needs to be optimally designed so that the power transmission device 30 can transmit different types of driving forces to the inner rotary drum 43.

Next, a specific structure of the power transmission device 30 and a connection relationship between the respective members will be described:

as shown in fig. 4, the power transmission device 30 includes a laundry washing power transmission mechanism 100 and a laundry dehydrating power transmission mechanism 200. The laundry-washing power transmission mechanism 100 serves to transmit an original driving force to the inner rotary drum 43, thereby allowing the inner rotary drum 43 to obtain a laundry-washing function; the laundry dehydration power transmission mechanism 200 serves to transmit the original driving force to the inner rotary drum 43, thereby allowing the inner rotary drum 43 to obtain the laundry dehydration function.

As shown in fig. 4, the laundry washing power transmission mechanism 100 includes: a cleaning power transmission gear set 110, a cleaning power transmission main shaft 120, a reciprocating rotation adjusting assembly 130 and a cleaning clutch assembly 140. The wind power driving shaft 23 is connected to the washing power transmission main shaft 120 through the washing power transmission gear set 110, and the washing power transmission main shaft 120 is connected to the reciprocating rotation adjusting assembly 130 through the washing clutch assembly 140. In this embodiment, the cleaning power transmission gear set 110 includes a cleaning power transmission driving gear 111 and a cleaning power transmission driven gear 112 engaged with each other, the cleaning power transmission driving gear 111 is provided on the wind power driving shaft 23, and the cleaning power transmission driven gear 112 is provided on the cleaning power transmission main shaft 120.

The laundry washing device 40 further includes a drum driving gear set 44 (shown in fig. 2) disposed on the fixing base 41, and the drum driving gear set 44 is connected to the inner rotary drum 43.

As shown in fig. 4, wherein the reciprocating rotation adjusting assembly 130 includes: a driving link 131 and a pendulum type rotating shaft 132. A male screw is formed on the shaft body of the pendulum type rotation shaft 132, a sleeve 133 is sleeved on the shaft body of the pendulum type rotation shaft 132, and a female screw screwed with the male screw is formed on the inner ring of the sleeve 133. One end of the driving link 131 is connected with the washing clutch assembly 140, and the other end of the driving link 131 is connected with the sleeve 133; the pendulum type rotation shaft 132 is connected to the drum drive gear group 44.

As shown in fig. 4, the laundry dehydration power transmission mechanism 200 includes: a dehydration power transmission gear set 210, a dehydration power transmission main shaft 220, and a dehydration clutch assembly 230. The wind power driving shaft 23 is connected to the main dehydration power transmission shaft 220 through a dehydration power transmission gear set 210. The dehydration power transmission main shaft 220 is connected with the drum drive gear set 44 through a dehydration clutch assembly 230. In this embodiment, the dehydration power transmission gear set 210 includes a dehydration power transmission driving gear 211 and a dehydration power transmission driven gear 212 engaged with each other, the dehydration power transmission driving gear 211 is provided on the wind power driving shaft 23, and the dehydration power transmission driven gear 212 is provided on the dehydration power transmission main shaft 220.

As shown in fig. 3, further, the roller drive gear set 44 includes: a roller drive shaft 44a, a roller drive large gear 44b, a roller drive small gear 44c, and an engaging gear 44 d. One end of the roller driving shaft 44a is connected with the inner rotating cylinder 43, the roller driving pinion 44c is arranged at the other end of the roller driving shaft 44a, the roller driving pinion 44c is positioned outside the cylinder body of the outer fixed cylinder 42, the roller driving gearwheel 44b is rotatably arranged on the fixed seat 41 and meshed with the roller driving pinion 44c, the engaging gear 44d is arranged on the roller driving gearwheel 44b, and the central axis of the engaging gear 44d and the central axis of the roller driving gearwheel 44b are on the same straight line.

Wherein, one end of the pendulum type rotating shaft 132 is provided with a reciprocating rotation gear 134 (as shown in fig. 4), and the reciprocating rotation gear 134 is engaged with the engaging gear 44 d.

Wherein the dehydration clutch assembly 230 is connected with the engaging gear 44d (as shown in fig. 4).

Next, the operation principle of the power transmission device 30 configured as described above will be explained:

when the clothes need to be washed, what needs to be done first is: the cleaning clutch assembly 140 is connected, so that power transmission can be performed between the cleaning power transmission main shaft 120 and the reciprocating rotation adjusting assembly 130; meanwhile, the dehydration clutch assembly 230 is disconnected, so that no power transmission between the dehydration power transmission main shaft 220 and the drum drive gear set 44 occurs; thus, the wind power driving shaft 23 drives the washing power transmission main shaft 120 to rotate through the washing power transmission gear set 110, the washing power transmission main shaft 120 further drives the driving connecting rod 131 of the reciprocating rotation adjusting assembly 130 to rotate through the washing clutch assembly 140, the driving connecting rod 131 further drives the pendulum type rotating shaft 132 to rotate in a reciprocating manner through the sleeve 133, the pendulum type rotating shaft 132 rotating in a reciprocating manner further drives the engaging gear 44d to rotate in a reciprocating manner through the reciprocating rotation gear 134, and the engaging gear 44d rotating in a reciprocating manner further drives the inner rotating cylinder 43 to rotate in a reciprocating manner through the cylinder driving large gear 44b, the cylinder driving small gear 44c and the cylinder driving shaft 44a, so that the clothes in the cylinder can be washed through the inner rotating cylinder 43 rotating in a reciprocating;

when the clothes need to be washed, what needs to be done first is: disconnecting the cleaning clutch assembly 140 so that no power conduction occurs between the cleaning power transmission main shaft 120 and the reciprocating rotary adjustment assembly 130; meanwhile, the dehydration clutch assembly 230 is connected, so that power transmission can be performed between the dehydration power transmission main shaft 220 and the drum driving gear set 44; further, the reciprocating rotation gear 134 on the pendulum type rotating shaft 132 is disengaged from the engaging gear 44d, so as to prevent the reciprocating rotation adjusting assembly 130 from interfering with the engaging gear 44 d; thus, the wind power driving shaft 23 drives the dewatering power transmission main shaft 220 to rotate through the dewatering power transmission gear set 210, the dewatering power transmission main shaft 220 further drives the engaging gear 44d to rotate in a single direction through the dewatering clutch assembly 230, the engaging gear 44d rotating in a single direction further drives the inner rotating drum 43 to rotate in a single direction through the drum driving large gear 44b, the drum driving small gear 44c and the drum driving shaft 44a, and thus the inner rotating drum 43 rotating in a single direction can dewater the clothes in the drum.

It should be noted that the wind wheel 22 only rotates in a single direction when being subjected to the wind, the wind wheel 22 rotating in a single direction drives the wind driving shaft 23 to rotate in a single direction, and the wind driving shaft 23 rotating in a single direction drives the cleaning power transmission main shaft 120 to rotate in a single direction through the cleaning power transmission gear set 110. In the process of washing the clothes, the inside rotary drum 43 needs to make reciprocating rotation, and the inside rotary drum 43 rotating back and forth can wash the clothes in the drum more effectively. To this end, the present invention provides a reciprocating rotation adjustment assembly 130 in the clothes washing power transmission mechanism 100. In the process that the driving connecting rod 131 rotates in a single direction, the driving connecting rod 131 drives the sleeve 133 to reciprocate along the axial direction of the pendulum type rotating shaft 132, and since the shaft body of the pendulum type rotating shaft 132 is formed with the external thread, and the inner ring of the sleeve 133 is formed with the internal thread screwed with the external thread, in this way, during the reciprocating movement of the sleeve 133, the pendulum type rotating shaft 132 follows the reciprocating rotation, and the pendulum type rotating shaft 132 rotating in a reciprocating manner also drives the engaging gear 44d to rotate in a reciprocating manner, so that the power is finally transmitted to the inner rotating cylinder 43, and the inner rotating cylinder 43 can rotate in a reciprocating manner. It should be further noted that, during the reciprocating rotation of the pendulum type rotating shaft 132, in order to overcome the related resistance, the pendulum type rotating shaft 132 also generates pendulum type swing under the action of the driving connecting rod 131, so that the whole operation of the mechanism is smoother.

The wind-driven laundry device 10 of the present invention can perform a washing function of laundry without using electric power for driving.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A wind-driven laundry appliance comprising: the device comprises a wind power driving device, a power transmission device and a clothes washing device;

2. A wind-driven laundry appliance according to claim 1,

3. The wind-driven laundry apparatus according to claim 2, wherein the washing power transmission gear set includes a washing power transmission driving gear and a washing power transmission driven gear which are engaged with each other, the washing power transmission driving gear being provided on the wind-driven shaft, and the washing power transmission driven gear being provided on the washing power transmission main shaft.

4. The wind-driven laundry apparatus according to claim 2, wherein the dehydration power transmission gear set includes a dehydration power transmission driving gear and a dehydration power transmission driven gear engaged with each other, the dehydration power transmission driving gear being provided on the wind-driven shaft, the dehydration power transmission driven gear being provided on the dehydration power transmission main shaft.

5. A wind-driven laundry appliance according to claim 2,

the dehydration clutch component is connected with the connecting gear.

6. The wind driven laundry appliance of claim 1, wherein the wind wheel is comprised of a plurality of blades, the tower is erected on the ground, and the axis of rotation of the wind driven shaft is perpendicular to the horizontal plane.

7. The wind-driven laundry appliance according to claim 1, wherein the rotation axis of the inner rotary drum is parallel to the horizontal plane, and a mesh structure is formed on the wall of the inner rotary drum.

8. The wind-driven laundry appliance according to claim 7, wherein the outer fixed drum has a hollow cylindrical structure, a central axis of the outer fixed drum is parallel to a horizontal plane, and a central axis of the outer fixed drum is aligned with a central axis of the inner rotary drum.

9. The wind-driven laundry appliance according to claim 8, wherein the outer fixed cylinder has a water inlet opening at a wall thereof, and the water inlet opening is provided with a sealing cover.

10. The wind-driven laundry appliance according to claim 9, wherein a water outlet is provided on the wall of the outer fixed drum, and a valve is provided at the water outlet.