CN110791933A - Separation and reunion transmission structure and clothes dryer - Google Patents

Abstract

The invention belongs to the technical field of clothes dryers, and discloses a clutch transmission structure and a clothes dryer, wherein the clutch transmission structure comprises: a fan; the clutch transmission assembly is connected to the fan; one end of the driving component is connected with the clutch transmission component in a driving way, and the other end of the driving component is connected with the roller in a driving way; the driving assembly can drive the roller to rotate along the positive and negative directions, and the fan is driven to rotate along only one direction through the clutch transmission assembly. When the driving assembly drives the roller to rotate along the positive and negative directions, the fan can be driven to rotate along one direction all the time through the clutch transmission assembly due to the clutch transmission assembly, so that the equal-time positive and negative rotation is realized, and simultaneously, the air volumes of the fans are completely the same in the positive and negative rotation processes of the roller, so that the problem of winding of the clothes dryer is thoroughly solved, the drying time is shortened, the drying uniformity and the drying efficiency are improved, and the cost of the whole machine is greatly reduced.

Description

Separation and reunion transmission structure and clothes dryer

Technical Field

The invention relates to the technical field of clothes dryers, in particular to a clutch transmission structure and a clothes dryer.

Background

The existing clothes dryer adopts the function of forward and reverse rotation of the roller in order to solve the problem of clothes winding, and the problem of clothes winding can be solved to a certain extent by the function, but the following problems can not be completely and thoroughly solved due to the defects in the technical implementation aspect:

1. the problem of different air volumes of the forward and reverse rotating fans is as follows: most of existing clothes dryer fans adopt centrifugal fans, and in order to save cost, a roller and the fan are often driven by the same motor, because of the characteristics of the centrifugal fans, the forward rotation and the reverse rotation of the fans are different, and in order to meet the drying effect, the forward rotation and the reverse rotation of the roller are required to be unequal, but the problem of winding caused by the condition cannot be thoroughly solved.

2. Problem of cost increase: in order to solve the problem that the roller rotates forwards and backwards unequally, the roller and the fan are often driven independently, and the cost is increased sharply.

3. The fan performance decreases: in order to realize the forward and reverse rotation of the roller, the roller and the fan use the same motor, and some manufacturers design the fan into a straight blade, so that although the problem of inconsistent air volume in the forward and reverse rotation process of the fan is solved, the performance of the whole machine is seriously influenced because the straight blade is special and cannot reach higher air pressure and air passage.

Disclosure of Invention

The invention aims to provide a clutch transmission structure and a clothes dryer, which can realize the forward and reverse rotation of a roller and the like and simultaneously ensure that the air volume of a fan is completely the same in the forward and reverse rotation processes of the roller.

In order to achieve the purpose, the invention adopts the following technical scheme:

a clutch transmission structure comprising:

a fan;

the clutch transmission assembly is connected to the fan;

one end of the driving component is connected with the clutch transmission component in a driving way, and the other end of the driving component is connected with the roller in a driving way;

the driving assembly can drive the roller to rotate along the positive and negative directions, and the fan is driven to rotate along only one direction through the clutch transmission assembly.

Preferably, the clutch transmission assembly comprises a first transmission assembly and a second transmission assembly, the driving assembly can drive the first transmission assembly and the fan to rotate along a first direction, the driving assembly can drive the second transmission assembly to rotate along a second direction opposite to the first direction, and the second transmission assembly drives the first transmission assembly to rotate along the first direction.

Preferably, the first transmission assembly comprises a first ratchet and pawl unit sleeved on the output shaft of the driving assembly, and a first power output wheel matched with the first ratchet and pawl unit for use, and the first power output wheel is connected to the fan in a driving manner;

when the first ratchet and pawl unit rotates along a first direction, the first ratchet and pawl unit contacts and drives the first power output wheel to rotate along the first direction, and when the first ratchet and pawl unit rotates along a second direction, the first ratchet and pawl unit is separated from the first power output wheel.

Preferably, the first ratchet-pawl unit includes a first pawl fixedly sleeved on the output shaft of the driving assembly, a first ratchet used with the first pawl, and a first centrifugal block radially disposed in the first ratchet and capable of extending, and a first spring is connected between the first centrifugal block and the first ratchet.

Preferably, the first power output wheel is of a cylindrical structure, a first cushion pad is arranged on the inner wall of the first power output wheel, and the first centrifugal block can contact the first cushion pad to drive the first power output wheel to rotate.

Preferably, the output shaft of the driving assembly is provided with a first gear, and the second transmission assembly is provided with a second gear meshed with the first gear.

Preferably, the second transmission assembly comprises a direction-changing wheel shaft fixedly provided with the second gear, a second ratchet and pawl unit sleeved on the direction-changing wheel shaft, and a second power output wheel matched with the second ratchet and pawl unit for use, and the second power output wheel can drive the first power output wheel to rotate along a first direction.

Preferably, the first power output wheel is fixedly connected with a first synchronous shaft connected to the fan, the second power output wheel is fixedly connected with a second synchronous shaft, and the second synchronous shaft is in transmission connection with the first synchronous shaft through a synchronous belt.

Preferably, the second ratchet-pawl unit includes a second pawl fixedly sleeved on the direction-changing wheel shaft, a second ratchet used with the second pawl, and a second centrifugal block radially disposed in the second ratchet and capable of extending, and a second spring is connected between the second centrifugal block and the second ratchet.

The invention also provides a clothes dryer which comprises the clutch transmission structure.

The invention has the beneficial effects that: when rotating along two positive and negative directions through drive assembly drive cylinder, because separation and reunion drive assembly, can drive the fan through separation and reunion drive assembly and rotate along a direction all the time, realized the isochronal positive and negative rotation, the amount of wind of fan is the same completely at cylinder corotation reversal in-process simultaneously, thoroughly solves the dryer winding problem, shortens the stoving time, improves the stoving degree of consistency and drying efficiency to greatly reduced the complete machine cost.

Drawings

FIG. 1 is a schematic structural diagram of a clutch transmission structure of the present invention;

FIG. 2 is a schematic structural view of the clutch transmission assembly of the present invention;

FIG. 3 is a schematic view of the engagement of a first ratchet-pawl unit with a first power take-off wheel of the clutched drive assembly of the present invention;

fig. 4 is a schematic view of the engagement of the second ratchet-pawl unit with the second power take-off wheel of the clutched drive assembly of the present invention.

In the figure:

1. a fan; 2. a clutch transmission assembly; 3. a drive assembly; 4. a synchronous belt; 5. a support bearing; 21. a first transmission assembly; 22. a second transmission assembly; 211. a first power take-off wheel; 212. a first pawl; 213. a first ratchet wheel; 214. a first centrifugal mass; 215. a first spring; 216. a first cushion pad; 217. a first gear; 218. a first synchronizing shaft; 221. a second gear; 222. a direction-changing wheel shaft; 223. a second power take-off wheel; 224. a second synchronizing shaft; 225. a second pawl; 226. a second ratchet wheel; 227. a second centrifugal mass; 228. a second spring; 229. a second cushion pad.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

The invention provides a clutch transmission structure, as shown in fig. 1, the clutch transmission structure comprises a fan 1, a clutch transmission assembly 2 and a driving assembly 3, wherein:

the fan 1 is connected to the clutch transmission assembly 2, and the driving assembly 3 is connected to the clutch transmission assembly 2 and can drive the fan 1 to rotate along one direction all the time through the clutch transmission assembly 2. The driving assembly 3 can drive the roller (not shown in the figure) to rotate along the positive and negative directions, and the driving assembly 3 drives the roller to rotate and simultaneously drives the fan 1 to rotate. In this embodiment, the driving assembly 3 is preferably a motor, and one end of an output shaft of the motor is connected to the drum through a pulley, and the other end is connected to the clutch transmission assembly 2.

In this embodiment, as shown in fig. 2, the clutch transmission assembly 2 includes a first transmission assembly 21 and a second transmission assembly 22, the driving assembly 3 can drive the first transmission assembly 21 and the fan 1 to rotate along a first direction, can also drive the second transmission assembly 22 to rotate along a second direction opposite to the first direction, and simultaneously drives the first transmission assembly 21 to rotate along the first direction through the second transmission assembly 22. The first transmission assembly 21 can drive the fan 1 to rotate along with the first direction.

In this embodiment, referring to fig. 2 and 3, the first transmission assembly 21 includes a first ratchet-pawl unit and a first power output wheel 211, wherein:

the first ratchet-pawl unit comprises a first pawl 212 fixedly sleeved on an output shaft of the driving assembly 3, a first ratchet 213 matched with the first pawl 212 for use, a plurality of first centrifugal blocks 214 which can stretch along the radial direction are arranged in the first ratchet 213, the first centrifugal blocks 214 are uniformly distributed and arranged in the circumferential direction, and a first spring 215 is connected between the first centrifugal blocks 214 and the first ratchet 213.

The first power output wheel 211 is a cylindrical structure, a first cushion pad 216 is circumferentially disposed on an inner wall of the first power output wheel 211, and the first centrifugal block 214 can contact the first cushion pad 216 to drive the first power output wheel 211 to rotate. The first power output wheel 211 is fixedly connected with a first synchronizing shaft 218, and the first synchronizing shaft 218 is connected to the fan 1 and can drive the fan 1 to rotate.

When the driving assembly 3 drives the drum to rotate in a first direction (i.e. forward rotation), the driving assembly 3 drives the first pawl 212 to rotate, at this time, the first ratchet wheel 213 is engaged with the first pawl 212 and is driven by the first pawl 212 to rotate in the first direction, when the rotation speed reaches a certain degree, the first centrifugal block 214 gradually overcomes the tension of the first spring 215 and extends out of the first ratchet wheel 213 under the action of centrifugal force, then the first centrifugal block 214 contacts with the first cushion 216, and after a certain pressure is reached, the contact between the first centrifugal block 214 and the first cushion 216 causes the first power output wheel 211 to rotate along with the first ratchet wheel 213, the first power output wheel 211 drives the fan 1 to rotate in the first direction through the first synchronizing shaft 218, and the fan 1 continuously blows air in the first direction.

When the driving assembly 3 drives the drum to rotate in the second direction (i.e. to rotate in the opposite direction), the driving assembly 3 drives the first pawl 212 to rotate in the second direction, at this time, the first pawl 212 and the first ratchet wheel 213 rotate relatively, the first ratchet wheel 213 is in a static state, the first centrifugal force cannot overcome the tension of the first spring 215 and extends out of the first ratchet wheel 213, and the first power output wheel 211 cannot rotate and is in a separated state from the first ratchet wheel 213.

In this embodiment, the output shaft of the driving unit 3 is provided with a first gear 217, and the second transmission unit 22 is provided with a second gear 221 engaged with the first gear 217. Through the meshing of the first gear 217 and the second gear 221, the driving assembly 3 can drive the second transmission assembly 22 to rotate.

Referring to fig. 3 and 4, the second transmission assembly 22 includes a direction-changing wheel shaft 222 fixedly provided with a second gear 221, a second ratchet and pawl unit sleeved on the direction-changing wheel shaft 222, and a second power output wheel 223 used in cooperation with the second ratchet and pawl unit, wherein the second power output wheel 223 can drive the first power output wheel 211 to rotate along a first direction. Specifically, the second power output wheel 223 is fixedly connected with a second synchronizing shaft 224, the second synchronizing shaft 224 and the first synchronizing shaft 218 are both provided with synchronizing wheels, and the two synchronizing wheels are in transmission connection through a synchronous belt 4. When the second synchronizing shaft 224 rotates, the first synchronizing shaft 218 and the second synchronizing shaft 224 rotate in the same direction.

The second ratchet-pawl unit comprises a second pawl 225 fixedly sleeved on the direction-changing wheel shaft 222, a second ratchet 226 matched with the second pawl 225 for use, a plurality of second centrifugal blocks 227 capable of expanding and contracting along the radial direction are arranged in the second ratchet 226, the plurality of second centrifugal blocks 227 are uniformly distributed in the circumferential direction, and a second spring 228 is connected between the second centrifugal blocks 227 and the second ratchet 226.

The second power output wheel 223 has the same structure as the first power output wheel 211, the second power output wheel 223 is also in a cylindrical structure, a second cushion 229 is circumferentially arranged on the inner wall of the second power output wheel 223, and the second centrifugal block 227 can contact the second cushion 229 to drive the second power output wheel 223 to rotate.

When the driving assembly 3 drives the drum to rotate in the second direction (i.e. reverse direction), the first ratchet wheel 213 cannot rotate, and due to the engagement between the first gear 217 and the second gear 221, the direction-changing wheel shaft 222 is driven by the driving assembly 3 to rotate in the first direction, and the second ratchet wheel 226 is driven to rotate in the first direction by the second pawl 225, when the rotation speed reaches a certain degree, the second centrifugal block 227 gradually overcomes the tension of the second spring 228 and extends out of the second ratchet wheel 226 under the action of centrifugal force, then the second centrifugal block 227 contacts with the second cushion 229, and after a certain pressure is reached, the contact between the second centrifugal block 227 and the second cushion 229 causes the second power output wheel 223 to rotate with the second ratchet wheel 226, the second power output wheel 223 drives the first synchronizing shaft 218 to rotate in the first direction by the second synchronizing shaft 224, the first synchronizing shaft 218 drives the fan 1 to rotate in the first direction, the fan 1 blows air in a first direction.

When the driving assembly 3 drives the drum to rotate in the first direction (i.e. forward rotation), the driving assembly 3 drives the second pawl 225 to rotate in the second direction, at this time, the second pawl 225 and the second ratchet wheel 226 rotate relatively, the second ratchet wheel 226 is in a stationary state, the second centrifugal force cannot overcome the tension of the second spring 228 and extends out of the second ratchet wheel 226, the second power output wheel 223 cannot rotate, and is separated from the second ratchet wheel 226. That is, the driving assembly 3 drives the first power output wheel 211 and the first synchronizing shaft 218 to rotate, so as to rotate the fan 1.

It is understood that the combination of the first pawl 212 and the first ratchet wheel 213, the second pawl 225 and the second ratchet wheel 226 may also adopt a structure similar to a one-way bearing, i.e. a structure capable of realizing a one-way transmission, and then the first centrifugal block 214 and the second centrifugal block 227 are driven to centrifugally extend through the one-way transmission, and finally the fan 1 is driven to rotate.

The output shaft of the driving assembly 3, the first synchronizing shaft 218, the second synchronizing shaft 224 and the direction-changing wheel shaft 222 may be supported by a support bearing 5 so that the components can rotate while being supported.

The invention also provides a clothes dryer which comprises the clutch transmission structure, and the clutch transmission structure can drive the fan 1 to rotate along one direction all the time through the clutch transmission assembly 2, so that the isochronous forward and reverse rotation is realized, and simultaneously, the air volume of the fan 1 is completely the same in the forward and reverse rotation processes of the roller, so that the problem of winding of the clothes dryer is thoroughly solved, the drying time is shortened, the drying uniformity and the drying efficiency are improved, and the cost of the whole clothes dryer is greatly reduced.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A clutch transmission structure, comprising:

a fan (1);

a clutch transmission assembly (2) connected to the fan (1);

one end of the driving component (3) is connected with the clutch transmission component (2) in a driving way, and the other end of the driving component is connected with the roller in a driving way;

the driving component (3) can drive the roller to rotate along the positive and negative directions, and the fan (1) is driven to rotate only along one direction through the clutch transmission component (2).

2. The clutch transmission structure according to claim 1, characterized in that the clutch transmission assembly (2) comprises a first transmission assembly (21) and a second transmission assembly (22), the driving assembly (3) can drive the first transmission assembly (21) and the fan (1) to rotate along a first direction, the driving assembly (3) can drive the second transmission assembly (22) to rotate along a second direction opposite to the first direction, and the second transmission assembly (22) can drive the first transmission assembly (21) to rotate along the first direction.

3. The clutch transmission structure according to claim 2, wherein the first transmission assembly (21) comprises a first ratchet and pawl unit sleeved on the output shaft of the driving assembly (3), a first power output wheel (211) matched with the first ratchet and pawl unit for use, and the first power output wheel (211) is in driving connection with the fan (1);

when the first ratchet and pawl unit rotates along a first direction, the first ratchet and pawl unit contacts and drives the first power output wheel (211) to rotate along the first direction, and when the first ratchet and pawl unit rotates along a second direction, the first ratchet and pawl unit is separated from the first power output wheel (211).

4. The clutch transmission structure according to claim 3, characterized in that the first ratchet-pawl unit comprises a first pawl (212) fixedly sleeved on the output shaft of the driving assembly (3), a first ratchet (213) used with the first pawl (212), and a first centrifugal block (214) radially arranged in the first ratchet (213) and telescopic, wherein a first spring (215) is connected between the first centrifugal block (214) and the first ratchet (213).

5. The clutch transmission structure according to claim 4, characterized in that the first power output wheel (211) is a cylindrical structure, and a first cushion pad (216) is disposed on an inner wall of the first power output wheel (211), and the first centrifugal block (214) can contact the first cushion pad (216) to drive the first power output wheel (211) to rotate.

6. Clutch transmission according to any of claims 3 to 5, wherein the output shaft of the drive assembly (3) is provided with a first gear (217) and the second transmission assembly (22) is provided with a second gear (221) which meshes with the first gear (217).

7. The clutch transmission structure according to claim 6, wherein the second transmission assembly (22) comprises a direction-changing wheel shaft (222) fixedly provided with the second gear (221), a second ratchet-pawl unit sleeved on the direction-changing wheel shaft (222), and a second power output wheel (223) matched with the second ratchet-pawl unit for use, and the second power output wheel (223) can drive the first power output wheel (211) to rotate along a first direction.

8. The clutch transmission structure according to claim 7, characterized in that a first synchronizing shaft (218) connected to the fan (1) is fixedly connected to the first power output wheel (211), a second synchronizing shaft (224) is fixedly connected to the second power output wheel (223), and the second synchronizing shaft (224) is in transmission connection with the first synchronizing shaft (218) through a synchronous belt (4).

9. The clutch transmission structure according to claim 8, characterized in that the second ratchet-pawl unit comprises a second pawl (225) fixedly sleeved on the direction-changing wheel shaft (222), a second ratchet wheel (226) used with the second pawl (225), and a second centrifugal block (227) radially arranged in the second ratchet wheel (226) and telescopic, wherein a second spring (228) is connected between the second centrifugal block (227) and the second ratchet wheel (226).

10. Clothes dryer characterized in that it comprises a clutch transmission according to any one of claims 1 to 9.

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