CN217885856U - Conveying mechanism and soft towel box - Google Patents

Abstract

The embodiment of the utility model provides a relate to intelligent house field, in particular to transport mechanism and soft piece of cloth box, include: first and second friction transmitting means and drive means; the first friction transmission device and the second friction transmission device are arranged oppositely, and a crack for conveying the soft towel is formed between the first friction transmission device and the second friction transmission device; the first friction transmission device and the second friction transmission device are used for frictionally abutting the soft towel; the driving device is connected with the first friction transmission device and/or the second friction transmission device, and the driving device is used for receiving a driving signal and driving the first friction transmission device and/or the second friction transmission device after receiving the driving signal, so that the first friction transmission device and/or the second friction transmission device drives the soft towel to move towards a specified movement direction. Compared with the prior art, the automatic towel discharging device can realize automatic towel discharging of the soft towel, and therefore, the situation that the soft towel in the soft towel consumable is polluted due to human factors can be effectively avoided, and meanwhile, redundant soft towel can be prevented from being discharged from the towel discharging side, and waste of the soft towel in use is avoided.

Description

Conveying mechanism and soft towel box

Technical Field

The embodiment of the utility model provides a relate to intelligent house field, in particular to transport mechanism and gentle piece of cloth box.

Background

The tissue box is used as a container capable of containing wet tissues, dry tissues and cotton soft tissues, and when the tissue box is used, a paper outlet reserved on the box body needs to be broken open, so that a user can continuously draw out the tissues from the box body.

However, the inventor finds that because the tissue box often appears when using, after the front side paper handkerchief that is in the exit slot was taken out, the rear side paper handkerchief did not receive the influence of frictional force when the front side paper handkerchief was taken out again and is taken out to the exit slot by the part, lead to the rear side paper handkerchief still can remain in the box body, lead to the user to need to scratch follow-up paper handkerchief with the hand, the ability continues to use, and this in-process because inside the staff can contact the tissue box, thereby very easily can cause the pollution to the tissue box is inside.

In addition, the inventor also found that after the front tissue at the paper outlet is pulled out, the friction force on the back tissue is often too large when the front tissue is pulled out, or a plurality of tissues are simultaneously taken out due to the folding of the tissues, thereby causing the waste of the tissues in use.

SUMMERY OF THE UTILITY MODEL

The utility model discloses embodiment's aim at designs a transport mechanism and gentle piece of cloth box, can realize going out the piece of cloth automatically, when avoiding leading to the fact the pollution because of the flexible piece of cloth of human factor in to the gentle piece of cloth box, can also avoid unnecessary gentle piece of cloth to be seen off, avoids the waste of gentle piece of cloth when using.

In order to achieve the above object, the present invention provides a conveying mechanism, including:

a first friction transmission device and a second friction transmission device which are arranged opposite to each other and in parallel; a crack for conveying the soft towel is formed between the first friction transmission device and the second friction transmission device, and the first friction transmission device and the second friction transmission device are used for being in friction abutting joint with the soft towel;

and the driving device is connected with the first friction transmission device and/or the second friction transmission device, and is used for receiving a driving signal and driving the first friction transmission device and/or the second friction transmission device after receiving the driving signal, so that the first friction transmission device and/or the second friction transmission device drives the soft towel to move towards a specified movement direction.

Additionally, the utility model provides a soft tissue box, include:

a housing; the shell is provided with a towel outlet side and an accommodating space for installing the soft towel consumables;

the conveying mechanism is used for conveying the soft towel in the soft towel consumable from the towel outlet side;

and the main control module is electrically connected with the driving device of the conveying mechanism and used for outputting a driving signal to the driving device.

The embodiment of the utility model provides an embodiment is for prior art, because the transport mechanism of gentle piece of cloth box includes: the device comprises a first friction transmission device, a second friction transmission device and a driving device, wherein the first friction transmission device and the second friction transmission device are arranged oppositely, and form a crack capable of conveying a soft towel. In addition, because the driving device is connected with the first friction transmission device and/or the second friction transmission device, and meanwhile, the driving device can receive a driving signal output by the main control module of the soft tissue box, and can drive the first friction transmission device and/or the second friction transmission device after receiving the driving signal, so that the soft tissues in the soft tissue consumable material can be sent out from the tissue outlet side of the soft tissue box by the first friction transmission device and the second friction transmission device, the automatic transmission of the soft tissues can be realized, when the soft tissue box is applied, the tissues can be reasonably sent out, the pollution of the soft tissues in the soft tissue consumable material due to human factors is effectively avoided, meanwhile, the redundant soft tissues can be prevented from being sent out from the tissue outlet side, and the waste of the soft tissues in use is avoided.

In addition, the first friction transmission device includes:

the first friction piece can rotate around the first preset axis direction;

the first transmission shaft is coaxially connected with the first friction piece along the first preset axis direction;

the second friction transmission device includes:

the second friction piece can rotate around the second preset axis direction;

the second transmission shaft is coaxially connected with the second friction piece along the second preset axis direction;

the first transmission shaft and/or the second transmission shaft are/is connected with the driving device, and the driving device is used for driving the first friction piece and/or the second friction piece to rotate through the first transmission shaft and/or the second transmission shaft after receiving the driving signal, so that the soft towel is driven to move towards the appointed movement direction.

In addition, the first friction member includes: at least one first friction wheel coaxially connected with the first transmission shaft;

the second friction member includes: at least one second friction wheel coaxially connected with the second transmission shaft.

In addition, the first friction wheel includes:

the first roller body is coaxially connected with the first transmission shaft; the first roller body is provided with a first outer wheel surface around the preset axis direction

The first friction ring is sleeved on the first outer wheel surface of the first roller body and used for being in friction butt joint with the soft towel;

the second friction wheel includes:

the second roller body is coaxially connected with the second transmission shaft; the second roller body is provided with a second outer roller surface around the preset axis direction

And the second friction ring is sleeved on the second outer wheel surface of the second roller body and is used for friction abutting against the soft towel.

In addition, the first friction ring includes: the first inner surface is attached to the first outer wheel surface of the first roller body, and the first outer surface is opposite to the first inner surface; wherein the first outer surface is a rough surface;

the second friction ring includes: the second outer surface is opposite to the second inner surface; wherein the second outer surface is a matte surface.

In addition, the first friction wheels are arranged in a plurality and are arranged at equal intervals along the first preset axial direction;

the second friction wheel is provided with a plurality of second friction wheels, and the second friction wheels are arranged at equal intervals in the direction of the second preset axis.

In addition, the first friction piece is a first friction roller coaxially connected with the first transmission shaft, and the second friction piece is a second friction roller coaxially connected with the second transmission shaft.

In addition, the first rubbing roller includes:

a first roller body coaxially connected with the first transmission shaft; the first roller body is provided with a first outer roller surface around the first preset axial line direction;

the first friction ring is sleeved on the first outer roll surface of the first roll body and used for rubbing and abutting against the soft towel;

the second rubbing roller includes:

the second roller body is coaxially connected with the second transmission shaft; the second roller body is provided with a second outer roller surface around the second preset axis direction;

and the second friction ring is sleeved on the second outer roll surface of the second roll body and is used for friction abutting against the soft towel.

In addition, the first friction ring includes: a first inner surface for engaging the first outer tread of the first roller body, a first outer surface opposite the first inner surface; wherein the first outer surface is a rough surface;

the second friction ring includes: the second outer surface is opposite to the second inner surface; wherein the second outer surface is a matte surface.

In addition, the first friction transmission device is connected with the driving device, and the second friction transmission device is slidable relative to the first friction transmission device; the first friction ring is a first flexible ring, the first friction ring further comprising:

a first water absorbent layer disposed between the first outer surface and the first inner surface;

wherein, the first outer surface of the first friction ring is provided with first micropores for the liquid medium to pass through around the preset axis direction.

In addition, the second friction transmission device is connected with the driving device, and the first friction transmission device is slidable relative to the second friction transmission device; the second friction ring is a second flexible ring, the second friction ring further comprising:

a second water-absorbent layer disposed between the second outer surface and the second inner surface;

and the second outer surface of the second friction ring is distributed with second micropores for the liquid medium to pass through around the preset axial direction.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the figures in which like reference numerals refer to similar elements and which are not to scale unless otherwise specified.

FIG. 1 is a schematic view of the assembly of a first embodiment of the transport mechanism of the present invention in a soft tissue box;

fig. 2 is a schematic structural view of a conveying mechanism according to a first embodiment of the present invention;

fig. 3 is a schematic view of the first friction transmission device and the second friction transmission device in a state of transmitting a soft towel according to the first embodiment of the present invention;

fig. 4 is a schematic structural view of a first friction transmission device and a second friction transmission device according to a first embodiment of the present invention;

fig. 5 is a schematic structural view of a driving device according to a first embodiment of the present invention;

fig. 6 is a schematic structural view of a conveying mechanism according to a second embodiment of the present invention;

fig. 7 is a schematic view of a second embodiment of the present invention, showing the first friction transmission device and the second friction transmission device in a state of transmitting a soft towel;

fig. 8 is a schematic view illustrating a state in which the second friction transmission device is slidable with respect to the first friction transmission device according to a third embodiment of the present invention;

fig. 9 is a schematic view of a state where a first friction transmission device is slidable relative to a second friction transmission device according to a third embodiment of the present invention;

FIG. 10 is a schematic isometric view of a soft tissue box according to a fourth embodiment of the present invention;

fig. 11 is a block diagram of a circuit module of a soft tissue box according to a fourth embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that in various embodiments of the invention, numerous technical details are set forth in order to provide a better understanding of the present application. However, the technical solution claimed in the present application can be implemented without these technical details and various changes and modifications based on the following embodiments.

Example one

A first embodiment of the present invention relates to a transfer mechanism, as shown in fig. 1 and 2, including: a first friction transmission device 1, a second friction transmission device 3 and a drive device 2.

As shown in fig. 3, the first friction transmission device 1 and the second friction transmission device 3 are disposed opposite and parallel to each other, and a slit 200 for conveying the soft tissue 100 is formed between the first friction transmission device 1 and the second friction transmission device 3. In practical use, the first friction transmission device 1 and the second friction transmission device 3 are both abutted against the soft towel 100.

In the present embodiment, as shown in fig. 1 and 2, the driving device 2 is connected to the first friction transmission device 1 and/or the second friction transmission device 3, and is configured to receive a driving signal and to drive the first friction transmission device 1 and/or the second friction transmission device 3 after receiving the driving signal, so that the soft towel 100 is transmitted and moved by the first friction transmission device 1 and/or the second friction transmission device 3.

As apparent from the above description, since the transfer mechanism includes: the device comprises a first friction transmission device 1, a second friction transmission device 3 and a driving device 2, wherein the first friction transmission device 1 and the second friction transmission device 3 are oppositely arranged and form a seam 200 capable of conveying the soft towel 100, the driving device 2 is connected with the second friction transmission device 1 and/or the second friction transmission device 3, the driving device 2 receives a driving signal and drives the first friction transmission device 1 and/or the second friction transmission device 3, and the first friction transmission device 1 and/or the second friction transmission device 3 drives the soft towel 100 to move towards a specified movement direction, so that the automatic conveying of the soft towel 100 can be realized, the artificial interference is avoided, and the condition that the soft towel 100 is polluted in the conveying process due to artificial participation is avoided.

Specifically, in the present embodiment, as shown in fig. 2, the driving device 2 is a motor driving device, and the driving device 2 is connected to the first friction transmission device 1, and, as shown in fig. 2, the first friction transmission device 1 includes: a first friction member and a first drive shaft 12. Wherein the first friction member is rotatable around a first predetermined axis direction and, as shown in connection with fig. 3, is arranged relative to the second friction transmission means 3 and forms a nip 200 with the second friction transmission means 3. Meanwhile, the first transmission shaft 12 is coaxially connected with the first friction member along the first preset axis direction. In addition, the first transmission shaft 12 is further connected with the driving device 2, so that the driving device 2 can drive the first friction member to rotate through the first transmission shaft 12 after receiving the driving signal, and a friction force tangential to and in the same direction as the rotation direction is formed between the first friction member and the soft towel 100, thereby realizing the transmission of the soft towel 100.

Likewise, the second friction transmission means 3 comprise: a second friction member and a second drive shaft 32. Wherein the second friction member is rotatable around a second predetermined axis direction and, as shown in connection with fig. 2, is arranged relative to the first friction transferring means 1 forming a nip 200 with the first friction transferring means 3. Meanwhile, the second transmission shaft 32 is coaxially connected with the second friction member along the second predetermined axial direction. Therefore, in practical applications, when the driving device 2 drives the first friction member to rotate through the first transmission shaft 12, both the first friction member and the second friction member abut against the soft tissue 100, so that the soft tissue 100 can be conveyed under the friction action of the first friction member.

However, as an alternative, the driving device 2 may also be connected to the second transmission shaft 32, so that the driving device 2, after receiving the driving signal, can also drive the second friction member to rotate through the second transmission shaft 32, and at this time, friction force continues to exist between the second friction member and the soft towel 100, thereby realizing the transmission of the soft towel 100.

Further, in the present embodiment, as shown in fig. 3, the first friction member includes: at least one first friction wheel 11 coaxially connected to the first transmission shaft 12. The first friction wheel 11 may be a separate component. Alternatively, the first friction wheel 11 includes: a first roller body 111 and a first friction ring 112. As shown in fig. 3, the first roller body 111 is coaxially connected to the first transmission shaft 12, and the first roller body 111 has a first outer wheel surface 1111 around the predetermined axial direction, and the first friction ring 112 is sleeved on the first outer wheel surface 1111 of the first roller body 111, and the first friction ring 112 is configured to be in frictional contact with the soft tissue 100.

And the corresponding second friction member includes: at least one second friction wheel 31 coaxially connected to the second transmission shaft 32. Also, as shown in connection with fig. 3, the second friction wheel 31 may be a separate component. Alternatively, the second friction wheel 31 includes: a second roller body 311 and a second friction ring 312. As shown in fig. 3, the second roller body 311 is coaxially connected to the second transmission shaft 32, meanwhile, the second roller body 311 has a second outer wheel surface 3111 around the predetermined axial direction, and the second friction ring 312 is sleeved on the second outer wheel surface 3111 of the second roller body 311, and the second friction ring 312 is used for friction-abutting against the soft towel 100.

In addition, in order to enable the first friction wheel 11 or the second friction wheel 12 to rotate, the first friction ring 112 and the second friction ring 312 are used together to realize the delivery of the soft towel 100. As shown in fig. 3, the first friction ring 112 includes: the first outer wheel surface 1111 of the first wheel body 111 is attached to the first inner surface 1121, and the first outer surface 1122 is opposite to the first inner surface 1121, and the first outer surface 1122 is a rough surface. And the corresponding second friction ring 312 includes: abuts against the second inner surface 3121 of the second outer wheel surface 3111 of the second roller body 311, faces the second outer surface 3122 opposite to the second inner surface 3121, and the second outer surface 3122 is another rough surface. Since the first outer surface 1122 and the second outer surface 3122 are rough surfaces, the friction force between the first friction ring 112 and the second friction ring 312 and the soft tissue 100 can be increased, when the first friction wheel 11 or the second friction wheel 31 rotates, the first outer surface 1122 of the first friction ring 112 and the second outer surface 3122 of the second friction ring 312 can jointly abut against the soft tissue 100, and the soft tissue 100 can be conveyed due to the friction force between the first outer surface 1122 or the second outer surface 3122 and the soft tissue 100.

Preferably, in some embodiments, as shown in fig. 5, the driving device 2 may also be connected to the first transmission shaft 12 and the second transmission shaft 32, respectively, so that the driving device 2 can drive the first friction wheel 11 and the second friction wheel 31 to rotate relatively through the first transmission shaft 12 and the second transmission shaft 32, and the second friction member, the first friction member and the soft towel have friction forces in the same direction, so as to increase the friction force received by the soft towel, and the soft towel is more stably and efficiently conveyed.

Specifically, when the driving device 2 is connected to the first transmission shaft 12 and the second transmission shaft 32, respectively, as shown in fig. 5, the driving device 2 includes: the motor assembly 21, a driving gear 22 coaxially connected with a main shaft of the motor assembly 21, a first driven gear 23 coaxially connected with the first transmission shaft 12, a second driven gear 24 coaxially connected with the second transmission shaft 32, and a third driven gear 25 engaged with the driving gear 22, wherein the second driven gear 24 is also engaged with the third driven gear 25. Therefore, as shown in fig. 5, in practical application, after the motor assembly 21 drives the driving gear 22 to rotate, the driving gear 22 and the third driven gear 25 respectively drive the first driven gear 23 and the second driven gear 24 to rotate relatively, so as to realize the relative rotation of the first friction wheel 11 and the second friction wheel 31, and thus realize the transportation of the soft towel 100.

In addition, it is worth mentioning that, in some embodiments, as shown in fig. 4, a plurality of first grooves 1123 are further disposed on the first outer surface 1122 of the first friction ring 112 around the predetermined axial direction, and the first outer surface 1122 of the first friction ring 112 can be made into a granular shape by the first grooves 1123, so that the friction force generated by the first outer surface 1122 on the soft towel 100 when the first friction ring 112 rotates can be further increased, and the conveying mechanism has better soft towel conveying performance. And the second outer surface 3122 of the second friction ring 312 is further provided with a plurality of second grooves 3123 around the preset axial direction, and the second outer surface 3122 of the second friction ring 312 can be granular through each second groove 3123, so that the friction force generated by the second outer surface 3122 to the soft towel 100 when the second friction ring 312 rotates can be further improved, and the conveying mechanism has better soft towel conveying performance.

In addition, in some embodiments, when there are a plurality of first friction wheels 11 and a plurality of second friction wheels 31, as shown in fig. 2, each first friction wheel 11 may be disposed at an equal distance along a first predetermined axis, and each second friction wheel 31 may be disposed at an equal distance along a second predetermined axis, so that a friction force exists between each first friction wheel 11 and each second friction wheel 31 and the soft towel 100 during rotation, and the friction force may be uniformly distributed on the soft towel 100, so that the soft towel 100 is smooth during transportation, and a situation that the soft towel 100 is unevenly stressed during transportation and partially wrinkled is avoided.

As can be seen from the above, the transmission mechanism of the present embodiment is to transport the soft tissue 100 by the friction force generated by the first friction wheel 11 and the second friction wheel 31 on the soft tissue 100, so that the transport mechanism of the present embodiment can transport not only dry soft tissue but also wet soft tissue.

Example two

A second embodiment of the present invention relates to a transfer mechanism, which is substantially the same as the first embodiment, and is mainly different in that, in the first embodiment, a first friction member includes: at least one first friction wheel 11 coaxially connected to a first transmission shaft 12, the second friction member comprising: at least one second friction wheel 31 coaxially connected to the second transmission shaft 32. In the present embodiment, as shown in fig. 6, the first friction member is a first friction roller 13 coaxially connected to the first transmission shaft 12, and the second friction member is a second friction roller 33 coaxially connected to the second transmission shaft 32, so that the driving device 2 can drive the first friction roller 13 and/or the second friction roller 33 to rotate via the first transmission shaft 12 after receiving the driving signal, and the soft tissue 100 is sent out from the tissue outlet side by the friction force generated to the soft tissue 100 by the first friction roller 13 and/or the second friction roller 33 during rotation.

Specifically, in the present embodiment, as shown in fig. 6 and 7, the first rubbing roller 13 includes: a first roller body 131 and a first friction ring 132. The first roller body 131 is coaxially connected to the first transmission shaft 12, the first roller body 131 has a first outer roller surface 1311 around a predetermined axial direction, the first friction ring 132 is sleeved on the first outer roller surface 1311 of the first roller body 131, and the first friction ring 132 is used for abutting against the soft towel 100.

Also, as shown in fig. 6 and 7, the second rubbing roller 33 includes: a second roller body 331 and a second friction ring 332. The second roller body 331 is coaxially connected to the second transmission shaft 32, and the second roller body 331 has a second outer roller surface 3311 around the predetermined axial direction, and the second friction ring 332 is sleeved on the second outer roller surface 3311 of the second roller body 331, and the second friction ring 332 is used for friction-abutting against the soft towel 100.

In addition, in order to enable the first friction roller 13 and the second friction roller 33 to transport the soft towel 100 by means of the first friction ring 132 and the second friction ring 332 when rotating, as shown in fig. 7, the first friction ring 132 includes: the first outer surface 1322 is attached to the first inner surface 1321 and the first outer surface 1322 is opposite to the first inner surface 1321 of the first roller body 131, and the first outer surface 1322 is a rough surface. And the corresponding second friction ring 332 includes: the second outer surface 3322 is attached to the second inner surface 3321 of the second roller body 331 and opposite to the second inner surface 3321, and the second outer surface 3322 is another rough surface. When the first friction roller 13 or the second friction roller 33 rotates, the first outer surface 1322 of the first friction ring 132 and the second outer surface 3322 of the second friction ring 332 may clamp the soft towel 100 together, and the soft towel 100 may be transported by the friction force generated by the first friction ring 132 or the second friction ring 332 to the soft towel 100 during rotation.

In addition, it should be noted that, in the present embodiment, as shown in fig. 7, the first friction roller 13 is formed to extend along a first predetermined axial direction, and at the same time, the second friction roller 33 is formed to extend along a second predetermined axial direction, so that when the first friction roller 13 is matched with the second friction roller 33 to convey the soft tissue 100, the soft tissue 100 can be completely abutted by the first friction roller 13 and the second friction roller 33, so that the friction force between the first friction roller 13 and the soft tissue 100 and the friction force between the second friction roller 33 and the soft tissue 100 can be uniformly distributed on the soft tissue 100, and the soft tissue 100 can be smoothly sent out.

As can be seen from the above, the transmission mechanism of the present embodiment is to transport the soft tissue 100 by the friction force generated by the first friction roller 13 and the second friction roller 33 on the soft tissue 100, so that the transport mechanism of the present embodiment can transport not only dry soft tissue but also wet soft tissue.

EXAMPLE III

The third embodiment of the present invention relates to a transfer mechanism, and is further improved on the basis of the first and second embodiments, and is mainly improved in that, as shown in fig. 8, in this embodiment, the first friction ring 132 and the second friction ring 332 are both flexible rings, and the first friction ring 132 further includes: a first moisture absorbing layer 1323, a first moisture absorbing layer 1323 is disposed between the first outer surface 1322 and the first inner surface 1321. Meanwhile, the first outer surface 1322 of the first friction ring 132 is further provided with first micropores (not labeled) for passing the liquid medium, around the predetermined axial direction.

And the second friction ring 332 further includes: second water-absorbing layer 3323. And, a second water absorbing layer 3323 is disposed between the second outer surface 3322 and the second inner surface 3321. Meanwhile, the second outer surface 3322 of the second friction ring 332 is further distributed with second micropores (not labeled in the figure) for passing the liquid medium around the preset axial direction.

Furthermore, in the present embodiment, as shown in fig. 8, the driving device 2 may be connected to the first transmission shaft 12 of the first friction transmission device 1, while the second friction transmission device 3 is slidable with respect to the first friction transmission device 1. Alternatively, as shown in fig. 9, the driving device 2 may be connected to the first transmission shaft 22 of the second friction transmission device 2, and the first friction transmission device 1 may be slidable with respect to the second friction transmission device 2.

It can be seen that, in practical use, the transported soft tissue 100 is a dry soft tissue, and at the same time, the first water-absorbing layer 1323 and the second water-absorbing layer 3323 are pre-absorbed with liquid medium, and at the same time, since the second friction transmission device 3 is slidable relative to the first friction transmission device 1, as shown in fig. 8, by virtue of the slidable property of the first friction transmission device 1 or the second friction transmission device 3, when it is desired to transport wet soft tissue from the tissue-delivery side of the tissue cassette, the second friction transmission device 3 can be slid to a limit position in the direction toward the first friction transmission device 1, or the first friction transmission device 1 can be slid to a limit position in the direction toward the second friction transmission device 3, so that the nip 200 between the first friction roller 13 and the second friction roller 33 can be minimized, and therefore, when the soft tissue 100 is transported through the nip 200, the first friction roller 13 and the second friction roller 33 can apply a relatively large pressing force to the soft tissue 100, and thus the first water-absorbing layer 1323 and the second water-absorbing layer 3323 can be squeezed out of the wet tissue, respectively, thereby satisfying the user's need. On the contrary, when the dry and soft tissue is required to be sent out from the tissue outlet side of the tissue box, the second friction transmission device 3 can be slid to the extreme position in the direction away from the first friction transmission device 1, or the first friction transmission device 1 can be slid to the extreme position in the direction away from the second friction transmission device 3 to the maximum, so that when the soft tissue 100 is sent out through the slit 200, the first friction roller 13 and the second friction roller 33 can only generate friction force on the soft tissue 100, and cannot generate extrusion force, so that the liquid media in the first water absorption layer 1323 and the second water absorption layer 3323 cannot be extruded, and the use requirement of a user on the dry and soft tissue is met. In some embodiments, the first friction ring 132 may be made of a material having both water absorption and friction functions, so that the use requirement of the wet and soft towel can be satisfied.

Example four

A fourth embodiment of the present invention relates to a soft tissue box, as shown in fig. 10 and 11, including: a housing 4, a cover 5, a transport mechanism as described in the first, second or third embodiment and a master control module 6.

As shown in fig. 10, the housing 4 has a towel outlet side 41, the housing 4 further has a receiving space 42 for installing the towel dispenser 10, and the cover 5 is rotatable relative to the housing 4 for closing the receiving space 42 of the housing 4. Next, as shown in fig. 10, the transport mechanism is used to transport the soft tissue 100 from the tissue exit side 41 within the soft tissue consumable 10.

In addition, in the present embodiment, as shown in fig. 11, the main control module 6 is electrically connected to the driving device 2 of the conveying mechanism, the main control module 6 can be used for outputting a driving signal to the driving device 2, the driving device 2 can receive the driving signal, and after receiving the driving signal, the friction transmission device 1 can be driven to enable the friction transmission device 1 to send out the soft tissue 100 from the tissue outlet side 41 of the housing 4, so as to realize automatic tissue outlet of the soft tissue 100, thereby effectively avoiding pollution to the soft tissue 100 in the soft tissue consumable due to human factors, and simultaneously preventing the redundant soft tissue 100 from being sent out from the tissue outlet side 41, thereby avoiding waste of the soft tissue 100 during use.

In addition, in order to make the first friction transmission device 1 and the second friction transmission device 3 of the conveying mechanism cooperate with each other, a gap 200 can be formed between the first friction transmission device 1 and the second friction transmission device 3, so that the soft tissue 100 in the soft tissue consumable 10 is conveyed.

It will be understood by those skilled in the art that the foregoing embodiments are specific to the implementation of the present invention and that various changes in form and details may be made therein without departing from the spirit and scope of the invention in its practical application.

Claims (12)

1. A transport mechanism, comprising:

a first friction transmission device and a second friction transmission device which are arranged opposite to each other and in parallel; a crack for conveying the soft towel is formed between the first friction transmission device and the second friction transmission device, and the first friction transmission device and the second friction transmission device are used for being in friction abutting joint with the soft towel;

and the driving device is connected with the first friction transmission device and/or the second friction transmission device, and is used for receiving a driving signal and driving the first friction transmission device and/or the second friction transmission device after receiving the driving signal, so that the first friction transmission device and/or the second friction transmission device drives the soft towel to move towards a specified movement direction.

2. The transfer mechanism of claim 1, wherein the first friction transmission comprises:

the first friction piece can rotate around the first preset axis direction;

the first transmission shaft is coaxially connected with the first friction piece along the first preset axis direction;

the second friction transmission device includes:

the second friction piece can rotate around the second preset axis direction;

the second transmission shaft is coaxially connected with the second friction piece along the second preset axis direction;

the first transmission shaft and/or the second transmission shaft are/is connected with the driving device, and the driving device is used for driving the first friction piece and/or the second friction piece to rotate through the first transmission shaft and/or the second transmission shaft after receiving the driving signal so as to drive the soft towel to move towards the appointed movement direction.

3. The transfer mechanism of claim 2, wherein the first friction member comprises: at least one first friction wheel coaxially connected with the first transmission shaft;

the second friction member includes: at least one second friction wheel coaxially connected with the second transmission shaft.

4. The transfer mechanism of claim 3, wherein the first friction wheel comprises:

the first roller body is coaxially connected with the first transmission shaft; the first roller body is provided with a first outer wheel surface around the preset axis direction;

the first friction ring is sleeved on the first outer wheel surface of the first roller body and used for abutting against the soft towel;

the second friction wheel includes:

the second roller body is coaxially connected with the second transmission shaft; the second roller body is provided with a second outer roller surface around the preset axis direction;

and the second friction ring is sleeved on the second outer wheel surface of the second roller body and is used for abutting against the soft towel.

5. The transfer mechanism of claim 4, wherein the first friction ring comprises: the first inner surface is attached to the first outer wheel surface of the first roller body, and the first outer surface is opposite to the first inner surface; wherein the first outer surface is a rough surface;

the second friction ring includes: the second inner surface is attached to the second outer wheel surface of the second roller body, and the second outer surface is opposite to the second inner surface; wherein the second outer surface is a matte surface.

6. The transfer mechanism as claimed in claim 4 or 5, wherein the first friction wheel is provided in plurality and equidistantly arranged along the first predetermined axial direction;

the second friction pulley is equipped with a plurality ofly, and follows axis direction equidistance setting is predetermine to the second.

7. The transfer mechanism of claim 2, wherein the first friction member is a first friction roller coaxially coupled to the first drive shaft and the second friction member is a second friction roller coaxially coupled to the second drive shaft.

8. The transfer mechanism of claim 7, wherein the first friction roller comprises:

a first roller body coaxially connected with the first transmission shaft; the first roller body is provided with a first outer roller surface around the first preset axial line direction;

the first friction ring is sleeved on the first outer roll surface of the first roll body and used for rubbing and abutting against the soft towel;

the second rubbing roller includes:

the second roller body is coaxially connected with the second transmission shaft; the second roller body is provided with a second outer roller surface around the second preset axis direction;

and the second friction ring is sleeved on the second outer roll surface of the second roll body and is used for friction abutting against the soft towel.

9. The transfer mechanism of claim 8, wherein the first friction ring comprises: a first inner surface for engaging the first outer tread of the first roller body, a first outer surface opposite the first inner surface; wherein the first outer surface is a rough surface;

the second friction ring includes: the second outer surface is opposite to the second inner surface; wherein the second outer surface is a matte surface.

10. A transfer mechanism as claimed in claim 5 or 9, wherein the first friction transmission means is connected to the drive means and the second friction transmission means is slidable relative to the first friction transmission means; the first friction ring is a first flexible ring, the first friction ring further comprising:

a first water absorbent layer disposed between the first outer surface and the first inner surface;

wherein, the first outer surface of the first friction ring is provided with first micropores for the liquid medium to pass through around the preset axis direction.

11. A transfer mechanism as claimed in claim 5 or 9, wherein the second friction transmission means is connected to the drive means, the first friction transmission means being slidable relative to the second friction transmission means; the second friction ring is a second flexible ring, the second friction ring further comprising:

a second water-absorbent layer disposed between the second outer surface and the second inner surface;

and the second outer surface of the second friction ring is distributed with second micropores for the liquid medium to pass through around the preset axial direction.

12. A soft tissue box, comprising:

a housing; the shell is provided with a towel outlet side and an accommodating space for installing soft towel consumables;

the transport mechanism of any one of claims 1-11, configured to transport a towel within a towel dispenser from the towel exit side;

and the main control module is electrically connected with the driving device of the conveying mechanism and used for outputting a driving signal to the driving device.

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