JP6764054B1 - Towel dehydration machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To disclose a towel dehydration machine. SOLUTION: The squeezing box is fixedly installed on the ground, a folding chamber is installed in the squeezing box, and an entry groove is continuously installed at the upper end of the folding chamber, and the entry is made. A towel can be put in the groove, a lower end transmission chamber is provided at the lower end of the folding chamber, and an umbrella gear transmission chamber is symmetrically installed at both left and right ends of the lower end transmission chamber, and the symmetrical umbrella is provided. A main transmission component is provided in the gear transmission chamber and the lower end transmission chamber, and the main transmission component controls the linked operation of the entire equipment, whereby the towels are sequentially dehydrated, and the equipment of the present invention has a structure. Easy to use and convenient to use, the device can automatically respond to the presence of the towel and activate further, folding the towel and at the same time pinching the towel tightly. [Selection diagram] Fig. 1

Description

The present invention relates to the field of dehydration, specifically to a towel dehydration machine.

In the high-class hotel restaurant business, considering cleanliness, hot towels are always provided, and demand is extremely high. However, in order to provide customers with a comfortable towel by wiping their hands and mouth, the general procedure is to soak the towel in hot water, remove the towel from the hot water for a while, and squeeze it. Such a method is easy to get burned and takes time because the temperature of hot water is high. To solve the above problems, a considerable amount of automated towel squeezing machines are needed.

Chinese Patent Application Publication No. 1071668885

An object of the present invention is to provide a towel dehydrating machine to compensate for the above-mentioned deficiencies in existing techniques.

The towel dehydration machine of the present invention includes a squeezing box fixedly installed on the ground, a folding chamber is installed in the squeezing box, and an entry groove is installed at the upper end of the folding chamber. The lower end transmission chamber is provided at the lower end of the folding chamber, and the bevel gear transmission chamber is symmetrically installed at the left and right ends of the lower end transmission chamber. A main transmission component is provided in the symmetrical bevel gear transmission chamber and the lower end transmission chamber, and the main transmission component controls the coordinated operation of the entire equipment, and in the folding chamber and the lower end transmission chamber. Is provided with a squeezing part, which can squeeze the towel contained in the squeezing part, fulfills the function of dehydration, and has a left friction chamber located in the squeezing box at the upper end of the bevel gear transmission chamber at the left end. A right friction chamber is provided at the upper end of the bevel gear transmission chamber at the right end, a transmission component is provided in the left friction chamber and the right friction chamber, and the transmission component operates the equipment. Sometimes it can be operated sequentially according to demand, making the operation of the equipment calm and regular, with a gear transmission chamber at the top of the left friction chamber and a loading block chamber at the top of the gear transmission chamber. Folding parts are provided in the gear transmission chamber, the folding chamber, and the loading block chamber, and the upper end of the right friction chamber is a turbine blade located in the drawing box. A chamber is provided, and folding auxiliary parts are provided in the folding chamber, the turbine blade chamber, and the right friction chamber, and the folding auxiliary parts can assist in folding the folding parts. The towel is allowed to enter the drawing component, and the drawing driving component is provided in the right friction chamber.

As a further technical plan, the main transmission component includes a rotary motor planted in the left end wall of the bevel gear transmission chamber at the left end, and the bevel gear transmission on the left side is sequentially connected to the right end of the output shaft of the rotary motor. Lateral, which passes through a chamber, the lower end transmission chamber, the right side bevel gear transmission chamber, and is rotatably connected to the inner wall of the left side bevel gear transmission chamber, the lower end transmission chamber, and the right side bevel gear transmission chamber. The shafts are connected, and passive bevel gears located in the bevel gear transmission chambers on both the left and right sides are symmetrically installed on the horizontal axis so that the throttle component can rotate with the lower end wall of the lower end transmission chamber. A turbine blade transmission block that meshes with the horizontal shaft is fixedly installed on the lower end rotating shaft, and is connected to the upper end of the lower end rotating shaft so as to slide with the throttle box. A threaded push block whose upper end is inserted into the folding chamber is connected by threads, and a stability slider is installed between the left and right end walls of the folding chamber so that the stability slider can be slid. A rotating block is connected to the slider so that it can rotate, an annular gear is fixedly connected to the arcuate end face on the circumferential side of the rotating block, and an insertion chamber opened upward is provided in the rotating block. Installed, the insertion chamber is arranged in a rectangular shape so that a spring fixing chamber communicates with the insertion chamber, and symmetrical pressing blocks are slidably connected between the front and rear end walls of the insertion chamber. One end away from the insertion chamber and the spring fixing chamber are connected by a spring, and the lower end surface of the pressing block comes into contact with the upper end surface of the threaded push block.

As a further technical plan, the transmission component includes a sub-passive bevel gear that meshes with the upper end surface of the passive bevel gear, and the left friction chamber and the right friction chamber are respectively installed at the upper ends of the sub-passive bead gears installed symmetrically. A short shaft inserted into the short shaft is fixedly installed, a spline is fixedly installed on the short shaft, and the left friction chamber or the spline in the right friction chamber is the left friction chamber or the spline, respectively. The left and right end walls of the right friction chamber are engaged with a male screw block connected by a thread, a lower friction block is fixedly installed on the upper end surface of the male screw block, and the left friction chamber is fixedly installed on the upper end of the lower friction block. An upper friction block located within is installed, the folding component includes a torsion spring fixing shaft fixedly installed on the leftmost upper friction block, and the upper end of the torsion spring fixing shaft is of the gear transmission chamber. Inserted inside and fixedly connected to the meshing umbrella gear, a torsion spring is installed between the torsion spring fixing shaft and the upper end wall of the left friction chamber, and the gear is attached to the upper end of the meshing umbrella gear. A vertical bevel gear that can rotate in the transmission chamber meshes, a rolling gear that can rotate in the gear transmission chamber is coaxially connected to the front end of the vertical bevel gear, and a loading block meshes with the upper end of the rolling gear. It is connected, and a stabilizing lever fixedly installed on the left end surface of the loading block chamber is connected to the left end of the loading block so as to slide, and the chamber is fixedly installed in the loading block. A cylinder is planted on the left end wall of the chamber, and a cylinder push block that is slidably connected to the end wall of the chamber is fixedly installed on the right end of the output shaft of the cylinder, and the right end of the cylinder push block. A push lever is installed vertically symmetrically and fixedly, and the right end of the push lever extends out of the right end face of the loading block and is fixedly connected to a slider that can slide in the folding chamber. A fixed lever connected to the slider so as to be slidable is fixedly installed on the right end wall of the loading block, a fixed block is fixedly installed on the right end surface of the fixed lever, and the fixed block is fixedly installed. The folding levers are connected vertically symmetrically and so as to be rotatable, and the swing lever is connected between the folding lever and the slider so as to be rotatable.

As a further technical plan, the folding auxiliary component includes an upper friction block located in the right friction chamber, is inserted into the upper end of the upper friction block while rotating into the turbine blade chamber, and the turbine blade chamber. A torsion spring turbine shaft that is rotatably connected to the upper end wall of the turbine is fixedly installed, and a torsion spring is installed between the torsion spring turbine shaft and the upper end wall of the turbine blade chamber, and the torsion spring turbine is installed. A turbine blade block that is rotatably connected to the right end wall of the turbine blade chamber meshes with the shaft, and a guide lever whose left end is inserted into the folding chamber is threaded at the left end of the turbine blade block. Concatenated,
When in use, the folding auxiliary component assists the folding component to fold and squeeze the towel, and the turbine blade block drives the guide lever to move to the right.

As a further technical plan, the throttle drive component includes a drive gear fixedly installed on the torsion spring turbine shaft, the drive gear is located in the right friction chamber, and the right end of the drive gear is on the right. A passive gear that is rotatably connected to the end wall of the friction chamber meshes, and the passive gear meshes with the annular gear .

The beneficial effect of the present invention is: The equipment of the present invention is simple in structure and convenient to use, and when the towel is left in the device, the device can automatically sense the presence of the towel, further activate, fold the towel and at the same time. The towel is pinched tightly, then rotated to remove the water from the towel, and after the towel is squeezed, the equipment moves in the opposite direction, returning the equipment to its initial position again, making it convenient for the next use and improving the stability of the equipment. Effectively increase.

FIG. 1 is a schematic view of the overall structure of the towel dehydrating machine of the present invention. FIG. 2 is a schematic view of the enlarged structure of FIG. 1A. FIG. 3 is a schematic view of the enlarged structure of FIG. 1B. FIG. 4 is a schematic view of the structure in the CC direction of FIG. FIG. 5 is a schematic view of the structure in the DD direction of FIG.

The present invention will be described in detail with reference to FIGS. 1 to 5 below. For the convenience of communication, the up / down / left / right / front / rear directions described below coincide with the up / down / left / right / front / back directions of the projection relationship in FIG.

As shown in FIGS. 1 to 5, the towel dehydrating machine of the present invention includes a squeezing box 100 fixedly installed on the ground, and a folding chamber 116 is installed in the squeezing box 100, and the folding An approach groove 114 is continuously installed at the upper end of the chamber 116, and a towel 115 can be put in the entry groove 114. A lower end transmission chamber 146 is provided at the lower end of the folding chamber 116, and the lower end thereof. The bevel gear transmission chamber 123 is symmetrically installed at both left and right ends of the transmission chamber 146, and the main transmission component is provided in the symmetrical umbrella gear transmission chamber 123 and the lower end transmission chamber 146, and the main transmission component is provided. The coordinated operation of the entire equipment is controlled, and a squeezing part is provided in the folding chamber 116 and the lower end transmission chamber 146, and the towel contained in the squeezing part can be squeezed to fulfill the function of dehydration. A left friction chamber 108 located in the drawing box 100 is provided at the upper end of the bevel gear transmission chamber 123 at the left end, and a right friction chamber 152 is provided at the upper end of the bevel gear transmission chamber 123 at the right end. Transmission components are provided in the left friction chamber 108 and the right friction chamber 152, and the transmission components can be sequentially operated according to demand when the equipment is operating, so that the operation of the equipment is calm and regulated. A gear transmission chamber 110 is provided at the upper end of the left friction chamber 108, and a loading block chamber 126 is continuously installed at the upper end of the gear transmission chamber 110. The gear transmission chamber 110 and the folding Folding parts are provided in the tatami chamber 116 and the loading block chamber 126, and a turbine blade chamber 119 located in the drawing box 100 is provided at the upper end of the right friction chamber 152, and the folding chamber is provided. Folding auxiliary parts are provided in the 116, the turbine blade chamber 119, and the right friction chamber 152, and the folding auxiliary parts can assist in folding the folding parts, whereby the towel 115 can be moved to the towel 115. A throttle driving component is provided in the right friction chamber 152 so as to enter the throttle component.

As a useful example, the main transmission component includes a rotary motor 101 planted in the left end wall of the bevel gear transmission chamber 123 at the left end, and sequentially at the right end of the output shaft of the rotary motor 101. The left side of the bevel gear transmission chamber 123, the lower end transmission chamber 146, and the right side of the bevel gear transmission chamber 123, and the left side of the bevel gear transmission chamber 123, the lower end transmission chamber 146, and the right side of the bevel gear transmission. A horizontal shaft 136 that is rotatably connected to the inner wall of the chamber 123 is connected, and passive gears 124 located in the bevel gear transmission chamber 123 on both the left and right sides are symmetrically installed on the horizontal shaft 136, respectively. A lower end rotation shaft 135 is included, and the lower end rotation shaft 135 is connected to the lower end wall of the lower end transmission chamber 146 so that the throttle component can rotate. A turbine blade transmission block 142 that meshes with the horizontal shaft 136 is fixed to the lower end rotation shaft 135. A threaded push block 141 whose upper end is slidably connected to the drawing box 100 and whose upper end is inserted into the folding chamber 116 is connected to the upper end of the lower end rotating shaft 135 by a screw thread. A stabilizing slider 137 is slidably installed between the left and right end walls of the folding chamber 116, and a rotating block 139 is connected to the stabilizing slider 137 so as to be rotatable, and the rotating block 139 is connected to the rotating block 139. An annular gear 140 is fixedly connected to the arcuate end surface on the circumferential side, an insertion chamber 150 opened upward is installed in the rotary block 139, and a spring fixing chamber 148 communicates with the insertion chamber 150. A symmetrical pressing block 151 is slidably connected between the front and rear end walls of the insertion chamber 150 so as to be slidably connected to one end of the pressing block 151 that is separated from the insertion chamber 150. It is connected to the spring fixing chamber 148 by a spring, and the lower end surface of the pressing block 151 comes into contact with the upper end surface of the threaded push block 141.

As a useful example, the transmission component includes a sub-passive bevel gear 102 that meshes with the upper end surface of the passive bead gear 124, and the left is at the upper end of the sub-passive bead gear 102 installed symmetrically. A short shaft 103 inserted into the friction chamber 108 and the right friction chamber 152 is fixedly installed, and a spline 104 is fixedly installed on the short shaft 103, and the left friction chamber 108 or the right friction chamber is fixedly installed. A male screw block 105 connected to the left and right end walls of the left friction chamber 108 or the right friction chamber 152 by threads is engaged with the spline 104 in the 152, respectively, and a lower friction block is attached to the upper end surface of the male screw block 105. The 106 is fixedly installed, the upper friction block 107 located in the left friction chamber 108 is installed at the upper end of the lower friction block 106, and the folding part is fixed to the upper friction block 107 at the left end. The torsion spring fixing shaft 109 is included in the torsion spring fixing shaft 109, the upper end of the torsion spring fixing shaft 109 is inserted into the gear transmission chamber 110, and is fixedly connected to the meshing umbrella gear 111. A torsion spring is installed between the left friction chamber 108 and the upper end wall of the left friction chamber 108, and a vertical umbrella gear 112 that can rotate in the gear transmission chamber 110 meshes with the upper end of the meshing umbrella gear 111. A rolling gear 113 that can rotate in the gear transmission chamber 110 is coaxially connected to the front end of the 112, a loading block 127 is meshed and connected to the upper end of the rolling gear 113, and the left end of the loading block 127 is the said. A stabilizing lever 125 fixedly installed on the left end surface of the loading block chamber 126 is connected so as to be slidable, a chamber 153 is fixedly installed in the loading block 127, and the chamber 153 is fixedly installed on the left end wall of the chamber 153. A cylinder 128 is planted, and a cylinder push block 129 that is fixedly connected to the end wall of the chamber 153 so as to be slidably installed at the right end of the output shaft of the cylinder 128 is fixedly installed at the right end of the cylinder push block 129. Is fixed with a slider 131 in which the push lever 130 is vertically symmetrical and fixedly installed, the right end of the push lever 130 extends out of the right end surface of the loading block 127, and is slidable in the folding chamber 116. The slider 13 is connected to the right end wall of the loading block 127. A fixed lever 134 connected so as to slide with 1 is fixedly installed, a fixed block 133 is fixedly installed on the right end surface of the fixed lever 134, and a folding lever 132 is vertically installed on the fixed block 133. It is symmetrically and rotatably connected, and the swing lever 147 is rotatably connected between the folding lever 132 and the slider 131.

As a useful example, the folding auxiliary component includes an upper friction block 107 located in the right friction chamber 152, and the upper end of the upper friction block 107 is rotated to the turbine blade chamber 119. A torsion spring turbine shaft 118 that is inserted and rotatably connected to the upper end wall of the turbine blade chamber 119 is fixedly installed and is located between the torsion spring turbine shaft 118 and the upper end wall of the turbine blade chamber 119. A torsion spring is installed in the turbine blade block 120, and a turbine blade block 120 connected to the right end wall of the turbine blade chamber 119 so as to be rotatable is engaged with the torsion spring turbine shaft 118, and a left end is at the left end of the turbine blade block 120. The guide lever 117 inserted into the folding chamber 116 is connected by threads.
When used, the folding auxiliary component assists the folding component to fold and squeeze the towel 115, and the turbine blade block 120 drives the guide lever 117 to move to the right. ..

As a useful and exemplary example, the throttle drive component comprises a drive gear 121 fixedly installed on the torsion spring turbine shaft 118, the drive gear 121 located in the right friction chamber 152, said. A passive gear 122 that is rotatably connected to the end wall of the right friction chamber 152 meshes with the left end of the main gear 121, and the passive gear 122 meshes with the annular gear 140.

In the present invention, in the initial state, the rotary motor 101 and the cylinder 128 are in the stopped state, and the lower friction block 106 is located at the lower end of the left friction chamber 108 and the right friction chamber 152, whereby the above is described. The configuration can be positioned in the initial position in the initial state and adjusted during subsequent operation, effectively enhancing the operational coordination of the equipment.

When the equipment is operated, one end of the towel 155 is put into the folding chamber 116 from the inside of the entry groove 144 to the bottom, the cylinder 128 is operated, and the cylinder push block 129 is driven to move to the right. The slider 131 moves to the right, whereby the swing lever 147 pushes and moves the folding lever 132, and the towel 115 is folded with the assistance of blocking the guide lever 117. , The rotary motor 101 operates, the horizontal shaft 136 is driven and rotated, the horizontal shaft 136 drives and rotates the turbine blade transmission block 142, and the turbine blade transmission block 142 is the lower end rotation shaft 135. The lower end rotating shaft 135 and the threaded push block 141 connected by a thread are moved upward, and the pressing block 138, the rotating block 139, and the annular gear 140 are moved upward. It is pushed and moved upward by the guidance of the stability slider 137, and the folded towel 115 enters the insertion chamber 150 and is positioned between the pressing blocks 138, and at the same time, the horizontal axis 136 is symmetrical. The passive bevel gear 124 of the above is driven and rotated to rotate the meshed sub passive bevel gear 102, whereby the spline 104 drives and rotates the male screw block 105, whereby the male screw block 105 is rotated. While driving the lower friction block 106 and moving upward to mesh with the upper friction block 107, the upper friction block 107 rotates to drive the torsion spring fixing shaft 109 and the meshing bevel gear 111. Rotated, the vertical bevel gear 112 transmits the motion to the rolling gear 113, the rolling gear 113 drives the loading block 127 and slides to the left to release the folding lever 132 from the towel 115. At the same time, in the right friction chamber 152 at the right end, the upper friction block 107 drives and rotates the torsion spring turbine shaft 118, thereby rotating the turbine blade block 120 that meshes with the torsion spring turbine shaft 118. The guide lever 117 connected to the turbine blade 120 by a thread is driven and slid to the right to be separated from the towel 115, and at the same time, the torsion spring turbine shaft 118 drives and rotates the driving gear 121. , Thereby the driven tooth The passive gear 122 that meshes with the car 121 is rotated, and the annular gear 140 that meshes with the passive gear 122 among the throttle parts in which the passive gear 122 is moving upward is driven and rotated, and the annular gear 140 is rotated. The rotating block 139 is driven and rotated, and the pressing block 138, which is connected so that the rotating block 139 can slide with the rotating block 139, is driven and rotated, and is sandwiched between the pressing blocks 138. The towel 115 is rotated and squeezed up.

The above is just a better example of this practical new model and is not used to limit this practical new model. All modifications, equivalent replacements and improvements made under the significance and principles of this practical new model are included in the scope of protection of this practical new model.

Claims (5)

A foldable chamber is installed in the squeeze box, including a squeeze box fixedly installed on the ground, and an approach groove is continuously installed at the upper end of the foldable chamber. A towel can be put in, and a lower end transmission chamber is provided at the lower end of the folding chamber, and a bevel gear transmission chamber is symmetrically installed at the left and right ends of the lower end transmission chamber to be symmetrical with the bevel gear transmission chamber. wherein in the lower end transmission chamber provided main transmission part, said main transmission element have controlled coordinated operation of the whole equipment, component aperture in said folding chamber and the lower end transmission chamber is provided, The towel contained in the squeezing part can be squeezed and functions as a dehydration. A right friction chamber is provided at the upper end of the transmission chamber, a transmission component is provided in the left friction chamber and the right friction chamber, and the transmission component operates sequentially according to demand when the equipment is in operation. The operation of the equipment can be calm and regularized, a gear transmission chamber is provided at the upper end of the left friction chamber, and a loading block chamber is continuously installed at the upper end of the gear transmission chamber. Folding parts are provided in the transmission chamber, the folding chamber, and the loading block chamber, and a turbine blade chamber located in the drawing box is provided at the upper end of the right friction chamber, and the folding. Folding auxiliary parts are provided in the chamber, the turbine blade chamber, and the right friction chamber, and the folding auxiliary parts can assist in folding the folding parts, whereby the towel can be used as the drawing part. A towel dewatering machine characterized in that a throttle driving component is provided in the right friction chamber. The main transmission component includes a rotary motor planted in the left end wall of the bevel gear transmission chamber at the left end, and the bevel gear transmission chamber on the left side and the lower end transmission are sequentially connected to the right end of the output shaft of the rotary motor. A horizontal axis that is rotatably connected to the inner wall of the chamber, the bevel gear transmission chamber on the right side, and the bevel gear transmission chamber on the left side, the lower end transmission chamber, and the bevel gear transmission chamber on the right side is connected. Passive gears located in the bevel gear transmission chambers on both the left and right sides are symmetrically installed on the horizontal axis, and the lower end is connected so that the drawing component can rotate with the lower end wall of the lower end transmission chamber. A turbine blade transmission block that includes a rotating shaft and meshes with the horizontal shaft is fixedly installed on the lower end rotating shaft, is connected to the upper end of the lower end rotating shaft so as to slide with the drawing box, and the upper end is said. A threaded push block to be inserted into the folding chamber is connected by threads and installed so that a stabilizing slider can slide between the left and right end walls of the folding chamber, and inside the stabilizing slider. The rotating blocks are connected so as to be rotatable, an annular gear is fixedly connected to the arcuate end surface on the circumferential side of the rotating block, and an insertion chamber opened upward is installed in the rotating block, and the insertion is performed. A spring fixing chamber is arranged in a rectangular shape in the chamber so as to communicate with each other, and symmetrical pressing blocks are slidably connected between the front and rear end walls of the insertion chamber, and the pressing blocks are separated from the insertion chamber. The towel dehydration according to claim 1, wherein the lower end surface of the pressing block is in contact with the upper end surface of the threaded push block, and the one end thereof and the spring fixing chamber are connected by a spring. Machine. The transmission component includes a sub-passive bevel gear that meshes with the upper end surface of the passive bevel gear, and is inserted into the left friction chamber and the right friction chamber at the upper ends of the sub-passive bead gears installed symmetrically, respectively. A short shaft is fixedly installed, a spline is fixedly installed on the short shaft, and a spline in the left friction chamber or the right friction chamber is of the left friction chamber or the right friction chamber, respectively. The male screw blocks connected by the left and right end walls and the threads mesh with each other, and the lower friction block is fixedly installed on the upper end surface of the male screw block, and the lower friction block is located in the left friction chamber at the upper end of the lower friction block. An upper friction block is installed, the folding component comprises a torsion spring fixing shaft fixedly installed on the leftmost upper friction block, and the upper end of the torsion spring fixing shaft is inserted into the gear transmission chamber. Further, it is fixedly connected to the meshing umbrella gear, a torsion spring is installed between the torsion spring fixing shaft and the upper end wall of the left friction chamber, and the upper end of the meshing umbrella gear is in the gear transmission chamber. A rotatable vertical bevel gear meshes, a rolling gear that can rotate in the gear transmission chamber is coaxially connected to the front end of the vertical bevel gear, and a loading block is meshed and connected to the upper end of the rolling gear to be connected to the loading. A stabilizer lever fixedly installed on the left end surface of the loading block chamber is connected to the left end of the block so as to be slidable, and a chamber is fixedly installed in the loading block on the left end wall of the chamber. A cylinder is planted, a cylinder push block that is fixedly connected to the end wall of the chamber so as to slide is installed at the right end of the output shaft of the cylinder, and a push lever is fixedly installed at the right end of the cylinder push block. Vertically symmetrical and fixedly installed, the right end of the push lever extends out of the right end face of the loading block and is fixedly connected to a slider that can slide in the folding chamber of the loading block. A fixed lever that is fixedly connected to the slider on the right end wall is fixedly installed, a fixed block is fixedly installed on the right end surface of the fixed lever, and a folding lever is vertically installed on the fixed block. The towel dehydrating machine according to claim 2, wherein the folding lever and the slider are connected symmetrically and rotatably, and a swing lever is rotatably connected between the folding lever and the slider. The folding auxiliary component includes an upper friction block located in the right friction chamber, is inserted into the upper end of the upper friction block while rotating into the turbine blade chamber, and rotates with the upper end wall of the turbine blade chamber. A torsion spring turbine shaft connected so as to be possible is fixedly installed , a torsion spring is installed between the torsion spring turbine shaft and the upper end wall of the turbine blade chamber, and the turbine is installed on the torsion spring turbine shaft. A turbine blade block that is rotatably connected to the right end wall of the blade chamber is engaged, and a guide lever whose left end is inserted into the folding chamber is connected to the left end of the turbine blade block by a thread.
When used, the folding auxiliary part is characterized in that the turbine blade block drives the guide lever to move to the right when it is necessary to assist the folding part to fold and squeeze the towel. The towel dehydration machine according to claim 1. The throttle drive component includes a drive gear fixedly installed on the torsion spring turbine shaft, the drive gear is located in the right friction chamber, and the left end of the drive gear is an end wall of the right friction chamber. The towel dehydration machine according to claim 2, wherein passive gears that are rotatably connected to the passive gears mesh with each other, and the passive gears mesh with the annular gear .