CN111778656B - Yarn steaming machine for linen-like yarns - Google Patents

Abstract

The utility model belongs to the technical field of the technique of yarn processing equipment and specifically relates to a evaporate yarn machine for imitative numb yarn is related to, and it is including evaporating a section of thick bamboo and rack, evaporates and installs sealing door and relief valve on the section of thick bamboo, evaporates and is equipped with a plurality of steam pipes in the section of thick bamboo, and the steam pipe links to each other with outside steam pipe, and the rack includes the bottom plate, is equipped with annular conveying assembly and support on the bottom plate, is equipped with a plurality of montants on the annular conveying assembly, is equipped with the slope slide on the support, and the low side department of slope slide is equipped with the mouth and the upset subassembly that drops. A worker puts the cone yarn into the inclined slideway, the cone yarn rolls downwards in the inclined slideway and drops from the dropping port, and the turning assembly enables the dropped cone yarn to be turned and sleeved on the vertical rod; after the vertical rods are sleeved with the full cone yarns, the annular conveying assembly drives the vertical rods sleeved with the full cone yarns to move, and the empty vertical rods are driven to move to the position below the falling port to continue to feed the cone yarns. This application has improved the machining efficiency of section of thick bamboo yarn.

Description

Yarn steaming machine for linen-like yarns

Technical Field

The application relates to the technical field of yarn processing equipment, in particular to a yarn steaming machine for linen-like yarns.

Background

The traditional hemp mixed yarn is generally spun by hemp fibers such as ramie, flax, jute and the like, and has certain antibacterial, moisture absorption and sweat releasing functions. Before the linen-like yarn is woven, a steaming process is usually required to be carried out firstly so as to heat and shape the yarn; after the yarns are woven into the cloth, the shrinkage rate of the cloth in the washing process is reduced, and meanwhile, the fibers can be hardened after being heated, so that the strength of the yarns can be improved after the yarns are cooked.

The steaming process of the prior linen-like yarn is as follows: the montant of rack is established to the cover one by one around the section of thick bamboo yarn that forms by the yarn, puts into the section of thick bamboo that evaporates with the rack again, closes the sealing door on the section of thick bamboo afterwards, cooks the section of thick bamboo yarn through the steam pipe in the section of thick bamboo that evaporates to carry out the pressure release through the relief valve on the section of thick bamboo that evaporates.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: because of the bottom area of rack is big, the workman stands on the montant that each position of rack will unable to be established the cover one by one with the section of thick bamboo yarn in same position, so the workman need walk around the rack and move, and the section of thick bamboo yarn also needs the workman to carry, and the material loading speed is slow, has influenced the machining efficiency of section of thick bamboo yarn, consequently needs to improve.

Disclosure of Invention

In order to improve the machining efficiency of section of thick bamboo yarn, this application provides a evaporate yarn machine for imitative numb yarn.

The application provides a evaporate yarn machine for imitative numb yarn adopts following technical scheme: the utility model provides a evaporate yarn machine for imitative numb yarn, including evaporating a section of thick bamboo and rack, install sealing door and relief valve on the section of thick bamboo, be equipped with a plurality of steam pipes in the section of thick bamboo that evaporates, the steam pipe links to each other with outside steam pipe, the rack includes the bottom plate, be equipped with annular conveying component and support on the bottom plate, be equipped with a plurality of montants that supply section of thick bamboo yarn slip cap to establish on the annular conveying component, be equipped with on the support and supply the rolling slope slide of section of thick bamboo yarn, the low side department of slope slide is equipped with the mouth that drops that is located the montant top and makes the upset subassembly on establishing the montant from the section of thick bamboo yarn upset cover that drops that the mouth and drop.

By adopting the technical scheme, in the process of feeding the cone yarns, the annular conveying assembly drives the vertical rod to move to the position below the falling port, the cone yarns are placed into the inclined slide way by a worker, the cone yarns roll downwards in the inclined slide way and fall from the falling port, and the falling cone yarns are enabled to be overturned and sleeved on the vertical rod by the overturning assembly; after the vertical rods are fully sleeved with the cone yarns, the annular conveying assembly drives the vertical rods sleeved with the cone yarns to move, and the empty vertical rods are driven to move to the position below the falling port. So the workman only need stand in slope slide department to in putting into the slope slide with the section of thick bamboo yarn, can make all overlap full section of thick bamboo yarn on all montants, and need not to walk around the rack, and need not to aim at the montant cover with the section of thick bamboo yarn and establish, the material loading of the section of thick bamboo yarn of being convenient for has improved the machining efficiency of section of thick bamboo yarn.

Preferably, the overturning assembly comprises an adjusting rod which is positioned in the falling port and arranged on the inclined slideway, and the adjusting rod is parallel to the radial direction of the cone yarn.

Through adopting above-mentioned technical scheme, when the section of thick bamboo yarn when dropping from the mouth that drops, the outside of section of thick bamboo yarn will be contradicted in adjusting the pole, because of adjusting the central point that the pole is not in the section of thick bamboo yarn and putting, so the section of thick bamboo yarn will overturn and the cover is established the montant dropping the in-process, the material loading of the section of thick bamboo yarn of being convenient for.

Preferably, the wall of the opening of the falling opening is provided with two groups of sliding grooves for the two ends of the adjusting rod to be embedded in a sliding manner, the adjusting rod is provided with two groups of nuts in threaded fit, and the nuts are abutted against the wall of the falling opening.

By adopting the technical scheme, the position of the adjusting rod in the dropping opening can be changed by sliding the adjusting rod in the sliding groove, so that the adjusting rod can promote the cone yarns with different outer diameters to be overturned and sleeved on the vertical rod; when the nut is rotated to support tightly in the mouthful wall that drops the mouth, adjust the pole and will be fixed by the locking, guaranteed to adjust the stability of pole in the use.

Preferably, the inclined slideway is arranged in a U shape, a closing plate is fixed at the lower end of the inclined slideway, and a blocking component is arranged on the inclined slideway; the stopping assembly comprises a rotating plate connected to the upper side of the inclined slide way through a rotating shaft, a first baffle fixed on the rotating plate and a first step motor driving the rotating plate to rotate and enter the inclined slide way, a driven gear is fixedly sleeved outside the rotating shaft, the first step motor is fixed on the inclined slide way, a driving gear is fixedly sleeved on an output shaft of the first step motor, and the driving gear is meshed with the driven gear.

By adopting the technical scheme, when the annular conveying assembly drives the empty vertical rod to move to the position below the falling opening, the first stepping motor drives the driving gear to rotate, the driving gear drives the driven gear and the rotating shaft to rotate, and the rotating plate drives the first baffle plate to rotate and enter the inclined slide way; can put into the slope slide with the workman this moment and prepare material in, first baffle will block the section of thick bamboo yarn for the unable motion of section of thick bamboo yarn is to the department that drops.

After the empty montant moved to the below of the mouth that drops, first step motor will drive driving gear reverse rotation, and driven gear, pivot and rotor plate will link, and first baffle will rotate and break away from in the section of thick bamboo yarn, and the section of thick bamboo yarn will roll downwards and from the mouth that drops upset cover establish on the montant. The setting of first baffle for the workman can prepare material at the in-process of montant motion, thereby has improved the material loading speed of section of thick bamboo yarn.

Preferably, a second baffle is fixed on the rotating plate, the first baffle and the second baffle are respectively arranged at two ends of the rotating plate, and the rotating shaft is arranged in the middle of the rotating plate.

By adopting the technical scheme, after the empty vertical rod moves to the position below the falling port, the first stepping motor drives the driving gear to rotate, the first baffle plate rotates to separate the cone yarns in the inclined slide way, the second baffle plate rotates to enter the inclined slide way, and the cone yarns between the first baffle plate and the second baffle plate fall from the falling port and turn over the vertical rod; in the falling process of the cheese, the worker can put the cheese into the inclined slideway for preparing materials, and the part of the cheese is blocked by the second baffle.

When the empty vertical rod moves to the process below the falling opening, the first stepping motor drives the driving gear to rotate, the second baffle plate rotates to be separated from the cone yarns, the first baffle plate rotates to enter the inclined slide way, and the cone yarns blocked by the second baffle plate roll downwards and are blocked by the first baffle plate.

If the worker only prepares the cone yarns in the movement process of the vertical rod, the worker possibly cannot put the designated number of cone yarns into the inclined slideway, so that the time for fully covering the vertical rod with the cone yarns is prolonged; and the setting of second baffle for the workman can all carry out the prepareeing material of section of thick bamboo yarn at the in-process that the section of thick bamboo yarn upset dropped and the motion process of montant, so the workman possess more time and put into the slope slide with the section of thick bamboo yarn of appointed quantity, has guaranteed the time of the full section of thick bamboo yarn of cover on the montant, has improved the material loading speed of section of thick bamboo yarn.

Preferably, the device further comprises an induction assembly, wherein the induction assembly comprises an infrared sensor and a processor, the infrared sensor is used for sensing the vertical rod below the falling port and emitting signals, and the processor is used for receiving the signals emitted by the infrared sensor and controlling the first stepping motor to work.

Through adopting above-mentioned technical scheme, when the montant moved to the position that supplies section of thick bamboo yarn upset cover to establish, infrared sensor will sense the montant and to treater transmitting signal, the treater will receive infrared sensor's signal and control first step motor work, first step motor will drive the pivot rotation, make first baffle rotate the section of thick bamboo yarn that breaks away from in the slope slide, and make the second baffle rotation enter into the slope slide in, section of thick bamboo yarn between first baffle and the second baffle will roll downwards and the upset cover is established on the montant this moment, and the workman can be put into the slope slide with section of thick bamboo yarn and prepare material, this part section of thick bamboo yarn will be blockked by the second baffle.

Drive the montant motion of the full section of thick bamboo yarn of cover when annular conveying component, and make empty montant motion to the in-process that drops a mouthful below, infrared sensor will unable sense the montant, infrared sensor will be to treater transmitted signal this moment, the treater will receive infrared sensor's signal and control first step motor work, first step motor will drive the pivot rotatory, make in first baffle is rotatory to enter into the slope slide, and make the second baffle break away from in a section of thick bamboo yarn, the event is stopped a section of thick bamboo yarn that the second baffle blocks and will roll downwards and blockked by first baffle, so that section of thick bamboo yarn upset cover is established on the montant.

The infrared sensor and the processor are arranged, so that the automatic movement of the first baffle and the second baffle is realized, and the preparation and the feeding of the cone yarn are facilitated.

Preferably, the support slides and connects in the bottom plate, and the slope slide rotates through the rotating turret and connects in the support, is equipped with on the support to be used for the locking subassembly fixed with the rotating turret locking, is equipped with the district of accomodating that is used for accomodating support and slope slide on the bottom plate.

By adopting the technical scheme, when the placing rack needs to be placed into the steaming drum, the support is positioned in the containing area, and then the inclined slide way is transferred into the containing area, so that the overall volume of the support, the inclined slide way and the placing rack can be reduced; because the whole volumes of the bracket, the inclined slide way and the placing frame are matched with the internal volume of the steaming drum, the bracket, the inclined slide way and the placing frame with larger volumes can be used, more cone yarns can be placed on the placing frame, and the processing efficiency of the cone yarns is improved; the locking assembly can lock and fix the rotating frame, and the stability of the bracket and the inclined slideway is ensured.

Preferably, first locking component is including seting up the thread groove on the rotating turret, and thread groove female thread fit has the bolt, sets up two joint grooves that supply the rotatory card of bolt to go into on the support.

By adopting the technical scheme, after the bolt is rotationally clamped into the clamping groove, the falling port is positioned above the vertical rod, so that the cone yarn in the inclined slideway can be overturned and sleeved on the vertical rod; after the bolt is clamped into the other clamping groove in a rotating mode, the inclined slide way is stored in the storage area, and storage of the inclined slide way is achieved.

To sum up, this application includes following beneficial technological effect:

1. due to the arrangement of the conveying and conveying assembly, the inclined slide way and the overturning assembly, workers only need to stand at the inclined slide way and place the cone yarns into the inclined slide way, so that all the vertical rods can be fully sleeved with the cone yarns without walking around the placing frame, the cone yarns do not need to be sleeved with the vertical rods, the feeding of the cone yarns is facilitated, and the processing efficiency of the cone yarns is improved;

2. due to the arrangement of the blocking assembly, the bobbin yarns can be prepared by workers in the process that the bobbin yarns turn over and fall and the motion process of the vertical rod, so that the workers have more time to put the designated number of the bobbin yarns into the inclined slide way, the time for covering the vertical rod with the bobbin yarns is ensured, and the feeding speed of the bobbin yarns is improved;

3. the induction assembly is arranged, so that the first baffle plate and the second baffle plate can automatically move, and the bobbin yarn can be conveniently prepared and fed;

4. accomodate the setting in district for this application can use more bulky support, slope slide and rack, can place more section of thick bamboo yarns on the rack, has improved the machining efficiency of section of thick bamboo yarn.

Drawings

FIG. 1 is a schematic diagram of the overall structure in the embodiment of the present application;

FIG. 2 is a schematic diagram showing the structure of a placing rack and an inclined slide in the embodiment of the application;

FIG. 3 is a schematic structural view showing a bracket and an inclined ramp in an embodiment of the present application;

FIG. 4 is a schematic cross-sectional view of an embodiment of the present application showing a tilt ramp;

figure 5 is a schematic illustration of an explosive structure showing a bracket and inclined ramp in an embodiment of the present application.

Reference numerals are as follows: 1. steaming the barrel; 11. a sealing door; 12. a pressure relief valve; 13. a steam pipe; 14. a second fixing bar; 2. placing a rack; 21. a base plate; 22. an annular delivery assembly; 221. a chain; 222. a sprocket; 223. a second stepping motor; 23. a vertical rod; 24. a roller; 241. an annular groove; 25. a tray; 26. a control button; 27. a storage area; 3. pushing a cart; 31. a vehicle body; 32. a first fixing lever; 33. a wheel; 34. pushing a hand; 4. a support; 5. inclining the slideway; 51. a closing plate; 52. a drop port; 53. a chute; 54. a rotating frame; 6. turning over the assembly; 61. adjusting a rod; 62. a nut; 7. a blocking component; 71. a rotating shaft; 72. a rotating plate; 73. a first stepper motor; 74. a first baffle; 75. a second baffle; 76. a driven gear; 77. a driving gear; 8. a sensing component; 81. an infrared sensor; 82. a processor; 9. a locking assembly; 91. a thread groove; 92. a bolt; 93. a clamping groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses a yarn steaming machine for linen like yarns. As shown in fig. 1, a yarn steaming machine for linen-like yarns comprises a steaming cylinder 1, a placing frame 2 and a cart 3, wherein a sealing door 11 is hinged on the steaming cylinder 1, a pressure release valve 12 is installed on the steaming cylinder, a plurality of steam pipes 13 are arranged in the steaming cylinder 1, and the steam pipes 13 are connected with an external hot air pipe. In the processing process of the cone yarns, the placing rack 2 is placed on the trolley 3, workers place the cone yarns on the placing rack 2 one by one, the trolley 3 pushes the placing rack 2 to the position of the steaming cylinder 1, and the workers push the placing rack 2 into the steaming cylinder 1; when the steam cylinder 1 is closed by the sealing door 11, the steam pipe 13 sprays steam to cook the cheese.

As shown in fig. 1, the placing rack 2 comprises a bottom plate 21, an annular conveying assembly 22 is arranged on the bottom plate 21, a plurality of vertical rods 23 are arranged on the annular conveying assembly 22, the cone yarns are sleeved outside the corresponding vertical rods 23 one by one, and a plurality of rollers 24 are arranged on the lower surface of the bottom plate 21; the cart 3 comprises a cart body 31, two first fixing rods 32 are fixed on the cart body 31, two second fixing rods 14 are fixed on the inner wall of the steaming cylinder 1, and the first fixing rods 32 and the second fixing rods 14 correspond to each other and extend along the horizontal direction. The rollers 24 can be rolled on the first fixing bar 32 and the second fixing bar 14 so that the worker pushes the placing frame 2 into the steaming basket 1.

As shown in fig. 1 and 2, the side wall of the roller 24 is provided with an annular groove 241, and the upper parts of the first fixing rod 32 and the second fixing rod 14 are both located in the annular groove 241, so that the stability of the rack 2 when being pushed is ensured; the bottom of the vehicle body 31 is provided with a plurality of wheels 33, which is convenient for the vehicle body 31 to move; a pushing handle 34 is fixed on the side of the vehicle body 31 to facilitate pushing of the vehicle body 31.

As shown in fig. 2, the endless conveyor assembly 22 includes a chain 221, eight chain wheels 222 and a second stepping motor 223, the chain 221 is arranged in a "concave" shape and engaged with the chain wheels 222, the chain wheels 222 are rotatably connected to the base plate 21, the second stepping motor 223 is fixed at the bottom of the base plate 21, and an output shaft of the second stepping motor 223 is fixedly embedded in one of the chain wheels 222. When the second stepping motor 223 is started, the chain wheel 222 drives the chain 221 to move, and the chain 221 drives the vertical rod 23 to move, so that a worker can sleeve the yarns on all the vertical rods 23 one by one only by standing at the same position.

The diameter of the vertical rod 23 is smaller than the inner diameter of the cone yarn so as to facilitate the sleeving of the cone yarn; the tray 25 is fixedly sleeved outside the vertical rod 23 and used for supporting the cone yarn on the vertical rod 23 so as to prevent the cone yarn from being damaged due to contact with the chain 221.

As shown in fig. 2, a support 4 is arranged on the bottom plate 21, an inclined slideway 5 is arranged on the support 4, the inclined slideway 5 is arranged in a U shape, and one end of the inclined slideway 5, which is far away from the support 4, is a high end for putting in the cone yarn.

As shown in fig. 3, a closing plate 51, a dropping opening 52 located above the vertical rod 23 and the turning assembly 6 are arranged at the lower end of the inclined chute 5, and the dropping opening 52 penetrates through the bottom and one side of the inclined chute 5; the overturning assembly 6 comprises an adjusting rod 61 positioned in the drop opening 52 and arranged on the inclined slideway 5, the adjusting rod 61 is parallel to the radial direction of the cheese. When the cone yarn rolls downward and abuts against the closing plate 51, the cone yarn falls from the falling port 52, and the adjusting rod 61 is not located at the center of the cone yarn, so that the cone yarn can be overturned and sleeved on the vertical rod 23 in the falling process, and the feeding of the cone yarn is facilitated.

As shown in fig. 4, two sets of sliding grooves 53 are formed in the wall of the drop opening 52, and two ends of the adjusting rod 61 are respectively slidably inserted into the sliding grooves 53, so that the adjusting rod 61 can slide in the sliding grooves 53, and the position of the adjusting rod 61 in the drop opening 52 can be changed, so that the adjusting rod 61 can drive the yarns with different outer diameters to be overturned and sleeved on the vertical rod 23; the adjusting rod 61 is provided with two sets of nuts 62 in a threaded fit mode, and the nuts 62 abut against the opening wall of the falling opening 52, so that the adjusting rod 61 is locked and fixed, and the stability of the adjusting rod 61 in the using process is guaranteed.

As shown in fig. 4, a blocking assembly 7 is arranged on the inclined slideway 5, the blocking assembly 7 comprises a rotating plate 72 which is rotatably connected to the upper side of the inclined slideway 5 through a rotating shaft 71 and a first stepping motor 73 which is fixed on the inclined slideway 5, the rotating shaft 71 is arranged in the middle of the rotating plate 72, and a first baffle 74 and a second baffle 75 are respectively fixed at two ends of the rotating plate 72; a driven gear 76 is fixedly sleeved outside the rotating shaft 71, a driving gear 77 is fixedly sleeved on an output shaft of the first stepping motor 73, and the driving gear 77 is meshed with the driven gear 76.

As shown in fig. 1 and 3, the bracket 4 is provided with a sensing assembly 8, the sensing assembly 8 includes an infrared sensor 81 fixed on the bracket 4 and a processor 82 fixed outside the steaming cylinder 1, the bracket 4 is fixed with a control button 26, and both the infrared sensor 81 and the control button 26 are electrically connected to the processor 82.

As shown in fig. 1 and fig. 3, when the vertical rod 23 moves to a position where the cone yarn is turned over and sleeved, the infrared sensor 81 will sense the vertical rod 23 and transmit a signal to the processor 82, and the processor 82 will receive the signal of the infrared sensor 81 and control the first stepping motor 73 to operate; the first stepping motor 73 drives the driving gear 77 to rotate by a certain angle, the driving gear 77 drives the driven gear 76, the rotating shaft 71 and the rotating plate 72 to rotate, so that the first baffle 74 rotates to separate from the cheese in the inclined slideway 5, the second baffle 75 rotates to enter the inclined slideway 5, and the cheese between the first baffle 74 and the second baffle 75 rolls downwards and is sleeved on the vertical rod 23 from the falling port 52 in a turning manner; in the falling process of the cheese, the worker can put the cheese into the inclined chute 5 for preparation, and the section of the cheese is blocked by the second baffle 75.

As shown in fig. 2 and fig. 3, when the vertical rod 23 is fully covered with the cone yarn, the control button 26 is pressed, the control button 26 transmits a signal to the processor 82, the processor 82 receives the signal from the control button 26 and controls the second stepping motor 223 to work, the second stepping motor 223 rotates the sprocket 222 by a certain angle, and the chain 221 drives the empty vertical rod 23 to move below the dropping opening 52. At this time, the infrared sensor 81 cannot sense the vertical rod 23, the infrared sensor 81 transmits a signal to the processor 82, and the processor 82 receives the signal of the infrared sensor 81 and controls the first stepping motor 73 to work; as shown in fig. 4, the first stepping motor 73 drives the driving gear 77 to rotate a certain angle, and the driving gear 77 drives the driven gear 76, the rotating shaft 71 and the rotating plate 72 to rotate, so that the first barrier 74 rotates into the inclined chute 5, and the second barrier 75 is separated from the yarn package, so that the yarn package blocked by the second barrier 75 rolls downward and is blocked by the first barrier 74.

When the second stepping motor 223 drives the empty vertical rod 23 to move to the lower part of the falling port 52, the second stepping motor 223 automatically closes, the infrared sensor 81 detects the vertical rod 23 and transmits a signal to the processor 82 at the moment, the bobbin yarn blocked by the first baffle 74 can be overturned and sleeved on the vertical rod 23, and the feeding efficiency of the bobbin yarn is improved. And the worker can prepare materials for the cone yarns in the process that the cone yarns fall in a turnover mode and the motion process of the vertical rod 23, so that the worker has more time to place the cone yarns with the specified quantity into the inclined slideway 5, the time for covering the vertical rod 23 with the cone yarns is ensured, and the feeding speed of the cone yarns is increased.

As shown in fig. 2 and 3, the bottom plate 21 is provided with a storage area 27 for storing the rack 4 and the inclined chute 5, and the inclined chute 5 is rotatably connected to the rack 4 by a rotating frame 54.

As shown in fig. 5, the bracket 4 is provided with a locking assembly 9 for locking and fixing the rotating frame 54. When the placing frame 2 needs to be placed into the steaming drum 1, the support 4 is located in the containing area 27, and then the inclined slide way 5 is rotated into the containing area 27, so that the overall volume of the support 4, the inclined slide way 5 and the placing frame 2 can be reduced; because of the whole volume of support 4, inclined slideway 5 and rack 2 is adapted to the inside volume of a section of thick bamboo 1, so this application can use more bulky support 4, inclined slideway 5 and rack 2, can place more section of thick bamboo yarns on the rack 2, has improved the machining efficiency of section of thick bamboo yarn.

As shown in fig. 5, the locking assembly 9 includes a threaded groove 91 formed on the rotating frame 54, a bolt 92 is screwed into the threaded groove 91, and two locking grooves 93 for the bolt 92 to be rotatably inserted are formed on the bracket 4. In the process of feeding the cone yarns, after the bolt 92 is rotationally clamped into one clamping groove 93, the falling port 52 is positioned above the vertical rod 23, so that the cone yarns in the inclined slide way 5 are overturned and sleeved on the vertical rod 23; before the placing frame 2 enters the steaming barrel 1, after the bolt 92 is rotationally clamped into the other clamping groove 93, the inclined slide way 5 is stored in the storage area 27, so that the inclined slide way 5, the support 4 and the placing frame 2 enter the steaming barrel 1.

The yarn steaming machine for the linen-like yarn in the embodiment of the application has the following implementation principle: in the process of loading the cone yarns, the support 4 is moved firstly so that the falling port 52 of the inclined slideway 5 is positioned above the vertical rod 23, and then a plurality of cone yarns are placed between the first baffle 74 and the second baffle 75, so that the number of the cone yarns is enough to cover one vertical rod 23.

Then, the processor 82 is started, at this time, the infrared sensor 81 senses the vertical rod 23 and transmits a signal to the processor 82, and the processor 82 receives the signal of the infrared sensor 81 and controls the first stepping motor 73 to work; the first stepping motor 73 drives the driving gear 77 to rotate by a certain angle, the driving gear 77 drives the driven gear 76, the rotating shaft 71 and the rotating plate 72 to rotate, so that the first baffle 74 rotates to separate from the cheese in the inclined slideway 5, and the second baffle 75 rotates to enter the inclined slideway 5, and at the moment, the cheese between the first baffle 74 and the second baffle 75 rolls downwards and falls from the falling port 52; because the adjusting rod 61 is not positioned at the center of the cone yarn, the cone yarn can be overturned and sleeved on the vertical rod 23 in the falling process; in the falling process of the package, the worker can put the package into the inclined chute 5 to prepare the material, and the package is stopped by the second stopper 75.

After the vertical rod 23 is fully sleeved with the cone yarn, the control button 26 is pressed, the control button 26 transmits a signal to the processor 82, the processor 82 receives the signal of the control button 26 and controls the second stepping motor 223 to work, the second stepping motor 223 rotates the chain wheel 222 by a certain angle, and the chain 221 drives the empty vertical rod 23 to move below the falling port 52; at this time, the infrared sensor 81 cannot sense the vertical rod 23, the infrared sensor 81 transmits a signal to the processor 82, the processor 82 receives the signal of the infrared sensor 81 and controls the first stepping motor 73 to work, the first stepping motor 73 drives the driving gear 77 to rotate by a certain angle, the driving gear 77 drives the driven gear 76, the rotating shaft 71 and the rotating plate 72 to rotate, so that the first baffle 74 rotates to enter the inclined slideway 5, and the second baffle 75 is separated from the cheese, so that the cheese blocked by the second baffle 75 rolls downwards and is blocked by the first baffle 74.

When second step motor 223 drives empty montant 23 and moves to the below of the mouth 52 that drops, second step motor 223 will self-closing, and infrared sensor 81 will detect montant 23 and to treater 82 transmission signal this moment for on the section of thick bamboo yarn that is blockked by first baffle 74 can overturn the cover and establish montant 23, improved the material loading efficiency of section of thick bamboo yarn. The workman only need place the section of thick bamboo yarn to inclined slide 5 to press control button 26, can make all cover full section of thick bamboo yarn on all montants 23, and need not to walk around rack 2, and need not to aim at montant 23 cover with the section of thick bamboo yarn and establish, the material loading of the section of thick bamboo yarn of being convenient for has improved the machining efficiency of section of thick bamboo yarn.

After all the vertical rods 23 are fully sleeved with the yarns, the support 4 is moved and the inclined slide way 5 is rotated, so that the support 4 and the inclined slide way 5 move into the containing area 27; then the placing rack 2 is pushed to the position of the steaming cylinder 1 through the cart 3, and then the placing rack 2 is pushed into the steaming cylinder 1; when the steam cylinder 1 is closed by the sealing door 11, the steam pipe 13 sprays steam to cook the cheese.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a evaporate yarn machine for imitative numb yarn, includes to evaporate a section of thick bamboo (1) and rack (2), evaporates and installs sealing door (11) and relief valve (12) on a section of thick bamboo (1), is equipped with a plurality of steam pipes (13) in evaporating a section of thick bamboo (1), and steam pipe (13) link to each other its characterized in that with outside steam pipe: the placing rack (2) comprises a bottom plate (21), an annular conveying assembly (22) and a support (4) are arranged on the bottom plate (21), a plurality of vertical rods (23) for the cone yarn to be sleeved with in a sliding mode are arranged on the annular conveying assembly (22), a tilting slide way (5) for the cone yarn to roll is arranged on the support (4), a dropping opening (52) located above the vertical rods (23) is formed in the lower end of the tilting slide way (5), and a turning assembly (6) for enabling the cone yarn to be sleeved with in a turning mode and dropping from the dropping opening (52) to the vertical rods (23) is arranged.

2. The yarn steaming machine for linen-like yarns according to claim 1, characterized in that: the overturning assembly (6) comprises an adjusting rod (61) which is positioned in the falling port (52) and arranged on the inclined slideway (5), and the adjusting rod (61) is parallel to the radial direction of the cone yarns.

3. The yarn steaming machine for linen-like yarns according to claim 2, characterized in that: two groups of sliding grooves (53) which are respectively used for the sliding embedding of two ends of the adjusting rod (61) are formed in the wall of the falling port (52), two groups of nuts (62) are matched with the adjusting rod (61) in a threaded mode, and the nuts (62) are tightly abutted to the wall of the falling port (52).

4. The yarn steaming machine for linen-like yarns according to claim 1, characterized in that: the inclined slideway (5) is arranged in a U shape, a closing plate (51) is fixed at the lower end of the inclined slideway (5), and a blocking component (7) is arranged on the inclined slideway (5); the blocking assembly (7) comprises a rotating plate (72) which is rotatably connected to the upper side of the inclined slide way (5) through a rotating shaft (71), a first baffle (74) fixed on the rotating plate (72) and a first stepping motor (73) which drives the rotating plate (72) to rotate and enter the inclined slide way (5), a driven gear (76) is fixedly sleeved outside the rotating shaft (71), the first stepping motor (73) is fixed on the slide way of the inclined slide way (5), a driving gear (77) is fixedly sleeved on an output shaft of the first stepping motor (73), and the driving gear (77) is meshed with the driven gear (76).

5. The yarn steaming machine for linen-like yarns according to claim 4, characterized in that: the rotating plate (72) is fixedly provided with a second baffle (75), the first baffle (74) and the second baffle (75) are respectively arranged at two ends of the rotating plate (72), and the rotating shaft (71) is arranged in the middle of the rotating plate (72).

6. The yarn steaming machine for linen-like yarns according to claim 5, characterized in that: the intelligent falling door is characterized by further comprising a sensing assembly (8), wherein the sensing assembly (8) comprises an infrared sensor (81) used for sensing the vertical rod (23) below the falling opening (52) and transmitting signals and a processor (82) used for receiving the signals transmitted by the infrared sensor (81) and controlling the first stepping motor (73) to work.

7. The yarn steaming machine for linen-like yarns according to claim 1, characterized in that: support (4) slide and connect in bottom plate (21), slope slide (5) rotate through rotating turret (54) and connect in support (4), are equipped with on support (4) and are used for locking fixed locking Assembly (9) with rotating turret (54), are equipped with on bottom plate (21) and are used for accomodating taking in district (27) of support (4) and slope slide (5).

8. The yarn steaming machine for linen-like yarns according to claim 7, characterized in that: locking Assembly (9) are including seting up thread groove (91) on rotating turret (54), and thread groove (91) interior screw-thread fit has bolt (92), offers two joint grooves (93) that supply bolt (92) rotation card to go into on support (4).

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