CN221048824U - Continuous waste silk treatment equipment for polyester silk waste cakes - Google Patents

Abstract

The utility model discloses continuous waste silk treatment equipment for polyester silk waste cakes, which comprises an equipment frame, wherein a collecting box and a driving belt are connected inside the equipment frame in a sliding manner, and a collecting box is fixedly connected inside the equipment frame. This continuous waste silk treatment facility to useless cake of dacron silk, the fixed collection case that can collect the useless cake waste silk of dacron silk in the inside of equipment frame, the inside of collection case sets up gliding compression pole, the compression pole can be with the pole downwardly moving when the waste silk constantly increases, and then guarantee that the waste silk gathering of compression pole top is tight, and the removal of compression pole will drive the inside guide gear rotation of collection case through rack and pinion and subassembly, and then drive the guide block and remove, can guide to place pole surface ribbon bending into the arc, realize the packing, directly tie up the waste silk under extruded state, waste silk can not expand and fry out when can guaranteeing subsequent transportation.

Description

Continuous waste silk treatment equipment for polyester silk waste cakes

Technical Field

The utility model relates to the technical field of waste silk treatment, in particular to continuous waste silk treatment equipment for polyester silk waste cakes.

Background

The waste polyester yarn is produced in the first production process and is produced in the waste polyester block of polyester section, pelletizing process, spinning, winding and post-treatment section, etc.

According to the search of Chinese application publication number: CN218989502U discloses a polyester waste silk collection treatment facility, including collecting the structure, it includes the mounting panel to collect the structure, the conveyer belt subassembly is installed to mounting panel one side, mounting panel top rigid coupling support housing, support housing inner chamber top rigid coupling biax motor, the output rigid coupling of biax motor is first screw thread post, first screw thread post surface threaded connection movable plate, movable plate and spacing post surface sliding connection, spacing post rigid coupling is in supporting housing inner chamber lateral wall, the movable plate below is provided with the adjusting column, all rotate at adjusting column both ends and be connected with the mounting bracket piece. According to the application, the height of the collecting box body can be conveniently adjusted by utilizing the structures such as the double-shaft motor and the first threaded column, and the waste silk on the polyester yarn cake is collected into the steam treatment shell for treatment by utilizing the structures such as the collecting box body and the collecting fan, so that the efficiency of collecting the waste polyester silk is improved, and the collection of the waste polyester silk is facilitated.

However, when the above technical scheme is implemented, there are the following problems: the scheme can realize softening and collecting of the polyester waste silk, but has poor extrusion effect on the polyester waste silk in the collecting process, and is difficult to ensure that the waste silk cannot be fluffy and fried in the transportation process after being taken out, the extrusion during the process of collecting the waste silk is realized by the rotation of the driving motor, the extrusion effect is related to the rotation speed of the motor, the tightly connected extruded waste silk is difficult to completely ensure, and the extruded waste silk cannot be fried in the transportation process, so that the transportation process is influenced.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model provides continuous waste silk treatment equipment for waste polyester silk cakes, which solves the problems that the extrusion effect is difficult to ensure by the extrusion of a motor in the collection process of waste polyester silk and the extrusion effect is ensured in the transportation process.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: continuous waste silk treatment facility to useless cake of dacron silk, including the equipment frame, the inside sliding connection of equipment frame has collection box and drive belt, the inside fixedly connected with of equipment frame concentrates the case, the inside of concentrating the case is provided with compression mechanism, compression mechanism is used for realizing the compression packing of the inside waste silk of collection case, compression mechanism is including the compression pole, the inside sliding connection of compression pole through sliding component and collection case, the inside fixedly connected with steam generator and the supporting shoe of collection case, the inside of supporting shoe has the bracing piece through moving component sliding connection, the surface of bracing piece and the fixed surface connection of compression pole, the inside fixedly connected with drive rack of bracing piece, the inside rotation of supporting shoe is connected with drive gear, the inside of collection case is connected with transit gear and guide gear through synchronizing assembly rotation, the front side guide gear and rear side be provided with the switching-over subassembly between the guide gear, the transmission is connected with the guide belt between the guide gear, the inside of compression pole has place the pole through limiting component sliding connection, the inside of supporting shoe has the guide bar, the inside fixedly connected with inside of collecting box has the guide bar, the inside of turning connection has the guide bar.

Preferably, the sliding assembly comprises a sliding shaft fixed on the surface of the compression rod, and a sliding groove is formed in the centralized box.

Preferably, the moving assembly comprises a moving shaft fixed on the surface of the supporting rod, and a moving groove is formed in the supporting block.

Preferably, the synchronous component comprises a synchronous rod fixed on the surfaces of the driving gear, the guiding gear and the transferring gear, and the surface of the synchronous rod is in transmission connection with a synchronous belt.

Preferably, the reversing assembly comprises reversing bevel teeth fixed on the surface of the guide gear, and the reversing bevel wheel is rotatably connected inside the collecting box.

Preferably, the limiting assembly comprises a limiting shaft fixed on the surface of the placing rod, a limiting groove is formed in the compression rod, and a limiting spring is fixedly connected between the limiting shaft and the limiting groove.

Advantageous effects

The utility model provides continuous waste silk treatment equipment for polyester silk waste cakes. Compared with the prior art, the method has the following beneficial effects:

(1) This continuous waste silk treatment facility to useless cake of dacron silk through the fixed collection case that can collect the useless cake of dacron silk of the inside at the equipment rack, the inside of collection case sets up gliding compression pole, the compression pole can be when the waste silk constantly increases with the pole downwardly moving, and then guarantee the waste silk gathering of compression pole top is tight, and the removal of compression pole will drive the inside guide gear rotation of collection case through rack and pinion and subassembly, and then drive the guide block and remove, can guide to place pole surface ribbon bending into the arc, realize the packing, directly tie up the waste silk under extruded state, waste silk can not expand and fry when can guaranteeing subsequent transportation.

(2) This continuous waste silk treatment facility to useless cake of dacron silk is through at the drive gear, be located the front side, the fixed surface connection synchronizing lever of guide gear and transfer gear on right side, and the hold-in range is connected in the transmission between two synchronizing levers, can make the inside transfer gear of drive gear's rotation drive collection box through with drive gear driven hold-in range, and half cross transmission between transfer gear and guide gear, change rotatory direction, and then change the power of the production of removal into rotatory power, and set up the switching-over subassembly between left side guide gear, make the guide block syntropy remove, guide ribbon forms the circle, realize wrapping.

Drawings

FIG. 1 is a front elevational view of the structure of the present utility model;

FIG. 2 is a structural elevation view of the header tank of the present utility model;

FIG. 3 is a right side view of the structure of the support block of the present utility model;

FIG. 4 is a front elevational view of the guide gear of the present utility model;

Fig. 5 is a top view of the structure of the guide gear of the present utility model.

In the figure: 1-equipment rack, 2-collecting box, 3-driving belt, 4-collecting box, 5-compression mechanism, 51-compression bar, 52-sliding component, 521-sliding shaft, 522-sliding groove, 53-moving component, 531-moving shaft, 532-moving groove, 54-synchronizing component, 541-synchronizing bar, 542-synchronizing belt, 55-reversing component, 551-reversing bevel gear, 552-reversing bevel gear, 56-spacing component, 561-spacing shaft, 562-spacing groove, 563-spacing spring, 57-steam generator, 58-supporting block, 59-supporting bar, 510-driving rack, 511-driving gear, 512-transferring gear, 513-guiding gear, 514-guiding belt, 515-placing bar, 516-guiding block, 517-packing block, 518-fastening bar.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides two technical solutions:

Example 1

The continuous waste silk treatment equipment for polyester yarn waste cakes comprises an equipment frame 1, wherein the inside of the equipment frame 1 is connected with a collecting box 2 and a driving belt 3 in a sliding way, the sliding structure among the collecting box 2, the driving belt 3 and the equipment frame 1 is the same as that in the participating patent document, the inside of the equipment frame 1 is fixedly connected with a collecting box 4, the collecting box 2 and the collecting box 4 are communicated through a pipeline, the inside of the collecting box 4 is provided with a compression mechanism 5, the compression mechanism 5 is used for realizing compression and packing of waste silk inside the collecting box 4, the compression mechanism 5 comprises a compression rod 51, the surface of the compression rod 51 is connected with the inside of the collecting box 4 in a sliding way through a sliding component 52, the inside of the collecting box 4 is fixedly connected with a steam generator 57 and a supporting block 58, the steam generator 57 is electrically connected with an external power supply, the steam generator is mechanical equipment for heating water into hot water or steam through heat energy, the water can be heated and evaporated by electrifying, the support rod 59 is connected in a sliding way through the moving component 53, the surface of the support rod 59 is fixedly connected with the surface of the compression rod 51, a spring is fixedly connected between the support rod 58 and the compression rod 51, the driving rack 510 is fixedly connected in the support rod 59, the driving gear 511 is rotationally connected in the support rod 58, the surface of the driving gear 511 is meshed with the surface of the driving rack 510, the transfer gear 512 and the guide gear 513 are rotationally connected in the interior of the collecting box 4 through the synchronizing component 54, the transfer gear 512 is meshed with the surfaces, the front transfer gear 512 is one time of the rear transfer gear 512, the guide gears 513 are four, the left side and the right side are positioned on the same plane, the reversing component 55 is arranged between the front guide gear 513 and the rear guide gear 513, the reversing assembly 55 is used for realizing different directional rotations of the guide gears 513, the guide belt 514 is connected between the left guide gear 513 and the right guide gear 513 in a transmission manner, the guide rod is fixedly connected to the inside of the collecting box 4, the guide rod is fixedly connected to the upper side of the guide belt 514, the rod 515 is arranged in the inside of the compression rod 51 in a sliding manner through the limiting assembly 56, the packing ribbon is arranged on the surface of the placing rod 515, the guide block 516 is fixedly connected to the surface of the guide belt 514, the rod is fixedly connected with the guide block 516 through the limiting assembly 56, the guide block 516 is used for preventing the ribbon from being separated from the guide block 516, the packing block 517 is rotatably connected to the inside of the collecting box 4, the clamping rod 518 is rotatably connected to the inside of the packing block 517, the collecting box 4 capable of collecting polyester yarn waste cakes and waste yarns is fixedly arranged in the equipment frame 1, the compression rod 51 is arranged in the collecting box 4 in a sliding manner, the compression rod 51 can downwards move the rod when the waste yarns are continuously increased, further, the waste yarns above the compression rod 51 are tightly aggregated, the guide ribbon can be driven to rotate through the guide gears and the guide block 516, the guide gear 516 in the inside of the collecting box 4 can be driven to move, and then the guide block 516 can be driven to move, the guide bar 518 can be bent to be directly conveyed under the curved surface of the compression rack, and the expansion state can be directly realized, and the expansion state can be guaranteed, and the expansion of the waste yarn can be directly expanded.

Example two

The main difference from the first embodiment is that:

For continuous waste silk processing equipment of polyester yarn waste cakes, sliding component 52 comprises sliding shaft 521 fixed on the surface of compression rod 51, sliding groove 522 is arranged in the interior of concentration box 4, the surface of sliding shaft 521 is in sliding connection with the inner surface of sliding groove 522, moving component 53 comprises moving shaft 531 fixed on the surface of supporting rod 59, moving groove 532 is arranged in the interior of supporting block 58, the surface of moving shaft 531 is in sliding connection with the inner surface of moving groove 532, synchronous rod 541 fixed on the surfaces of driving gear 511, guiding gear 513 and transfer gear 512 is contained in synchronous component 54, synchronous belt 542 is in transmission connection with the surface of synchronous rod 541, the surface of driving gear 511 and front side transfer gear 512 are in transmission connection with synchronous belt 542, the surface of rear side transfer gear 512 and guiding gear 513 are in semi-cross transmission with the surface of synchronous belt 542, reversing bevel 551 fixed on the surface of guiding gear 513 is contained in reversing assembly 55, the surface of reversing bevel 551 is in meshing engagement with the surface of reversing bevel 552, limit component 56 comprises synchronous rods fixed on the surface of positioning rod 561, guiding gear 513 and the inner surface of limit gear 511 is in cross transmission with the inner surface of rotary shaft 562 of synchronous belt 512, 562 is in transmission connection with the inner side of synchronous belt 512, 562 is in cross transmission with the inner surface of synchronous belt 512, 562 is in transmission connection with the inner side of synchronous belt 512, and is in transmission between rotary groove 512, and rotary limit plate 512 is in transmission with the inner side of synchronous belt 512, and limit plate is in rotation, and limit plate is in transmission between rotary gear is in transmission with rotary groove and rotary plate 512, and further converts the generated force of movement into a rotating force, and a reversing assembly 55 is arranged between the left guide gears 513, so that the guide blocks 516 move in the same direction to guide the binding belt to form a circle, thereby realizing binding.

And all that is not described in detail in this specification is well known to those skilled in the art.

During operation, firstly, enough ribbon is placed in the compression rod 51 and on the surface of the placement rod 515, after the ribbon is placed, the middle part is fixed with the middle part of the placement rod 515, the surface ribbon is embedded into the guide block 516, then the internal components of the collecting box 2 are started, the transmission belt 3 is started and the steam generator 57 is started, the polyester cake waste silk enters the inside of the collecting box 4 under the action of a pipeline, the surface of the compression rod 51 is compressed, the compression rod 51 is driven to move downwards by expanding the volume after a certain amount of waste silk is concentrated, the compression rod 51 is driven to rotate by the downward movement of the compression rod 51, the driving gear 511 rotates, the guide gear 513 is driven to rotate by the rotation of the driving gear 511 through the synchronizing component 54, the ribbon 514 is driven to move in the inside the collecting box 4 by the rotation of the guide gear 513, the movement of the guide belt 514 and the compression rod 51 drives the ribbon to rotate, when the waste silk on the surface of the compression rod 51 reaches a certain amount, the ribbon is looped around the waste silk, the two ends of the ribbon 517 are contacted with the surface of the baling block, the ribbon 518 is driven to rotate and the baling block 517, the baling block 517 is rotated, the two ends of the ribbon is driven to rotate, the baling block 517 is driven, the two ends of the ribbon is driven to rotate, and the ribbon is wound, the two ends of the ribbon is wound, and the waste silk can be taken out and the ribbon is rolled and the surface of the ribbon.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Continuous waste silk treatment facility to useless cake of dacron silk, including equipment rack (1), its characterized in that: the device comprises a device frame (1), wherein a collecting box (2) and a transmission belt (3) are slidably connected inside the device frame (1), a centralized box (4) is fixedly connected inside the device frame (1), a compression mechanism (5) is arranged inside the centralized box (4), and the compression mechanism (5) is used for compressing and packing waste wires inside the centralized box (4);

The compression mechanism (5) comprises a compression rod (51), the surface of the compression rod (51) is in sliding connection with the inside of a concentration box (4) through a sliding component (52), the inside of the concentration box (4) is fixedly connected with a steam generator (57) and a supporting block (58), the inside of the supporting block (58) is in sliding connection with a supporting rod (59) through a moving component (53), the surface of the supporting rod (59) is fixedly connected with the surface of the compression rod (51), the inside of the supporting rod (59) is fixedly connected with a driving rack (510), the inside of the supporting block (58) is in rotating connection with a driving gear (511), the inside of the concentration box (4) is in rotating connection with a transfer gear (512) and a guide gear (513) through a synchronizing component (54), a reversing component (55) is arranged between the guide gear (513) and the rear side, a guide belt (514) is in transmission connection between the left side and the right side and the guide gear (513), the inside of the compression rod (51) is in sliding connection with a limit component (56), the guide belt (516) is placed on the inside of the compression rod (51), the guide belt (516) is in rotating connection with the inside of the concentration box (516), the inside of the packing block (517) is rotationally connected with a clamping rod (518).

2. The continuous waste silk treatment device for polyester silk waste cakes according to claim 1, wherein: the sliding assembly (52) comprises a sliding shaft (521) fixed on the surface of the compression rod (51), and a sliding groove (522) is formed in the center box (4).

3. The continuous waste silk treatment device for polyester silk waste cakes according to claim 1, wherein: the moving assembly (53) comprises a moving shaft (531) fixed on the surface of the supporting rod (59), and a moving groove (532) is formed in the supporting block (58).

4. The continuous waste silk treatment device for polyester silk waste cakes according to claim 1, wherein: the synchronous assembly (54) comprises a synchronous rod (541) fixed on the surfaces of the driving gear (511), the guiding gear (513) and the transferring gear (512), and a synchronous belt (542) is connected to the surface of the synchronous rod (541) in a transmission manner.

5. The continuous waste silk treatment device for polyester silk waste cakes according to claim 1, wherein: the reversing assembly (55) comprises reversing bevel gears (551) fixed on the surface of the guide gear (513), and reversing bevel gears (552) are rotatably connected inside the collecting box (4).

6. The continuous waste silk treatment device for polyester silk waste cakes according to claim 1, wherein: the limiting assembly (56) comprises a limiting shaft (561) fixed on the surface of the placing rod (515), a limiting groove (562) is formed in the compression rod (51), and a limiting spring (563) is fixedly connected between the limiting shaft (561) and the limiting groove (562).