CN211199722U - Heavy pound hoist and mount area production line - Google Patents

Abstract

The utility model relates to the technical field of braid production lines, in particular to a heavy-weight hoisting belt production line, which comprises a knotting detection device, a lifting storage device, a movable dye vat device, a first drying device, a second drying device and a belt collecting device; the knotting detection device comprises a first bracket, a frame, a first belt isolating rod, a second belt isolating rod, a first driving device, two sliding connection blocks and two locking pieces; the utility model provides a heavy pound hoist and mount are taken storage of production line detection device, over-and-under type storage device and portable dye vat device of knoing can reduce the heavy pound hoist and mount and take the production line the condition of shut down appears to the work efficiency of production line has been taken in the heavy pound hoist and mount to the assurance. Moreover, the size of the gap between the first belt isolating rod and the second belt isolating rod can be adjusted according to the thickness of the heavy-weight hoisting belt, the application range is large, and the production requirement can be met.

Description

Heavy pound hoist and mount area production line

Technical Field

The utility model belongs to the technical field of meshbelt production line technique and specifically relates to indicate a heavy pound hoist and mount area production line.

Background

The production process of the heavy-weight hoisting belt comprises three steps of warping, weaving and dyeing, wherein the dyeing process has the most critical influence on the quality of the heavy-weight hoisting belt. The condition of shutting down appears easily in the heavy pound hoist and mount area production line that uses now, influences the efficiency of work, and the first strip pole and the second of separating of the detection device that ties of heavy pound hoist and mount area production line are all fixed the setting moreover, and the first strip pole and the second of separating can not adjust according to the thickness in heavy pound hoist and mount area in the clearance between the strip pole, and application scope is little, can not satisfy the demand of production.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a production line is taken in heavy pound hoist and mount, this production line is taken in heavy pound hoist and mount storage detection device, over-and-under type storage device and portable dye vat device of knoing can reduce the heavy pound hoist and mount and take the production line the condition that shuts down appears to the work efficiency of production line has been taken in heavy pound hoist and mount has been guaranteed. Moreover, the size of the gap between the first belt isolating rod and the second belt isolating rod can be adjusted according to the thickness of the heavy-weight hoisting belt, the application range is large, and the production requirement can be met.

In order to solve the technical problem, the utility model discloses a following technical scheme:

a heavy pound hoisting belt production line comprises a knotting detection device for performing knotting prevention detection on a heavy pound hoisting belt, a lifting storage device for storing the heavy pound hoisting belt qualified by detection of the knotting detection device, the lifting storage device for conveying the heavy pound hoisting belt to a movable dye vat device, the movable dye vat device for dyeing the heavy pound hoisting belt conveyed by the lifting storage device, a first drying device for pre-drying the heavy pound hoisting belt dyed by the movable dye vat device, a second drying device for drying the heavy pound hoisting belt pre-dried by the first drying device, and a belt collecting device for winding the heavy pound hoisting belt dried by the second drying device;

the knotting detection device comprises a first bracket, a frame, a first belt isolating rod, a second belt isolating rod, a first driving device, two sliding connection blocks and two locking pieces; the frame is rotationally connected with the first bracket, and the first driving device is arranged on the first bracket and used for driving the frame to rotate; the two ends of the first strip isolating rod are respectively connected to the frame, the two sliding connection blocks are respectively connected to the two ends of the second strip isolating rod, the two sliding connection blocks are respectively arranged on the frame in a sliding mode and used for driving the second strip isolating rod to be close to or far away from the first strip isolating rod, the first strip isolating rod and the second strip isolating rod are arranged in parallel, and a gap is formed between the first strip isolating rod and the second strip isolating rod; two retaining members are used to secure the two sliding connection blocks to the frame.

Further, the frame comprises a first plate, a second plate and a third plate; the first plate and the second plate are respectively connected to two opposite ends of the third plate, the first plate and the second plate are respectively connected to the first support in a rotating mode, and the first driving device is used for driving the first plate and the second plate to rotate; the two ends of the first separation band rod are connected to the first plate and the second plate respectively, the two sliding connecting blocks are arranged on the first plate and the second plate in a sliding mode respectively, and the two locking pieces are used for locking the two sliding connecting blocks on the first plate and the second plate respectively.

Further, the retaining member includes a retaining member handle and a stud connected to the retaining member handle; the sliding connecting block is provided with a displacement chute which penetrates through the sliding connecting block; the double-screw bolt is worn through the displacement spout and threaded connection in first plate or second plate, and retaining member handle is used for locking the sliding connection piece in first plate or second plate.

Furthermore, the lifting type material storage device comprises a second support, a lifting mounting seat, a sliding rail, a sliding block, a plurality of groups of upper tape guide shafts and a plurality of groups of lower tape guide shafts; the plurality of groups of upper tape guide shafts are rotatably connected to the second support, the slide rail is arranged on the second support, the slide block is arranged on the slide rail in a sliding manner, the lifting mounting seat is connected with the slide block, and the plurality of groups of lower tape guide shafts are rotatably connected to the lifting mounting seat; the lifting installation base slides along the slide rail through the slide block to drive the multiple groups of lower tape guide shafts to be close to or far away from the multiple groups of upper tape guide shafts.

Furthermore, the lifting storage device also comprises a plurality of groups of rolling bearing assemblies arranged on the lifting mounting seat, each rolling bearing assembly comprises a rolling bearing and a connecting shaft, the connecting shaft is arranged on the lifting mounting seat, and the rolling bearings are rotatably connected with the connecting shafts; the second support is provided with limit switch and last limit alarm, goes up limit switch and last limit alarm electric connection, go up limit switch and be located the top of second support and be located antifriction bearing's top, go up limit switch and be used for the response or conflict antifriction bearing.

Furthermore, the movable dye vat device comprises a trolley, a bearing platform, a dye vat box, a transmission rod, a second driving device and two groups of lifting web components; two ends of the transmission rod are respectively hinged to the two groups of lifting web plate assemblies, one end of the second driving device is connected to the transmission rod in a driving mode, and the other end of the second driving device is hinged to the trolley; the two groups of lifting web plate assemblies are respectively arranged on two sides of the bearing table, one end of each lifting web plate assembly is connected to the bearing table, and the other end of each lifting web plate assembly is connected to the trolley; the bearing platform is used for bearing the dyeing tank box; the second driving device drives the two groups of lifting web components to extend or contract through the transmission rod, the two groups of extending lifting web components are used for driving the bearing platform and the dyeing tank box to ascend, and the two groups of contracting lifting web components are used for driving the bearing platform and the dyeing tank box to descend.

Further, the cart comprises a first frame beam, a second frame beam, a third frame beam, a fourth frame beam, a cart handle and four casters; the first frame beam, the second frame beam, the third frame beam and the fourth frame beam are sequentially connected end to end, two trundles are arranged on the second frame beam, the other two trundles are arranged on the fourth frame beam, and the cart handle is arranged on the second frame beam; one end, far away from the transmission rod, of the second driving device is hinged to the second frame beam, and the two groups of lifting web plate assemblies are connected to the first frame beam and the third frame beam respectively.

Furthermore, the first drying device comprises a drying box, a hot air duct liner, a burner, a blower, a plurality of groups of drying box upper guide belt shaft assemblies and a plurality of groups of drying box lower guide belt shaft assemblies; the drying box is provided with a drying box air inlet, a drying box air outlet, a belt inlet, a belt outlet and an accommodating cavity, and the drying box air inlet, the drying box air outlet, the belt inlet and the belt outlet are communicated with the accommodating cavity; the hot air duct box is provided with a hot air duct box air inlet and a hot air duct box air outlet, the drying box air inlet is communicated with the hot air duct box air outlet, and the drying box air outlet is communicated with the hot air duct box air inlet; the hot air duct inner container and the air feeder are both arranged inside the hot air duct box, the burner is arranged in the hot air duct box, the flame outlet end of the burner is positioned inside the hot air duct inner container, the gas connecting end of the burner is exposed in the hot air duct box, and the burner is used for heating the air inside the hot air duct inner container; the air feeder is used for inputting hot air of the hot air duct liner into the accommodating cavity of the drying box through the air outlet of the hot air duct box and the air inlet of the drying box; the multiple groups of drying box upper belt guiding shaft assemblies and the multiple groups of drying box lower belt guiding shaft assemblies are positioned in the accommodating cavities, the multiple groups of drying box upper belt guiding shaft assemblies are rotatably arranged at the upper ends of the drying boxes, and the multiple groups of drying box lower belt guiding shaft assemblies are rotatably arranged at the lower ends of the drying boxes; heavy pound hoist and mount area after dyeing treatment that portable dye vat device gets into the holding intracavity of stoving case via advancing the area mouth, and heavy pound hoist and mount area twines on multiunit stoving case conduction band axle subassembly and multiunit stoving case conduction band axle subassembly down, and conduction band axle subassembly is used for driving heavy pound hoist and mount area and removes under multiunit stoving case conduction band axle subassembly and the multiunit stoving case on the multiunit stoving case, and heavy pound hoist and mount area comes out from the stoving case via going out the area mouth.

Furthermore, the first drying device also comprises a wind guide groove and a plurality of groups of hot wind uniform dispersion assemblies, the wind guide groove and the plurality of groups of hot wind uniform dispersion assemblies are both arranged in the drying box, the wind guide groove is communicated with the air inlet of the drying box, and the plurality of groups of hot wind uniform dispersion assemblies are positioned above the wind guide groove; the hot air uniform dispersion assembly comprises two air adjusting plates and a plurality of screws, two ends of each air adjusting plate are provided with a long hole, the long holes penetrate through the air adjusting plates, the screws penetrate through the long holes and are in threaded connection with the drying box, and the screws are used for locking the two air adjusting plates to the drying box; a hot air outlet is arranged between the two air adjusting plates.

Furthermore, the heavy-weight hoisting belt production line further comprises an extension device for stretching the heavy-weight hoisting belt, wherein the extension device comprises a front extension assembly and a rear extension assembly, the front extension assembly is arranged between the first drying device and the second drying device, and the rear extension assembly is arranged between the second drying device and the belt collecting device;

the front extension assembly comprises a front extension bracket, a seventh driving device and a plurality of front extension rollers; the plurality of front extension rollers are rotatably connected to the front extension bracket, and the seventh driving device is arranged on the front extension bracket and used for driving the plurality of front extension rollers to rotate;

the rear extension assembly comprises a rear extension bracket, an eighth driving device, a plurality of rear extension upper rollers, a plurality of rear extension middle rollers and a plurality of rear extension lower rollers; extend the roller rotation after a plurality of and connect in the upper end that extends the support after, extend after a plurality of roller rotation connect after extend the support in the middle-end, extend the lower roll rotation after a plurality of and connect in the lower extreme that extends the support after, eighth drive arrangement installs after extend the support and be used for driving a plurality of back extension lower roll rotation.

The utility model has the advantages that: the utility model provides a heavy pound hoist and mount are taken storage of production line detection device, over-and-under type storage device and portable dye vat device of knoing can reduce the heavy pound hoist and mount and take the production line the condition of shut down appears to the work efficiency of production line has been taken in the heavy pound hoist and mount to the assurance. Moreover, the size of the gap between the first belt isolating rod and the second belt isolating rod can be adjusted according to the thickness of the heavy-weight hoisting belt, the application range is large, and the production requirement can be met.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is the structural schematic diagram of the knotting detection device of the present invention.

Fig. 3 is the utility model discloses a structural schematic behind the detection device that knoes hides first support.

Fig. 4 is the utility model discloses an exploded structure schematic diagram behind the detection device that knoes hides first support.

Fig. 5 is the utility model discloses a structural schematic diagram of over-and-under type storage device.

Fig. 6 is the utility model discloses an elevation type storage device's decomposition structure schematic diagram.

Fig. 7 is a schematic structural view of another view angle of the lift type storing device of the present invention.

Fig. 8 is an enlarged view of fig. 7 at a.

Fig. 9 is an enlarged view at B in fig. 7.

Fig. 10 is a schematic structural view of the movable dye vat device of the present invention.

Fig. 11 is a schematic structural view of another viewing angle of the movable dye vat device of the present invention.

Fig. 12 is a schematic structural view of another viewing angle of the movable dye vat device of the present invention.

Fig. 13 is a schematic structural view of the lift web assembly of the present invention.

Fig. 14 is a schematic structural view of the dyeing tank of the present invention after being connected to the second roller.

Fig. 15 is an exploded schematic view of the first drying device of the present invention.

Fig. 16 is an exploded schematic view of the first drying device of the present invention at another viewing angle.

Fig. 17 is a top view of the first drying device of the present invention.

Fig. 18 is a sectional view taken along the direction C-C in fig. 17.

Fig. 19 is a schematic structural view of the first air volume adjusting assembly of the present invention.

Fig. 20 is a schematic structural view of a second air volume adjusting assembly according to the present invention.

Fig. 21 is the utility model discloses a conduction band axle subassembly on stoving case and conduction band axle subassembly under the stoving case structural schematic diagram.

Fig. 22 is a schematic structural view of the hot air uniform dispersion assembly of the present invention.

Fig. 23 is a schematic structural view of the front extension assembly of the present invention.

Fig. 24 is a schematic structural view of the rear extension assembly of the present invention.

Description of reference numerals:

the knotting detection device 1, a first support 10, a frame 11, a first plate 111, a second plate 112, a third plate 113, a fourth plate 114, a third band isolation rod 115, a first rotating shaft 116, a first bearing seat assembly 117, a first band isolation rod 12, a second band isolation rod 13, a first driving device 14, a first air cylinder 141, a second air cylinder 142, a sliding connecting block 15, a displacement chute 151, a first limit block 152, a locking member 16, a locking member handle 161, a stud 162, a gap 17, a limiting member 18, a limit block mounting plate 181, a second limit block 182, a third limit block 183, a heavy-weight band lifting protection plate 19, a lifting storage device 2, a second support 21, an upper limit switch 211, an upper limit alarm 212, a lower limit rod 213, a left side sealing plate 214, a right side sealing plate 215, a front side sealing plate 216, a rear side sealing plate 217, a male buckle head 218, a female buckle head 219, a hinge 2110, a lifting mounting seat 22, a slide rail 23, a slide block 24, an upper belt guide shaft 25, a lower belt guide shaft 26, a rolling bearing assembly 27, a rolling bearing 271, a connecting shaft 272, a fourth belt separating rod 28, a belt separating rod mounting plate 29, a fifth belt separating rod 291, a movable dye vat device 3, a cart 31, a first frame beam 311, a first chute 3111, a second frame beam 312, a third frame beam 313, a fourth frame beam 314, a cart handle 315, a caster 316, a carrier table 32, a second chute 321, a dye vat box 33, a single head wire tube 331, a water valve switch 332, a transmission rod 34, a second drive device 35, a lifting web assembly 36, a first web 361, a second web 362, an upper pulley 363, a lower pulley, a third bracket 37, a first roller 371, a second roller 372, a third drive device 373, a third roller 38, a fourth drive device 381, a fourth roller 39, a fifth drive device, a tension adjusting roller 310, a sixth drive device 3101, a swing arm 3102, a second rotating shaft 3103, a second bearing seat assembly 3104, a first drying device 4, a drying box 41, a drying box air inlet 411, a drying box air outlet 412, a belt inlet 413, a belt outlet 414, a containing cavity 415, a left plate 416, a right plate 417, a front plate 418, a heat insulation door 4181, a rear plate 419, a bottom plate 4110, a top plate 4111, a third cylinder 4112, a hot air duct box 42, a hot air duct box air inlet 421, a hot air duct box air outlet 422, a cold air inlet 423, a first air volume adjusting assembly 424, a first air duct 4241, a first end cover 4242, a first handle 4243, a second air volume adjusting assembly 425, a second air duct 4251, a second end cover 4252, a second handle 4253, a hot air duct inner container 43, a burner 44, a blower 45, a drying box upper guide shaft assembly 46, a slant guide belt assembly 461, a partition belt assembly 462, a drying box lower guide belt shaft assembly 47, a guide groove 48, a hot air uniform distribution assembly 491 and a wind adjustment plate 491, the device comprises a strip hole 492, a hot air outlet 493, a second drying device 5, a belt winding device 6, an extension device 7, a front extension assembly 71, a front extension bracket 711, a seventh driving device 712, a front extension roller 713, a rear extension assembly 72, a rear extension bracket 721, an eighth driving device 722, a rear extension upper roller 723, a rear extension middle roller 724, a rear extension lower roller 725 and a calendaring device 8.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

As shown in fig. 1 to 4, the utility model provides a production line of heavy-duty hoisting belt, the device comprises a knotting detection device 1 for performing knotting prevention detection on the heavy pound hoisting belt, a lifting storage device 2 for storing the heavy pound hoisting belt qualified by the detection of the knotting detection device 1, the lifting storage device 2 for conveying the heavy pound hoisting belt to a movable dye vat device 3, the movable dye vat device 3 for dyeing the heavy pound hoisting belt conveyed by the lifting storage device 2, a first drying device 4 for pre-drying the heavy pound hoisting belt dyed by the movable dye vat device 3, a second drying device 5 for drying the heavy pound hoisting belt pre-dried by the first drying device 4 and a belt collecting device 6 for winding the heavy pound hoisting belt dried by the second drying device 5;

the knot detection device 1 comprises a first bracket 10, a frame 11, a first belt isolating rod 12, a second belt isolating rod 13, a first driving device 14, two sliding connection blocks 15 and two locking pieces 16; the frame 11 is rotatably connected to the first bracket 10, and the first driving device 14 is mounted on the first bracket 10 and is used for driving the frame 11 to rotate; the two ends of the first strip separating rod 12 are respectively connected to the frame 11, the two sliding connection blocks 15 are respectively connected to the two ends of the second strip separating rod 13, the two sliding connection blocks 15 are respectively arranged on the frame 11 in a sliding mode and used for driving the second strip separating rod 13 to be close to or far away from the first strip separating rod 12, the first strip separating rod 12 and the second strip separating rod 13 are arranged in parallel, and a gap 17 is formed between the first strip separating rod 12 and the second strip separating rod 13; two locking members 16 are used to lock the two sliding connecting blocks 15 to the frame 11.

In actual work, an operator firstly adjusts the size of the gap 17 between the first belt isolating rod 12 and the second belt isolating rod 13 according to the thickness of the heavy-weight lifting belt, specifically, firstly loosens the two locking pieces 16, then slides the two sliding connection blocks 15 to drive the second belt isolating rod 13 to be close to or far away from the first belt isolating rod 12, further adjusts the appropriate gap 17, and then screws the two locking pieces 16 to lock the two sliding connection blocks 15 to the frame 11, thereby fixing the position of the second belt isolating rod 13. Then the heavy pound hoisting belt passes through the gap 17 from top to bottom, and finally the heavy pound hoisting belt is wound on the lifting type material storage device 2.

In the process that the heavy pound hoisting belt is conveyed to the lifting type storage device 2, when the heavy pound hoisting belt is knotted, the knotting part of the heavy pound hoisting belt is clamped between the first belt isolating rod 12 and the second belt isolating rod 13, and the knotting part of the heavy pound hoisting belt cannot penetrate through the gap 17, so that the heavy pound hoisting belt stops being conveyed to the lifting type storage device 2. When heavy pound hoist and mount area stopped to carry toward over-and-under type storage device 2, over-and-under type storage device 2's sensor will give the controller with signal feedback, the action of first drive arrangement 14 is controlled again to the controller, first drive arrangement 14 drive frame 11 rotates, the part of knoing in heavy pound hoist and mount area simultaneously hinders frame 11 to rotate, the part of knoing in heavy pound hoist and mount area makes frame 11 can not rotate or frame 11 only do the rotation of small amplitude, at this moment, the setting will report to the police at the alarm of knoing of detection device 1, operating personnel just knows the phenomenon that heavy pound hoist and mount area was knoed appears between first separating band pole 12 and the second separating band pole 13, operating personnel will come to handle.

The knotting detection device 1 conveys the qualified heavy pound hoisting belt to the lifting type storage device 2, the lifting type storage device 2 stores a part of the heavy pound hoisting belt firstly, and then the lifting type storage device 2 conveys the heavy pound hoisting belt to the movable dye vat device 3. When knotting or other abnormal conditions appear in heavy pound hoisting belt, the heavy pound hoisting belt stored by the lifting type storage device 2 can be conveyed to the movable dye vat device 3 continuously, the normal work of the heavy pound hoisting belt production line is not influenced, the condition that the heavy pound hoisting belt production line is stopped is avoided, and therefore the working efficiency of the heavy pound hoisting belt production line is ensured. The heavy pound hoisting belt conveyed by the lifting type storage device 2 is dyed by the movable dye vat device 3, the heavy pound hoisting belt dyed by the movable dye vat device 3 is pre-dried by the first drying device 4, the heavy pound hoisting belt pre-dried by the first drying device 4 is dried by the second drying device 5, and the heavy pound hoisting belt dried by the second drying device 5 is wound by the belt winding device 6.

The utility model provides a heavy pound hoist and mount are taken storage of production line detection device 1, over-and-under type storage device 2 and portable dye vat device 3 of knoing can reduce the heavy pound hoist and mount and take the production line the condition of shut down appears to the work efficiency of production line has been taken in the heavy pound hoist and mount has been guaranteed. Moreover, the size of the gap 17 between the first strip isolating rod 12 and the second strip isolating rod 13 can be adjusted according to the thickness of the heavy-pound hoisting strip, the application range is wide, and the production requirement can be met.

As shown in fig. 3 and 4, in the present embodiment, the frame 11 includes a first plate 111, a second plate 112, and a third plate 113; the first plate 111 and the second plate 112 are respectively connected to two opposite ends of the third plate 113, the first plate 111 and the second plate 112 are respectively rotatably connected to the first support 10, and the first driving device 14 is used for driving the first plate 111 and the second plate 112 to rotate; the two ends of the first separation rod 12 are respectively connected to the first plate 111 and the second plate 112, the two sliding connection blocks 15 are respectively slidably disposed on the first plate 111 and the second plate 112, and the two locking members 16 are used for locking the two sliding connection blocks 15 to the first plate 111 and the second plate 112.

The structural design of the frame 11 is reasonable, and the frame 11 provides a base for installing the first separation band rod 12, the second separation band rod 13, the first driving device 14, the two sliding connecting blocks 15 and the two locking pieces 16.

Specifically, the frame 11 is provided with a fourth plate 114 and a plurality of third strip separating rods 115, two ends of the fourth plate 114 are respectively connected to the first plate 111 and the second plate 112, and the fourth plate 114 and the third plate 113 are arranged at intervals; both ends of the plurality of third band isolation bars 115 are connected to the third block 113 and the fourth block 114, respectively, and the plurality of third band isolation bars 115 are spaced apart from each other. In actual work, detection device 1 tied a knot is handled many heavy pound hoisting belts simultaneously, and many third separate the belting pole 115 and be used for separating two adjacent heavy pound hoisting belts apart, prevent that heavy pound hoisting belt from appearing the skew or two adjacent heavy pound hoisting belts influence each other. Specifically, the heavy weight sling is first threaded between the third strap bars 115 and then threaded through the gap 17 between the first strap bar 12 and the second strap bar 13.

Specifically, the knotting detection device 1 further includes a first rotating shaft 116 and two first bearing assemblies 117, and the two first bearing assemblies 117 are mounted on the first support 10; one end of the first rotating shaft 116 passes through the first plate 111 and is rotatably connected to one first bearing assembly 117, and the other end of the first rotating shaft 116 passes through the second plate 112 and is rotatably connected to the other first bearing assembly 117. In operation, the first driving device 14 drives the frame 11 to rotate, and the first plate 111 and the second plate 112 of the rotating frame 11 rotate along the first rotating shaft 116. Both the first shaft 116 and the two first bearing housing assemblies 117 are readily commercially available and are easy to install.

Specifically, the first plate 111 or the second plate 112 is provided with a limiting member 18, the limiting member 18 is installed on the first support 10, and the limiting member 18 is used for limiting the first plate 111 or the second plate 112. The limiting member 18 comprises a limiting member mounting plate 181, a second limiting member 182 and a third limiting member 183, the limiting member mounting plate 181 is mounted on the first bracket 10, the second limiting member 182 and the third limiting member 183 are respectively connected to two opposite ends of the limiting member mounting plate 181, the second limiting member 182 and the limiting member mounting plate 181 are arranged in a crossed manner, and the third limiting member 183 and the limiting member mounting plate 181 are arranged in a crossed manner; the second limit block 182 is used for limiting the upper part of the first plate 111 or the second plate 112, and the third limit block 183 is used for limiting the lower part of the first plate 111 or the second plate 112.

In practical operation, the first driving device 14 drives the frame 11 to rotate, when the frame 11 rotates to the set position, the first plate 111 or the second plate 112 will abut against the limiting member 18, and the limiting member 18 will block the first plate 111 or the second plate 112 from rotating, so as to block the frame 11 from continuing to rotate. Specifically, when the frame 11 rotates to the upper limit position, the first plate 111 or the second plate 112 will abut against the second limit block 182, and the second limit block 182 will block the first plate 111 or the second plate 112 from rotating, so as to block the frame 11 from continuing to rotate upward. When the frame 11 rotates to the lower limit, the first plate 111 or the second plate 112 will abut against the third limit block 183, and the third limit block 183 will block the first plate 111 or the second plate 112 from rotating, so as to block the frame 11 from continuing to rotate downward. The stopper 18 has a simple structure and can effectively perform upper or lower stopper on the frame 11.

Specifically, the first driving device 14 includes a first cylinder 141 and a second cylinder 142, a piston rod of the first cylinder 141 is hinged to the first plate 111, and a cylinder of the first cylinder 141 is hinged to the first bracket 10; the piston rod of the second cylinder 142 is hinged with the second plate 112, and the cylinder of the second cylinder 142 is hinged with the first bracket 10. The piston rod of the first cylinder 141 is hinged to the first plate 111 via a hinge joint, and the cylinder of the first cylinder 141 is hinged to the first bracket 10 via a lug support. Similarly, the piston rod of the second cylinder 142 is also hinged to the second plate 112 via a hinge joint, and the cylinder of the second cylinder 142 is also hinged to the first bracket 10 via a bracket. In practical operation, the first cylinder 141 drives the first plate 111 to rotate, the second cylinder 142 drives the second plate 112 to rotate, and the first cylinder 141 and the second cylinder 142 drive the whole frame 11 to rotate together. The first cylinder 141 and the second cylinder 142 are easily commercially available and are conveniently installed.

Specifically, the third plate block 113 is provided with a heavy weight sling protection plate 19 for protecting the heavy weight sling. During the transportation of the heavy weight sling to the gap 17 between the first and second strap bars 12, 13, the heavy weight sling will interfere with the third plate 113, and the third plate 113 will cause wear to the heavy weight sling. The heavy-weight sling protective plate 19 can isolate the heavy-weight sling from the third plate 113, and the heavy-weight sling protective plate 19 can protect the heavy-weight sling.

In this embodiment, as shown in fig. 3 and 4, retaining member 16 includes a retaining member handle 161 and a threaded stud 162 attached to retaining member handle 161; the sliding connection block 15 is provided with a displacement chute 151, and the displacement chute 151 penetrates through the sliding connection block 15; the screw 162 passes through the displacement chute 151 and is screwed to the first plate 111 or the second plate 112, and the locking member handle 161 is used for locking the sliding connection block 15 to the first plate 111 or the second plate 112.

In practice, the locking member handle 161 can be rotated forward or backward, the locking member handle 161 can be rotated backward to unlock the sliding connection block 15, and the locking member handle 161 can be rotated forward to lock the sliding connection block 15 to the first block 111 or the second block 112. The locking member 16 has a simple structure and is easy to operate, and can securely lock the sliding connection block 15 to the first plate 111 or the second plate 112.

Specifically, the first plate 111 and the second plate 112 are both provided with a first limiting block 152, the first limiting block 152 is used for abutting against a groove wall of the displacement chute 151, and the first limiting block 152 is used for limiting the sliding connection block 15. Specifically, the first limiting block 152 is located in the displacement sliding groove 151 of the sliding connection block 15, and when the sliding connection block 15 slides to a set position, the first limiting block 152 abuts against a groove wall of the displacement sliding groove 151 and is used for limiting the sliding connection block 15. The first limiting block 152 is reasonable in design and effectively limits the sliding connection block 15.

As shown in fig. 5 to 9, in the present embodiment, the lift type storage device 2 includes a second support 21, a lift mounting base 22, a slide rail 23, a slider 24, a plurality of sets of upper tape guide shafts 25, and a plurality of sets of lower tape guide shafts 26; the multiple groups of upper tape guide shafts 25 are rotatably connected to the second support 21, the slide rail 23 is arranged on the second support 21, the slide block 24 is slidably arranged on the slide rail 23, the lifting mounting seat 22 is connected with the slide block 24, and the multiple groups of lower tape guide shafts 26 are rotatably connected to the lifting mounting seat 22; the elevating mount 22 slides along the slide rails 23 via the sliders 24 to drive the sets of lower tape guide shafts 26 toward or away from the sets of upper tape guide shafts 25.

In actual work, the heavy-weight hoisting belt detected to be qualified by the knotting detection device 1 is firstly wound around a group of upper belt guide shafts 25, then the heavy-weight hoisting belt is downwards wound around a group of lower belt guide shafts 26, then the heavy-weight hoisting belt is upwards wound around another group of upper belt guide shafts 25, the heavy-weight hoisting belt is circularly wound like this, and finally the heavy-weight hoisting belt is wound around the movable dye vat device 3, and particularly, the lifting type storage device 2 can simultaneously store a plurality of heavy-weight hoisting belts.

When the heavy pound hoisting belt is knotted, the knotting detection device 1 clamps the knotted heavy pound hoisting belt, the external heavy pound hoisting belt temporarily does not convey the heavy pound hoisting belt towards the lifting storage device 2, and the heavy pound hoisting belt in the lifting storage device 2 can also continue to convey the heavy pound hoisting belt towards the movable dye vat device 3. Along with the continuous reduction of heavy pound hoisting belts in the lifting type storage device 2, the heavy pound hoisting belts wound on the multiple groups of lower belt guide shafts 26 drive the lifting installation seat 22 to move upwards through the multiple groups of lower belt guide shafts 26, and the lifting installation seat 22 moving upwards slides upwards along the slide rail 23 through the slide block 24. Specifically, the number of the sliders 24 is two.

After the operator handles the condition that the heavy pound hoisting belt was knotted, external heavy pound hoisting belt will continue to carry heavy pound hoisting belt towards over-and-under type storage device 2 the inside, and the speed that external heavy pound hoisting belt got into over-and-under type storage device 2 is faster than the speed that over-and-under type storage device 2 carried heavy pound hoisting belt towards the dye vat, and lift mount pad 22 will follow the below position of second support 21 from the top position of second support 21 and fall to the position of the below of second support 21 gradually.

Over-and-under type storage device 2 is provided with the multiunit and goes up leading tape shaft 25 and multiunit and lead tape shaft 26 down for heavy pound hoist and mount area can be to the multiunit and go up leading tape shaft 25 and multiunit and lead tape shaft 26 down and make a round trip to twine the multistage, increases the length of the heavy pound hoist and mount area that over-and-under type storage device 2 stored. Meanwhile, the distance between the multiple groups of upper belt guide shafts 25 and the multiple groups of lower belt guide shafts 26 is longer, and the winding distance of the heavy-weight hoisting belt is increased, so that the length of the heavy-weight hoisting belt stored in the descending type storage device is increased. The utility model provides a lifting type storage device 2's simple structure can store a large amount of heavy pounds hoist and mount area moreover, satisfies the demand of production.

Specifically, over-and-under type magazine 2 still includes many fourth strip bars 28 that separate, and many fourth strip bars 28 interval are connected in lift mount pad 22, and many fourth strip bars 28 that separate set up with leading under the multiunit axle 26 alternately, and many fourth strip bars 28 that separate are located between leading on the multiunit axle 25 and the multiunit axle 26 of leading under the multiunit. In actual work, the heavy weight lifting belt which is detected to be qualified by the knotting detection device 1 is firstly wound around one group of upper belt guide shafts 25, then the heavy weight lifting belt downwards passes through the space between the two fourth belt isolating rods 28, then the heavy weight lifting belt is wound around one group of lower belt guide shafts 26, then the heavy weight lifting belt upwards passes through the space between the two fourth belt isolating rods 28, then the heavy weight lifting belt is wound around the other group of upper belt guide shafts 25, and the heavy weight lifting belt is circularly wound in the way. Because many heavy pound hoisting belts can be stored simultaneously to over-and-under type storage device 2, many fourth separate band poles 28 are used for spacing apart two adjacent heavy pound hoisting belts, prevent on the one hand that heavy pound hoisting belt from squinting, on the other hand prevents that two adjacent heavy pound hoisting belts from influencing each other.

Specifically, the lifting type material storing device 2 further comprises two strip separating rod mounting plates 29 and a plurality of fifth strip separating rods 291, the two strip separating rod mounting plates 29 are respectively mounted on two opposite sides of the second support 21, two ends of the plurality of fifth strip separating rods 291 are respectively connected to the two strip separating rod mounting plates 29, and the plurality of fifth strip separating rods 291 are arranged at intervals; the fifth strip separating rods 291 are arranged to intersect with the sets of upper strip guide shafts 25, and the fifth strip separating rods 291 are located between the sets of upper strip guide shafts 25 and the sets of lower strip guide shafts 26. In actual work, the heavy weight lifting belt qualified by the knotting detection device 1 is wound around one group of upper belt guide shafts 25, then the heavy weight lifting belt downwards passes through the space between the two fifth belt isolating rods 291, then the heavy weight lifting belt is wound around one group of lower belt guide shafts 26, then the heavy weight lifting belt upwards passes through the space between the two fifth belt isolating rods 291, then the heavy weight lifting belt is wound around the other group of upper belt guide shafts 25, and the heavy weight lifting belt is wound in a circulating mode. Because many heavy pound hoisting belts can be stored simultaneously to over-and-under type storage device 2, many fifth separate band poles 291 are used for spacing apart two adjacent heavy pound hoisting belts, prevent on the one hand that heavy pound hoisting belt from squinting, on the other hand prevents that two adjacent heavy pound hoisting belts from influencing each other.

Specifically, the lift type material storage device 2 further comprises a left side sealing plate 214, a right side sealing plate 215, a front side sealing plate 216 and a rear side sealing plate 217, the left side sealing plate 214 is installed on the left side of the second support 21, the right side sealing plate 215 is installed on the right side of the second support 21, the front side sealing plate 216 is rotatably connected to the front side of the second support 21, the rear side sealing plate 217 is installed on the rear side of the second support 21, and the left side sealing plate 214, the right side sealing plate 215, the front side sealing plate 216 and the rear side sealing plate 217 are all used for preventing external objects from entering the second support 21. The left closure plate 214, the right closure plate 215, the front closure plate 216 and the rear closure plate 217 protect the heavy duty lifting straps in the second bracket 21.

Specifically, the lifting type material storing device 2 further comprises a male buckle head 218, a female buckle head 219 and a plurality of hinges 2110, the front side sealing plate 216 is rotatably connected with the second support 21 through the plurality of hinges 2110, the male buckle head 218 is mounted on the front side sealing plate 216, the female buckle head 219 is mounted on the second support 21, and the male buckle head 218 and the female buckle head 219 are in buckling fit so that the front side sealing plate 216 is locked on the second support 21.

Before the lifting type storage device 2 works, an operator firstly releases the buckles of the buckle male head 218 and the buckle female head 219, then drives the front side sealing plate 216 to rotate to open the inside of the second support 21, and the operator can perform heavy-weight hoisting belt winding work on the multiple groups of upper belt guide shafts 25 and the multiple groups of lower belt guide shafts 26. Specifically, front side closure plate 216 pivots along a plurality of hinges 2110. After the multiple sets of upper tape guide shafts 25 and the multiple sets of lower tape guide shafts 26 are wound around the heavy load hoisting tape, the operator drives the front side sealing plate 216 to rotate to close the inside of the second bracket 21, and then the male buckle head 218 is buckled with the female buckle head 219, so that the front side sealing plate 216 is locked on the second bracket 21.

As shown in fig. 5 to 9, in the embodiment, the lift type material storing device 2 further includes a plurality of sets of rolling bearing assemblies 27 mounted on the lift mounting base 22, each rolling bearing assembly 27 includes a rolling bearing 271 and a connecting shaft 272, the connecting shaft 272 is mounted on the lift mounting base 22, and the rolling bearing 271 is rotatably connected with the connecting shaft 272; the second support 21 is provided with upper limit switch 211 and upper limit alarm 212, upper limit switch 211 and upper limit alarm 212 electric connection, upper limit switch 211 is located the top of second support 21 and is located the top of antifriction bearing 271, and upper limit switch 211 is used for the response or contradicts antifriction bearing 271.

In the process of upward movement of the lifting installation seat 22, the plurality of groups of rolling bearing assemblies 27 move upward along with the lifting installation seat 22, when the rolling bearings 271 of the rolling bearing assemblies 27 moving upward collide with the upper limit switch 211, the upper limit alarm 212 gives an alarm to indicate that the heavy-weight hoisting belt in the lifting storage device 2 is used up, and meanwhile, the whole heavy-weight hoisting belt production line stops working to wait for the outside to supplement the heavy-weight hoisting belt into the lifting storage device 2. The upper limit switch 211, the upper limit alarm 212 and the plurality of groups of rolling bearing assemblies 27 are matched to work together, and the lifting type material storage device 2 has the function of reminding the lifting belt without heavy weight.

Specifically, the second bracket 21 is provided with a lower limiting rod 213, the lower limiting rod 213 is used for abutting against the lifting installation seat 22, and the lower limiting rod 213 is used for limiting the lifting installation seat 22. In actual operation, when the lifting mounting base 22 descends to the lower limit, the lower limit rod 213 will abut against the lifting mounting base 22, and the lower limit rod 213 will prevent the lifting mounting base 22 from descending further.

As shown in fig. 10 to 14, in the present embodiment, the movable dye vat device 3 includes a cart 31, a loading platform 32, a dye vat box 33, a transmission rod 34, a second driving device 35, and two sets of lifting web assemblies 36; two ends of the transmission rod 34 are respectively hinged to the two groups of lifting web components 36, one end of the second driving device 35 is in driving connection with the transmission rod 34, and the other end of the second driving device 35 is hinged to the cart 31; two groups of lifting web assemblies 36 are respectively arranged at two sides of the bearing table 32, one end of each lifting web assembly 36 is connected to the bearing table 32, and the other end of each lifting web assembly 36 is connected to the cart 31; the bearing table 32 is used for bearing the dyeing tank box 33; the second driving device 35 drives the two sets of lifting web assemblies 36 to extend or retract through the transmission rod 34, the two sets of extending lifting web assemblies 36 are used for driving the bearing platform 32 and the dyeing tank 33 to ascend, and the two sets of retracting lifting web assemblies 36 are used for driving the bearing platform 32 and the dyeing tank 33 to descend.

When the dye in the dyeing tank box 33 needs to be replaced by another color, the whole heavy-weight hoisting belt production line stops working, then the second driving device 35 drives the two groups of lifting web components 36 to shrink through the transmission rod 34, the two groups of shrinking lifting web components 36 drive the bearing platform 32 and the dyeing tank box 33 to descend, and then the operator pulls the dyeing tank box 33 away through the trolley 31. Meanwhile, another operator pushes the dyeing tank box 33 filled with new dye to the lower part of the working position through another cart 31, then the second driving device 35 drives the two groups of lifting web components 36 to extend through the transmission rod 34, the two groups of lifting web components 36 which extend drive the bearing platform 32 and the dyeing tank box 33 filled with new dye to ascend, when the dyeing tank box 33 ascends to the working position, the second driving device 35 stops working, and finally the whole heavy-weight hoisting belt production line is restarted. The utility model provides a dyeing tank 33 is portable and sets up, when the dyestuff in the dyeing tank 33 needs to be changed, can be fast with the dyeing tank 33 propelling movement to the operating position who is equipped with new dyestuff through shallow 31, sparingly wash the time of the dyestuff in the dyeing tank 33, shorten the time that the production line stop work is taken in whole heavy pound hoist and mount, has improved the efficiency of work, has reduced the cost of production. Preferably, the second driving means 35 is a cylinder.

Specifically, the dyeing tank 33 is provided with a single-end filament tube 331 and a water valve switch 332, one end of the single-end filament tube 331 penetrates through the bearing table 32 and is connected to the dyeing tank 33 in a threaded manner, the single-end filament tube 331 is communicated with the dyeing tank 33, the other end of the single-end filament tube 331 is connected with the water valve switch 332, and the water valve switch 332 is used for opening or closing the single-end filament tube 331. In the process of cleaning the dyeing tank 33, when the sewage in the dyeing tank 33 needs to be discharged to the outside, an operator can open the single-end filament tube 331 through the water valve switch 332, and the sewage in the dyeing tank 33 can be discharged to the outside through the single-end filament tube 331. The dyeing tank 33 is provided with a single-end filament tube 331 and a water valve switch 332, which is convenient for an operator to clean the dye in the dyeing tank 33.

Specifically, the movable dye vat device 3 further comprises a third support 37, a first roller 371, a second roller 372 and a third driving device 373, wherein the first roller 371 is rotatably connected to the third support 37, the third driving device 373 is installed on the third support 37 and is used for driving the first roller 371 to rotate, and the second roller 372 is rotatably connected to the dye vat box 33. In actual work, the heavy weight hoisting belt is wound around the first roller 371, then the heavy weight hoisting belt is wound around the second roller 372, and finally the heavy weight hoisting belt is wound around the feeding roller of the first drying device 4. The third driving device 373 drives the first roller 371 to rotate to drive the heavy weight sling forward. The second roller 372 is soaked in the dye in the dyeing tank 33, and the dye in the dyeing tank 33 can dye the heavy weight hoisting belt wound around the second roller 372. Preferably, the third driving device 373 is a motor driving mechanism. The movable dye vat device 3 can automatically dye the heavy-weight hoisting belt.

Specifically, the movable dye vat unit 3 further includes a third roller 38 and a fourth driving unit 381, the third roller 38 is rotatably connected to the third support 37, and the fourth driving unit 381 is installed on the third support 37 and is configured to drive the third roller 38 to move so as to make the third roller 38 approach or separate from the first roller 371. The movable dye vat device 3 further comprises a fourth roller 39 and a fifth driving device 391, wherein the fourth roller 39 is rotatably connected to the third support 37, and the fifth driving device 391 is arranged on the third support 37 and is used for driving the fourth roller 39 to move so as to enable the fourth roller 39 to be close to or far away from the first roller 371. The mobile dye vat device 3 further comprises a tension adjusting roller 310, a sixth driving device 3101 and two swing arms 3102; the two swing arms 3102 are respectively and rotatably connected to the third bracket 37, two ends of the tension adjusting roller 310 are respectively and rotatably connected to the two swing arms 3102, and the sixth driving device 3101 is mounted on the third bracket 37 and is used for driving the two swing arms 3102 to rotate.

In actual work, the heavy-weight hoisting belt is wound around the third roller 38, then the heavy-weight hoisting belt is wound around the first roller 371, then the heavy-weight hoisting belt is wound around the second roller 372, then the heavy-weight hoisting belt is wound around the fourth roller 39, then the heavy-weight hoisting belt is wound around the tension adjusting roller 310, and finally the heavy-weight hoisting belt is wound around the feeding roller of the first drying device 4. The fourth drive unit 381 drives the third roller 38 to move so that the third roller 38 approaches or moves away from the first roller 371. Before entering the dyeing tank 33, the third roller 38 is used to adjust the tension of the heavy weight hoisting belt so that the heavy weight hoisting belt achieves a better dyeing effect. The fourth roller 39 presses the dyed heavy-weight hoisting belt to the first roller 371, the redundant dye of the dyed heavy-weight hoisting belt is extruded under the co-extrusion action of the fourth roller 39 and the first roller 371, the extruded redundant dye can be immersed into the heavy-weight hoisting belt wound on the first roller 371 or fall back into the dyeing tank box 33, and the movable dyeing tank device 3 is provided with the fourth roller 39 to improve the utilization rate of the dye. The fifth driving device 391 drives the fourth roller 39 to move so as to adjust the distance between the fourth roller 39 and the first roller 371. Preferably, the fourth driving device 381 is two air cylinders, and the two air cylinders drive the third roller 38 to move together. The fifth driving device 391 is two air cylinders, and the two air cylinders drive the fourth roller 39 to move together.

Before the dyed heavy pound hoisting belt enters the first drying device 4, the tension adjusting roller 310 is used for adjusting the tension of the dyed heavy pound hoisting belt so that the dyed heavy pound hoisting belt achieves a better drying effect. Specifically, the sixth driving device 3101 drives the two swing arms 3102 to rotate simultaneously, the two rotating swing arms 3102 drive the tension adjusting roller 310 to swing up and down, and the swinging tension adjusting roller 310 can adjust the tension of the dyed heavy hoist belt. Preferably, the third bracket 37 is provided with a second rotating shaft 3103 and two second bearing seat assemblies 3104, the two second bearing seat assemblies 3104 are installed on the third bracket 37, one end of the second rotating shaft 3103 passes through one swing arm 3102 and is rotatably connected with one second bearing seat assembly 3104, and the other end of the second rotating shaft 3103 passes through the other swing arm 3102 and is rotatably connected with the other second bearing seat assembly 3104. In actual operation, the sixth driving device 3101 drives the two swing arms 3102 to rotate simultaneously, and the two rotating swing arms 3102 rotate along the second rotating shaft 3103. Preferably, the sixth driving device 3101 is composed of two cylinders, and the two cylinders respectively drive the two swing arms 3102 to rotate.

As shown in fig. 10 to 14, in the present embodiment, the cart 31 includes a first frame beam 311, a second frame beam 312, a third frame beam 313, a fourth frame beam 314, a cart handle 315, and four caster wheels 316; the first frame beam 311, the second frame beam 312, the third frame beam 313 and the fourth frame beam 314 are sequentially connected end to end, two casters 316 are arranged on the second frame beam 312, the other two casters 316 are arranged on the fourth frame beam 314, and the cart handle 315 is arranged on the second frame beam 312; the end of the second drive means 35 remote from the drive bar 34 is hinged to the second frame beam 312 and the two sets of lifting web assemblies 36 are connected to the first frame beam 311 and the third frame beam 313 respectively.

The cart 31 is simple in construction and provides a basis for mounting the second drive means 35 and the two sets of lifting web assemblies 36. The cart handle 315 can be conveniently held by an operator.

Specifically, the lifting web assembly 36 includes a first web 361, a second web 362, an upper pulley 363 and a lower pulley 364, the first web 361 and the second web 362 are arranged in an intersecting manner, both a middle portion of the first web 361 and a middle portion of the second web 362 are hinged to one end of the transmission rod 34, the upper pulley 363 is rotatably connected to one end of the first web 361, and the lower pulley 364 is rotatably connected to one end of the second web 362; the first frame beam 311 is provided with a first sliding groove 3111 for accommodating the lower pulley 364, and the plummer 32 is provided with a second sliding groove 321 for accommodating the upper pulley 363; an upper pulley 363 at one end of the first web 361 is slidably disposed on the second chute 321 of the plummer 32, and the other end of the first web 361 is hinged to the first frame beam 311; a lower pulley 364 at one end of the second web 362 is slidably disposed in the first sliding groove 3111 of the first frame beam 311, and the other end of the second web 362 is hinged to the platform 32. The third frame beam 313 is provided with a first slide slot 3111 for accommodating a lower pulley 364 of another set of lifting web assemblies 36.

In actual operation, the second driving device 35 drives the two sets of lifting web assemblies 36 to extend or retract via the transmission rod 34, and the working principle of extending the two sets of lifting web assemblies 36 is the same as that of retracting the two sets of lifting web assemblies 36, and only the working principle of extending the two sets of lifting web assemblies 36 is described here. The second driving device 35 extends and simultaneously drives the first webs 361 and the second webs 362 of the two sets of lifting web assemblies 36 to rotate through the transmission rod 34, the upper pulleys 363 at one ends of the two sets of rotating first webs 361 respectively slide along the corresponding second sliding grooves 321 in the direction close to the second webs 362, and the other ends of the two sets of rotating first webs 361 respectively rotate along the hinge point with the first frame beam 311 and the hinge point with the third frame beam 313; the lower pulleys 364 at one end of the two sets of rotating second webs 362 slide along the corresponding first sliding grooves 3111 toward the direction close to the first webs 361, and the other end of the two sets of rotating second webs 362 rotate along the hinge point with the bearing platform 32. Second drive 35 is deactivated when the extension of first web 361 and second web 362 of both sets of lift web assemblies 36 is completed. During the extension of both sets of lift web assemblies 36, the extended sets of lift web assemblies 36 drive the lift table 32 and the dye vat box 33 up. The lifting web assembly 36 has a simple structure and can effectively raise or lower the carrier table 32 and the dye vat 33.

As shown in fig. 15 to 21, in the present embodiment, the first drying device 4 includes a drying box 41, a hot air duct box 42, a hot air duct liner 43, a burner 44, a blower 45, a plurality of sets of drying box upper tape guide shaft assemblies 46 and a plurality of sets of drying box lower tape guide shaft assemblies 47; the drying box 41 is provided with a drying box air inlet 411, a drying box air outlet 412, a belt inlet 413, a belt outlet 414 and an accommodating cavity 415, and the drying box air inlet 411, the drying box air outlet 412, the belt inlet 413 and the belt outlet 414 are all communicated with the accommodating cavity 415; the hot air duct box 42 is provided with a hot air duct box inlet 421 and a hot air duct box outlet 422, the drying box inlet 411 is communicated with the hot air duct box outlet 422, and the drying box outlet 412 is communicated with the hot air duct box inlet 421; the hot air duct inner container 43 and the blower 45 are both arranged inside the hot air duct box 42, the burner 44 is arranged in the hot air duct box 42, the flame outlet end of the burner 44 is positioned inside the hot air duct inner container 43, the gas connecting end of the burner 44 is exposed in the hot air duct box 42, and the burner 44 is used for heating the air inside the hot air duct inner container 43; the blower 45 is used for inputting the hot air of the hot air duct liner 43 into the accommodating cavity 415 of the drying box 41 through the hot air duct box air outlet 422 and the drying box air inlet 411; the multiple groups of drying box upper belt guiding shaft assemblies 46 and the multiple groups of drying box lower belt guiding shaft assemblies 47 are positioned in the accommodating cavity 415, the multiple groups of drying box upper belt guiding shaft assemblies 46 are rotatably arranged at the upper end of the drying box 41, and the multiple groups of drying box lower belt guiding shaft assemblies 47 are rotatably arranged at the lower end of the drying box 41; the heavy pound hoisting belt dyed by the movable dye vat device 3 enters the accommodating cavity 415 of the drying box 41 through the belt inlet 413, the heavy pound hoisting belt is wound on the multiple groups of drying box upper belt guide shaft assemblies 46 and the multiple groups of drying box lower belt guide shaft assemblies 47, the multiple groups of drying box upper belt guide shaft assemblies 46 and the multiple groups of drying box lower belt guide shaft assemblies 47 are used for driving the heavy pound hoisting belt to move, and the heavy pound hoisting belt comes out of the drying box 41 through the belt outlet 414.

The first drying device 4 and the second drying device 5 have the same structure and the same working principle, except that the first drying device 4 and the second drying device 5 have different set temperatures. In this embodiment, the first drying device 4 is taken as an example for explanation, and the second drying device 5 is not repeated herein.

In actual work, the heavy-weight hoisting belt dyed by the movable dye vat device 3 enters the accommodating cavity 415 of the drying box 41 from the belt inlet 413, then the heavy-weight hoisting belt is sequentially wound on the multiple groups of drying box upper belt guide shaft assemblies 46 and the multiple groups of drying box lower belt guide shaft assemblies 47 back and forth, and the heavy-weight hoisting belt is driven by the multiple groups of drying box upper belt guide shaft assemblies 46 and the multiple groups of drying box lower belt guide shaft assemblies 47 to move from the belt inlet 413 to the belt outlet 414. Meanwhile, the burner 44 works and heats the air inside the hot air duct liner 43, the blower 45 works and inputs the hot air of the hot air duct liner 43 into the accommodating cavity 415 of the drying box 41 through the hot air duct box air outlet 422 and the drying box air inlet 411; the hot air in the accommodating cavity 415 pre-dries the heavy-weight hoisting belt in the accommodating cavity 415, and then the hot air in the accommodating cavity 415 enters the hot air duct box 42 through the drying box air outlet 412 and the hot air duct box air inlet 421, so that the hot air in the accommodating cavity 415 is recycled, the heat loss is reduced, the energy consumption is reduced, and the production cost of the heavy-weight hoisting belt is reduced. The heavy weight sling is pre-dried and exits through the outlet 414. The hot air duct inner container 43 is made of ceramic materials or metal plates wrapped with glass wool, and the hot air duct inner container 43 has a good heat preservation effect, so that heat loss is reduced. The heat loss of first drying device 4 and second drying device 5 of this application is low to reduce the energy resource consumption of heavy pound hoist and mount area production line, reduce the manufacturing cost of heavy pound hoist and mount area.

Specifically, the drying box 41 includes a left plate 416, a right plate 417, a front plate 418, a rear plate 419, a bottom plate 4110, and a top plate 4111, the left plate 416 and the right plate 417 are disposed on the bottom plate 4110 at intervals, the front plate 418 and the rear plate 419 are disposed on the bottom plate 4110 at intervals, two ends of the left plate 416 are respectively connected to the front plate 418 and the rear plate 419, two ends of the right plate 417 are respectively connected to the front plate 418 and the rear plate 419, and the left plate 416, the right plate 417, the front plate 418, the rear plate 419, and the bottom plate 4110 are enclosed to form an accommodating cavity 415; one end of the top plate 4111 is rotatably connected to the rear plate 419, the left plate 416 and the right plate 417 are both provided with a third cylinder 4112 for driving the top plate 4111 to rotate, and the top plate 4111 is used for opening or closing the accommodating cavity 415.

In actual work, when the temperature of the hot air in the accommodating cavity 415 is too high or the first drying device 4 stops working, the hot air in the accommodating cavity 415 needs to be discharged to the outside atmosphere in time, so that the heavy-weight hoisting belt in the accommodating cavity 415 is prevented from being damaged by the hot air with too high temperature. Specifically, the third cylinder 4112 works and drives the top plate 4111 to rotate, the rotating top plate 4111 opens the accommodating cavity 415, so that the accommodating cavity 415 is communicated with the outside atmosphere, and hot air in the accommodating cavity 415 can be exhausted to the outside atmosphere. When the first drying device 4 works normally, the top plate 4111 closes the accommodating cavity 415, so that the accommodating cavity 415 is isolated from the outside atmosphere, and hot air in the accommodating cavity 415 is prevented from leaking. Preferably, the left plate member 416 and the right plate member 417 may be provided with a support rod for supporting the top plate member 4111, the third cylinder 4112 operates to drive the top plate member 4111 to rotate, then the support rod supports the top plate member 4111, and then the third cylinder 4112 is stopped, so as to achieve the purpose of saving energy.

Specifically, the front plate 418 is provided with a plurality of thermal insulation doors 4181, the plurality of thermal insulation doors 4181 are rotatably connected to the front plate 418, and the plurality of thermal insulation doors 4181 are used for opening or closing the accommodating cavity 415. First drying device 4 opens holding chamber 415 through several insulated doors 4181 before the work, and operating personnel just can be to the conduction band axle subassembly 46 on the multiunit stoving case and conduction band axle subassembly 47 under the multiunit stoving case and carry out around heavy pound hoist and mount area work, also makes things convenient for operating personnel to install or maintenance work to the spare part in the holding chamber 415 simultaneously, accords with the demand of production.

Specifically, the hot air duct box 42 is provided with a cold air inlet 423, and the cold air inlet 423 is respectively communicated with the hot air duct box 42 and the hot air duct liner 43. In actual work, the blower 45 inputs the hot air of the hot air duct liner 43 into the accommodating cavity 415 of the drying box 41 through the hot air duct box air outlet 422 and the drying box air inlet 411, and the blower 45 can make the hot air duct liner 43 generate negative pressure in the working process, so that the cold air inlet 423 is needed to introduce external air into the hot air duct liner 43, the air pressure value inside the hot air duct liner 43 is ensured to be normal, and the first drying device 4 can work normally.

Specifically, the hot air duct box 42 is provided with a first air volume adjusting assembly 424, and the first air volume adjusting assembly 424 is located at one side of the hot air duct box air inlet 421; the first air volume adjusting assembly 424 includes a first air duct 4241, a first end cap 4242 and a first handle 4243, one end of the first air duct 4241 is communicated with the hot air duct inner container 43, the other end of the first air duct 4241 protrudes out of the hot air duct box 42, the first end cap 4242 is disposed inside the first air duct 4241, the first handle 4243 is installed on the first air duct 4241 and is used for driving the first end cap 4242 to rotate, and the first end cap 4242 is used for adjusting the size of an air outlet of the first air duct 4241.

In the production process of the heavy pound hoisting belt, the temperatures set by the hot air of the first drying device 4 and the second drying device 5 are different, the second drying device 5 with higher hot air temperature can convey the hot air after the heavy pound hoisting belt is heated to the first drying device 4 with lower hot air temperature through an air pipe, so that the hot air is recycled, the heat loss is reduced, the energy consumption is reduced, and the production cost of the heavy pound hoisting belt is reduced. Specifically, the air pipe is communicated with one end of the first air duct 4241 protruding out of the hot air duct box 42, hot air of the second drying device 5 with higher hot air temperature is input into the hot air duct liner 43 through the air pipe and the first air duct 4241, then the burner 44 heats the hot air inside the hot air duct liner 43, and due to the fact that the hot air in the hot air duct liner 43 has heat, the flame projecting amount of the burner 44 can be properly reduced, so that the consumption of fuel gas is reduced, and the purpose of reducing energy consumption is achieved. Specifically, the first end cap 4242 can be rotated by the first handle 4243 to adjust the size of the air outlet of the first air duct 4241, so that the production requirement is met.

Specifically, the drying box 41 is provided with a second air volume adjusting assembly 425, and the second air volume adjusting assembly 425 is located at the upper end of the drying box 41; the second air volume adjusting assembly 425 comprises a second air duct 4251, a second end cap 4252 and a second handle 4253, one end of the second air duct 4251 is communicated with the drying box 41, the other end of the second air duct 4251 protrudes out of the drying box 41, the second end cap 4252 is arranged inside the second air duct 4251, the second handle 4253 is arranged on the second air duct 4251 and used for driving the second end cap 4252 to rotate, and the second end cap 4252 is used for adjusting the size of an air outlet of the second air duct 4251.

In the production process of the heavy pound hoisting belt, the temperatures set by the hot air of the first drying device 4 and the second drying device 5 are different, the second drying device 5 with higher hot air temperature can convey the hot air after the heavy pound hoisting belt is heated to the first drying device 4 with lower hot air temperature through an air pipe, so that the hot air is recycled, the heat loss is reduced, the energy consumption is reduced, and the production cost of the heavy pound hoisting belt is reduced. Specifically, the air pipe is communicated with one end of the second air duct 4251 protruding out of the drying box 41, and the hot air of the second drying device 5 with higher hot air temperature is input into the first drying device 4 with lower hot air temperature through the second air duct 4251 and the air pipe. Specifically, the second end cap 4252 can be rotated by the second handle 4253 to adjust the size of the air outlet of the second air duct 4251, so as to meet the production requirement.

Specifically, an inclined guide belt assembly 461 for changing the angle of the heavy-weight hoisting belt and a separation belt assembly 462 for separating two adjacent heavy-weight hoisting belts are arranged between the multiple groups of drying box upper guide belt shaft assemblies 46 and the multiple groups of drying box lower guide belt shaft assemblies 47. The inclined conduction band component 461 and the isolation band component 462 both belong to the prior art, such as the application numbers of Chinese patent documents: 201020667969.1 entitled novel continuous dyeing machine, the guide shaft of the belt partitioning device described in the specification is the inclined guide belt assembly 461 in this embodiment, and the belt partitioning shaft of the belt partitioning device is the belt partitioning assembly 462 in this embodiment.

As shown in fig. 18 and 22, in this embodiment, the first drying device 4 further includes an air guiding groove 48 and a plurality of groups of hot air uniformly dispersing assemblies 49, the air guiding groove 48 and the plurality of groups of hot air uniformly dispersing assemblies 49 are both disposed inside the drying box 41, the air guiding groove 48 is communicated with an air inlet 411 of the drying box, and the plurality of groups of hot air uniformly dispersing assemblies 49 are located above the air guiding groove 48; the hot air uniform dispersion assembly 49 comprises two air regulating plates 491 and a plurality of screws, both ends of the two air regulating plates 491 are respectively provided with a strip hole 492, the strip holes 492 penetrate through the air regulating plates 491, the plurality of screws penetrate through the strip holes 492 and are in threaded connection with the drying box 41, and the plurality of screws are used for locking the two air regulating plates 491 on the drying box 41; a hot air outlet 493 is arranged between the two air adjusting plates 491.

In actual work, the blower 45 works and conveys the hot air in the hot air duct liner 43 to the air guide groove 48 through the hot air duct box air outlet 422 and the drying box air inlet 411, the air guide groove 48 guides the hot air, and the hot air in the air guide groove 48 is conveyed into the accommodating cavity 415 of the drying box 41 through the hot air outlet 493 between the two air adjusting plates 491. The hot air outlets 493 of the multiple groups of hot air uniform dispersion assemblies 49 uniformly disperse the hot air in the air guide grooves 48, so that the hot air uniformly enters the accommodating cavity 415, the temperature in the accommodating cavity 415 is uniform, and the heavy lifting belt has a better drying effect. Specifically, each air adjusting plate 491 can be adjusted in position, so that the size of the hot air outlet 493 can be adjusted according to the production requirement. When the position adjustment of the register 491 is completed, a plurality of screws are passed through the elongated holes 492 and screwed into the drying case 41.

As shown in fig. 1, 23 and 24, in this embodiment, the heavy weight lifting belt production line further includes an extension device 7 for stretching the heavy weight lifting belt, the extension device 7 includes a front extension assembly 71 and a rear extension assembly 72, the front extension assembly 71 is disposed between the first drying device 4 and the second drying device 5, and the rear extension assembly 72 is disposed between the second drying device 5 and the belt collecting device 6;

the front extension assembly 71 includes a front extension bracket 711, a seventh driving device 712, and a plurality of front extension rollers 713; the plurality of front extension rollers 713 are rotatably connected to the front extension bracket 711, and the seventh driving device 712 is mounted on the front extension bracket 711 and is used for driving the plurality of front extension rollers 713 to rotate;

the rear extension assembly 72 comprises a rear extension bracket 721, an eighth driving device 722, a plurality of rear extension upper rollers 723, a plurality of rear extension middle rollers 724 and a plurality of rear extension lower rollers 725; the rear extension upper rollers 723 are rotatably connected to the upper end of the rear extension frame 721, the rear extension middle rollers 724 are rotatably connected to the middle end of the rear extension frame 721, the rear extension lower rollers 725 are rotatably connected to the lower end of the rear extension frame 721, and the eighth driving device 722 is installed on the rear extension frame 721 and is used for driving the rear extension lower rollers 725 to rotate.

In actual work, the heavy-weight hoisting belt subjected to pre-drying treatment by the first drying device 4 is firstly wound around the plurality of front extension rollers 713, then the heavy-weight hoisting belt enters the second drying device 5, the second drying device 5 is used for drying the heavy-weight hoisting belt, the heavy-weight hoisting belt subjected to drying treatment by the second drying device 5 is wound up and down back and forth around the plurality of rear extension upper rollers 723 and the plurality of rear extension middle rollers 724, then the heavy-weight hoisting belt is wound around the plurality of rear extension lower rollers 725, and finally the heavy-weight hoisting belt is wound around the material collecting rollers of the material collecting device 6. The rotating speed of the rear extension assembly 72 is higher than that of the front extension assembly 71, so that a speed difference is formed between the rear extension assembly 72 and the front extension assembly 71, the stretching of the heavy-weight hoisting belt is realized, and the drying effect of the heavy-weight hoisting belt stretched by the extension device 7 on the second drying device 5 is better. The rear extension assembly 72 is provided with a plurality of rear extension upper rollers 723 and a plurality of rear extension middle rollers 724, so that the time of the heavy-weight hoisting belt outside is increased, the heavy-weight hoisting belt is cooled in an air cooling mode, and preparation is made for subsequent winding treatment of the belt winding device 6. Specifically, the rear extension support 721 is provided with a calendering device 8 for calendering the heavy-weight hoisting belt, the calendering device 8 comprises an upper calendering roller and a lower calendering roller, and the upper calendering roller and the lower calendering roller mutually press the heavy-weight hoisting belt, so that the heavy-weight hoisting belt becomes smooth and glossy.

All the technical features in the embodiment can be freely combined according to actual needs.

The above-mentioned embodiment is the utility model discloses the implementation scheme of preferred, in addition, the utility model discloses can also realize by other modes, any obvious replacement is all within the protection scope of the utility model under the prerequisite that does not deviate from this technical scheme design.

Claims (10)

1. The utility model provides a production line is taken in heavy pound hoist and mount which characterized in that: the device comprises a knot detection device for performing knot prevention detection on the heavy pound hoisting belt, a lifting storage device for storing the heavy pound hoisting belt qualified by detection of the knot detection device, a first drying device for performing pre-drying treatment on the heavy pound hoisting belt dyed by the movable dye vat device, a second drying device for performing drying treatment on the heavy pound hoisting belt pre-dried by the first drying device and a belt collecting device for performing rolling treatment on the heavy pound hoisting belt dried by the second drying device, wherein the lifting storage device is used for conveying the heavy pound hoisting belt to the movable dye vat device;

the knotting detection device comprises a first bracket, a frame, a first belt isolating rod, a second belt isolating rod, a first driving device, two sliding connection blocks and two locking pieces; the frame is rotationally connected with the first bracket, and the first driving device is arranged on the first bracket and used for driving the frame to rotate; the two ends of the first strip isolating rod are respectively connected to the frame, the two sliding connection blocks are respectively connected to the two ends of the second strip isolating rod, the two sliding connection blocks are respectively arranged on the frame in a sliding mode and used for driving the second strip isolating rod to be close to or far away from the first strip isolating rod, the first strip isolating rod and the second strip isolating rod are arranged in parallel, and a gap is formed between the first strip isolating rod and the second strip isolating rod; two retaining members are used to secure the two sliding connection blocks to the frame.

2. A heavy load hoisting belt production line as claimed in claim 1, wherein: the frame comprises a first plate, a second plate and a third plate; the first plate and the second plate are respectively connected to two opposite ends of the third plate, the first plate and the second plate are respectively connected to the first support in a rotating mode, and the first driving device is used for driving the first plate and the second plate to rotate; the two ends of the first separation band rod are connected to the first plate and the second plate respectively, the two sliding connecting blocks are arranged on the first plate and the second plate in a sliding mode respectively, and the two locking pieces are used for locking the two sliding connecting blocks on the first plate and the second plate respectively.

3. A heavy load hoisting belt production line as claimed in claim 2, wherein: the locking part comprises a locking part handle and a stud connected to the locking part handle; the sliding connecting block is provided with a displacement chute which penetrates through the sliding connecting block; the double-screw bolt is worn through the displacement spout and threaded connection in first plate or second plate, and retaining member handle is used for locking the sliding connection piece in first plate or second plate.

4. A heavy load hoisting belt production line as claimed in claim 1, wherein: the lifting type material storage device comprises a second support, a lifting mounting seat, a slide rail, a slide block, a plurality of groups of upper tape guide shafts and a plurality of groups of lower tape guide shafts; the plurality of groups of upper tape guide shafts are rotatably connected to the second support, the slide rail is arranged on the second support, the slide block is arranged on the slide rail in a sliding manner, the lifting mounting seat is connected with the slide block, and the plurality of groups of lower tape guide shafts are rotatably connected to the lifting mounting seat; the lifting installation base slides along the slide rail through the slide block to drive the multiple groups of lower tape guide shafts to be close to or far away from the multiple groups of upper tape guide shafts.

5. A heavy weight hoisting belt production line as claimed in claim 4, wherein: the lifting type material storage device also comprises a plurality of groups of rolling bearing assemblies arranged on the lifting mounting seat, each rolling bearing assembly comprises a rolling bearing and a connecting shaft, the connecting shafts are arranged on the lifting mounting seat, and the rolling bearings are rotatably connected with the connecting shafts; the second support is provided with limit switch and last limit alarm, goes up limit switch and last limit alarm electric connection, go up limit switch and be located the top of second support and be located antifriction bearing's top, go up limit switch and be used for the response or conflict antifriction bearing.

6. A heavy load hoisting belt production line as claimed in claim 1, wherein: the movable dye vat device comprises a trolley, a bearing platform, a dye vat box, a transmission rod, a second driving device and two groups of lifting web components; two ends of the transmission rod are respectively hinged to the two groups of lifting web plate assemblies, one end of the second driving device is connected to the transmission rod in a driving mode, and the other end of the second driving device is hinged to the trolley; the two groups of lifting web plate assemblies are respectively arranged on two sides of the bearing table, one end of each lifting web plate assembly is connected to the bearing table, and the other end of each lifting web plate assembly is connected to the trolley; the bearing platform is used for bearing the dyeing tank box; the second driving device drives the two groups of lifting web components to extend or contract through the transmission rod, the two groups of extending lifting web components are used for driving the bearing platform and the dyeing tank box to ascend, and the two groups of contracting lifting web components are used for driving the bearing platform and the dyeing tank box to descend.

7. A heavy weight hoisting belt production line as claimed in claim 6, wherein: the cart comprises a first frame beam, a second frame beam, a third frame beam, a fourth frame beam, a cart handle and four trundles; the first frame beam, the second frame beam, the third frame beam and the fourth frame beam are sequentially connected end to end, two trundles are arranged on the second frame beam, the other two trundles are arranged on the fourth frame beam, and the cart handle is arranged on the second frame beam; one end, far away from the transmission rod, of the second driving device is hinged to the second frame beam, and the two groups of lifting web plate assemblies are connected to the first frame beam and the third frame beam respectively.

8. A heavy load hoisting belt production line as claimed in claim 1, wherein: the first drying device comprises a drying box, a hot air duct liner, a burner, a blower, a plurality of groups of drying box upper guide belt shaft assemblies and a plurality of groups of drying box lower guide belt shaft assemblies; the drying box is provided with a drying box air inlet, a drying box air outlet, a belt inlet, a belt outlet and an accommodating cavity, and the drying box air inlet, the drying box air outlet, the belt inlet and the belt outlet are communicated with the accommodating cavity; the hot air duct box is provided with a hot air duct box air inlet and a hot air duct box air outlet, the drying box air inlet is communicated with the hot air duct box air outlet, and the drying box air outlet is communicated with the hot air duct box air inlet; the hot air duct inner container and the air feeder are both arranged inside the hot air duct box, the burner is arranged in the hot air duct box, the flame outlet end of the burner is positioned inside the hot air duct inner container, the gas connecting end of the burner is exposed in the hot air duct box, and the burner is used for heating the air inside the hot air duct inner container; the air feeder is used for inputting hot air of the hot air duct liner into the accommodating cavity of the drying box through the air outlet of the hot air duct box and the air inlet of the drying box; the multiple groups of drying box upper belt guiding shaft assemblies and the multiple groups of drying box lower belt guiding shaft assemblies are positioned in the accommodating cavities, the multiple groups of drying box upper belt guiding shaft assemblies are rotatably arranged at the upper ends of the drying boxes, and the multiple groups of drying box lower belt guiding shaft assemblies are rotatably arranged at the lower ends of the drying boxes; heavy pound hoist and mount area after dyeing treatment that portable dye vat device gets into the holding intracavity of stoving case via advancing the area mouth, and heavy pound hoist and mount area twines on multiunit stoving case conduction band axle subassembly and multiunit stoving case conduction band axle subassembly down, and conduction band axle subassembly is used for driving heavy pound hoist and mount area and removes under multiunit stoving case conduction band axle subassembly and the multiunit stoving case on the multiunit stoving case, and heavy pound hoist and mount area comes out from the stoving case via going out the area mouth.

9. A heavy load hoisting belt production line as claimed in claim 8, wherein: the first drying device further comprises an air guide groove and a plurality of groups of hot air uniform dispersion assemblies, the air guide groove and the plurality of groups of hot air uniform dispersion assemblies are both arranged inside the drying box, the air guide groove is communicated with an air inlet of the drying box, and the plurality of groups of hot air uniform dispersion assemblies are positioned above the air guide groove; the hot air uniform dispersion assembly comprises two air adjusting plates and a plurality of screws, two ends of each air adjusting plate are provided with a long hole, the long holes penetrate through the air adjusting plates, the screws penetrate through the long holes and are in threaded connection with the drying box, and the screws are used for locking the two air adjusting plates to the drying box; a hot air outlet is arranged between the two air adjusting plates.

10. A heavy load hoisting belt production line as claimed in claim 1, wherein: the heavy-weight hoisting belt production line further comprises an extension device for stretching the heavy-weight hoisting belt, wherein the extension device comprises a front extension assembly and a rear extension assembly, the front extension assembly is arranged between the first drying device and the second drying device, and the rear extension assembly is arranged between the second drying device and the belt collecting device;

the front extension assembly comprises a front extension bracket, a seventh driving device and a plurality of front extension rollers; the plurality of front extension rollers are rotatably connected to the front extension bracket, and the seventh driving device is arranged on the front extension bracket and used for driving the plurality of front extension rollers to rotate;

the rear extension assembly comprises a rear extension bracket, an eighth driving device, a plurality of rear extension upper rollers, a plurality of rear extension middle rollers and a plurality of rear extension lower rollers; extend the roller rotation after a plurality of and connect in the upper end that extends the support after, extend after a plurality of roller rotation connect after extend the support in the middle-end, extend the lower roll rotation after a plurality of and connect in the lower extreme that extends the support after, eighth drive arrangement installs after extend the support and be used for driving a plurality of back extension lower roll rotation.

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