CN214398392U - Storage device for gray cloth - Google Patents

Abstract

The utility model provides a storage device for embryo cloth, which comprises an embryo cloth shelf, a branch conveyor line, a transition buffer line, an input main line, an embryo cloth transfer machine and a first output line, wherein the branch conveyor line comprises a branch rail and an embryo cloth stacker, the branch rail is arranged on one side of the embryo cloth shelf in parallel, and extends along the length direction of the grey cloth shelf, the grey cloth stacker is arranged on a branch rail in a sliding way, both ends of the branch rail are provided with transition cache lines, when the turnover box with the gray cloth on the gray cloth shelf needs to be taken out, the turnover box is conveyed to a transition cache line close to a first output line by a gray cloth stacker, an input main line is arranged at one end of the gray cloth shelf, and the input main line is arranged at a right angle with the adjacent transition cache line, the input main line is used for conveying the turnover box along the width direction of the grey cloth shelf, the input end of the input main line is provided with a grey cloth transfer machine, and the first output line is arranged at the other end of the grey cloth shelf. The device can improve the efficiency of the embryo cloth in and out of the warehouse.

Description

Storage device for gray cloth

Technical Field

The utility model relates to a weaving dyeing and finishing technical field, in particular to embryo cloth storage device.

Background

With the continuous improvement of the technology level, a more intelligent and convenient warehousing system becomes a new trend of managing warehouses of large-scale factories and logistics companies. In the dyeing and finishing process, the gray cloth needs to be stored in a warehouse for subsequent processing. At present, the gray cloth is mostly stored by using a turnover box, and when the gray cloth is put in storage, the turnover box filled with the gray cloth is transported to a goods shelf by manpower or a forklift and other tools for storage. When the gray cloth is needed, the turnover box with the gray cloth is taken out from the goods shelf by manpower or a forklift and the like for production. When the number of the grey cloths in the warehouse is large and the warehousing and the delivery are frequent, the great labor cost is consumed, and the warehousing and the delivery efficiency of the grey cloths are difficult to ensure, so that the improvement is needed.

SUMMERY OF THE UTILITY MODEL

In view of the above, the utility model provides a blank cloth storage device to reduce the human cost, improve the efficiency that the embryo cloth goes into the warehouse-out.

The technical scheme of the utility model:

a storage device for embryo cloth comprises an embryo cloth shelf, a delivery branch line, a transition buffer line, an input main line, an embryo cloth transfer machine and a first output line, wherein the embryo cloth shelf is used for storing a turnover box containing embryo cloth, the delivery branch line comprises a branch line rail and an embryo cloth stacker, the branch line rail is arranged on one side of the embryo cloth shelf in parallel and extends along the length direction of the embryo cloth shelf, the embryo cloth stacker is arranged on the branch line rail in a sliding manner, the transition buffer line is arranged at two ends of the branch line rail, the input main line is arranged at one end of the embryo cloth shelf and is arranged at a right angle with the adjacent transition buffer line, the input main line is used for conveying the turnover box containing the embryo cloth on the embryo cloth transfer machine along the width direction of the embryo cloth shelf, the input end of the input main line is provided with the embryo cloth transfer machine, the input main line is used for conveying the turnover box containing the embryo cloth on the embryo cloth transfer machine to the corresponding transition buffer line, and the first output line is arranged at the other end of the embryo cloth shelf, the turnover box is conveyed along the width direction of the grey cloth shelf, and the first output line and the corresponding transition cache line are arranged at a right angle.

Further, including second output line and unloading conveyer, first output line is the right angle setting with the second output line, and the second output line includes main transfer chain and two at least transfer chains, and main transfer chain extends along grey cloth goods shelves length direction, and two at least transfer chain parallel arrangement in one side of main transfer chain, the one end and the main transfer chain of every transfer chain are the right angle and are connected, are connected through the unloading conveyer between the other end of every two transfer chains.

Furthermore, the main conveying line extends to one end of the input main line, so that the empty turnover boxes after the blank cloth is unloaded on the unloading conveyor directly return to the input main line along the main conveying line, and the empty turnover boxes return to the blank cloth transfer machine through the input main line.

Further, the main conveying line and the branch conveying lines both adopt roller type conveyors, and the two ends of the branch conveying lines both adopt jacking transfer devices.

Further, the input main line comprises an input ground rail and an input rail car arranged on the input ground rail in a sliding mode, and a conveying device is arranged on the input rail car and used for transferring the turnover boxes between the input rail car and the gray cloth transfer machine and transferring the turnover boxes between the input rail car and the transition cache line.

Furthermore, the embryo cloth transfer machine adopts a jacking transfer device.

Furthermore, the jacking transfer device adopts a jacking roller conveying mechanism and a chain conveying mechanism to match with each other to realize conveying of the turnover box along the length direction and the width direction of the turnover box.

Further, the unloading conveyor comprises an dumping device and a slope device, the dumping device is arranged between one end of each two conveying lines, the dumping device comprises a base, a conveying mechanism, a jacking driving piece and a locking mechanism, one end of the conveying mechanism is rotatably arranged at one end of the base, the other end of the conveying mechanism is supported at the other end of the base, the bottom end of the jacking driving piece is hinged to the base, the lifting end of the jacking driving piece is hinged to the conveying mechanism, the locking mechanism is arranged on the conveying mechanism to lock and hold a turnover box conveyed to the conveying mechanism on the conveying mechanism, a discharging door for opening or closing is arranged on the turnover box to pour out a blank cloth roll in the turnover box when the conveying mechanism is in an inclined state, and the slope device is arranged at one end where the conveying mechanism and the base are rotatably arranged to guide the blank cloth roll poured out in the turnover box to fall.

Furthermore, the unloading conveyor comprises an intermittent releasing device, an intermittent conveying device and a turning conveying device, the intermittent conveying device is arranged at a blank cloth roll falling end of the slope device, the intermittent releasing device is arranged between the slope device and the intermittent conveying device and used for rolling a blank cloth roll from the slope device to the intermittent conveying device at preset time intervals, the turning conveying device is arranged at the output end of the intermittent conveying device, the conveying direction of the turning conveying device is perpendicular to the conveying direction of the intermittent conveying device so as to change the blank cloth roll from a radial conveying state to an axial conveying state, and an unloading mechanism is arranged at the output end of the turning conveying device and used for conveying the blank cloth roll on the turning conveying device into a material groove of the cloth loosening machine.

The utility model has the advantages that:

the utility model discloses greige cloth storage device through set up transfer branch line and transition buffer memory line between the greige cloth goods shelves, sets up input thread and first output line respectively at greige cloth goods shelves both ends, sets up the greige cloth at the input of input thread and moves the machine of carrying. And conveying the turnover box provided with the gray cloth on the gray cloth transfer machine to the corresponding transition cache line through the input main line, and then taking the turnover box provided with the gray cloth on the transition cache line away through a gray cloth stacker and storing the turnover box on a gray cloth shelf. When the gray cloth needs to be taken out, the gray cloth stacker moves to the position of the turnover box corresponding to the gray cloth shelf, the turnover box provided with the gray cloth is taken down and is conveyed to one side of the transition cache line close to the first output line, the turnover box provided with the gray cloth on the gray cloth stacker is conveyed to the transition cache line close to the first output line, and the first output line conveys the turnover box provided with the gray cloth on the transition cache line close to the first output line out of the warehouse. The gray cloth storage device adopting the scheme has the advantages of simple and compact structure and reasonable layout, is easy to realize automatic storage and delivery of gray cloth, reduces manual carrying operation, thereby reducing labor cost and improving the efficiency of the gray cloth in and out of the warehouse.

Drawings

FIG. 1 is a schematic top view of the storage device for gray cloth according to the present invention;

FIG. 2 is a three-dimensional structure view of the discharging conveyor of the gray cloth storage device of the present invention;

fig. 3 is a reference diagram of the usage state of the discharging conveyor of the gray cloth storage device of the present invention;

fig. 4 is a three-dimensional structure diagram of a dumping device of a discharging conveyor of the gray cloth storage device of the present invention;

fig. 5 is a schematic top view of the gray cloth storage device according to another embodiment of the present invention.

Reference numerals: the blank cloth storage device 1, the turnover box 2, the blank cloth shelf 101, the conveying branch line 102, the transition buffer line 103, the input main line 104, the blank cloth transfer machine 105, the first output line 106, the second output line 107, the discharge conveyor 108, the branch line rail 1021, the blank cloth stacker 1022, the main conveying line 1071, the support conveying line 1072, the input ground rail 1041, the input rail car 1042, the discharge platform 1051, the blank cloth truck 1052, the dumping device 1081, the slope device 1082, the intermittent release device 1083, the intermittent conveying device 1084, the steering conveying device 1085, the base 10811, the conveying mechanism 10812, the jacking driving part 10813 and the locking mechanism 10815.

Detailed Description

The technical solution in the embodiment of the present invention is clearly and completely described below with reference to the drawings in the embodiment of the present invention. It should be understood that the specific embodiments described herein are merely illustrative of the present invention and are not intended to limit the scope of the invention.

Referring to fig. 1, the present invention provides a blank storage device 1, which includes a blank rack 101, a branch conveyor 102, a transition buffer line 103, an input main line 104, a blank transfer machine 105, a first output line 106, a second output line 107 and a discharge conveyor 108. The fabric storage rack 101 includes a plurality of storage spaces for storing the turnover box 2 containing fabric. The fabric storage rack 101 is provided with at least one row, and a set of conveying branch lines 102 is arranged between every two rows of fabric storage racks 101. The feeder leg 102 includes a leg rail 1021 and a blank stacker 1022. The branch rail 1021 is disposed in parallel on one side of the blank holder 101 and extends along the length direction of the blank holder 101. The blank cloth stacker 1022 is slidably disposed on the branch rail 1021. Transition cache lines 103 are disposed at both ends of the branch track 1021. When the fabric stacker 1022 is provided as one machine, the fabric stacker 1022 is configured to transfer the tote 2 with fabric loaded on the transition buffer line 103 at one end to the fabric shelf 101, and take out the tote 2 with fabric loaded on the fabric shelf 101 and transfer the tote to the transition buffer line 103 at the other end. When the two greige cloth stackers 1022 are provided, one greige cloth stacker 1022 is used for transferring the turnover box 2 with the greige cloth on the transition buffer memory line 103 at one end to the greige cloth storage rack 101, and the other greige cloth stacker 1022 is used for taking out the turnover box 2 with the greige cloth on the greige cloth storage rack 101 and transferring the turnover box 2 to the transition buffer memory line 103 at the other end. The input main line 104 is disposed at one end of the gray cloth shelf 101, and is disposed at a right angle to the adjacent transition cache line 103. The input main line 104 is used for conveying the turnover box 2 in the width direction of the greige cloth rack 101, and the conveying direction of the input main line 104 is perpendicular to the conveying direction of the transition buffer line 103. At least one side of the input end of the input main line 104 is provided with two blank transfer machines 105, the blank transfer machine 105 close to the input end of the input main line 104 is used for bearing the turnover box 2 during loading, and the other blank transfer machine 105 is used for bearing the empty turnover box 2. The input main line 104 is used for conveying the turnover box 2 with the gray cloth on the gray cloth transfer machine 105 to the corresponding transition cache line 103. The first output line 106 is disposed at the other end of the blank rack 101, and is used for conveying the turnover box 2 along the width direction of the blank rack 101. The first output line 106 is arranged at right angles to the corresponding transition cache line 103. The first output line 106 is arranged at right angles to the second output line 107. The second output line 107 includes a main line 1071 and three branch lines 1072. The main transport line 1071 extends in the longitudinal direction of the blank holder 101. The three branch conveying lines 1072 are all arranged on one side of the main conveying line 1071 in parallel, one ends of the three branch conveying lines 1072 are connected with the main conveying line 1071 at right angles, and the other ends of the three branch conveying lines 1072 are connected through the unloading conveyor 108. The branch conveyor lines 1072 on both sides are used to convey the turnover box 2 loaded with the gray cloth to the corresponding discharge conveyor 108. The intermediate branch conveyor line 1072 is used to return the empty transfer container 2 after the blank arrangement is unloaded by the unloading conveyor 108 to the main conveyor line 1071, the main conveyor line 1071 returns the empty transfer container 2 to the first output line 106, and the empty transfer container 2 is returned to the empty blank arrangement transfer machine 105 along the transition buffer line 103, the branch line track 1021, the corresponding transition buffer line 103, and the input main line 104 between the branch line track 1021 and the first output line 106. The turnover box 2 provided with the gray cloth on the gray cloth transfer machine 105 is firstly stored to the gray cloth shelf 101, then is conveyed to the unloading conveyor 108 from the gray cloth shelf 101, after the gray cloth in the turnover box 2 is unloaded by the unloading conveyor 108, the empty turnover box 2 can return to the empty gray cloth transfer machine 105, so that the turnover box 2 can be recycled, the smooth entering and exiting of the gray cloth from the gray cloth shelf 101 can be ensured, the gray cloth loading and unloading efficiency is improved, and the efficiency of the gray cloth supply production link is improved.

In this embodiment, the second output line 107 is provided with three branch conveying lines 1072 for supplying the blank cloth to two cloth loosening machines. If more than three cloth loosening machines need to be supplied with the raw cloth, the number of the branch conveying lines 1072 can be correspondingly increased. If only one cloth loosening machine needs to be supplied with the gray cloth, the second output line 107 only needs to be provided with two branch conveyor lines 1072, one branch conveyor line 1072 is used for inputting the turnover box 2 filled with the gray cloth, and the other branch conveyor line 1072 is used for outputting the empty turnover box 2 after the gray cloth is unloaded. The second output line 107 may be connected to the discharge conveyor 108 directly via the main conveyor line 1071 without providing the branch conveyor line 1072.

The main conveyor line 1071 and the branch conveyor line 1072 may each employ a drum conveyor. The two ends of the branch conveying lines 1072 are respectively provided with a jacking transfer device so as to convey the turnover box 2 along the length direction and the width direction of the turnover box 2.

In this embodiment, the transition buffer line 103 is a roller conveyor, and the roller conveyor carries the turnover box 2 to transition from the input main line 104 to the delivery branch line 102. The turnover box 2 on the drum conveyor is conveyed by the blank stacker 1022.

In this embodiment, the input main line 104 includes an input ground rail 1041 and an input railcar 1042 slidably disposed on the input ground rail 1041. The input trolley 1042 is provided with a conveying device for transferring the turnover box 2 between the input trolley 1042 and the blank transfer machine 105 and transferring the turnover box 2 between the input trolley 1042 and the transition cache line 103.

In this embodiment, the blank cloth transfer machine 105 employs a jacking transfer device, and the jacking transfer device employs a jacking roller conveying mechanism and a chain conveying mechanism to cooperate with each other to convey the transfer container 2 in the length direction and the width direction of the transfer container 2. The lifting transfer device is close to the unloading platform 1051 for transferring the gray cloth from the gray cloth truck 1052 to the turnover box 2 on the lifting transfer device.

The first output line 106 may have the same structure as the input main line 104, and is not described herein again.

Referring to fig. 2-4, the discharge conveyor 108 includes a dumping device 1081, a ramp device 1082, an intermittent release device 1083, an intermittent conveying device 1084, and a diverting conveying device 1085. The dumping device 1081 is disposed between one end of the two supporting conveyor lines 1072, and the dumping device 1081 includes a base 10811, a conveying mechanism 10812, a jacking driver 10813, and a locking mechanism 10815. One end of the conveying mechanism 10812 is rotatably disposed at one end of the base 10811, and the other end of the conveying mechanism 10812 is supported by the other end of the base 10811. The bottom end of the jacking driving piece 10813 is hinged to the base 10811, and the lifting end of the jacking driving piece 10813 is hinged to the conveying mechanism 10812, so that the conveying mechanism 10812 can be driven to rotate relative to one end of the base 10811 to form an inclined state. The locking mechanism 10815 is disposed on the conveying mechanism 10812, so as to lock the turnover box 2 conveyed to the conveying mechanism 10812 onto the conveying mechanism 10812, and prevent the turnover box 2 from slipping off when the conveying mechanism 10812 rotates. The turnover box 2 is provided with a discharge door for opening or closing so as to pour out the embryonic cloth roll in the turnover box 2 when the conveying mechanism 10812 is in an inclined state. The slope device 1082 is disposed at one end of the conveying mechanism 10812 and the base 10811, so as to guide the rolled-off blank cloth poured out from the turnover box 2. The intermittent feeding device 1084 is provided at the blank cloth winding and dropping end of the slope device 1082. The intermittent release device 1083 is disposed between the slope device 1082 and the intermittent conveying device 1084, so as to roll off a blank fabric roll from the slope device 1082 to the intermittent conveying device 1084 at predetermined intervals. The turning conveying device 1085 is arranged at the output end of the intermittent conveying device 1084, and the conveying direction of the turning conveying device 1085 is perpendicular to the conveying direction of the intermittent conveying device 1084, so that the blank cloth roll is changed from a radial conveying state to an axial conveying state, and the reasonable layout of equipment in a production workshop is facilitated. The output end of the turning and conveying device 1085 is provided with a roll unloading mechanism to feed the grey cloth roll on the turning and conveying device 1085 into a trough of the cloth loosening machine.

The utility model also provides an use method of using embryo cloth storage device 1, including following step: the sheet is transported into the transfer container 2 on the sheet transfer device 105, the input rail car 1042 slides to one end of the sheet transfer device 105, and the transfer container 2 with the sheet mounted on the sheet transfer device 105 is transferred to the input rail car 1042. The transfer container 2 loaded with the embryonic cloths by the embryonic cloth transfer machine 105 is conveyed to one end of the corresponding transition buffer line 103 and stops, and the transfer container 2 loaded with the embryonic cloths by the embryonic cloth transfer machine 105 is conveyed to the transition buffer line 103. The turnover box 2 with the greige cloth on the transition buffer line 103 is conveyed to a greige cloth stacker 1022, and the greige cloth stacker 1022 moves the turnover box 2 with the greige cloth to the storage space corresponding to the greige cloth shelf 101. When the greige cloth needs to be taken out, the greige cloth stacker 1022 moves to the position of the turnover box 2 corresponding to the greige cloth shelf 101, takes down the turnover box 2 with the greige cloth, and conveys the turnover box 2 to the side of the transition buffer line 103 close to the first output line 106. The turnover box 2 with the gray cloth mounted on the gray cloth stacker 1022 is conveyed to the transition buffer line 103 close to the first output line 106. The first output line 106 conveys the turnover box 2 with the gray cloth on the transition buffer line 103 close to the first output line to the main conveying line 1071, the turnover box 2 with the gray cloth on the main conveying line 1071 is conveyed to the unloading conveyor 108 through one branch conveying line 1072, the empty turnover box 2 unloaded from the unloading conveyor 108 returns to the gray cloth transfer machine 105 through the main conveying line 1071, the first output line 106, the transition buffer line 103 close to the first output line 106, the branch conveying line 102, the transition buffer line 103 close to the input main line 104 and the input main line 104 in sequence through the other branch conveying line 1072.

Referring to fig. 5, fig. 5 is a schematic structural diagram of another embodiment of the scrim storage device 1. The difference from the previous embodiment is that: the main conveyor line 1071 extends to one end of the input main line 104, so that the empty turnover box 2 after the blank cloth is unloaded by the unloading conveyor 108 directly returns to the input main line 104 along the main conveyor line 1071, and the empty turnover box 2 returns to the blank cloth transfer machine 105 through the input main line 104. In this way, the return stroke of the empty tote 2 is reduced, the usage time of the first output line 106, the branch transport line 102 and the transition cache line 103 is reduced, and the return efficiency of the empty tote 2 is further improved.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (9)

1. The storage device for the gray cloth is characterized by comprising a gray cloth shelf (101), a conveying branch line (102), a transition cache line (103), an input main line (104), a gray cloth transfer machine (105) and a first output line (106), wherein the gray cloth shelf (101) is used for storing a turnover box (2) filled with gray cloth, the conveying branch line (102) comprises a branch line track (1021) and a gray cloth stacker (1022), the branch line track (1021) is arranged on one side of the gray cloth shelf (101) in parallel and extends along the length direction of the gray cloth shelf (101), the gray cloth stacker (1022) is arranged on the branch line track (1021) in a sliding manner, the transition cache line (103) is arranged at two ends of the branch line track (1021), the input main line (104) is arranged at one end of the gray cloth shelf (101) and is arranged at a right angle to the transition cache line (103) close to the input main line (104), the turnover box (2) is used for conveying the turnover box (2) along the width direction of the gray cloth shelf (101), the input end of the input main line (104) is provided with a gray cloth transfer machine (105), the input main line (104) is used for conveying the turnover boxes (2) with gray cloth on the gray cloth transfer machine (105) to the corresponding transition cache lines (103), the first output line (106) is arranged at the other end of the gray cloth shelf (101) and used for conveying the turnover boxes (2) in the width direction of the gray cloth shelf (101), and the first output line (106) and the corresponding transition cache lines (103) are arranged at a right angle.

2. The grey cloth storage device according to claim 1, characterized in that the grey cloth storage device comprises a second output line (107) and a discharge conveyor (108), the first output line (106) and the second output line (107) are arranged at a right angle, the second output line (107) comprises a main conveyor line (1071) and at least two branch conveyor lines (1072), the main conveyor line (1071) extends along the length direction of the grey cloth shelf (101), the at least two branch conveyor lines (1072) are arranged on one side of the main conveyor line (1071) in parallel, one end of each branch conveyor line (1072) is connected with the main conveyor line (1071) at a right angle, and the other ends of each two branch conveyor lines (1072) are connected with each other through the discharge conveyor (108).

3. The greige cloth storage device of claim 2, wherein the main conveying line (1071) extends to one end of the input main line (104) so that the empty turnover box (2) after the greige cloth is unloaded by the unloading conveyor (108) directly returns to the input main line (104) along the main conveying line (1071), and the empty turnover box (2) returns to the greige cloth transfer machine (105) through the input main line (104).

4. The gray cloth storage device according to claim 2, wherein the main conveying line (1071) and the branch conveying line (1072) both use a drum conveyor, and both ends of the branch conveying line (1072) use a jacking transfer device.

5. The blank storage device according to claim 2, wherein the input main line (104) comprises an input ground rail (1041) and an input rail car (1042) slidably disposed on the input ground rail (1041), the input rail car (1042) is provided with a conveying device for transferring the turnover box (2) between the input rail car (1042) and the blank transfer machine (105) and transferring the turnover box (2) between the input rail car (1042) and the transition buffer line (103).

6. The embryo cloth storage device according to claim 1, wherein the embryo cloth transfer machine (105) is a jacking transfer device.

7. The gray cloth storage device according to claim 6, wherein the jacking transfer device uses a jacking roller conveying mechanism and a chain conveying mechanism to cooperate with each other to convey the turnover box (2) along the length direction and the width direction of the turnover box (2).

8. The gray cloth storage device according to claim 2, wherein the discharging conveyor (108) comprises a dumping device (1081) and a slope device (1082), the dumping device (1081) is disposed between one end of each two supporting conveyor lines (1072), the dumping device (1081) comprises a base (10811), a conveying mechanism (10812), a jacking driving member (10813) and a locking mechanism (10815), one end of the conveying mechanism (10812) is rotatably disposed at one end of the base (10811), the other end of the conveying mechanism (10812) is supported at the other end of the base (10811), the bottom end of the jacking driving member (10813) is hinged to the base (10811), the lifting end of the jacking driving member (10813) is hinged to the conveying mechanism (10812), the locking mechanism (10815) is disposed on the conveying mechanism (10812) to lock the turnover box (1082) conveyed to the conveying mechanism (10812) on the conveying mechanism (10812), the turnover box (2) is provided with a discharge door for opening or closing so as to pour out the embryonic cloth rolls in the turnover box (2) when the conveying mechanism (10812) is in an inclined state, and the slope device (1082) is arranged at one end where the conveying mechanism (10812) and the base (10811) are rotatably arranged so as to guide the embryonic cloth rolls poured out in the turnover box (2) to roll down.

9. The blank cloth warehousing device according to claim 8, characterized in that the discharge conveyor (108) comprises an intermittent releasing device (1083), an intermittent conveying device (1084) and a turning conveying device (1085), the intermittent conveying device (1084) is arranged at the blank cloth roll falling end of the slope device (1082), the intermittent releasing device (1083) is arranged between the slope device (1082) and the intermittent conveying device (1084) for rolling off a blank cloth roll from the slope device (1082) to the intermittent conveying device (1084) at predetermined intervals, the turning conveying device (1085) is arranged at the output end of the intermittent conveying device (1084), the conveying direction of the turning conveying device (1085) is perpendicular to the conveying direction of the intermittent conveying device (1084) for converting the blank cloth roll from the radial conveying state to the axial conveying state, the output end of the turning conveying device (1085) is provided with a roll discharging mechanism, so as to feed the grey cloth roll on the steering conveying device (1085) into a trough of the cloth loosening machine.

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