CN210126973U - Nimble matched stack type granny rag machine - Google Patents

Abstract

The utility model discloses a flexibly assembled cloth spreading machine, which comprises a mop head, a cloth placing wheel and a plurality of cloth bucket groups, wherein the cloth placing wheel is arranged on the mop head and conveys the spread cloth to the direction of the cloth placing wheel; each cloth bucket group is provided with a support, a cloth loosening mechanism, a cloth guide mechanism and a roller wheel, wherein the cloth loosening mechanism is positioned above the support and used for loosening the cloth of the current cloth roll, the cloth guide mechanism is positioned below the cloth loosening mechanism and used for conveying the formed cloth of the rear cloth roll, and the roller wheel is positioned below the support; the front side and the rear side of each cloth bucket group are provided with detachable connecting parts. The utility model discloses can satisfy the granny rag demand of all kinds, reduce the equipment investment volume of enterprise and improve the availability factor of equipment.

Description

Nimble matched stack type granny rag machine

Technical Field

The utility model relates to a textile machinery field, concretely relates to be a nimble matched stack type granny rag machine, its granny rag operation that can form individual layer, double-deck or multilayer cloth according to customer's in-service use needs has widened the usage of granny rag machine greatly.

Background

In the textile field, a large piece of cloth often needs to be unfolded and spread by a spreader, and in the actual use situation, according to different requirements of actual production, sometimes single-layer cloth needs to be unfolded, sometimes double-layer cloth needs to be unfolded, and more sometimes multi-layer cloth needs to be unfolded.

At present, a set of equipment is additionally required to be arranged for various cloth spreading requirements of a cloth spreading machine on the market basically, so that the fixed capital investment of an enterprise is greatly improved, the enterprise can not bear heavy load, a plurality of equipment can not run at full load, and the actual use efficiency of the equipment is reduced.

In view of the above, the applicant has made an intensive study on the above problems, and has made the present invention.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a nimble matched stack type granny rag machine to there is a tractor-usefulness to solve prior art, the equipment investment volume of manufacturing enterprise is high, and the equipment often is idle can't obtain the problem of high-efficient utilization.

In order to achieve the above purpose, the solution of the present invention is:

a cloth spreading machine capable of being flexibly assembled comprises a mop head, a cloth swinging mechanism, a cloth placing wheel and a plurality of cloth bucket groups, wherein the cloth placing wheel is arranged on the mop head and conveys spread cloth to the direction of the cloth swinging mechanism;

each cloth bucket group is provided with a support, a cloth loosening mechanism, a cloth guide mechanism and a roller wheel, wherein the cloth loosening mechanism is positioned above the support and used for loosening the cloth of the current cloth roll, the cloth guide mechanism is positioned below the cloth loosening mechanism and used for conveying the formed cloth of the rear cloth roll, and the roller wheel is positioned below the support;

the front side and the rear side of each cloth bucket group are provided with detachable connecting parts.

Furthermore, every cloth loosening mechanism all has the back shaft that is used for supporting the yardage roll, is used for leading the first fabric guide wheel of cloth, is used for adjusting the tight cloth wheel of cloth elasticity and is used for changing the second fabric guide wheel of cloth traffic direction to the cloth, the yardage roll is rotatable to be set up on the back shaft and outwards exports after bypassing first fabric guide wheel, tight cloth wheel and second fabric guide wheel in proper order.

Further, the support is divided into an upper support and a lower support, the idler wheels are arranged on the lower support, the cloth loosening mechanism and the cloth guiding mechanism are both arranged on the upper support, the upper support is arranged on the lower support in a sliding mode along the axial direction of the cloth roll, and a deviation correcting mechanism used for adjusting the position of the upper support to ensure that the cloth is normally conveyed is further arranged between the upper support and the lower support.

Further, the deviation rectifying mechanism comprises a deviation rectifying motor arranged on the lower support, a deviation rectifying rack arranged on the upper support and a deviation rectifying sensor used for detecting the cloth position, the deviation rectifying motor is connected with a deviation rectifying gear in meshing transmission with the deviation rectifying rack, and the deviation rectifying rack extends along the axial direction of the cloth roll.

Furthermore, the granny rag machine still includes the synchronous drive mechanism that skids that exempts that is used for the motion of driving walking wheel, and it is including forming two transmission portions that are the symmetry setting in removal main part both sides, and every transmission portion all includes the side rail of fixing on the removal main part, inlays to establish the chain of fixing in the side rail and meshes driven sprocket with the chain, the side rail downside is formed with the opening, it is continuous with the cooperation recess meshing on the chain to cooperate the lug to pass the opening on the sprocket, the sprocket links to each other with the power supply transmission.

Further, the synchronous drive mechanism that skids exempts from still includes the power supply that is located removal main part both sides central point and puts, the transfer line that links to each other with the power supply transmission and set up first end wheel and the second end wheel at transfer line both ends respectively, first end wheel and second end wheel link to each other with the sprocket drive of both sides respectively.

Further, the non-slip synchronous transmission mechanism further comprises a third end wheel, a fourth end wheel, a first shaft rod and a second shaft rod, the first end wheel and the third end wheel are in transmission connection, the third end wheel and a chain wheel on one side are fixed at two ends of the first shaft rod respectively, and the fourth end wheel and a chain wheel on the other side are fixed at two ends of the second shaft rod respectively.

After the structure of the oil adding device is adopted, the utility model relates to a nimble matched stack type granny rag machine, it is provided with a plurality of cloth fill group, and each cloth fill group is used for corresponding the one deck cloth, and the number of selecting cloth fill group according to actual need is of mill promptly, then only uses a cloth fill group when for example needing the individual layer exhibition cloth, chooses for use two cloth fill groups when needing double-deck exhibition cloth, chooses for use three cloth fill group when needing the three-layer exhibition cloth.

The utility model discloses both sides structural design about every cloth fill group all adopts, the upper strata is provided with the space that supplies current yardage roll to place, specifically sets up a set of cloth loosening mechanism that is used for carrying out the pine cloth to current yardage roll, then is used for accepting the cloth mechanism that leads of rear cloth (the cloth that a set of cloth fill group formed down promptly) in the setting of lower floor, then through a set wheel with the current cloth that cloth loosening mechanism formed with lead the rear cloth that cloth mechanism carried and come fold together, the cloth fill group or put the cloth wheel and carry to the place ahead. Compared with the prior art, the utility model discloses have the flexibility of preferred, improved the application range of whole equipment greatly, reduced manufacturing enterprise's equipment investment, improved the availability factor of equipment.

Drawings

Fig. 1 is a schematic structural view of a flexibly assembled spreading machine for three-layer cloth.

Fig. 2 is a schematic structural view of a flexibly assembled spreader for double-layered cloth.

Fig. 3 is a schematic structural view of a flexibly assembled spreader for single-layer cloth according to the present invention.

Fig. 4 is a schematic structural view of a preferred embodiment of the spreading machine of the present invention.

Fig. 5 is a schematic structural view of the non-slip synchronous transmission mechanism of the present invention.

Fig. 6 is a side view of fig. 5.

Fig. 7 is an enlarged schematic view of one of the transmission portions of fig. 5.

In the figure:

a mop head-10; a traveling wheel-11; a cloth placing mechanism-20;

a cloth placing wheel-30; a cloth bucket group-40; a support-41;

upper bracket-411; lower bracket-412;

a cloth loosening mechanism-42; a support shaft-421; a first cloth guide wheel-422;

a cloth-tightening wheel-423; a second cloth guide wheel-424; a cloth guide mechanism-43;

a roller-44; a detachable connection portion-45; a collection wheel-46;

a deviation rectifying mechanism-47; a deviation correcting motor-471; a deviation correcting gear-472;

a deviation-rectifying sensor-473 deviation-rectifying rack-474;

a transmission part-50; a side rail-51; opening-511;

a chain-52; -521, a mating recess; a sprocket-53;

matching with the bump-571; -a moving body-60; -a power source-70;

a transmission rod-71; a first end wheel-72; a second end wheel-73;

a third end wheel-74; a fourth end wheel-75; a first shaft-76;

a second shaft-77.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

As shown in fig. 1 to 3, the present invention relates to a flexible assembly type spreading machine, which comprises a mop head 10, a cloth placing mechanism 20, a cloth placing wheel 30 and a plurality of cloth bucket groups 40.

It should be noted that the cloth swinging mechanism 20 is a prior art, and will not be described in detail in this case, the cloth placing wheel 30 is a driving wheel, and plays a role of pulling the cloth on the rear cloth roll, and provides a main releasing force for the cloth in the roll.

The cloth placing wheel 30 is arranged on the mop head 10 and conveys the unfolded cloth in the direction of the cloth swinging mechanism 20, the cloth swinging mechanism 20 is arranged on the mop head 10, a walking wheel 11 for driving the mop head 10 to reciprocate is further arranged below the mop head 10, and the walking wheel 11 is also a power wheel.

The utility model discloses a main innovation point is at the detachable design of cloth bucket group 40 and the structural design of cloth bucket group 40 self, and is concrete, and every cloth bucket group 40 all has support 41, pine cloth mechanism 42, leads cloth mechanism 43 and gyro wheel 44, pine cloth mechanism 42 is located support 41 top and is used for the current yardage roll to carry out the operation of loosing the cloth, it is located the below of pine cloth mechanism 42 and is used for transmitting the cloth that the rear yardage roll formed to lead cloth mechanism 43, gyro wheel 44 is located the below of support 41, pine cloth mechanism 42 forms the current cloth layer and leads the rear cloth layer of cloth mechanism 43 conduction and overlaps together to carry forward through set wheel 46.

Detachable connecting parts 45 are arranged on the front side and the rear side of each cloth bucket group 40.

Therefore, the utility model relates to a nimble matched stack type granny rag machine, it is provided with a plurality of cloth fill group 40, and each cloth fill group 40 is used for corresponding the one deck cloth, and the mill selects the number of cloth fill group 40 according to actual need promptly, then only uses a cloth fill group 40 when for example needing the individual layer exhibition cloth, chooses for use two cloth fill groups 40 when needing double-deck exhibition cloth, chooses for use three cloth fill group 40 when needing the three-layer exhibition cloth.

The utility model discloses both sides structural design about every cloth fill group 40 all adopts, the upper strata is provided with the space that supplies current yardage roll to place, specifically set up a set of pine cloth mechanism 42 that is used for carrying out the pine cloth to current yardage roll, then set up at the lower floor and be used for accepting the cloth guide mechanism 43 of rear cloth (the cloth that a set of cloth fill group 40 formed down promptly), then the current cloth that rethread collection wheel 46 formed loose cloth mechanism 42 is carried the rear cloth that comes with cloth guide mechanism 43 and is folded together, the cloth fill group 40 or put cloth wheel 30 to the place ahead is carried. Compared with the prior art, the utility model discloses have the flexibility of preferred, improved the application range of whole equipment greatly, reduced manufacturing enterprise's equipment investment, improved the availability factor of equipment.

Specifically, as shown in fig. 3, as an embodiment of the cloth loosening mechanism 42, each cloth loosening mechanism 42 has a support shaft 421 for supporting a cloth roll which is rotatably disposed on the support shaft 421 and is output outward after sequentially passing around the first cloth guide wheel 422, the cloth tightening wheel 423, and the second cloth guide wheel 424 for changing the running direction of the cloth, a first cloth guide wheel 422 for guiding the cloth, a cloth tightening wheel 423 for adjusting the tightness of the cloth, and a second cloth guide wheel 424 for changing the running direction of the cloth.

As shown in fig. 4, the bracket 41 is divided into an upper bracket 411 and a lower bracket 412, the roller 44 is provided on the lower bracket 412, the cloth loosening mechanism 42 and the cloth guiding mechanism 43 are both arranged on an upper bracket 411, the upper bracket 411 is arranged on a lower bracket 412 in a sliding way along the axial direction of the cloth roll, a deviation correcting mechanism 47 is further arranged between the upper support 411 and the lower support 412, the deviation correcting mechanism 47 is used for detecting the position of the cloth in real time and ensuring that the cloth is in normal conveying, the specific structure of the deviation correcting mechanism 47 is various, in this embodiment, the deviation rectifying mechanism 47 includes a deviation rectifying motor 471 arranged on the lower frame 412, the deviation rectifying motor 471 is connected with a deviation rectifying gear 472, the upper bracket 411 is further provided with a deviation rectifying sensor 473 used for detecting the position of the cloth and a deviation rectifying rack 474 used for being meshed with the deviation rectifying gear 472, and the deviation rectifying rack 474 extends in the axial direction of the cloth roll.

As shown in fig. 5 to 7, the spreading machine further includes a slip-free synchronous transmission mechanism for driving the traveling wheels to move, and the slip-free synchronous transmission mechanism includes two transmission portions 50, wherein the two transmission portions 50 are symmetrically disposed and respectively formed at two sides of the moving body 60.

As shown in fig. 7, each transmission part 50 includes a side rail 51, a chain 52 and a sprocket 53, the side rail 51 is fixed on the moving body 60, the chain 52 is embedded and fixed in the side rail 51, the sprocket 53 is engaged with the chain 52 for transmission, an opening 511 is formed at the lower side of the side rail 51, a matching projection 571 on the sprocket 53 passes through the opening 511 to be engaged with a matching groove 521 on the chain 52, and the sprocket 53 is connected with the power source 70 for transmission.

Therefore, the utility model discloses a fixed side rail 51 respectively in removal main part 60 both sides, then in the side rail 51 in fixed inlaying be equipped with chain 52, the power that power source 70 transmission was come, will become the drive mode of chain 52 and sprocket 53 in the most important one of direct and removal main part 60 contact, because the meshing type transmission of chain 52 and sprocket 53, the driven precision has been ensured, the positional information who lets the equipment controller accept from this matches completely with the actual position information of removal main part 60, avoid whole equipment to be in the control always, the high efficiency of whole equipment has been ensured.

As shown in fig. 5 and 6, the slip-free synchronous transmission mechanism further includes a power source 70 located at the center of the two sides of the moving body 60, a transmission rod 71 connected to the power source 70 in a transmission manner, and a first end wheel 72 and a second end wheel 73 respectively disposed at the two ends of the transmission rod 71, wherein the first end wheel 72 and the second end wheel 73 are respectively connected to the sprockets 53 at the two sides in a transmission manner.

As a specific example of the transmission structure between the first end wheel 72, the second end wheel 73 and the sprocket 53, as shown in fig. 3, the slip-free synchronous transmission mechanism further includes a third end wheel 74, a fourth end wheel 75, a first shaft 76 and a second shaft 77, the first end wheel 72 and the third end wheel 74 are in transmission connection, the third end wheel 74 and the sprocket 53 on one side are respectively fixed at two ends of the first shaft 76, and the fourth end wheel 75 and the sprocket 53 on the other side are respectively fixed at two ends of the second shaft 77.

Therefore, the utility model discloses further put in power supply 70, let the power that power supply 70 produced follow both sides and transmit down in step, then directly transmit chain 52 through two sprockets 53 of both sides respectively on, and then drive whole removal main part 60 from both sides in step and remove, so let both sides power identical, avoided power to have some deviations, and then caused wearing and tearing serious and influence the problem of operation precision.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be construed as departing from the scope of the present invention.

Claims (4)

1. A flexibly assembled cloth spreading machine is characterized by comprising a mop head, a cloth placing mechanism, a cloth placing wheel and a plurality of cloth bucket groups, wherein the cloth placing wheel is arranged on the mop head and conveys spread cloth to the direction of the cloth placing mechanism;

each cloth bucket group is provided with a support, a cloth loosening mechanism, a cloth guide mechanism and a roller wheel, wherein the cloth loosening mechanism is positioned above the support and used for loosening the cloth of the current cloth roll, the cloth guide mechanism is positioned below the cloth loosening mechanism and used for conveying the formed cloth of the rear cloth roll, and the roller wheel is positioned below the support;

the front side and the rear side of each cloth bucket group are provided with detachable connecting parts.

2. The flexibly assembled spreading machine according to claim 1, wherein each cloth releasing mechanism has a supporting shaft for supporting the cloth roll, a first cloth guiding wheel for guiding the cloth, a cloth tightening wheel for adjusting the tightness of the cloth, and a second cloth guiding wheel for changing the running direction of the cloth, and the cloth roll is rotatably disposed on the supporting shaft and is output outward after sequentially passing around the first cloth guiding wheel, the cloth tightening wheel, and the second cloth guiding wheel.

3. The flexible assembly type tenter as claimed in claim 1, wherein said frame is divided into an upper frame and a lower frame, said rollers are provided on said lower frame, said cloth unwinding mechanism and said cloth guiding mechanism are provided on said upper frame, said upper frame is slidably provided on said lower frame in the axial direction of the fabric roll, and a deviation correcting mechanism for adjusting the position of said upper frame to ensure the proper feeding of the fabric is further provided between said upper frame and said lower frame.

4. The flexible assembly type tenter as claimed in claim 3, wherein said deviation correcting mechanism comprises a deviation correcting motor provided on the lower frame, a deviation correcting rack provided on the upper frame, and a deviation correcting sensor for detecting the position of the web, said deviation correcting motor being connected to a deviation correcting gear in meshing transmission with the deviation correcting rack, said deviation correcting rack extending in the axial direction of the web.

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