CN213804327U - Transition feeder used between cloth setting machine and cloth inspecting machine - Google Patents

Abstract

The utility model discloses a transition feeder for between cloth forming machine and cloth inspection machine, including the frame, install the cloth conveying assembly in the frame, cloth conveying assembly plugs into between the discharge gate of cloth forming machine and the feed inlet of cloth inspection machine, is equipped with atomizer and air cooling device along cloth conveying assembly's direction of delivery in proper order, atomizer is used for spraying to the cloth, air cooling device is used for blowing the cooling to the cloth. The utility model has the advantages of reliable and stable, degree of automation is high, manual work and space cost low.

Description

Transition feeder used between cloth setting machine and cloth inspecting machine

Technical Field

The utility model relates to a transition feeder that is used for between cloth forming machine and the cloth inspection machine is refered in particular to in cloth processing equipment field.

Background

The traditional cloth inspecting process of a dye factory is that cloth is loaded by a trolley after coming out of a setting machine and is stacked for twenty-four hours (longer summer time), and cloth is inspected by a cloth inspecting machine after the cloth is completely cooled. The reasons for this are two: 1. the temperature of the cloth is higher just after the cloth comes out of the setting machine, so the fabric is loose, the cloth needs to be cooled and shrunk to recover to a normal size, and the visual judgment error during cloth inspection is avoided; 2. the cloth can generate different color differences along with the change of temperature difference, so that the color of the cloth is stable after the cloth is cooled to normal temperature, and a reliable basis is provided for the color difference detection of subsequent cloth inspection.

However, the natural stacking and cooling are adopted, so that the full workshop of the dye factory is a trolley for placing the cloth, the large workshop space and more labor force are needed for stacking and arranging, unnecessary cost is increased for the factory, and in the process of stacking in the workshop, dust in the workshop can also generate certain influence and visual interference on the cloth.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in: aiming at the defects in the prior art, the transition feeder used between the cloth setting machine and the cloth inspecting machine is provided with on-line cooling, stability, reliability, high automation degree and low labor and space cost.

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

the transition feeder comprises a rack and a cloth conveying assembly mounted on the rack, wherein the cloth conveying assembly is connected between a discharge port of the cloth setting machine and a feed port of the cloth inspecting machine, a spraying device and an air cooling device are sequentially arranged in the conveying direction of the cloth conveying assembly, the spraying device is used for spraying mist to the cloth, and the air cooling device is used for blowing air to the cloth for cooling.

Further, the air cooling device comprises an air curtain machine positioned above the cloth and an air draft cooling mechanism positioned below the cloth, an air outlet of the air curtain machine faces the cloth, the air draft cooling mechanism comprises an air draft fan, an air guide groove and an air draft box, the air draft fan is connected with the air draft box through the air guide groove, the air draft box is transversely arranged below the cloth in the width direction of the cloth, and meshes are densely distributed at the top of the air draft box.

Further, atomizer includes ultrasonic atomization ware, connecting pipe and spraying box, ultrasonic atomization ware passes through the connecting pipe and links to each other with the spraying box, the below of cloth is transversely arranged in along cloth width direction to the spraying box, and the spraying groove of rectangular shape is seted up along cloth width direction to the top of spraying box.

Further, the cloth conveying assembly comprises a cloth spreading clamp, a cloth carrying roller and a mesh belt conveying mechanism which are sequentially arranged along the cloth conveying direction, the cloth spreading clamp comprises two compression rollers which are arranged side by side, one compression roller is a linear compression roller, the other compression roller is an arc compression roller, cloth is wound on the arc compression roller and the linear compression roller in an S shape in sequence, and the middle of the distance between the linear compression roller and the arc compression roller is large, and the two ends of the distance between the linear compression roller and the arc compression roller are small; the cloth-carrying roller is driven by a motor to rotate, and the static friction force between the cloth-carrying roller and the cloth drives the cloth to advance.

Further, guipure conveying mechanism includes driving shaft, driven shaft, guiding axle and guipure, the driving shaft is installed on the cloth inspection machine.

Compared with the prior art, the utility model has the advantages of: the utility model designs a transitional feeding frame which is arranged between the setting machine and the cloth inspecting machine, and the cloth conveying component on the feeding machine can lead the cloth to automatically enter the cloth inspecting machine from the setting machine without manual carrying, thus reducing the labor cost and the space cost; the spraying device on the feeder is used for spraying to the cloth to enable the cloth to shrink, and the air cooling device on the feeder is used for blowing air to the cloth to cool the cloth to the normal temperature, so that the density and color of the cloth can be rapidly cooled to the normal state, and errors in visual detection are avoided; because whole cooling process is automatic going on the feeder in the whole journey, reliable and stable, degree of automation is high.

Drawings

Fig. 1 is a schematic structural view of the cloth inspecting machine of the present invention when connected.

Fig. 2 is a schematic perspective view (omitting the mesh belt and the driving shaft) of the present invention.

Fig. 3 is a schematic perspective view of the second embodiment of the present invention (with the mesh belt and the driving shaft omitted).

Fig. 4 is a schematic perspective view of the spraying device of the present invention.

Fig. 5 is a schematic view of the three-dimensional structure of the middle air draft cooling mechanism of the present invention.

Fig. 6 is a schematic structural view of the cloth conveying assembly of the present invention.

Illustration of the drawings: 1. inspecting a cloth machine; 2. a frame; 3. a spraying device; 4. spreading cloth clips; 5. a cloth-carrying roller; 6. a mesh belt conveying mechanism; 7. a drive shaft; 8. a driven shaft; 9. a guide shaft; 10. a mesh belt; 11. linear compression rollers; 12. an arc-shaped press roll; 13. an ultrasonic atomizer; 14. a connecting pipe; 15. a spray box; 16. a spray head; 18. a wind curtain machine; 19. an air draft cooling mechanism; 20. an air draft fan; 21. a wind guide groove; 22. a suction box; 23. mesh openings; 24. and (4) distributing.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments, and it should be noted that the scope of the present invention is not limited to the following embodiments, and any modifications and decorations made by the present invention should be considered as the scope of the present invention without departing from the principle of the present invention.

As shown in fig. 1, fig. 2 and fig. 3, the utility model discloses a transition feeder for between cloth forming machine and the cloth inspection machine, including frame 2, install the cloth conveying assembly in frame 2, the cloth conveying assembly plugs into between the discharge gate of cloth forming machine (omit not shown in the figure) and the feed inlet of cloth inspection machine 1, is equipped with atomizer 3 and air cooling device along the direction of delivery of cloth conveying assembly in proper order. The spraying device 3 is used for spraying to the cloth 24 to enable the cloth 24 to shrink; the air cooling device is used for blowing air to the cloth 24 for cooling, so that the cloth 24 is rapidly cooled to normal temperature. After the cloth 24 comes out from the forming machine, send to cloth inspection machine 1 through cloth conveying component, during cloth conveying component carries, earlier carry out the spraying through atomizer 3 to cloth 24, the rethread air cooling device is cooled down cloth 24.

As shown in fig. 6, the cloth conveying assembly includes a cloth spreading clamp 4, a cloth carrying roller 5 and a mesh belt conveying mechanism 6, which are arranged in this order along the conveying direction of the cloth 24. The mesh belt conveying mechanism 6 comprises a driving shaft 7, a driven shaft 8, a guide shaft 9 and a mesh belt 10, wherein the driving shaft 7 is installed on the cloth inspecting machine 1 and driven by a motor (not shown in the figure) on the cloth inspecting machine 1, the driven shaft 8 and the guide shaft 9 are installed on the rack 2, and the mesh belt 10 is wound on the driving shaft 7, the driven shaft 8 and the guide shaft 9.

The cloth-carrying roller 5 is driven by a motor to rotate, rough rubber is adhered to the surface of the cloth-carrying roller 5, and the cloth 24 is driven to advance by static friction between the cloth-carrying roller 5 and the cloth 24. The belt cloth roller 5 can be driven by an independent motor, or can be driven by the same motor with the mesh belt conveying mechanism 6, and is connected with the mesh belt conveying mechanism 6 through a synchronous belt or a chain to realize synchronous operation.

The cloth spreading clamp 4 comprises two pressing rollers which are arranged side by side, one pressing roller is a linear pressing roller 11, the other pressing roller is an arc-shaped pressing roller 12, cloth 24 is S-shaped and sequentially winds the arc-shaped pressing roller 12 and the linear pressing roller 11, and the middle of the distance between the linear pressing roller 11 and the arc-shaped pressing roller 12 is large and two ends of the cloth are small. Because the cloth setting machine can produce folding, in disorder phenomenon in the pendulum cloth process, exhibition cloth presss from both sides 4 accessible arc compression roller 12 and expandes the crease of cloth 24. When the cloth 24 passes through the arc-shaped pressing roller 12 under the dragging of the cloth-carrying roller 5, the cloth 24 slides to the two ends of the arc-shaped pressing roller, so that the crease of the cloth 24 is fully unfolded, the cloth 24 is flattened, and the misjudgment in the visual detection process after entering the cloth inspecting machine 1 is avoided.

As shown in fig. 4, the spraying device 3 includes an ultrasonic atomizer 13, a connecting pipe 14 and a spraying box 15, the ultrasonic atomizer 13 is connected to the spraying box 15 through the connecting pipe 14, the spraying box 15 is transversely disposed below the cloth 24 along the width direction of the cloth 24, and a long-strip-shaped spraying groove 16 is formed at the top of the spraying box 15 along the width direction of the cloth 24. Even water smoke that ultrasonic nebulizer 13 produced is through connecting pipe 14, spraying box 15, from the spout of spraying groove 16, and spun water smoke evenly adsorbs on 24 surfaces of cloth, makes 24 contractions of cloth, reaches the preshrinking effect, can alleviate 24 loose not soft smooth problems of feeling that lead to of fabric under the forming machine high temperature of cloth.

As shown in fig. 1, 2, and 3, the air cooling device includes an air curtain 18 located above the cloth 24 and an air draft cooling mechanism 19 located below the cloth 24, and an air outlet of the air curtain 18 blows air toward the cloth 24 to cool the cloth 24. Because the temperature of the cloth 24 is very high just after the cloth 24 comes out of the setting machine, after the air curtain machine 18 blows air to cool, the instantaneous temperature difference enables the cloth 24 to generate natural shrinkage, so that the size of the cloth 24 detected in the cloth inspecting machine 1 is more reliable; moreover, the color of the cloth 24 is relatively stable after being completely cooled to the normal temperature, and a more reliable basis is provided for the color difference detection of the cloth 24 in the cloth inspecting machine 1.

As shown in fig. 5, the induced draft cooling mechanism 19 includes an induced draft fan 20, a wind guide groove 21 and an induced draft box 22, the induced draft fan 20 is connected with the induced draft box 22 through the wind guide groove 21, the induced draft box 22 is transversely arranged below the cloth 24 along the width direction of the cloth 24, and the top of the induced draft box 22 is densely distributed with meshes 23. The box 22 that induced drafts of densely covered mesh 23 can evenly absorb the residual heat of cloth 24, can also take away the debris on cloth 24 surface simultaneously, provides good environment for subsequent perching.

Claims (5)

1. The utility model provides a transition feeder for between cloth forming machine and cloth inspection machine which characterized in that: the cloth conveying assembly is connected between a discharge port of the cloth setting machine and a feed inlet of the cloth inspecting machine (1), a spraying device (3) and an air cooling device are sequentially arranged along the conveying direction of the cloth conveying assembly, the spraying device (3) is used for spraying to the cloth (24), and the air cooling device is used for blowing air to the cloth (24) for cooling.

2. The transition feeder for use between a fabric setter and a cloth inspecting machine as set forth in claim 1, wherein: the air cooling device comprises an air curtain machine (18) located above cloth (24) and an air draft cooling mechanism (19) located below the cloth (24), wherein an air outlet of the air curtain machine (18) faces the cloth (24), the air draft cooling mechanism (19) comprises an air draft fan (20), an air guide groove (21) and an air draft box (22), the air draft fan (20) is connected with the air draft box (22) through the air guide groove (21), the air draft box (22) is transversely arranged below the cloth (24) along the width direction of the cloth (24), and meshes (23) are densely distributed at the top of the air draft box (22).

3. The transition feeder for use between a fabric setter and a cloth inspecting machine as set forth in claim 1, wherein: atomizer (3) include ultrasonic atomization ware (13), connecting pipe (14) and spraying box (15), ultrasonic atomization ware (13) link to each other with spraying box (15) through connecting pipe (14), spraying box (15) are transversely arranged in the below of cloth (24) along cloth (24) width direction, and rectangular shape's spraying groove (16) are seted up along cloth (24) width direction at the top of spraying box (15).

4. The transition feeder for use between a fabric setter and a cloth inspecting machine as set forth in any one of claims 1 to 3, wherein: the cloth conveying assembly comprises a cloth spreading clamp (4), a cloth belt roller (5) and a mesh belt conveying mechanism (6) which are sequentially arranged along the conveying direction of cloth (24), the cloth spreading clamp (4) comprises two pressing rollers which are arranged side by side, one pressing roller is a linear pressing roller (11), the other pressing roller is an arc pressing roller (12), the cloth (24) is sequentially wound on the arc pressing roller (12) and the linear pressing roller (11) in an S shape, and the middle of the distance between the linear pressing roller (11) and the arc pressing roller (12) is large, and the two ends of the distance between the linear pressing roller (11) and the arc pressing roller (12) are small; the cloth-carrying roller (5) is driven by a motor to rotate, and the static friction force between the cloth-carrying roller (5) and the cloth (24) drives the cloth (24) to advance.

5. The transition feeder for use between a fabric setter and a cloth inspecting machine as set forth in claim 4, wherein: the mesh belt conveying mechanism (6) comprises a driving shaft (7), a driven shaft (8), a guide shaft (9) and a mesh belt (10), wherein the driving shaft (7) is installed on the cloth inspecting machine (1).

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