CN218989579U - Creel - Google Patents

Abstract

The utility model relates to the technical field of braid production, in particular to a creel which comprises a wire feeding frame and a loading frame; the wire feeding frame comprises a plurality of wire feeding spaces, guide rails are arranged in the wire feeding spaces along the wire feeding directions of the wire feeding frame, the loading frame is arranged in the wire feeding spaces in a sliding mode, the loading frame is provided with sliding assemblies matched with the guide rails, and the sliding assemblies comprise rollers arranged at the bottoms of the loading frame. The utility model can facilitate the replacement of the yarn cylinder by an operator.

Description

Creel

Technical Field

The utility model relates to the technical field of braid production, in particular to a creel.

Background

The woven belt is a narrow fabric or a tubular fabric which is woven by using various yarns as raw materials through a weaving device and has a length of hundreds of meters. The creel is an auxiliary device for delivering yarn to a knitting device in webbing production, and has a wire feeding frame for guiding the yarn to be delivered to the knitting device and a loading frame for loading a yarn drum. See the utility model patent application of application number 201810155603.7, disclosed "a creel", be used for placing the creel body of yarn section of thick bamboo in this scheme frame construction as an organic whole, however in actual production process, in order to satisfy the production demand, can arrange a large amount of creels in the workshop, and consider the area of use, only can leave the space that only supplies alone to walk through between two adjacent creels for changing the yarn section of thick bamboo, but operating personnel change the yarn section of thick bamboo in narrow and small space, not only difficult degree is big, and the easy emergence bumps into.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: provided is a yarn creel which can facilitate the replacement of a yarn tube by an operator.

In order to solve the technical problems, the utility model adopts the following technical scheme: a creel comprises a wire feeding frame and a loading frame; the wire feeding frame comprises a plurality of wire feeding spaces, guide rails are arranged in the wire feeding spaces along the wire feeding directions of the wire feeding frame, the loading frame is arranged in the wire feeding spaces in a sliding mode, the loading frame is provided with sliding assemblies matched with the guide rails, and the sliding assemblies comprise rollers arranged at the bottoms of the loading frame.

Further, the guide rail comprises a lower rail positioned at the bottom of the wire-mounting space, and the sliding assembly further comprises a first sliding block which is slidably arranged on the lower rail.

Further, the guide rail further comprises an upper rail positioned at the top of the wire-mounting space, and the sliding assembly further comprises a second slider slidably disposed on the upper rail.

Further, one end of the same side of the lower rail and the upper rail is provided with an splayed guide rail, and the large-size end of the guide rail is far away from the corresponding lower rail and lower rail.

Further, the wire feeding frame is provided with a plurality of wire feeding assemblies along the wire feeding direction, the wire feeding assemblies comprise wire poles and wire feeding rows, the guiding direction of the wire poles faces to the nearest wire feeding row, and a plurality of threading holes are formed in the wire feeding row.

Further, the wire feeding frame further comprises a plurality of operation spaces, the operation spaces and the wire feeding spaces are arranged in the wire feeding frame in a staggered mode, and a high operation platform with the extending direction parallel to the wire feeding direction of the wire feeding frame is arranged in the operation spaces.

The utility model has the beneficial effects that: the loading frame of the creel is arranged in the line space of the wire feeding frame in a sliding way through the sliding component and the matching of the guide rail. When the yarn tube loaded on the loading frame needs to be replaced, the loading frame only needs to be dragged to enable the roller to rotate, at the moment, the loading frame can be pulled out of the wire feeding frame along the guide rail, and then an operator can replace the yarn tube on the loading frame outside the wire feeding frame.

Drawings

Fig. 1 is a schematic structural view of a creel according to an embodiment of the present utility model;

FIG. 2 is a schematic view showing an assembling structure of a loading frame and a guide rail of a creel according to an embodiment of the present utility model;

FIG. 3 is a schematic view illustrating an assembly structure of a lower rail and a first slider of a creel according to an embodiment of the present utility model;

FIG. 4 is a schematic view illustrating an assembly structure of an upper rail and a second slider of a creel according to an embodiment of the present utility model;

fig. 5 is a schematic view of a wire feeding assembly of a creel according to an embodiment of the present utility model;

description of the reference numerals:

1. a wire feeding frame; 11. a guide rail; 111. a lower rail; 112. an upper rail;

12. a wire feed assembly; 121. a wire post; 122. wire feeding and discharging;

13. a high-level operation platform;

2. a loading rack; 21. a sliding assembly; 211. a roller; 212. a first slider; 213. a second slider;

3. and a guide rail.

Detailed Description

In order to describe the technical contents, the achieved objects and effects of the present utility model in detail, the following description will be made with reference to the embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 and 2, a creel of the present utility model includes a wire feeder 1 and a loading frame 2; the wire feeding frame 1 comprises a plurality of wire feeding spaces, a guide rail 11 is arranged in the wire feeding space along the wire feeding direction of the wire feeding frame 1, the loading frame 2 is slidably arranged in the wire feeding space, the loading frame 2 is provided with a sliding assembly 21 matched with the guide rail 11, and the sliding assembly 21 comprises a roller 211 arranged at the bottom of the loading frame 2.

From the above description, the beneficial effects of the utility model are as follows: the loading frame 2 of the creel is slidably arranged in the line space of the wire feeding frame 1 by matching the sliding component 21 with the guide rail 11. When the yarn tube loaded on the loading frame 2 needs to be replaced, the loading frame 2 is pulled out of the yarn feeding frame 1 along the guide rail 11 only by dragging the loading frame 2 to rotate the roller 211, and then an operator can replace the yarn tube on the loading frame 2 outside the yarn feeding frame 1.

Referring to fig. 3, further, the guide rail 11 includes a lower rail 111 at the bottom of the assembly line space, and the sliding assembly 21 further includes a first slider 212, where the first slider 212 is slidably disposed on the lower rail 111.

As is apparent from the above description, the movement direction of the loading frame 2 in the wire feeding frame 1 can be ensured by the first slider 212 cooperating with the lower rail 111 during the process of the loading frame 2 moving in and out of the wire feeding frame 1 along the guide rail 11.

Referring to fig. 4, further, the guide rail 11 further includes an upper rail 112 located at the top of the assembly line space, and the sliding assembly 21 further includes a second slider 213, where the second slider 213 is slidably disposed on the upper rail 112.

As is apparent from the above description, the second slider 213 cooperates with the upper rail 112 during the process of moving the loading frame 2 in and out of the wire feeding frame 1 along the guide rail 11, so that the stability of the loading frame 2 during movement can be ensured.

As shown in fig. 3 and 4, further, an splayed guide rail 3 is disposed at one end of the same side of the lower rail 111 and the upper rail 112, and a large-sized end of the guide rail 3 is far away from the corresponding lower rail 111 and lower rail 111.

As is clear from the above description, the first slider 212 and the second slider 213 can be quickly guided into the corresponding lower rail 111 and upper rail 112 by the guide rail 3 when the loading frame 2 needs to be pushed back into the wire feeder 1.

Referring to fig. 5, further, the wire feeding frame 1 is provided with a plurality of wire feeding assemblies 12 along a wire feeding direction, the wire feeding assemblies 12 include wire columns 121 and wire feeding rows 122, the guiding direction of the wire columns 121 faces the nearest wire feeding row 122, and the wire feeding rows 122 are provided with a plurality of threading holes.

As is apparent from the above description, the yarn on the yarn tube on the loading frame 2 is introduced into one of the threading holes in the thread feeding line 122 through the thread guiding pin 121, and each yarn is separated by the thread feeding line 122 so as not to be entangled with each other during the thread feeding process.

As shown in fig. 1, the wire feeding frame 1 further includes a plurality of operation spaces, the operation spaces and the wire feeding spaces are staggered in the wire feeding frame 1, and a high operation platform 13 with an extending direction parallel to the wire feeding direction of the wire feeding frame 1 is disposed in the operation spaces.

As can be seen from the above description, when an operator needs to perform work at the height of the wire feeding frame 1, the height operation platform 13 can provide a footing for the operator to perform work at the height.

The utility model relates to an application scene of a creel, which comprises the following steps: when the yarn bobbin on the creel needs to be replaced, the loading frame 2 of the creel is slidably arranged in the line space of the wire feeding frame 1 by matching the sliding assembly 21 with the guide rail 11. When the yarn tube loaded on the loading frame 2 needs to be replaced, the loading frame 2 is pulled out of the yarn feeding frame 1 along the guide rail 11 only by dragging the loading frame 2 to rotate the roller 211, and then an operator can replace the yarn tube on the loading frame 2 outside the yarn feeding frame 1.

Example 1

A creel, please refer to fig. 1 to 4, includes a wire feeding frame 1 and a loading frame 2; the wire feeding frame 1 comprises a plurality of wire feeding spaces, a guide rail 11 is arranged in the wire feeding space along the wire feeding direction of the wire feeding frame 1, the loading frame 2 is slidably arranged in the wire feeding space, the loading frame 2 is provided with a sliding assembly 21 matched with the guide rail 11, and the sliding assembly 21 comprises a roller 211 arranged at the bottom of the loading frame 2. The guide rail 11 includes a lower rail 111 at the bottom of the line space, and the slide assembly 21 further includes a first slider 212, and the first slider 212 is slidably disposed on the lower rail 111. The guide rail 11 further comprises an upper rail 112 at the top of the line space, and the slide assembly 21 further comprises a second slider 213, the second slider 213 being slidably arranged on the upper rail 112. The same side of the lower rail 111 and the upper rail 112 is provided with an splayed guide rail 3 at one end, and the large-sized end of the guide rail 3 is far away from the corresponding lower rail 111 and lower rail 111.

Working principle: when the yarn bobbin on the creel needs to be replaced, the loading frame 2 is dragged to rotate the roller 211, so that the loading frame 2 can be pulled out of the yarn feeding frame 1 along the guide rail 11, and in the process, the first sliding block 212 and the second sliding block 213 slide in the corresponding lower rail 111 and the upper rail 112 to ensure the moving direction of the loading frame 2, and collision between the loading frame 2 and the yarn feeding frame 1 is avoided. After the loading frame 2 is pulled out of the wire feeding frame 1, an operator can easily replace the yarn tube on the loading frame 2.

When the loading frame 2 needs to be pushed into the wire feeding frame 1 again after the yarn cylinder is replaced, the first sliding block 212 and the second sliding block 213 can be rapidly guided into the corresponding lower rail 111 and upper rail 112 by the guide rail 3, so that the loading frame 2 can be rapidly and accurately re-entered into the wire feeding frame 1.

Example two

The present embodiment further defines a structure in which a plurality of wire feeding assemblies 12 are provided on the wire feeding frame 1 in the wire feeding direction on the basis of the first embodiment, specifically as follows:

referring to fig. 5, the wire feeding assembly 12 includes a wire column 121 and a wire feeding row 122, wherein the wire column 121 is directed to the nearest wire feeding row 122, and a plurality of threading holes are formed in the wire feeding row 122.

Working principle: the yarn on the yarn cylinder on the loading frame 2 is led into one threading hole in the thread feeding row 122 through the thread guiding column 121, and each yarn is separated by the thread feeding row 122 so as not to be wound between the yarns in the thread feeding process.

Example III

The present embodiment further defines that the wire feeding frame 1 further includes a plurality of operation spaces on the basis of the first embodiment, specifically as follows:

referring to fig. 1, the operation space and the wire-loading space are staggered in the wire-feeding frame 1, and a high-position operation platform 13 with an extending direction parallel to the wire-feeding direction of the wire-feeding frame 1 is disposed in the operation space.

Working principle: when an operator needs to work at the high position of the wire feeding frame 1, the high-position operation platform 13 can provide a footing point for the operator to work at the high position.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent changes made by the specification and drawings of the present utility model, or direct or indirect application in the relevant art, are included in the scope of the present utility model.

Claims (6)

1. A creel, characterized in that: comprises a wire feeding frame and a loading frame; the wire feeding frame comprises a plurality of wire feeding spaces, guide rails are arranged in the wire feeding spaces along the wire feeding directions of the wire feeding frame, the loading frame is arranged in the wire feeding spaces in a sliding mode, the loading frame is provided with sliding assemblies matched with the guide rails, and the sliding assemblies comprise rollers arranged at the bottoms of the loading frame.

2. Creel according to claim 1, characterized in that: the guide rail comprises a lower rail positioned at the bottom of the wire-mounting space, and the sliding assembly further comprises a first sliding block which is arranged on the lower rail in a sliding manner.

3. Creel according to claim 2, characterized in that: the guide rail further comprises an upper rail positioned at the top of the wire-mounting space, and the sliding assembly further comprises a second sliding block which is arranged on the upper rail in a sliding manner.

4. A creel according to claim 3, characterized in that: the one end department of lower track and last track same one side is provided with the guide rail of eight style of calligraphy, the jumbo size end of guide rail keeps away from corresponding lower track and lower track.

5. Creel according to claim 1, characterized in that: the wire feeding frame is provided with a plurality of wire feeding assemblies along the wire feeding direction, the wire feeding assemblies comprise wire poles and wire feeding rows, the guiding direction of the wire poles faces to the nearest wire feeding row, and a plurality of threading holes are formed in the wire feeding row.

6. Creel according to claim 1, characterized in that: the wire feeding frame further comprises a plurality of operation spaces, the operation spaces and the wire feeding spaces are arranged in the wire feeding frame in a staggered mode, and a high operation platform with the extending direction parallel to the wire feeding direction of the wire feeding frame is arranged in the operation spaces.

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