JPS62180881A - Collecting conveyor device for cop bobbin transfer - Google Patents

Abstract

PURPOSE:To decrease machine installation space and to contrive to make layout easy by gathering and arranging plural-row main lines on a united type base plate and making it possible to partly arrange a separate guide free in mounting/dismounting at the specified angle to this. CONSTITUTION:Conveyor belts 6 arranged in parallel are shifted in the Q, R directions by the drive of a motor and cop yarns 3 spinned out by a group of spinning frames A-F are sent to a main line M1 on the lower step as a cop bobbin and then sent in the Q direction by the belt 6. Consequently, the tubular yarn bobbin coming out from a group A is sent to a winder a through the main line M1 and the bobbin from a group B is sent to a winder b through lines M1, m2, M1 and in the same way, each bobbin from C, D, E and F is transferred to c, d, e and f respectively. Further, each bobbin made empty at each winder a-f is returned to a main line M1 on the upper step through a diverging line p and returned to groups A-F through belts 6 shifting in the R direction. And it is possible to change a transfer line, by means of a changeover guide 18, by changing a separate guide 18 and possible to rapidly correspond to the changeover of a form and the change of a machine group.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to a conveying device for a tube yarn bobbin with a peg tray during a spinning process, for example, from spinning to finishing.

(Prior Art) Fig. 12 shows a tube yarn bobbin used in the present invention. In the figure, 1 is a disc-shaped peg tray, 2 is a bobbin installed in the peg tray 1, and 3 is a bobbin wound around this bobbin 2. It is a pipe thread.

FIG. 13 shows an example of a conventional pipe bobbin conveying device. In the figure, A to F indicate each spinning machine group divided by product group, and a to f indicate each spinning machine group A. -F
An example of the finishing process corresponding to each is wine goo. And wine goo a w from each spinning machine group A-F.
To transport the yarn bobbin to f, A-a, B-b, C
-ct-...- were equipped with independent conveyance lines.

That is, in the figure, G, ~G are the main lines, H, ~11.
are branch lines that connect each spinning machine group A-F and each main line G, ~G6, respectively; ■, ~I6 are branch lines that connect each main line G, ~G, and each wine group aw f, respectively. , J is a count sensor for controlling the number of bobbins provided on each main line G, -G6, K is a gate storage provided on the bobbin line side of each main line G, ~G6, L is a count sensor for each main line G, ~ This is a gate storage installed on the yarn line side of G6.

(Problems to be Solved by the Invention) As mentioned above, the conventional device consists of spinning machines A-F divided into product groups and corresponding wine groups a% f.
Since these are connected by independent conveyance lines, as can be seen from FIG. 13, a large amount of installation space is required and the layout of the spinning machine is restricted. In addition, each main line G, ~G6 and each branch line ~Hb, L~■6 all have different lengths, which makes manufacturing complicated and requires a large number of parts such as the conveyor drive unit and end unit. As a result, the number of installation steps increases, resulting in an increase in manufacturing costs.

Furthermore, once the conveyance line has been installed, in order to change the groups connected by the conveyance line due to reasons such as product changeover, complicated work including replacement of branch lines must be performed.

Therefore, multiple products are mixed and conveyed on the same line, and
4. A method of identifying and classifying varieties based on changes in the shape of the peg tray 1 by adding grooves 1a to the peg tray 1 as shown in Figure (a) or adding steps 1b as shown in Figure (b). , or methods of identifying and classifying types by color-coding the bobbin 2, as shown in Figure (c), are also being researched.
Even with this method, complete identification is difficult, and the identification device becomes complicated, which is economically disadvantageous.

(Means for Solving the Problems) In order to solve the above-mentioned problems, in the present invention, a plurality of rows of conveyor belts are arranged in parallel on a base plate in a yarn bobbin conveyor that is attached to a peg tray and conveyed. Bolt holes are arranged at predetermined intervals between these conveyor belts, and each row of bolt holes is arranged on a line with a predetermined inclination angle to the belt line, and stud bolts installed in each of these bolt holes are inserted through the bolt holes. Separate guides for separating each belt line are removably provided, and peg tray passages are integrally arranged in parallel between adjacent separate guides, and the passages for the peg trays are provided partially along the stand bolts arranged on the predetermined inclination angle line. By providing separate guides in the peg tray, the passage of the peg tray can be bent, thereby constructing a collecting conveyor device for transporting the tube and yarn bobbin.

(Function) As described above, in the device of the present invention, a plurality of main lines are arranged closely in parallel on an integrated base plate, and separate guides for separating each line are detachable. Because it can be partially installed at a predetermined inclination angle □ with respect to the main line,
Compared to conventional equipment having separate conveyance lines, the installation space can be significantly reduced and the layout of the spinning machine can be simplified.

Further, according to the present invention, the lengths of the branch lines connected to the main line can be made equal, and each main line drive unit and end unit are provided in common to each line at both ends of the base plate. As a result, the number of component parts is reduced compared to conventional devices, making manufacturing easier and reducing the number of installation steps, resulting in a significant reduction in manufacturing costs.

Furthermore, when changing the type of spinning machines and changing the group of V1 spinning machines connected by the conveyance line, the device of the present invention can easily and quickly change the line by replacing the detachable separate guide.

Furthermore, since all the ports and outlets of each main line of the device of the present invention can be provided on a straight line of an example of the base plate, each branch line can be unified, and
The branch line can also be of trapazor type.

(Example) The present invention will be described in detail below with reference to FIGS. 1 to 11. In the figure, the same reference numerals as the above-mentioned reference numerals indicate equivalent parts.

FIGS. 1(a) and 1(b) are schematic diagrams showing the planar arrangement of the apparatus of the present invention. In the figures, A to F indicate groups of spinning machines divided by product group, and a to f indicate groups of spinning machines. An example of the finishing process corresponding to A to F is wine goo.

M1 to M6 are the dense main lines of the device of the present invention, and N
(See Figure 1 (a)) is a fixed branch line that connects each spinning frame and the main line individually, O (see Figure 1 (b) and Figure 3) is a fixed branch line that connects each spinning frame and the main line. This is a mobile branch line (vertical conveyor in the case of Fig. 3) that connects the

In addition, P (see Figure 1 (a) and (b)) is each wine group a
A branch line connecting ~f and the main line, K is a gate storage provided on the bobbin line side of the main line,
L is a gate storage provided on the yarn line side of the main line, and J (see FIG. 1(b)) is a count sensor for controlling the number of bobbins provided on the main line.

As shown in FIGS. 2 to 7, the collective main line M of this embodiment is formed in two stages, upper and lower, and the upper main line Ma is a bobbin line for an empty bobbin on which no yarn 3 is wound. The main line old in the lower row is the pipe line of the pipe bobbin around which the pipe thread 3 is wound. These upper and lower main lines Ma and old are set at predetermined positions via hanging rods 4.

Note that instead of the hanging rod 4, the collective main line M may be supported by a support (not shown) set up on the floor.

In this embodiment, a plurality of rows of conveyor belts 6 are arranged side by side with slight gaps on a base plate 5 having a rectangular planar shape. That is, as shown in Fig. 5.6.7, the plurality of rows of conveyor belts 6
They are arranged side by side on the base plate 5 of , and are also arranged side by side in an endless manner on the base plate 5 of the lower pipe line through pulleys provided at both ends of the base plate 5 . Further, separate conveyors may be provided in the upper and lower stages.

In the figure, 7 (see Figures 5 and 6) is an end frame of the base plate 5, 8 is a guide pulley for the conveyor belt 6 which is pivoted on the upper and lower sides of the end frame 7, and 9 is a drive provided between these guide pulleys 8. A pulley, 10 is a sprocket fixed to the shaft 9a of this drive pulley 9, 11 is a geared motor installed on the end frame 7, 12 is a sprocket fixed to the shaft 11a of the motor 11, and 13 is a chino extending between the sprockets 10 and 12. be.

Further, 14 (see Fig. 5.7) is an end frame of the base plate 5, 15 is a guide pulley for the conveyor belt 6 pivoted on the upper and lower sides of the end frame 14, and 14a
is an inspection window provided in the end frame 14.

Further, bolt holes 16 (see FIG. 8(a)) are arranged at predetermined intervals between the conveyor belts 6 arranged in parallel on the base plate 5, and the bolt holes 16 in each row are arranged at a predetermined inclination with respect to the belt line. A channel-type separate guide 18 is detachably arranged on the angle (45° in this embodiment) line l and separates each belt line via stud bolts 17 implanted in each of these bolt holes 16. , the passage 19 of the peg tray 1 between the adjacent separate guides 18 (
(see Figure 4) are integrally arranged side by side, and as shown in Figure 8 (b).
(c) As shown in (d) and FIG. 9, a separate guide 18 may be partially inclined and provided as a switching guide at a desired position along the stud bolt 17 arranged on the predetermined inclination angle line. As a result, the passage 19 of the peg tray 1 can be bent to form a collection conveyor device for transporting the tube and yarn bobbins.

Incidentally, side guides 20 having a shape obtained by dividing the separate guide 18 into two may be attached to the base plate 5 at both outer edges thereof.

21 in the figure is a nut of the stud bolt 17.

In addition, in Figures 8 and 9, since the conveyance line on the spinning machine side is shown, the direction of inclination of the switching guide 18 is the same, but the direction of inclination of the changeover guide of the conveyance line on the wine goo side is reversed. Become.

FIG. 10 shows a method of cross-switching the conveyor line by applying the device of the present invention. In this case, cross guides 22 crossed in an The lever 23 and the stopper lever 24 of the peg tray 1 can be rotated in conjunction with each other within the range shown by the arrow.

Furthermore, FIG. 11 shows the Geneva type gate storage 25 installed in the conveyance line, and 26 shows the peg tray 1.
(It is a proximity count sensor to calculate the number every time an IF is sent.

Next, the operation of the apparatus of the present invention constructed as described above will be explained.

When the geared motor 11 shown in FIGS. 5 and 6 is driven, the conveyor belts 6 arranged in parallel move in the directions of arrows Q and H in FIG. 2 via the drive boolean IJ 9. In addition, the tube yarn 3 spun by each spinning machine group A-F is transferred to the lower main line M1 as a tube yarn bobbin via the branch line N or 0.
and is sent in the direction of arrow Q by the aforementioned □ conveyor belt 6.

Therefore, when the conveyance line is formed as shown in Fig. 1 (a) and (b), the tube yarn bobbin from spinning machine group A is sent to wine booth a via main line h, and then sent to spinning machine group B. The tube thread bobbin is the main line gate.

M! ', is sent to Winebu b via Ml, and similarly C
→c, D-+d, E-*6. p'-*'f, respectively.

The bobbins emptied by each winder a to f are returned to the upper main line M1 by a branch line P, and then returned to each spinning machine group A to F by a conveyor belt 6 moving in the direction of arrow R.

In the device of the present invention, by replacing the removable separate guide 18 and changing its attachment position, the conveyance line can be easily changed using the switching guide 18. You can also respond easily and quickly.

Further, by using a loss guide 22 as shown in FIG. 10, cross switching between adjacent lines can be easily performed. That is, in the illustrated state, the peg tray 1 can be transferred from the line M3 to the line h, and by switching the lever 23 and the stopper lever 24, the peg tray 1 can be transferred from the line M2 to the line M3. Therefore, by installing two or more cross guides 22, it becomes possible to cross-switch to lines that are far apart.

(Effects of the Invention) As described above, in the device of the present invention, a plurality of main lines are arranged side by side in a sealed manner on the integrated base plate 5,
The separate guide 18 that separates each line is made removable, and the separate guide 18 can be partially arranged at a predetermined inclination angle with respect to the main line. Compared to a device having a spinning machine, the immediate effect is that the installation space can be significantly reduced and the layout of the spinning machine can be made easier.

Further, according to the present invention, it is possible to make the lengths of the branch lines connected to the main line equal, and the main line drive unit and the end unit can be fixed at both ends of the base plate 5. Since the number of component parts is reduced compared to conventional devices, manufacturing is facilitated, and the number of installation steps is also reduced, resulting in a significant reduction in manufacturing costs.

Also, when changing the type of spinning machine, the device of the present invention can
It is very convenient because the line can be changed easily and quickly by replacing the detachable separate guide 18.

Furthermore, since all the inlets and outlets of each main line of the device of the present invention can be provided in a straight line on one side of the base plate 5, each branch life can be unified, and the branch lines can be made into a traverser type. It also has the advantage of being able to.

[Brief explanation of drawings]

Figures 1 (a) and (b) are schematic diagrams showing the planar arrangement of the device of the present invention, Figure 2 is a partial perspective view showing the interlocking type main line of the device of the present invention, and Figure 3 is a detailed view of the gathering type main line and A perspective view showing the state in which the spinning machine group is connected by a movable vertical conveyor, Figure 4 is an elevational view of the collective main line, Figure 5 is an elevational view showing the entire collective main cane, Fig. 6 is an elevational view of the drive side unit, Fig. 7 is an elevational view showing the opposite end unit, and Figs. 8(a) to (d).
is a plan view of the head plate, FIG. 9 is a detailed partial view of FIG. 8(d), FIG. 10 is a plan view of the cross guide attachment part, FIG. 11 is a plan view showing the Geneva type gate storage, and FIG. 12 is a plan view of the Geneva type gate storage. Elevation view of thread bobbin with peg tray, No. 13
The figure is a schematic diagram showing the planar arrangement of the conventional device, Fig. 14(a)
(b) and (c) are partial views of a yarn bobbin showing various conventional identification methods. A-F...Spinning machine group a% f...Winder N, 0. P...branch line M1~M,...main line M...gathered main line Ma...bobbin line old...tube line J.
・Count sensor

Claims (1)

[Claims] 1. In a yarn bobbin conveyor that is attached to a peg tray for conveyance, multiple rows of conveyor belts are arranged in parallel on a base plate, and a separate guide that separates each belt line is detachably provided, and a peg tray is installed between adjacent separate guides. A collecting conveyor device for transporting tube and yarn bobbins, characterized in that passages of the peg trays are integrally arranged in parallel and separate guides are partially provided on predetermined inclination angle lines so that the passage of the peg tray can be bent.