阅读说明：本技术 橡胶材料供给方法以及橡胶材料供给装置 (Rubber material supply method and rubber material supply device ) 是由 武田宪幸 于 2019-04-04 设计创作，主要内容包括：本发明提供一种橡胶材料供给方法以及橡胶材料供给装置,即使在橡胶材料的宽度大于橡胶投入口的宽度的情况下,也能够将橡胶材料顺利供给到橡胶投入口。橡胶材料供给方法包括分离工序(S1)、处理工序(S2)以及投入工序(S3)。分离工序(S1)在橡胶材料(G)的前端部(GF)形成长度(L)相互不同的多条切口(30),并使前端部(GF)分离为3条以上的带状部(31)。处理工序(S2)分别切除或折叠多条带状部(31)中的除第一带状部(31A)以外的第二带状部(31B)。投入工序(S3)将前端部(GF)从第一带状部(31A)投入到橡胶投入口(3A)。(The invention provides a rubber material supply method and a rubber material supply device, which can smoothly supply a rubber material to a rubber input opening even if the width of the rubber material is larger than that of the rubber input opening. The rubber material supply method includes a separation step (S1), a treatment step (S2), and an input step (S3). The separation step (S1) forms a plurality of cuts (30) having different lengths (L) at the tip end (GF) of the rubber material (G), and separates the tip end (GF) into 3 or more strip-shaped sections (31). The processing step (S2) cuts or folds the second strip-shaped part (31B) of the plurality of strip-shaped parts (31) except the first strip-shaped part (31A). The feeding step (S3) feeds the tip (GF) from the first belt-shaped section (31A) to the rubber inlet (3A).)

1. A rubber material supply method for supplying a belt-shaped unvulcanized rubber material from a longitudinal tip portion to a rubber inlet, comprising:

a separation step of forming a plurality of cuts having different lengths (L) extending from a distal end to a rear side in a longitudinal direction in the distal end portion of the rubber material conveyed in the longitudinal direction, and separating the distal end portion into a plurality of strip-shaped portions having 3 or more strips;

a processing step of cutting or folding the second band-shaped portions when 1 of the band-shaped portions adjacent to the slit having the smallest length among the plurality of band-shaped portions is a first band-shaped portion and the band-shaped portions other than the first band-shaped portion are second band-shaped portions; and

a feeding step of feeding the cut or folded tip end portion of the second belt-like portion from the first belt-like portion to the rubber inlet,

at least the width of the first band-shaped part is smaller than the opening width of the rubber inlet.

2. The rubber material supplying method according to claim 1,

in the processing step, the second strip-shaped portions are folded so as to overlap with the subsequent portion of the rubber material based on the position of the rear end of the slit adjacent to the second strip-shaped portions.

3. The rubber material supplying method according to claim 1,

in the processing step, the second strip-shaped portions are cut out based on positions of rear ends of the slits adjacent to the second strip-shaped portions, respectively.

4. The rubber material supplying method according to any one of claims 1 to 3, wherein,

the rubber inlet is a rubber inlet of a rubber extruder for rotatably holding the screw shaft in the cylinder,

the length (Lmin) of the minimum-length notch is 1.0 times or more of the distance (Lf) from the upper end of the rubber inlet to the outer periphery of the screw shaft.

5. The rubber material supplying method according to any one of claims 1 to 4,

among the cuts on both sides adjacent to the first band, the length of one cut is 1.6 times or more the length of the other cut.

6. A rubber material supply device for implementing the rubber material supply method according to claim 1, comprising:

a conveyance means that conveys the rubber material from the leading end portion to a downstream side;

a cutting tool that forms the plurality of cuts having different lengths L extending from a distal end toward a rear side in a longitudinal direction in the distal end portion of the rubber material being conveyed, and cuts the distal end portion so as to separate the plurality of strip-shaped portions into 3 or more strips; and

a processing tool for cutting or folding the second strip-shaped parts when 1 strip-shaped part of the plurality of strip-shaped parts separated by the cutting tool, which is adjacent to the slit with the smallest length, is used as the first strip-shaped part and the strip-shaped parts except the first strip-shaped part are used as the second strip-shaped part,

at least the width of the first band-shaped part is smaller than the opening width of the rubber input opening,

then, the tip end portion of the second belt-shaped portion after being cut or folded is put from the first belt-shaped portion into the rubber inlet.

7. The rubber material supply device according to claim 6,

the severing tool has a plurality of cutters for forming the plurality of cuts.

8. The rubber material supply device according to claim 6 or 7,

the processing tool is a folding tool that folds the second strip portion so as to overlap a subsequent portion of the subsequent rubber material based on a position of a rear end of the slit adjacent to the second strip portion, respectively.

9. The rubber material supply device according to claim 8,

the folding tool crimps the folded second band-shaped portion and the subsequent portion.

10. The rubber material supply device according to claim 9,

the folding tool comprises: a conveyor section disposed downstream of the conveyor; and a pressure-contact roller which is arranged above the conveyor unit, folds the second belt-shaped portions between the conveyor unit and the pressure-contact roller, and contacts the subsequent portion.

Technical Field

The present invention relates to a rubber material supply device and a rubber extrusion device for supplying a belt-like unvulcanized rubber material from a longitudinal end portion thereof to a rubber inlet.

Background

Conventionally, there is known a rubber extruder which continuously extrudes rubber in a predetermined cross-sectional shape. A rubber material in a band shape and unvulcanized is supplied from a rubber material supply device to a rubber inlet of such a rubber extruder. The belt-shaped rubber material has a predetermined width. However, in the rubber extruder, the opening width of the rubber inlet may be smaller than the width of the rubber material, and the rubber material cannot be supplied into the rubber extruder.

Therefore, patent document 1 listed below proposes a rubber material folding device for reducing the maximum width of a belt-shaped rubber material. The device comprises a first rotary knife, a second rotary knife and a chute. The first rotary knife equally divides the entire rubber material into three parts in the width direction. The second rotary knife forms creases along the length direction of each trisected rubber material. The chute guides each trisected rubber material to the rubber inlet while bending the rubber material into a box shape along the fold.

Prior art documents

Patent document

Patent document 1: japanese laid-open patent publication No. Sho 48-043782

Disclosure of Invention

(problems to be solved by the invention)

However, in the above proposed rubber material folding device, the wall surface of the chute strongly interferes with the edge of the rubber material on the tip side. Therefore, there is a problem that the rubber material floats and cannot be smoothly supplied to the rubber inlet.

A main object of the present invention is to provide a rubber material supply method and a rubber material supply apparatus capable of smoothly supplying a rubber material to a rubber inlet even when the width of the rubber material is larger than the width of the rubber inlet.

(means for solving the problems)

A first aspect of the present invention is a rubber material supply method for supplying a belt-shaped unvulcanized rubber material from a longitudinal leading end portion to a rubber inlet, the rubber material supply method including:

a separation step of forming a plurality of cuts having different lengths L and extending from a distal end toward a rear side in a longitudinal direction in the distal end portion of the rubber material conveyed in the longitudinal direction, and separating the distal end portion into a plurality of strip-shaped portions having 3 or more strips;

a processing step of cutting or folding the second band-shaped portions when 1 of the band-shaped portions adjacent to the slit having the smallest length among the plurality of band-shaped portions is a first band-shaped portion and the band-shaped portions other than the first band-shaped portion are second band-shaped portions; and

a feeding step of feeding the cut or folded tip end portion of the second belt-like portion from the first belt-like portion to the rubber inlet,

at least the width of the first band-shaped part is smaller than the opening width of the rubber inlet.

In the rubber material supply method according to the present invention, in the processing step, the second strip-shaped portion may be folded so as to overlap a succeeding portion of the rubber material, based on a position of a rear end of the slit adjacent to the second strip-shaped portion.

In the rubber material supply method according to the present invention, in the processing step, the second strip-shaped portions may be cut out based on positions of rear ends of the slits adjacent to the second strip-shaped portions, respectively.

In the rubber material supply method according to the present invention, it is preferable that the rubber inlet is a rubber inlet of a rubber extruder for rotatably holding the screw shaft in the cylinder,

the length Lmin of the minimum-length notch is 1.0 times or more of the distance Lf from the upper end of the rubber inlet to the outer periphery of the screw shaft.

In the rubber material supply method according to the present invention, it is preferable that, of the cuts on both sides adjacent to the first band-shaped portion, the length of one cut is 1.6 times or more the length of the other cut.

The second invention is a rubber material supply device for carrying out the rubber material supply method of the first invention, including:

a conveyance means that conveys the rubber material from the leading end portion to a downstream side;

a cutting tool that forms the plurality of cuts having different lengths L extending from a distal end toward a rear side in a longitudinal direction in the distal end portion of the rubber material being conveyed, and cuts the distal end portion so as to separate the plurality of strip-shaped portions into 3 or more strips; and

a processing tool that cuts or folds the second band-shaped portions when 1 of the band-shaped portions adjacent to the slit of the minimum length among the plurality of band-shaped portions separated by the cutting tool is the first band-shaped portion and the band-shaped portions other than the first band-shaped portion are the second band-shaped portions,

at least the width of the first band-shaped part is smaller than the opening width of the rubber input opening,

then, the tip end portion of the second belt-shaped portion after being cut or folded is put from the first belt-shaped portion into the rubber inlet.

In the rubber material supply device according to the present invention, it is preferable that the cutting tool includes a plurality of cutters for forming the plurality of cuts.

In the rubber material supply device according to the present invention, it is preferable that the processing tool is a folding tool that folds the second strip-shaped portion so as to overlap a succeeding portion of the subsequent rubber material based on a position of a rear end of the slit adjacent to the second strip-shaped portion.

In the rubber material supply device according to the present invention, it is preferable that the folding tool press-contacts the folded second band-like portion and the succeeding portion.

In the rubber material supply device according to the present invention, it is preferable that the folding tool includes: a conveyor section disposed downstream of the conveyor; and a pressure-contact roller which is arranged above the conveyor section, folds the second belt-shaped sections between the conveyor section and the pressure-contact roller, and contacts the subsequent sections.

(effect of the invention)

The rubber material supply method of the first invention includes a separation step, a treatment step, and an input step. In the separating step, a plurality of cuts having different lengths L are formed in the tip end portion of the rubber material, thereby separating the tip end portion into 3 or more strip-shaped portions.

In the processing step, the second strip-shaped portions other than the first strip-shaped portion adjacent to the slit having the smallest length are cut or folded. In this case, since the lengths L of the slits are different from each other, the cut-out position or the folded position of the second band-shaped portion is arranged at a position different from the front end of the rubber material. That is, the width of the tip portion is changed stepwise from the tip side, and at least the width of the first band-shaped portion is set to be smaller than the opening width of the rubber inlet.

Therefore, by inserting the cut or folded tip end portion of the second band-shaped portion from the first band-shaped portion into the rubber inlet, the hook to the chute wall surface of the rubber inlet can be weakened, and the rubber material can be smoothly supplied.

The rubber material supply device according to the second aspect of the present invention can achieve the same effects as the rubber material supply method according to the first aspect of the present invention.

Drawings

Fig. 1 is a side view showing an embodiment of a rubber material supply apparatus for carrying out the rubber material supply method of the first invention.

Fig. 2 is a plan view of the rubber material supply device.

Fig. 3 is a side view showing the cutting tool and the processing tool.

Fig. 4(a) and (b) are conceptual views showing the separation step.

Fig. 5(a) and (b) are conceptual views showing the treatment steps.

Fig. 6(a) and (b) are conceptual views showing the charging step.

Fig. 7(a) to (c) are side views showing the operation of the folding tool.

Fig. 8(a) to (c) are perspective views showing the action of the folding tool from the rubber material side.

Fig. 9(a) and (b) are conceptual views showing the separation step and the treatment step in the case where the number of cuts is 3 or more.

Detailed Description

Next, a rubber material supply method according to a first invention will be described together with a rubber material supply apparatus 1 for carrying out the method, based on the drawings.

The rubber material supplying method of the first invention includes a separating step S1 (shown in fig. 4), a treating step S2 (shown in fig. 5), and an introducing step S3 (shown in fig. 6).

Fig. 1 is a side view of a rubber material supply device 1 for carrying out the rubber material supply method according to the first invention, and fig. 2 is a plan view thereof. Fig. 3 is a side view showing the cutting tool 5 and the processing tool 6 of the rubber material supply device 1.

As shown in fig. 1 and 2, the rubber material supply device 1 of the present embodiment is used to supply a strip-shaped unvulcanized rubber material G from a distal end GF in a longitudinal direction X thereof to a rubber inlet 3A of a rubber extruder 3.

The rubber extruder 3 includes a rubber inlet 3A, a substantially cylindrical barrel 3B, and a screw shaft 3C rotatably held in the barrel 3B. The rubber inlet 3A is provided so as to open at the rear end side in the rubber extrusion direction of the cylinder 3B. The rubber extruder 3 described above can continuously extrude the rubber material G, which is fed from the rubber inlet 3A, in a predetermined cross-sectional shape while kneading the rubber material G. As the rubber extruder 3, conventional rubber extruders of various structures can be used.

Next, the rubber material supply device 1 includes a conveyance tool 4, a cutting tool 5, and a processing tool 6, and supplies the rubber material G to the rubber inlet 3A of the rubber extruder 3 disposed on the downstream side.

The conveyor 4 includes a conveyor portion 4A such as a belt conveyor, and conveys the rubber material G from the leading end GF to the downstream side on the conveying surface 4S. The conveying surface 4S is driven by a motor M1. As the conveyor section 4A, a roller conveyor driven by a motor may be used.

The cutting tool 5 performs the separation step S1 of the rubber material supply method.

As shown in fig. 4(a) and (b), in the separating step S1, a plurality of (n) cuts 30 extending from the leading end Fe toward the rear side in the longitudinal direction X are formed in the leading end GF of the rubber material G conveyed in the longitudinal direction X by the cutter 5. Thereby, the tip portion GF is separated into a plurality of (n +1) strip portions 31. In this example, n is 2. The width W of at least 1 strip 31 of the plurality (n +1) of strip 31 is set smaller than the opening width W3 (shown in fig. 2) of the rubber inlet 3A.

The lengths L from the tip Fe are different from each other for the plurality (n) of slits 30. As shown in FIG. 9(a), when the number of the notches 30 is 3 or more (n.gtoreq.3), the n notches 30 are arranged in such a manner that the length L becomes longer from the notch 30a having the minimum length L of the minimum Lmin toward the side edge E of the rubber material G.

As shown in fig. 2, in the present example, the cutting tool 5 includes n knife-like cutters 8 for forming n cuts 30 provided near the tip of the conveyance tool 4. As shown in fig. 4(a) and (b), the rubber material G advances relative to the cutter 8, whereby the distal end portion GF is cut in the longitudinal direction X from the distal end Fe thereof. Further, each cutter 8 is raised from the lowering position 9L for cutting to the raising position 9U for standby at a predetermined timing, whereby each slit 30 can be formed with a predetermined length L.

As shown in fig. 3, the cutting tool 5 of the present example includes: n lateral moving bodies 10 supported by the conveyance tool 4; and a vertically movable body 11 supported by each of the laterally movable bodies 10 so as to be movable vertically. The cutter 8 is held by each of the lifters 11.

In this example, a pair of support columns 14, for example, which stand from the frame 13 of the conveyance tool 4, are arranged on the conveyance tool 4; and a guide rail 15 extending in the width direction Y and spanning between the columns 14. Each of the laterally movable bodies 10 is guided by the guide rail 15 so as to be movable in the width direction Y. This enables adjustment and change of the width W of each band-shaped portion 31.

Further, for example, an air cylinder 26 is attached to each of the laterally moving bodies 10, and the vertically movable body 11 is supported by a rod lower end of the air cylinder 26.

Next, the processing tool 6 performs a processing step S2 of the rubber material supply method.

As shown in fig. 5(a) and (B), in the processing step S2, the n second strip-shaped parts 31B excluding the first strip-shaped part 31A in the n +1 strip-shaped parts 31 are cut or folded by the processing tool 6. The first strip portion 31A is defined in the strip portion 31 as 1 strip portion 31A out of 2 strip portions 31A, 31A adjacent to the slit 30a of the minimum length. The width W of at least the first band portion 31A is smaller than the opening width W3. Preferably, the first strip portion 31A is the strip portion 31 arranged on the widthwise center side of the n +1 strip portions 31.

In this example, the processing tool 6 is shown as a folding tool 7. With this folding tool 7, each second strip-shaped portion 31B is folded so as to overlap the succeeding portion GR based on the position of the rear end 30E of the slit 30 adjacent to each second strip-shaped portion 31B.

As shown in fig. 9, when the second strip-shaped portion 31B is formed between 2 slits 30, that is, when there are 2 slits 30 adjacent to the second strip-shaped portion 31B, the second strip-shaped portion 31B is folded based on the position of the rear end 30E of the slit 30 having the small length L.

The following portion GR means a portion following each of the belt portions 31 in the rubber material G.

As shown in fig. 3, the rubber material supply device 1 of the present example further includes a guide tool 16 for guiding each second strip portion 31B to the following portion GR side. The guiding means 16 comprise a roller 17. The guide tool 16 of the present example includes: a cylinder attached to the elevating body 11; and a roller 17 supported at a rod lower end of the cylinder 18 via a roller holder 19. The roller 17 is held to be rotatable around an axis parallel to the width direction Y.

As shown in fig. 1, the roller 17 is lowered, and thereby the guide tool 16 presses the second belt-like portions 31B that are being cut downward. This prevents the second band-shaped portion 31B being cut from being caught by the folding tool 7 disposed on the downstream side. In this example, the roller 17 is movable up and down by the air cylinder 18 separately from the up and down movement of the tool 8. However, the roller 17 may be moved up and down separately from the up and down movement of the tool 8 by directly supporting the air cylinder 18 to the traverse body 10 instead of the elevating body 11. Further, the roller 17 and the cutter 8 may be moved up and down integrally by directly supporting the roller holder 19 to the elevating body 11 without providing the air cylinder 18.

As shown in fig. 8(B) and (c), the folding tool 7 folds each second band-like portion 31B so as to overlap the succeeding portion GR. In particular, the folding tool 7 preferably bends the second band-like portion 31B to the rear side about the axis k along the width direction Y, and pressure-contacts the following portion GR.

As shown in fig. 1 and 2, in this example, the folding tool 7 includes: a conveyor unit 20 disposed downstream of the conveyor 4; and a pressure roller 21 disposed above the conveyor unit 20. Then, between the conveyor section 20 and the pressure contact roller 21, the second belt-like portion 31B is folded and brought into pressure contact with the following section GR.

As the conveyor section 20, a belt conveyor in which a conveyor belt 23 is wound and mounted between front and rear rollers 22F, 22R is preferably used. The conveying surface 20S of the conveyor section 20 is driven at substantially the same speed as the conveyance tool 4 by, for example, a motor M2. The pressure roller 21 is disposed at an upper position facing the rear roller 22R. In this example, the pressure contact roller 21 is a weight roller, and is pressed against the conveying surface 20S by using biasing means such as its own weight or a spring.

Fig. 7(a) and 8(a) show the state at the start of forming the notch 30 by the cutting tool 5. At the start of forming, the folding tool 7 bites the first belt-like portion 31A conveyed from the conveying tool 4 side into between the conveyor unit 20 and the pressure-contact roller 21. At this time, the second belt-like portions 31B are respectively guided to the lower side by the rollers 17 of the guide tool 16. Therefore, the second band-like portion 31B is not caught by the folding tool 7.

Fig. 7(b) and 8(b) show the state when the formation of the slit 30 is completed. The cutter 8 and the roller 17 are raised and separated from the rubber material G, and the formation of the slit 30 is completed. When the rear end 30E of the slit 30 approaches the folding tool 7, the vicinity of the rear end of the second belt portion 31B comes into contact with the conveyor unit 20 and starts to bend into a U shape.

Fig. 7(c) and 8(c) show the pressure-bonded state. The U-shaped bent portion Br of the second belt portion 31B is caught between the conveyor unit 20 and the pressure roller 21. Thereby, the second band-shaped portion 31B is bent around the axis k, and the second band-shaped portion 31B is sequentially crimped to the subsequent portion GR.

Therefore, in this example, the conveyor section 20 of the folding tool 7 also constitutes a part of the guide tool 16 for guiding the second belt-like portion 31B to the following portion GR side.

In this example, a knife-like knife is used as the knife 8 of the cutting tool 5. However, the present invention is not limited to this, and a circular knife, a knife switch, or the like may be used. In the case of a circular knife or a guillotine, a backing plate that receives the lower surface of the rubber material G is preferably used. In the case of the knife blade, it is preferable to cut the rubber material G in a state where the conveyance of the rubber material G is temporarily stopped.

Further, as a part of the guide tool 16, a guide roller 25 (shown by a one-dot chain line in fig. 1) for bending the second belt-like portion 31B hanging down into a U-shape may be separately provided. The guide roller 25 is disposed below the conveyor unit 20. More preferably, the guide roller 25 is disposed on the rear side in the conveying direction so as to be movable forward and backward.

Further, as the folding tool 7, 2 pressure-contact rollers may be used, and the second band-like portion 31B may be folded back between them and pressure-contacted to the succeeding portion GR. At this time, preferably, at the outer periphery of at least one of the crimping rollers, 1 or more rib-like protrusions extending continuously in the circumferential direction are provided. This can improve the connection strength.

In the processing step S2, the second strip-shaped portions 31B may be cut out based on the positions of the rear ends 30E of the slits 30. In this case, it is preferable to cut and remove the second strip portions 31B by using, for example, a guillotine-shaped cutting blade and lowering the cutting blade in synchronization with the completion of the formation of the cuts 30 and the raising of the cutter 8. In addition, various methods can be employed for the cutting removal.

The conveyor section 20 performs the charging step S3 of the rubber material supply method.

As shown in fig. 6(a), in the input step S3, the removed or folded tip GF of the second belt-shaped portion 31B is input from the first belt-shaped portion 31A to the rubber input opening 3A.

As described above, in the distal end portion GF where the second band-shaped portion 31B is removed or folded, the width of the distal end portion GF is changed stepwise from the distal end side, and the width W of the first band-shaped portion 31A at the forefront is smaller than the opening width W3. The lengths L of the slits 30 are different from each other. Therefore, the edge portions Q on both sides of the first band-shaped portion 31A can be prevented from catching on the chute wall surface 3A1 of the rubber inlet 3A, and can be smoothly introduced.

Further, as shown in fig. 6(b), in the case where the length L of the slit 30 is the same, the edge portion Q is strongly hooked on the chute wall surface 3a 1. Therefore, smooth input becomes difficult.

As shown in fig. 5(a), the length Lmin of the minimum-length slit 30a is preferably 1.0 times or more the distance Lf (shown in fig. 6 (a)) from the upper end of the rubber inlet 3A to the outer periphery of the screw shaft 3C. In this case, the first belt-shaped portion 31A can be engaged with the screw shaft 3C before the edge portion Q comes into contact with the chute wall surface 3a1, and a feeding failure can be reliably suppressed. In fig. 6, the case of Lmin < Lf is illustrated for convenience.

In addition, it is preferable that, of the slits 30, 30 on both sides adjacent to the first band-shaped portion 31A, the length L of one slit 30 is 1.6 times or more the length L of the other slit 30. Thus, after one edge portion Q comes into contact with the chute wall surface 3a1, the other edge portion Q comes into contact with the chute wall surface 3a1 with a sufficient delay. Therefore, the hooking to the chute wall surface 3a1 can be further weakened.

While the above description has been made of the particularly preferred embodiment of the present invention, the present invention is not limited to the illustrated embodiment, and can be modified into various embodiments.

(description of reference numerals)

1 rubber Material feeding device

3 rubber extruder

3A rubber inlet

3B machine barrel

3C screw shaft

4 conveying tool

5 cutting tool

6 processing tool

8 cutter

7 folding tool

20 conveyor part

21 crimping roller

30 cuts

30a minimal length incision

30E back end

31 strip-shaped part

31A first belt-shaped part

31B second band-shaped part

Fe front end

G rubber material

GF front end

GR continuation part

S1 separation step

S2 Process

And S3 inputting the step.