JP2001106318A5 - - Google Patents

Description

[Document name] Specification [Title of invention] Belt with protrusions and manufacturing method thereof [Claims]
1. A belt with protrusions provided on the back surface of the belt.
A plate-shaped support that is integrally provided on the back of the belt and is erected so that the plate surface faces the belt length direction.
It is provided with a protrusion member provided so as to cover the plate-shaped support portion.
The protrusion member is a belt with protrusions, which is fixed only to the plate-shaped support portion.
2. The first aspect of the present invention, wherein the protruding member is fixed to the plate-shaped support portion by a rod-shaped member embedded in the plate-shaped support portion in a state of penetrating the plate-shaped support portion. Belt with protrusions.
3. A method for manufacturing a belt with protrusions provided on the back surface of the belt.
A plate-shaped support portion which plate surface facing the belt length direction as the belt body formed engineering that form a belt body which is erected integrally with the belt back surface,
Covered with the plate-shaped support portion to melt the thermoplastic resin of the belt body formed by the belt body forming step, as outgrowth Engineering you form the projections by solidifying the thermoplastic resin,
A method of manufacturing a belt with protrusions, which is characterized by being provided with.
4.
Between the belt body forming step and the protrusion forming step,
The belt with protrusions according to claim 3, further comprising a rod-shaped member attaching step of attaching the rod-shaped member in a state of penetrating the plate-shaped support portion of the belt body formed in the belt body forming step. Production method.
Description: TECHNICAL FIELD [Detailed description of the invention]
[0001]
[Technical field to which the invention belongs]
The present invention relates to a belt with protrusions provided on the back surface of the belt.
0002.
[Conventional technology]
Belts with protrusions provided on the back of the belt are widely used. This protrusion serves as a partition between articles when the article is conveyed on the back surface of the belt, activates a sensor for detecting the traveling position of the belt, pushes the article to move, and the like.
0003
In the case of a rubber belt, such protrusions are formed by grinding the back surface of the belt, and in the case of a casting type thermosetting urethane belt, such protrusions are formed. It is formed by injecting a urethane prepolymer composition into a belt and curing it. That is, in any case, the protrusion is provided integrally with the belt body.
0004
By the way, in applications such as transportation in which the protrusions come into contact with other articles, there is a problem that the protrusions are damaged by receiving an external force in the belt length direction. On the other hand, a solution is conceivable in which the thickness of the protrusion in the belt length direction is increased to improve the load bearing capacity of the protrusion.
0005
[Problems to be Solved by the Invention]
However, since the protrusion is provided integrally with the belt body as described above, if the thickness of the protrusion is increased, the belt rigidity of the protrusion portion becomes large, and the belt is properly wound around the pulley having a small diameter. There is a problem that it cannot be done. In particular, when the belt body is a toothed belt, there is a possibility that poor meshing of the belt teeth with the pulley grooves may occur.
0006
Further, in the case of a casting type thermosetting urethane belt, there is also a problem that if a large protrusion is formed on the back surface of the belt, it becomes difficult to remove the mold from the casting mold and the workability is poor.
0007
The present invention has been made in view of this point, and an object of the present invention is to make a pulley having a small diameter even when the thickness of the protrusion in the belt length direction is increased in order to increase the strength of the protrusion on the back surface of the belt. It is an object of the present invention to provide a belt with protrusions which enables proper winding and is excellent in workability even in the case of a casting type thermosetting urethane belt.
0008
[Means for solving problems]
In the present invention, in a belt with protrusions, a plate-shaped support portion is erected on the back surface of the belt, a protrusion member is provided so as to cover the plate-shaped support portion, and the protrusion member is fixed only to the plate-shaped support portion.
0009
Specifically, the invention of the present application is a belt with protrusions provided on the back surface of the belt.
A plate-shaped support that is integrally provided on the back of the belt and is erected so that the plate surface faces the belt length direction.
It is provided with a protrusion member provided so as to cover the plate-shaped support portion.
The protruding member is characterized in that it is fixed only to the plate-shaped support portion.
0010
According to the above configuration, even if the protrusions are thickened in the belt length direction to improve the load bearing capacity, the protrusion members forming the protrusions are fixed only to the plate-shaped support portion, that is, fixed to the back surface of the belt. Since this is not done, the protrusions do not increase the belt rigidity, and it is possible to properly wrap a pulley with a small diameter.
0011
Further, even in the case of manufacturing a casting type thermosetting urethane belt, it is sufficient to mold the belt body provided with the plate-shaped support portion on the back surface of the belt, and the workability is also excellent.
0012
Furthermore, when the protrusion is damaged, it can be repaired by replacing only the protrusion member, and depending on the type of the material for forming the protrusion member, it is possible to repair the worn part or the defective part by replenishing the forming material. Become.
0013
Here, the protrusion member may be fixed to the plate-shaped support portion by a rod-shaped member embedded in a state of penetrating the plate-shaped support portion. By doing so, the protrusion member is firmly fixed to the plate-shaped support portion via the rod-shaped member, and the protrusion member is prevented from coming off from the plate-shaped support portion. In addition, there is a variation in the degree of fixation as compared with the case where the plate-shaped support portion is simply inserted into the insertion hole provided in the protrusion member, or the case where the protrusion member is adhesively fixed to the plate-shaped support portion by an adhesive in the insertion hole. Will be less.
0014.
Further, the above fixing may be performed by an adhesive or the like.
0015.
【Effect of the invention】
As described above, according to the present invention, even if the protrusions are thickened in the belt length direction to improve the load bearing capacity, the protrusion members forming the protrusions are fixed only to the plate-shaped support portion, that is, Since it is not fixed to the back surface of the belt, the protrusion does not increase the rigidity of the belt, and it is possible to properly wrap the pulley with a small diameter. Further, even in the case of manufacturing a casting type thermosetting urethane belt, it is sufficient to mold the belt body provided with the plate-shaped support portion on the back surface of the belt, and the workability is also excellent. Furthermore, when the protrusion is damaged, it can be repaired by replacing only the protrusion member, and depending on the type of the material for forming the protrusion member, it is possible to repair the worn part or the defective part by replenishing the forming material. Become.
0016.
Further, if the protrusion member is fixed to the plate-shaped support portion by a rod-shaped member embedded in a state of penetrating the plate-shaped support portion, the protrusion member is firmly fixed to the plate-shaped support portion via the rod-shaped member. This prevents the protruding member from coming off the plate-shaped support portion. In addition, there is a variation in the degree of fixation as compared with the case where the plate-shaped support portion is simply inserted into the insertion hole provided in the protrusion member, or the case where the protrusion member is adhesively fixed to the plate-shaped support portion by an adhesive in the insertion hole. Will be less.
[0017]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiments of the present invention will be described in detail with reference to the drawings.
0018
FIG. 1 shows a belt B according to an embodiment of the present invention. This belt B is a kind of toothed belt, and includes a belt body 1 made of a polyurethane composition having tooth portions 2, 2, ... With a predetermined pitch on the inner surface, and is provided on the bottom of each tooth portion 2 of the belt body. A core wire 3 made of aramid fiber as a tension body is embedded along the line.
0019
As a feature of the present invention, a plate-shaped support portion 4 having a plate surface facing the belt length direction is erected integrally with the belt main body 1 on the back surface of the belt, and the plate-shaped support portion 4 is provided with the plate-shaped support portion 4. A stainless steel (SUS) pin 5 as a rod-shaped member is attached in a penetrating state. Further, a protrusion member 6 made of acetal resin (POM) is provided so as to cover the plate-shaped support portion 4 and the pin 5, and the protrusion member 6 forms a protrusion equivalent to about two belt teeth on the back surface of the belt. ing. Here, the protrusion member 6 is fixed to the plate-shaped support portion 4 via the pin 5, but the bottom surface of the protrusion member 6 is not fixed to the back surface of the belt.
0020
In the belt B with protrusions having the above configuration, the protrusions formed by the protrusion members 6 have a thickness equivalent to about two belt teeth to improve the load bearing capacity, but the protrusion members 6 are plates. Since the bottom surface of the protrusion member 6 is not fixed to the back surface of the belt only by being fixed to the shape support portion 4 via the pin 5, the belt rigidity is not increased by the protrusion member 6, and the belt with protrusions does not increase. B can be properly wound around a pulley having a small diameter.
0021.
Further, since the belt body 1 in which the plate-shaped support portion 4 is erected on the back surface of the belt may be molded by casting the thermosetting urethane, it is not necessary to mold a large protrusion and the mold can be easily removed. Also excellent in workability.
0022.
Further, when the protrusion is damaged, only the protrusion member 6 can be removed, and a new protrusion member 6 can be provided according to the belt manufacturing method shown below. Further, in the case of minor damage such as wear or chipping on the surface of the protrusion member 6, the protrusion member 6 is set in the injection mold again without removing the protrusion member 6, and resin is injected to the worn portion or the defect portion. Repairs that replenish the resin are also possible.
[0023]
Further, since the protrusion member 6 is fixed to the plate-shaped support portion 4 by a pin 5 embedded in a state of penetrating the plate-shaped support portion 4, the protrusion member 6 is firmly fixed to the plate-shaped support portion 4. As a result, the protrusion member 6 is prevented from coming off from the plate-shaped support portion 4. In addition, there is a variation in the degree of fixation as compared with the case where the plate-shaped support portion is simply inserted into the insertion hole provided in the protrusion member, or the case where the protrusion member is adhesively fixed to the plate-shaped support portion by an adhesive in the insertion hole. Less is.
0024
Then, the belt B with protrusions is manufactured as follows.
<Belt body forming process>
The urethane prepolymer composition is injected into a casting die so that a toothed belt body having a plate-shaped support portion erected on the back surface of the belt is formed, and the urethane prepolymer composition is heated and cured. As a result, a belt body in which the plate-shaped support portion is integrally erected on the back surface of the belt is formed. Before injecting the composition, the core wire is set in the casting mold in a tense state in advance so that the core wire is embedded in the belt.
<Pin mounting process>
A hole is made in the central portion of the plate-shaped support portion, and a stainless steel (SUS) pin as a rod-shaped member is passed through the hole so that the pin penetrates the plate-shaped support portion and is held.
<Injection mold setting process>
Only the plate-shaped support portion through which the pin penetrates is inserted into the injection mold for molding the protrusion member, and the plate-shaped support portion is set at a predetermined position.
<Resin injection process>
The molten acetal resin (POM) is injected into the injection mold. As a result, the pins penetrate the plate-shaped support portion, and they are embedded in the protrusion members formed of the resin.
<Demolding process>
Remove the protruding member attached to the belt from the injection mold.
0025
According to the above method for manufacturing a belt with protrusions, the plate-shaped support portion is covered with a protrusion member formed of a thermoplastic resin, and the rod-shaped member is embedded in the protrusion member in a state of penetrating the plate-shaped support portion. Will be easily obtained.
(Other embodiments)
In the above embodiment, the belt body 1 is a toothed belt, but the present invention is not limited to this, and a flat belt, a V-belt, or the like may be used.
0026
Further, in the above embodiment, the belt body 1 is made of thermosetting polyurethane, but the present invention is not limited to this, and the belt body 1 may be made of rubber.
[0027]
Further, in the above embodiment, the pin 5 is used as the rod-shaped member, but the present invention is not particularly limited to this, and any rod-shaped member such as a bolt may be used. Further, the rod-shaped member may be made of metal such as stainless steel (SUS), gunmetal material (BSBM), aluminum, or resin.
[0028]
Further, in the above embodiment, only one pin 5 as a rod-shaped member is attached to the plate-shaped support portion 4, but a plurality of pins 5 may be attached. By doing so, the fixing of the protrusion member to the plate-shaped support portion can be made stronger.
[0029]
Further, in the above embodiment, the protrusion member 6 is made of acetal resin (POM), but the present invention is not particularly limited to this, and polyamide resin (PA), polycarbonate resin (PC), and acrylonotril-butadiene-styrene resin ( ABS) or the like.
[0030]
Further, in the above embodiment, the protruding member 6 is fixed to the plate-shaped support portion 4 by the pin 5 penetrating the plate-shaped support portion 4, but the present invention is not particularly limited to this, and for example, the plate-shaped support portion 4 is formed. A protrusion member having an insertion hole into which the support portion can be inserted may be formed in advance, an adhesive may be poured into the insertion hole, and a plate-shaped support portion may be inserted into the insertion hole to cure the adhesive.
[Simple explanation of drawings]
FIG. 1
It is sectional drawing of the belt which concerns on embodiment of this invention.
[Explanation of symbols]
1 Belt body 2 Tooth part 3 Core wire 4 Plate-shaped support part 5 Pin 6 Protruding member