JP7389152B2 - Camshaft manufacturing equipment - Google Patents

Description

The present invention relates to a camshaft manufacturing apparatus used for manufacturing camshafts for internal combustion engines.

The applicant of the present application has disclosed an invention relating to a camshaft that is installed in an internal combustion engine and is provided with a plurality of attachment members such as a pulser plate (Patent Document 1).
Japanese Patent Application Publication No. 2019-042794

The above-mentioned pulser plate is attached to the camshaft according to Patent Document 1 at a predetermined position around the axis of the camshaft in a phase-aligned manner.
In addition to the pulser plate, the plurality of attachment members provided on the camshaft include a cap and a knock pin provided at the end of the camshaft.
By the way, the invention according to Patent Document 1 simplifies the manufacturing process and reduces the takt time required for the manufacturing process when manufacturing a camshaft product by attaching a plurality of mounting members to a semi-finished camshaft work. There is no disclosure or suggestion of any shortening.

In short, the conventional technology leaves room for improvement in terms of simplifying the manufacturing process of camshaft products and shortening the takt time required for the manufacturing process.

The present invention has been made in view of the above-mentioned circumstances, and aims to provide a camshaft manufacturing apparatus that can simplify the manufacturing process of camshaft products and shorten the takt time required for the manufacturing process. purpose.

In order to achieve the above object, the invention based on the first aspect is a camshaft manufacturing apparatus that manufactures a camshaft product by attaching a plurality of attachment members to a semi-finished camshaft work, the plurality of The mounting member includes a pin attached to one shaft of the semi-finished work, and a pulser plate mounted to the other shaft of the semi-finished work, and performs an operation of transporting the semi-finished work to the mounting stage. a first robot; a second robot that sets the pins in a pin holding jig and sets the pulser plate in the plate holding jig; a work restraint device that performs an operation of restraining a product work at a predetermined centering position; and a work restraint device that restrains the semi-finished work at the centering position by the work restraint device, and the pin held by the pin holding jig. a press-fitting device that press-fits into a hole provided in the shaft portion on one side of the semi-finished workpiece and press-fits a through-hole provided in the pulsar plate held by the plate holding jig into the shaft portion on the other side; and, the work restraint device includes a push rod that urges the other side shaft portion of the semi-finished work in the forward direction along the axial direction, and the press-fitting device restrains the semi-finished work and the plate. A servo press that moves the holding jig in the forward direction, and a plate press-fitting device that moves the plate holding jig in the forward direction, and presses the semi-finished product through the push rod. The first press-fitting mode includes a first press-fitting mode in which the work is moved in the forward direction, and a second press-fitting mode in which the plate holding jig is moved in the forward direction. In the mode, by moving the semi-finished work in the forward direction via the push rod, the pin held by the pin holding jig is inserted into the hole provided in the one side shaft of the semi-finished work. While performing a press-fitting operation, in the second press-fitting mode, by moving the plate holding jig in the forward direction, the through hole formed in the pulser plate held by the plate holding jig is closed to the other side axis. The most important feature is that it performs the operation of press-fitting into the part.

According to the present invention, it is possible to obtain a camshaft manufacturing apparatus that can simplify the manufacturing process of camshaft products and shorten the takt time required for the manufacturing process.

1 is a block configuration diagram showing an overview of a camshaft manufacturing apparatus according to an embodiment of the present invention. FIG. 2 is a schematic configuration diagram viewed from above of a mounting stage provided in the camshaft manufacturing apparatus and its surrounding area. FIG. 2 is a schematic configuration diagram showing an overhead view of the main parts around the mounting stage provided in the camshaft manufacturing apparatus. FIG. 2 is a schematic configuration diagram of a main part of the periphery of a mounting stage provided in the camshaft manufacturing apparatus, viewed from the side. It is a schematic configuration diagram of a camshaft product viewed from the side. It is an explanatory view partially enlarging and showing one side shaft part of a semi-finished work. It is an explanatory view partially enlarging and showing the other side axis part of a semi-finished work. FIG. 2 is an explanatory diagram of the other side shaft portion of the semi-finished workpiece viewed from the axial direction. FIG. 3 is a sequence diagram showing the operating procedure of the camshaft manufacturing apparatus. FIG. 2 is an explanatory diagram showing a preparation process for attaching a pin and a pulser plate to a semi-finished workpiece in the operation procedure of a camshaft product. FIG. 3 is an explanatory diagram showing a preparation process for attaching a pin and a pulser plate to a semi-finished workpiece. It is an explanatory view showing a preparation process for attaching a pin to a semi-finished workpiece. It is an explanatory view showing a preparation process for attaching a pin to a semi-finished workpiece. FIG. 3 is an explanatory diagram showing a preparation process for attaching a pulsar plate to a semi-finished workpiece. FIG. 3 is an explanatory diagram showing a preparation process for attaching a pulsar plate to a semi-finished workpiece. FIG. 3 is an explanatory diagram showing a process of transporting a semi-finished workpiece to a mounting stage by the first robot. FIG. 3 is an explanatory diagram showing a process of transporting a semi-finished workpiece to a mounting stage by the first robot. It is an explanatory view showing a clamping process of a semi-finished workpiece to a centering position. It is an explanatory view showing a clamping process of a semi-finished workpiece to a centering position. It is an explanatory view showing a movement process of a pin press-fit spacer to an advanced position by an elevating device. It is an explanatory view showing a movement process of a pin press-fit spacer to an advanced position by an elevating device. FIG. 2 is an explanatory diagram showing a process of press-fitting a pin into a semi-finished workpiece. FIG. 2 is an explanatory diagram showing a process of press-fitting a pin into a semi-finished workpiece. It is an explanatory view showing a retreat process of a servo press for a semi-finished work. It is an explanatory view showing a retreat process of a servo press for a semi-finished work. It is an explanatory view showing a movement process of a pin press-fit spacer to a retreat position by an elevating device. It is an explanatory view showing a movement process of a pin press-fit spacer to a retreat position by an elevating device. FIG. 3 is an explanatory diagram illustrating a process of press-fitting a pulsar plate into a semi-finished workpiece. FIG. 3 is an explanatory diagram illustrating a process of press-fitting a pulsar plate into a semi-finished workpiece. It is an explanatory view showing a retreat process of a servo press for a semi-finished work. It is an explanatory view showing a retreat process of a servo press for a semi-finished work. FIG. 3 is an explanatory diagram showing a step of carrying out a semi-finished workpiece to a dispensing place by the first robot. FIG. 3 is an explanatory diagram showing a step of carrying out a semi-finished workpiece to a dispensing place by the first robot.

Hereinafter, a camshaft manufacturing apparatus 11 according to an embodiment of the present invention will be described in detail with reference to the drawings as appropriate.
In addition, in the drawings shown below, members having common functions are given the same reference numerals. Further, the sizes and shapes of members may be deformed or exaggerated and schematically expressed for convenience of explanation.

[Overview of camshaft manufacturing equipment 11]
First, an overview of a camshaft manufacturing apparatus 11 according to an embodiment of the present invention will be described with reference to FIGS. 1A, 1B, 2A, 2B, and 3A to 3D.
FIG. 1A is a block configuration diagram showing an overview of a camshaft manufacturing apparatus 11 according to an embodiment of the present invention. FIG. 1B is a schematic diagram of the mounting stage 29 provided in the camshaft manufacturing apparatus 11 and its surroundings viewed from above. FIG. 2A is a schematic configuration diagram looking down on the main parts around the mounting stage 29 provided in the camshaft manufacturing apparatus 11. FIG. 2B is a schematic configuration diagram of the main parts around the attachment stage 29, viewed from the side. FIG. 3A is an explanatory diagram showing the appearance of the camshaft product 21b. FIG. 3B is an explanatory diagram partially enlarging and showing one side shaft portion 21c1 of the semi-finished workpiece 21a. FIG. 3C is an explanatory diagram showing a partially enlarged view of the other side shaft portion 21c2 of the semi-finished workpiece 21a. FIG. 3D is an explanatory diagram of the other side shaft portion 21c2 of the semi-finished workpiece 21a viewed from the axial direction.

As shown in FIGS. 1A and 3A, the camshaft manufacturing apparatus 11 according to the embodiment of the present invention has a plurality of attachment members (pins 23, caps 25, pulser plates 27) attached to the semi-finished workpiece 21a of the camshaft 21. It has the function of manufacturing the product 21b of the camshaft 21 by attaching the .
As shown in FIG. 3A, the semi-finished work 21a of the camshaft 21 is a cast product in which a plurality of cams 21 d are provided at intervals in the axial direction on the outer periphery of a shaft portion 21c. The semi-finished workpiece 21a has a hollow structure with a hollow shaft portion.
In the description of this specification, the semi-finished work 21a of the camshaft 21 is sometimes abbreviated as a "semi-finished work 21a", and the product 21b of the camshaft 21 is sometimes abbreviated as a "camshaft product 21b".
Furthermore, if the semi-finished workpiece 21a and the camshaft product 21b do not require a separate explanation, they will be collectively referred to as the "camshaft 21."

Among the plurality of attachment members (cap 23, pin 25, pulser plate 27) attached to the semi-finished work 21a, the pin 23 is attached to the one side shaft portion 21c1 of the semi-finished work 21a, as shown in FIGS. 3A and 3B. Installed. On the other hand, the cap 25 and the pulser plate 27 are attached to the other side shaft portion 21c2 of the semi-finished workpiece 21a, as shown in FIGS. 3A, 3C, and 3D.
The mounting structure of the pin 23, cap 25, and pulser plate 27 (a plurality of mounting members) to the semi-finished workpiece 21a will be described in detail later.

In order to realize the manufacturing function of the camshaft product 21b, the camshaft manufacturing apparatus 11 includes a first robot 31 that carries the semi-finished workpiece 21a to the mounting stage 29, and a pin 25, as shown in FIG. 1A. The second robot 37 sets the pulser plate 27 on the pin holding jig 33 and sets the pulser plate 27 on the plate holding jig 35, and the semi-finished workpiece 21a, which has been transported to the mounting stage 29 by the first robot 31, is placed in a predetermined position. A work restraining device 39 performs an operation of restraining the semi-finished work 21a at the centering position 22, and the cap 23, the pin 25, It includes a press-fitting device 41 that performs the operation of press-fitting the pulsar plate 27, and a PLC (control device) 43 that controls the respective operations of the first robot 31, the second robot 37, the work restraint device 39, and the press-fitting device 41. It is configured.

The attachment stage 29 is a place where a process of attaching a plurality of attachment members (pin 23, cap 25, pulser plate 27) to the semi-finished workpiece 21a is performed. The attachment stage 29 includes a first attachment stage 29a and a second attachment stage 29b, as shown in FIG. 1B.
At the first attachment stage 29a, operations are performed to attach the cap 25 to the semi-finished work 21a and to position the semi-finished work 21a at a predetermined centering position 22 (including phasing).
On the other hand, on the second attachment stage 29b, the operation of attaching the pin 23 and the pulser plate 27 to the semi-finished workpiece 21a is performed.
In the following description, unless a separate explanation of the first attachment stage 29a and the second attachment stage 29b is required, they will be collectively referred to as the "attachment stage 29."

In the area of the mounting stage 29 and its surroundings, as shown in FIG. 1A, there are a first robot 31, a cap holding jig 32 (see FIG. 1B), a pin holding jig 33, a plate holding jig 35, and a second robot 37. , a workpiece restraining device 39, and a press-fitting device 41 are respectively arranged at predetermined locations.

As shown in FIG. 1A, the first robot 31 includes a multi-axis, multi-jointed first arm portion 31a. The first arm portion 31a provided in the first robot 31 has a workpiece gripping portion 31b at its tip that grips the semi-finished workpiece 21a. This workpiece gripping section 31b is connected to the first arm section 31a via an elastic member 31c. Thereby, the work gripping section 31b is supported in a floating manner with respect to the first arm section 31a.
The first robot 31 plays a role of transporting the semi-finished workpiece 21a gripped by the workpiece gripping section 31b to the mounting stage 29. Here, "transferring the semi-finished work 21a to the attachment stage 29" is a concept that includes a mode in which the semi-finished work 21a is transferred from the first attachment stage 29a to the second attachment stage 29b.
Note that the number of workpiece gripping parts 31b installed is not particularly limited, but a plurality of workpiece gripping parts 31b may be installed.

As shown in FIG. 1A, the second robot 37 includes a multi-axis multi-joint second arm portion 37a. The second arm portion 37a of the second robot 37 has a first arm portion 37a1, a second arm portion 37a2, and a third arm portion 37a3 at its tip. The first arm portion 37a1, the second arm portion 37a2, and the third arm portion 37a3 are formed in a substantially cross shape as a whole. Each of the first arm portion 37a1, the second arm portion 37a2, and the third arm portion 37a3 is configured to be able to change an angle of inclination and a rotation angle with respect to the second arm portion 37a.

A cap gripping portion 37b for gripping the cap 25 is provided at the tip of the first arm portion 37a1 provided on the second arm portion 37a. A pin gripping portion 37c for gripping the pin 23 is provided at the tip of the second arm portion 37a2, and a plate gripping portion 37d for gripping the pulser plate 27 is provided at the tip of the third arm portion 37a3.
Therefore, the second arm portion 37a provided in the second robot 37 grips the cap 25 with the cap gripping portion 37b, the pin 23 with the pin gripping portion 37c, and the pulser plate 27 with the plate gripping portion 37d all at once. be able to.

The pin gripping portion 37c is configured to be able to grip, for example, three types of pins 23 having different outer diameters. Further, the pin holding jig 33 is configured to be able to hold the three types of pins 23 having different outer diameters. Thereby, products 21b of the camshaft 21 having different design specifications can be manufactured.

The second robot 37 transfers the cap 25 held by the cap gripping part 37b of the second arm part 37a to the cap holding jig 32 (see FIG. 1B), and the pin 23 gripped by the pin gripping part 37c of the second arm part 37a. The pulser plate 27 held by the plate gripping part 37d of the second arm part 37a is sequentially set in the pin holding jig 33 and the plate holding jig 35, respectively.

In short, as shown in FIG. 1B, the second robot 37 sets the cap 25 on the cap holding jig 32 provided on the first mounting stage 29a, and then attaches the pin to the pin holding jig 33 provided on the second mounting stage 29b. 23 and the pulser plate 27 are sequentially set on the plate holding jig 35.
The layout of the first mounting stage 29a, the second mounting stage 29b, and the second robot 37, and the relative positional relationship of the cap gripping part 37b, pin gripping part 37c, and plate gripping part 37d provided on the second arm 37a of the second robot 37 is appropriately set considering that the length of the trajectory when the second robot 37 sequentially sets the plurality of attachment members (cap 25, pin 23, pulser plate 27) is as short as possible.
Thereby, the manufacturing process of the camshaft product 21b can be simplified, and the takt time required for the manufacturing process can be shortened.

The workpiece restraint device 39 includes a workpiece restraint part 51 that restrains the one side shaft part 21c1 of the semifinished workpiece 21a, while the workpiece restraint part 51 restrains the other side shaft part 21c2 of the semifinished workpiece 21a in the forward direction along the axial direction (for example, see FIG. 2B). It is provided with a push rod 53 that urges.
The work restraint device 39 also includes a servo cylinder 54 that moves the push rod 53 in a freely forward and backward manner, a transmission block 55 that is formed in a cubic shape and transmits the driving force of the servo cylinder 54 to the push rod 53, and a push rod. The rod holding stopper 56 has a function of holding the semifinished work 21a in a restrained state by urging the rod 53 in the forward direction.

The workpiece restraint device 39 restrains one shaft part 21c1 of the semi-finished workpiece 21a held by the workpiece gripping part 31b of the first arm part 31a on the mounting stage 29 by the workpiece restraint part 51, and also restrains the other shaft part 21c1. It has a function of urging the side shaft portion 21c2 in the forward direction (for example, see FIG. 2B) by the push rod 53. The other shaft portion 21c2 of the semi-finished work 21a is provided with a centering mechanism (not shown) that guides the other shaft portion 21c2 of the semi-finished work 21a to the centering position 22 as it moves forward.
This centering mechanism is not particularly limited, but may be configured by, for example, providing a mortar-shaped receiving portion at the end of the other side shaft portion 21c2 of the semi-finished workpiece 21a.
As a result, the workpiece restraint device 39 operates to restrain the semifinished workpiece 21a at the centering position 22 by clamping the semifinished workpiece 21a from both ends of the one-side shaft portion 21c1 and the other-side shaft portion 21c2.
Note that the work restraint device 39 is provided on both the first mounting stage 29a and the second mounting stage 29b.

As shown in FIGS. 2A and 2B, for example, the press-fitting device 41 has a first press-fitting mode M1 in which the semi-finished workpiece 21a is moved freely forward and backward in the forward and backward directions via the push rod 53 and the like. , and a second press-fitting mode M2 in which the plate holding jig 35 is moved freely forward and backward in the forward and backward directions.

In order to realize these operation modes M1 and M2, the press-fitting device 41 includes, for example, as shown in FIGS. 2A and 2B, a servo press 57 having a press rod 57a, a press block 59, a pin press-fit spacer 61, a lifting device 63, It is configured to include a plate press-fitting device 65.

The servo press 57 moves the semi-finished workpiece 21a and the plate holding jig 35 in forward and backward directions so as to be freely forward and backward.

The press block 59 is formed of a substantially box-shaped frame and serves to transmit the driving force of the servo press 57 to the plate holding jig 35.

The pin press-fitting spacer 61 is moved to the advanced position (see FIG. 10B) by the lowering operation of the lifting device 63 when performing the operation of press-fitting the pin 23 into the hole 21e provided in the one side shaft portion 21c1 of the semi-finished work 21a. do. Thereby, the forward driving force of the servo press 57 is transmitted to the semi-finished workpiece 21a via the pin press-fit spacer 61 and the push rod 53.

The lifting device 63 moves the pin press-fit spacer 61 to the advanced position (see FIG. 10B) in the first press-fit mode M1, and moves the pin press-fit spacer 61 to the retracted position (see FIG. 13B) in the second press-fit mode M2. I do.

The plate press-fitting device 65 plays an important role when press-fitting the pulser plate 27 up to the plate attachment portion 21f on the other side shaft portion 21c2 of the semi-finished workpiece 21a. A plate holding jig 35 that holds the pulser plate 27 is provided in the forward direction of the plate press-fitting device 65. When the plate press-fitting device 65 moves in the forward direction, the plate holding jig 35 also moves in the forward direction along with this movement. In this way, the pulser plate 27 can be press-fitted until it reaches the plate attachment portion 21f on the other side shaft portion 21c2 of the semi-finished workpiece 21a.

In the first press-fitting mode M1, the servo press 57 moves the semi-finished workpiece 21a in the forward direction via the pin press-fitting spacer 61 and the push rod 53, respectively. Thereby, the press-fitting device 41 press-fits the pin 23 held by the pin holding jig 33 into the hole 21e provided in the one side shaft portion 21c1 of the semi-finished workpiece 21a.

On the other hand, in the second press-fitting mode M2, the servo press 57 moves the plate holding jig 35 provided in the plate press-fitting device 65 in the forward direction via the press block 59 and the plate press-fitting device 65, respectively.
Thereby, the press-fitting device 41 press-fits the through hole 27a provided in the pulser plate 27 held by the plate holding jig 35 into the other side shaft portion 21c2 of the semi-finished workpiece 21a.

In short, the press-fit device 41 operates in the forward direction of the common servo press 57 in each of the first press-fit mode M1 and the second press-fit mode M2, with the semi-finished workpiece 21a restrained at the centering position 22 by the work restraint device 39. By distributing and using the driving force to sequentially operate each operation mode of the first press-fitting mode M1 and the second press-fitting mode M2, the operation of press-fitting the pin 23 and the pulser plate 27 into the semi-finished workpiece 21a is performed. conduct.

Note that the press-fitting device 41 is provided on both the first mounting stage 29a and the second mounting stage 29b. However, in the press-fitting device 41 provided on the first mounting stage 29a, a cap press-fitting device (not shown) is provided in place of the plate press-fitting device 65.
The cap press-fitting device has a function of press-fitting the cap 25 into the cap attachment portion (see FIG. 3C) on the other side shaft portion 21c2 of the semi-finished workpiece 21a. A cap holding jig 32 (see FIG. 1B) that holds the cap 25 is provided in the forward direction of the cap press-fitting device.

When the cap press-fitting device moves in the forward direction while supporting the one side shaft portion 21c1 of the semi-finished workpiece 21a, the cap holding jig 32 also moves in the forward direction along with this movement. In this way, the cap 25 can be press-fitted into the cap attachment portion (see FIG. 3C) on the other side shaft portion 21c2 of the semi-finished workpiece 21a.

The PLC (control device) 43 controls the respective operations of the first robot 31, the second robot 37, the work restraint device 39, and the press-fitting device 41 according to a procedure taught or set in advance.

[Operating procedure of camshaft manufacturing device 11]
Next, the operating procedure of the camshaft manufacturing apparatus 11 will be described with reference to FIGS. 4A, 4B, 5A, 5B to 16A, and 16B as appropriate.
4A and 4B are sequence diagrams showing the operating procedure of the camshaft manufacturing apparatus 11. 5A and 5B are explanatory diagrams showing a preparation process for attaching the pin 23 and the pulser plate 27 to the semi-finished workpiece 21a among the operating procedures of the camshaft manufacturing apparatus 11. FIGS. 6A and 6B are explanatory diagrams showing a preparation process for attaching the pin 23 to the semi-finished workpiece 21a. 7A and 7B are explanatory diagrams showing a preparation process for attaching the pulsar plate 27 to the semi-finished workpiece 21a. 8A and 8B are explanatory diagrams showing a process of transporting the semi-finished workpiece 21a to the mounting stage 29 by the first robot 31. 9A and 9B are explanatory diagrams showing a clamping process for the semi-finished workpiece 21a. FIGS. 10A and 10B are explanatory diagrams showing a process of moving the pin press-fitting spacer 61 to the advanced position by the lifting device 63. FIGS. 11A and 11B are explanatory diagrams showing a process of press-fitting the pin 23 into the semi-finished workpiece 21a. FIGS. 12A and 12B are explanatory diagrams showing a retreat process of the servo press 57 with respect to the semi-finished work 21a. 13A and 13B are explanatory diagrams showing a process of moving the pin press-fit spacer 61 to the retracted position by the lifting device 63. FIGS. 14A and 14B are explanatory diagrams showing a process of press-fitting the pulsar plate 27 into the semi-finished workpiece 21a. FIGS. 15A and 15B are explanatory diagrams showing a retreat process of the servo press 57 with respect to the semi-finished workpiece 21a. FIGS. 16A and 16B are explanatory diagrams showing the process of carrying out the semi-finished workpiece 21a to the dispensing place by the first robot 31.
In addition, in explaining the operating procedure of the camshaft manufacturing apparatus 11, for convenience of explanation, it is assumed that the cap 25 is attached to the semi-finished work 21a in advance.

In step S1 shown in FIG. 4A, the second robot 37, as shown in FIGS. 5A, 5B, 6A, 6B, 7A, and 7B, The pin 23 gripped by the pin gripping part 37c is set in the pin holding jig 33, and the pulser plate 27 gripped by the plate gripping part 37d provided on the third arm part 37a3 is set in the plate holding jig 35.
The pin 23 is provided for the purpose of regulating the mounting position in the axial direction when the camshaft 21 is assembled into an engine (not shown). Further, the pulser plate 27 is press-fitted at a predetermined position in the axial direction with reference to the mounting position of the pin 23 in the axial direction.

In step S2, as shown in FIGS. 8A and 8B, the first robot 31 holds the semi-finished workpiece 21a to which the cap 25 is attached in advance to the workpiece gripping part 31b that the first arm part 31a of the first robot 31 has. It is conveyed to the attachment stage 29 while being gripped by the handler.

In step S3, the first robot 31 and the workpiece restraint device 39 move the semi-finished workpiece from the first arm portion 31a of the first robot 31 to the centering position 22 on the mounting stage 29, as shown in FIGS. 9A and 9B. 21a will be delivered together.

That is, first, as shown in FIGS. 9A and 9B, the workpiece restraint device 39 moves the semi-finished workpiece 21a held by the workpiece gripping part 31b of the first arm part 31a of the first robot 31 onto the mounting stage. At 29, the one side shaft portion 21c1 and the other side shaft portion 21c2 are clamped from both ends to be restrained at the centering position 22.

The work restraint device 39 restrains the semi-finished work 21a at the centering position 22 while the semi-finished work 21a is held at the attachment stage 29 by the work grip 31b of the first arm 31a of the first robot 31. This is performed by restraining the shaft portion 21c1 on one side of the workpiece 21a by the workpiece restraining portion 51, and urging the shaft portion 21c2 on the other side in the forward direction (for example, see FIG. 9B) with the push rod 53.

In reality, the restraint of the semi-finished workpiece 21a is achieved by generating a driving force in the forward direction in the servo cylinder 54 of the workpiece restraining device 39, and transmitting this driving force via the transmission block 55, as shown in FIGS. 9A and 9B. This is accomplished by transmitting a signal to the push rod 53 to urge the push rod 53 in the forward direction.

Moreover, the semi-finished work 21a is transferred from the first arm 31a of the first robot 31 to the centering position 22 on the mounting stage 29 by gripping the semi-finished work 21a with the work gripping part 31b of the first arm 31a. It is carried out in a state of
When the semi-finished work 21a is transferred, the axis of the semi-finished work 21a gripped by the first robot 31 and the axis of the centering position 22 on the mounting stage 29 are misaligned. There may be cases where this phenomenon occurs.
In the case where the axis misalignment phenomenon occurs, smooth transfer of the semi-finished workpiece 21a from the first arm portion 31a of the first robot 31 to the centering position 22 on the mounting stage 29 is hindered.

Therefore, in the first robot 31, as shown in FIG. 9B, the work gripping section 31b of the first arm section 31a is connected to the first arm section 31a via an elastic member 31c. In short, the work gripping section 31b is floatingly supported with respect to the first arm section 31a provided on the first robot 31.

Therefore, even if an axis misalignment phenomenon occurs when transferring the semi-finished workpiece 21a, the elastic When the member 31c bends (deforms elastically), it acts to absorb the axial misalignment.
As a result, smooth delivery of the semi-finished workpiece 21a from the first arm portion 31a of the first robot 31 to the centering position 22 on the mounting stage 29 can be ensured.

In step S4, as shown in FIG. 10B, the first robot 31 releases the semi-finished workpiece 21a held by the workpiece gripping section 31b and retreats from the mounting stage 29 to the standby position.

In step S5, the press-fitting device 41 starts operating in the first press-fitting mode M1.
That is, the lifting device 63 provided in the press-fitting device 41 moves the pin press-fitting spacer 61 to the advanced position by lowering it, as shown in FIGS. 10A and 10B.

In step S6, the servo press 57 equipped with the press-fit device 41 moves the semi-finished workpiece 21a in the forward direction via the pin press-fit spacer 61 and the push rod 53, respectively, as shown in FIGS. 11A and 11B.
Thereby, the press-fitting device 41 press-fits the pin 23 held by the pin holding jig 33 into the hole 21e provided in the one side shaft portion 21c1 of the semi-finished workpiece 21a.

At this time, the plate press-fitting device 65 receives a driving force in the forward direction from the servo press 57. However, the plate holding jig 35 provided in the plate press-fitting device 65 does not reach the plate mounting portion 21f on the other side shaft portion 21c2 of the semi-finished workpiece 21a.
This is because in the first press-fitting mode M1, the pin press-fitting spacer 61 interposed between the front end 57a1 of the press rod 57a of the servo press 57 and the rear end 53a of the push rod 53 becomes a three-dimensional obstacle. This is because the plate holding jig 35 provided in the plate press-fitting device 65 is prevented from reaching the plate attachment portion 21f on the other side shaft portion 21c2 of the semi-finished workpiece 21a.

In step S7, the servo press 57 equipped with the press-fitting device 41 moves the press rod 57a in the backward direction, as shown in FIGS. 12A and 12B.
Prior to this backward movement of the press rod 57a, the rod holding stopper 56 provided in the work restraint device 39 operates to urge the push rod 53 in the forward direction.
Thereby, the semi-finished workpiece 21a is held in a restrained state.

In step S8 shown in FIG. 4B, the press-fitting device 41 starts operating in the second press-fitting mode M2.
That is, the lifting device 63 provided in the press-fitting device 41 moves the pin press-fitting spacer 61 to the retracted position by raising it, as shown in FIGS. 13A and 13B.

In step S9, the servo press 57 equipped with the press-fitting device 41 holds the plate holding jig 35 provided in the plate press-fitting device 65 via the press block 59 and the plate press-fitting device 65, respectively, as shown in FIGS. 14A and 14B. Move in the forward direction.
Thereby, the press-fitting device 41 press-fits the through hole 27a provided in the pulser plate 27 held by the plate holding jig 35 into the other side shaft portion 21c2 of the semi-finished workpiece 21a.

At this time, the plate holding jig 35 provided in the plate press-fitting device 65 reaches the plate attachment portion 21f on the other side shaft portion 21c2 of the semi-finished workpiece 21a.
This is because in the second press-fitting mode M2, the pin press-fitting spacer 61 is not interposed between the front end 57a1 of the press rod 57a provided in the servo press 57 and the rear end 53a of the push rod 53 (three-dimensional This is because the plate holding jig 35 provided in the plate press-fitting device 65 is not prevented from reaching the plate mounting portion 21f on the other side shaft portion 21c2 of the semi-finished workpiece 21a.

In step S10, the servo press 57 equipped with the press-fitting device 41 moves the press rod 57a in the backward direction, as shown in FIGS. 15A and 15B.
Prior to this backward movement of the press rod 57a, the rod holding stopper 56 provided in the work restraint device 39 operates to urge the push rod 53 in the forward direction.
Thereby, the semi-finished workpiece 21a is held in a restrained state.

In step S11, as shown in FIG. 16B, the first robot 31 moves from the standby position to the mounting stage 29 and grips the shaft portion 21c of the camshaft product 21b with the workpiece gripping portion 31b.

In step S12, the work restraint device 39, as shown in FIGS. 16A and 16B,
The clamped state of the camshaft product 21b, in which the shaft portion 21c is gripped by the work gripping portion 31b of the first arm portion 31a of the first robot 31 and both ends of the shaft portion 21c are clamped, is released. Thereby, the camshaft product 21b is released from the restraint of the clamped state.

In step S13, as shown in FIG. 16B, the first robot 31 takes out the camshaft product 21b held by the work gripping part 31b of the first arm part 31a of the first robot 31 at a payout location (not shown). to be carried out.

[Function and effect of camshaft manufacturing device 11]
Next, the effects of the camshaft manufacturing apparatus 11 according to the embodiment of the present invention will be explained.
The camshaft manufacturing apparatus 11 based on the first aspect is based on a camshaft manufacturing apparatus that manufactures a camshaft product 21b by attaching a plurality of attachment members to a semi-finished work 21a of the camshaft 21.
The camshaft manufacturing apparatus 11 based on the first aspect includes a pin 23 attached to the shaft portion 21c1 on one side of the semi-finished workpiece 21a and a pulser plate 27 attached to the shaft portion 21c2 on the other side as the plurality of attachment members.
The camshaft manufacturing apparatus 11 based on the first aspect includes a first robot 31 that carries out an operation of transporting a semi-finished work 21a to a mounting stage 29, a first robot 31 that carries out an operation of transporting a semi-finished work 21a to a mounting stage 29, a pin 23 that is set in a pin holding jig 33, and a pulser plate 27 that is mounted on a plate. A second robot 37 performs an operation of setting the workpiece on the holding jig 35, and a workpiece restraining device 39 performs an operation of restraining the semifinished workpiece 21a, which has been transported to the mounting stage 29 by the first robot 31, at a predetermined centering position 22. Then, with the semi-finished workpiece 21a restrained at the centering position 22, the pin 23 held by the pin holding jig 33 is press-fitted into the hole 21e provided in the one side shaft portion 21c1, and the pin 23 is press-fitted by the plate holding jig 35. A press-fitting device 41 is provided that performs an operation of press-fitting a through hole 27a provided in the held pulser plate 27 into the other side shaft portion 21c2.
The work restraint device 39 includes a push rod 53 that urges the other side shaft portion 21c2 of the semi-finished work 21a in the forward direction along the axial direction.
The press-fitting device 41 includes one servo press 57 that moves the semi-finished workpiece 21a and the plate holding jig 35 in the forward direction, and a plate press-fitting device 65 that moves the plate holding jig 35 in the forward direction. , a first press-fitting mode M1 in which the semi-finished workpiece 21a is moved in the forward direction via the push rod 53, and a second press-fitting mode M1 in which the plate holding jig 39 is moved in the forward direction. It has a press-fitting mode M2.
In the first press-fitting mode M1, by moving the semi-finished work 21a in the forward direction via the push rod 53, the pin 23 held by the pin holding jig 33 is provided on the one side shaft portion 21c1 of the semi-finished work 21a. While performing the operation of press-fitting into the hole 21e, in the second press-fitting mode M2, the pulsar plate 27 held by the plate holding jig 35 is moved in the forward direction via the plate press-fitting device 65. An operation is performed to press-fit the through hole 27a provided in the other side shaft portion 21c2.

In the camshaft manufacturing apparatus 11 based on the first aspect, the first robot 31 performs an operation of transporting the semi-finished work 21a to the mounting stage 29. The second robot 37 performs an operation of setting the pin 23 on the pin holding jig 33 and setting the pulser plate 27 on the plate holding jig 35. The workpiece restraint device 39 performs an operation to restrain the semifinished workpiece 21 a that has been transported to the mounting stage 29 by the first robot 31 at a predetermined centering position 22 . The press-fitting device 41 press-fits the pin 23 held by the pin holding jig 33 into the hole 21e provided in the one-side shaft portion 21c1 while restraining the semi-finished workpiece 21a at the centering position 22 on the mounting stage 29. , an operation is performed to press fit the through hole 27a provided in the pulser plate 27 held by the plate holding jig 35 into the other side shaft portion 21c2.
The press-fitting device 41 distributes and uses the driving force in the forward direction by the common servo press 57 in each of the first press-fit mode M1 and the second press-fit mode M2.
That is, in the first press-fitting mode M1, the press-fitting device 41 moves the semi-finished workpiece 21a in the forward direction via the push rod 53, thereby moving the pin 23 held by the pin holding jig 33 to one part of the semi-finished workpiece 21a. While performing the operation of press-fitting into the hole 21e provided in the side shaft portion 21c1, in the second press-fitting mode M2, the plate holding jig 35 is moved in the forward direction via the plate press-fitting device 65. The through hole 27a provided in the pulser plate 27 held by the handle 35 is press-fitted into the other side shaft portion 21c2.

According to the camshaft manufacturing apparatus 11 based on the first aspect, the press-fitting device 41 holds the pin 23 held by the pin holding jig 33 while restraining the semi-finished workpiece 21a at the centering position 22 on the mounting stage 29. The camshaft product is press-fitted into the hole 21e provided in the one-side shaft portion 21c1, and the through-hole 27a provided in the pulser plate 27 held by the plate holding jig 35 is press-fitted into the other-side shaft portion 21c2. The manufacturing process of 21b can be simplified and the takt time required for the manufacturing process can be shortened.
In addition, since the press-fitting device 41 distributes and uses the driving force of the common servo press 57 in each of the first press-fitting mode M1 and the second press-fitting mode M2, Compared to the case where individual servo presses are used, the space efficiency related to the installation of the camshaft manufacturing apparatus 11 as a whole can be improved.

[Other embodiments]
The embodiments described above are examples of implementation of the present invention. Therefore, the technical scope of the present invention should not be construed as being limited by these. This is because the present invention can be implemented in various forms without departing from its gist or main characteristics.

11 Camshaft manufacturing equipment 21 Camshaft 21a Semi-finished work (camshaft)
21b Camshaft products (camshaft)
21c Shaft portion 21c1 One side shaft portion 21c2 Other side shaft portion 21d Cam portion 21e Hole portion 21f Plate mounting portion 22 Centering position 23 Pin 25 Cap 27 Pulsar plate 27a Through hole 29 Mounting stage 29a First mounting stage 29b Second mounting stage 31 First robot 31a First arm portion 31b Work gripping portion 31c Elastic member 32 Cap holding jig 33 Pin holding jig 35 Plate holding jig 37 Second robot 37a Second arm portion 37a1 First arm portion 37a2 Second arm portion 37a3 Third arm portion 37b Cap gripping portion 37c Pin gripping portion 37d Plate gripping portion 39 Work restraint device 41 Press fit device 43 Control device 51 Work restraint portion 53 Push rod 53a Rear end of push rod 54 Servo cylinder 55 Transmission block 56 Rod holding Stopper 57 Servo press 57a Press rod 57a1 Front end of press rod 59 Press block 61 Pin press-fit spacer 63 Lifting device 65 Plate press-fit device

Claims (1)

A camshaft manufacturing device that manufactures camshaft products by attaching a plurality of mounting members to a semi-finished camshaft work,
The plurality of attachment members include a pin attached to one side of the shaft of the semi-finished work, and a pulser plate attached to the other side of the semi-finished work,
a first robot that carries out an operation of transporting the semi-finished workpiece to a mounting stage;
a second robot that performs an operation of setting the pin in a pin holding jig and setting the pulser plate in a plate holding jig;
a work restraining device that performs an operation of restraining the semi-finished work transported to the mounting stage by the first robot at a predetermined centering position;
While the semi-finished work is restrained at the centering position by the work restraining device, the pin held by the pin holding jig is press-fitted into a hole provided in the one side shaft portion of the semi-finished work. , a press-fitting device that press-fits a through hole provided in the pulser plate held by the plate holding jig into the other side shaft portion,
The work restraint device includes:
a push rod that urges the other side shaft portion of the semi-finished workpiece in the forward direction along the axial direction;
The press-fitting device is
comprising one servo press that moves the semi-finished workpiece and the plate holding jig in the forward direction, and a plate press-fitting device that moves the plate holding jig in the forward direction,
a first press-fit mode in which the semi-finished workpiece is moved in the forward direction via the push rod; and a second press-fit mode in which the plate holding jig is moved in the forward direction. , has
In the first press-fitting mode, the pin held by the pin holding jig is mounted on the one side shaft portion of the semi-finished work by moving the semi-finished work in the forward direction via the push rod. While performing the operation of press-fitting into the hole,
In the second press-fitting mode, by moving the plate holding jig in the forward direction via the plate press-fitting device, the through hole provided in the pulser plate held by the plate holding jig is closed to the other side axis. perform the action of press-fitting into the
A camshaft manufacturing device characterized by:

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