CN104955750A - Fastener chain buffer device - Google Patents

Abstract

Provided is a fastener chain buffer device with which the size of a fastener chain processing device can be reduced. The fastener chain buffer device is provided with the following: base parts (11) disposed below processing devices (M1, M2); arms (12) slidably supported by the base parts (11) in the vertical direction; and rollers (13) that are rotatably disposed at the tip part of the arms (12) and guide a fastener chain (C). The rollers (13) are disposed between the plurality of processing devices (M1, M2, M3).

Description

The shock absorber of tooth chain

Technical field

The present invention relates to a kind of shock absorber of storage tooth chain (fastener chain).

Background technology

As the shock absorber of existing tooth chain, as we all know there are following has under casing type shock absorber, namely, in the tooth chain processing unit (plant) comprising multiple processing unit (plant)s that tooth chain is processed successively, be configured at respectively between multiple processing unit (plant), and store tooth chain (such as with reference to patent documentation 1) in large quantities.

Prior art document

Patent documentation

Patent documentation 1: Japanese Patent Laid-Open 02-074205 publication

Summary of the invention

[inventing problem to be solved]

But in the shock absorber that described patent documentation 1 is recorded, for only storing the type of a large amount of tooth chain, thus size is large, thus tooth chain processing unit (plant) maximizes.

The present invention completes in view of described situation, its object is to provide a kind of can by the shock absorber of the tooth chain of tooth chain processing unit (plant) miniaturization.

[means of dealing with problems]

Described object of the present invention is reached by following formation.

(1) shock absorber for tooth chain, stores tooth chain between multiple processing unit (plant), and the feature of the shock absorber of described tooth chain is to comprise: basal part, is configured at the below of processing unit (plant); Arm, swingingly can be supported in basal part in the vertical direction; And roller, the fore-end of arm can be arranged at rotationally and tooth chain is guided, and roller is configured between multiple processing unit (plant).

(2) shock absorber of the tooth chain Gen Ju (1), is characterized in that comprising: upper limit sensor, detects the upper limit swing position of arm; And lower limited sensor, the lower limit swing position of arm is detected.

(3) shock absorber of basis (1) or the tooth chain described in (2), is characterized in that comprising the block limited the swing downwards of arm.

[effect of invention]

According to the present invention, comprising: basal part, be configured at the below of processing unit (plant); Arm, swingingly can be supported in basal part in the vertical direction; And roller, be arranged at the fore-end of arm rotationally and tooth chain is guided, and roller is configured between multiple processing unit (plant), thus can be stored tooth chain to form than current joint space-efficient, and the miniaturization of tooth chain processing unit (plant) can be made.

Accompanying drawing explanation

Fig. 1 illustrates the summary side elevation that have employed the tooth chain processing unit (plant) of an embodiment of the shock absorber of tooth chain of the present invention.

Fig. 2 is the enlarged side view of the shock absorber shown in Fig. 1.

Fig. 3 illustrates the enlarged side view of the arm swing of shock absorber to the state of upper limit swing position.

Fig. 4 illustrates the enlarged side view of the arm swing of shock absorber to the state of lower limit swing position.

Detailed description of the invention

Below, with reference to the accompanying drawings an embodiment of the shock absorber of tooth chain of the present invention is described in detail.In addition, in later explanation, about tooth chain processing unit (plant) and shock absorber, upside is the upside of the paper relative to Fig. 1, downside is the downside of the paper relative to Fig. 1, and left side is the nearby side of the paper relative to Fig. 1, and right side is the inner side of the paper relative to Fig. 1, front side is the left side of the paper relative to Fig. 1, and rear side is the right side of the paper relative to Fig. 1.And front side is also referred to as upstream side, and rear side is also referred to as downstream.And left and right directions is also referred to as Width.

First, tooth chain processing unit (plant) PM as shown in Figure 1, along tooth chain conveyance direction and comprise multiple processing unit (plant).According to embodiment, tooth chain processing unit (plant) PM has 3 processing unit (plant)s.That is, tooth chain processing unit (plant) PM comprises the first processing unit (plant) M1, the second processing unit (plant) M2 and the 3rd processing unit (plant) M3 successively from the upstream side of the conveyance direction of tooth chain C.First processing unit (plant) M1 ~ the 3rd processing unit (plant) M3 is configured on base station BT.

And tooth chain processing unit (plant) PM is included in the shock absorber storing tooth chain between multiple each processing unit (plant).According to embodiment, tooth chain processing unit (plant) PM is included in the first shock absorber 10A storing tooth chain C between the first processing unit (plant) M1 and the second processing unit (plant) M2.And tooth chain processing unit (plant) PM is included in the second shock absorber 10B storing tooth chain C between the second processing unit (plant) M2 and the 3rd processing unit (plant) M3.

The period (cycle time) of the first processing unit (plant) M1 is 1.5 seconds.The period of the second processing unit (plant) M2 is 2.0 seconds.The period of the 3rd processing unit (plant) M3 is 2.5 seconds.In addition, 1 overhours of each processing unit (plant) M1 ~ processing unit (plant) M3 to tooth chain C is referred to period.

Therefore, the 3rd processing unit (plant) M3 drives always.And, the driving of the 3rd processing unit (plant) M3 that slow second processing unit (plant) M2 corresponding period first period second is slow, and driven intermittently.And, the driving of the second processing unit (plant) M2 that fast first processing unit (plant) M1 corresponding period second period first is slow, and driven intermittently.

The storage capacity of the first shock absorber 10A to the tooth chain C stored between the first processing unit (plant) M1 and the second processing unit (plant) M2 monitors, and controls the driving interval of the first processing unit (plant) M1.And the storage capacity of the second shock absorber 10B to the tooth chain C stored between the second processing unit (plant) M2 and the 3rd processing unit (plant) M3 monitors, and controls the driving interval of the second processing unit (plant) M2.In addition, the first shock absorber 10A and the second shock absorber 10B is the device of same structure.

First shock absorber 10A as shown in Figure 2 to 4, is configured at the below of the first processing unit (plant) M1.And the second shock absorber 10B is configured at the below of the second processing unit (plant) M2.Each shock absorber 10A, shock absorber 10B comprise: basal part 11, are installed on the lower surface of base station BT; Arm 12, can swingingly be supported in basal part 11 in the vertical direction; Roller 13, is arranged at the fore-end of arm 12 rotationally and guides tooth chain C; Upper limit sensor 14, detects the upper limit swing position of arm 12; Lower limited sensor 15, detects the lower limit swing position of arm 12; And block 16, limit arm 12 can not be swung on the lower to than lower limit swing position to the swing downwards of arm 12.

And the roller 13 of the first shock absorber 10A is configured between the first processing unit (plant) M1 and the second processing unit (plant) M2, and the roller 13 of the second shock absorber 10B is configured between the second processing unit (plant) M2 and the 3rd processing unit (plant) M3.

And upper limit sensor 14 and lower limited sensor 15 are fixed on basal part 11.As described sensor 14, sensor 15, preferably use the non-contact sensor as opto-electronic pickup or proximity transducer.And block 16 is given prominence to from basal part 11, and configures in opposite directions with the lower surface of arm 12.

In addition, the symbol 21 ~ symbol 24 in Fig. 1 is the guide reels guided the conveyance of tooth chain C.A pair guide reel is configured at top relative to a roller 13, and is configured at upstream side and the downstream of conveyance direction.And tooth chain C presses downward by roller 13.Thus, tooth chain C bends to U-shaped downward between a pair guide reel.

And symbol 25 ~ symbol 27 is the feed arrangements transferring tooth chain C between the first processing unit (plant) M1 ~ the 3rd processing unit (plant) M3.Feed arrangement comprises the driven roller utilizing not shown electrical motor to carry out rotating and the pressure roller pressing tooth chain C towards driven roller.

In the tooth chain processing unit (plant) PM of formation like this, because the period of the first processing unit (plant) M1 is faster than the second processing unit (plant) M2, so add man-hour at the first processing unit (plant) M1 and the second processing unit (plant) M2 to tooth chain C, the storage capacity of the tooth chain C between the first processing unit (plant) M1 and the second processing unit (plant) M2 increases.Thus, the arm 12 of the first shock absorber 10A swings downwards (with reference to Fig. 4).And if this arm 12 is detected by lower limited sensor 15, then storage capacity is maximum, stops the processing of the first processing unit (plant) M1.On the other hand, the processing of the second processing unit (plant) M2 is proceeded.

In addition, in tooth chain processing unit (plant) PM, under the state that the processing of the first processing unit (plant) M1 has stopped, the second processing unit (plant) M2 processes tooth chain C, the tooth chain C be stored in thus between the first processing unit (plant) M1 and the second processing unit (plant) M2 is transferred by towards downstream, and the storage capacity of tooth chain C reduces.Thus, the arm 12 of the first shock absorber 10A swings (with reference to Fig. 3) upward.And if this arm 12 is detected by upper limit sensor 14, then storage capacity is minimum, restarts the processing of the first processing unit (plant) M1.

And, in tooth chain processing unit (plant) PM, because the period of the second processing unit (plant) M2 is faster than the 3rd processing unit (plant) M3, so add man-hour at the second processing unit (plant) M2 and the 3rd processing unit (plant) M3 to tooth chain C, the storage capacity of the tooth chain C between the second processing unit (plant) M2 and the 3rd processing unit (plant) M3 increases.Thus, the arm 12 of the second shock absorber 10B swings downwards (with reference to Fig. 4).And if this arm 12 is detected by lower limited sensor 15, then storage capacity is maximum, stops the processing of the second processing unit (plant) M2.On the other hand, the processing of the 3rd processing unit (plant) M3 is proceeded.

In addition, in tooth chain processing unit (plant) PM, under the state that the processing of the second processing unit (plant) M1 has stopped, the 3rd processing unit (plant) M3 processes tooth chain C, the tooth chain C be stored in thus between the second processing unit (plant) M2 and the 3rd processing unit (plant) M3 send to downstream sidesway, and the storage capacity of tooth chain C reduces.Thus, the arm 12 of the second shock absorber 10B swings (with reference to Fig. 3) upward.And if this arm 12 is detected by upper limit sensor 14, then storage capacity is minimum, restarts the processing of the second processing unit (plant) M2.

In addition, the first processing unit (plant) M1 ~ the 3rd processing unit (plant) M3 because processing successively 1 rooted tooth chain C, so final corresponding period the slowest the 3rd processing unit (plant) M3 driving, the first processing unit (plant) M1 and the second processing unit (plant) M2 is driven intermittently.

As described above, shock absorber 10A according to the present embodiment, shock absorber 10B, comprising: basal part 11, is configured at the below of processing unit (plant) M1, processing unit (plant) M2; Arm 12, can swingingly be supported in basal part 11 in the vertical direction; And roller 13, be arranged at the fore-end of arm 12 rotationally and tooth chain C is guided, and roller 13 is configured between multiple processing unit (plant) M1 ~ M3, thus can be stored tooth chain C to form than current joint space-efficient, thus, tooth chain processing unit (plant) PM miniaturization can be made.

And shock absorber 10A according to the present embodiment, shock absorber 10B, comprising: upper limit sensor 14, the upper limit swing position of arm 12 is detected; And lower limited sensor 15, the lower limit swing position of arm 12 is detected, thus easily can detect the storage capacity of tooth chain C, thus can efficiency make multiple processing unit (plant) M1 ~ processing unit (plant) M3 be driven goodly.

And shock absorber 10A according to the present embodiment, shock absorber 10B, because comprising the block 16 limited the swing downwards of arm 12, so can preventing arm 12 excessively to swing downwards and roller 13 comes in contact with ground etc.

In addition, the present invention is not limited to the content that described embodiment illustrates, and can suitably change without departing from the spirit and scope of the invention.

Such as, in present embodiment, apply situation of the present invention exemplified with in the tooth chain processing unit (plant) with 3 processing unit (plant)s, but be not limited thereto, also can have more than 2 or 4 processing unit (plant) tooth chain processing unit (plant) in apply the present invention.

[explanation of symbol]

10A: the first shock absorber

10B: the second shock absorber

11: basal part

12: arm

13: roller

14: upper limit sensor

15: lower limited sensor

16: block

PM: tooth chain processing unit (plant)

M1: the first processing unit (plant)

M2: the second processing unit (plant)

M3: the three processing unit (plant)

C: tooth chain

Claims (3)

1. the shock absorber (10A, 10B) of a tooth chain, stores tooth chain (C) between multiple processing unit (plant) (M1, M2, M3), and the feature of the shock absorber (10A, 10B) of described tooth chain is to comprise:

Basal part (11), is configured at the below of described processing unit (plant) (M1, M2);

Arm (12), swingingly can be supported in described basal part (11) in the vertical direction; And

Roller (13), can be arranged at the fore-end of described arm (12) rotationally, and guides described tooth chain (C), and

Described roller (13) is configured between described multiple processing unit (plant) (M1, M2, M3).

2. the shock absorber (10A, 10B) of tooth chain according to claim 1, is characterized in that, comprising:

Upper limit sensor (14), detects the upper limit swing position of described arm (12); And

Lower limited sensor (15), detects the lower limit swing position of described arm (12).

3. the shock absorber (10A, 10B) of tooth chain according to claim 1 and 2, is characterized in that, comprises the block (16) limited the swing downwards of described arm (12).