CA1291960C - Power-and-free conveyor - Google Patents
Power-and-free conveyorInfo
- Publication number
- CA1291960C CA1291960C CA000597221A CA597221A CA1291960C CA 1291960 C CA1291960 C CA 1291960C CA 000597221 A CA000597221 A CA 000597221A CA 597221 A CA597221 A CA 597221A CA 1291960 C CA1291960 C CA 1291960C
- Authority
- CA
- Canada
- Prior art keywords
- free
- slider
- engaging
- trolley
- dog
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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Abstract
ABSTRACT OF THE DISCLOSURE
A power-and-free conveyor comprising a power line, a free line coextensive with the power line there-above, a multiplicity of pivotally movable pushers adapted to travel with a drive chain for the power line, and free trolleys attached to carriers on the free line, each of the pushers being generally T-shaped when seen from front and including an attaching member and a horizontal engaging member provided at the forward end of the attaching member, each of the free trolleys having an engaging dog comprising a pair of opposed vertical engaging portions which are spaced apart from each other transversely of the free line at a distance, the engaging pusher member being engageable with at least one of the engaging portions of the engaging dog. The free trolley comprises a main body and a slider mounted thereon and slidable longitudinally of the trolley, the slider being provided with an engaging dog and an anticoasting dog, the slider being connected to the main body by a shock absorber.
A power-and-free conveyor comprising a power line, a free line coextensive with the power line there-above, a multiplicity of pivotally movable pushers adapted to travel with a drive chain for the power line, and free trolleys attached to carriers on the free line, each of the pushers being generally T-shaped when seen from front and including an attaching member and a horizontal engaging member provided at the forward end of the attaching member, each of the free trolleys having an engaging dog comprising a pair of opposed vertical engaging portions which are spaced apart from each other transversely of the free line at a distance, the engaging pusher member being engageable with at least one of the engaging portions of the engaging dog. The free trolley comprises a main body and a slider mounted thereon and slidable longitudinally of the trolley, the slider being provided with an engaging dog and an anticoasting dog, the slider being connected to the main body by a shock absorber.
Description
l~lS?tiO
TITLE OF THE INVENTION
POWER-AND-FREE CONVEYOR
.
BACKGROUND OF THE INVENTION
The present invention relates to a power-and-free conveyor.
Power-and-free conveyors are already well known which comprise a power line, a free line coextensive with the power line thereabove, a multiplicity of pivotally movable pushers adapted to travel with a drive chain for the power line, engaging dogs mounted on carrier free trolleys on the free line, and anticoasting dogs mounted on the free trolleys and each opposed to the engaging dog.
These conveyors are used for automating flow production.
With the conveyor line system, carriers are switched for joining or diversion from one line to another article processing line, or the pushers propelling carriers are changed over to other pushers. A carrier stopping device or the like which is separate from the power-and-free conveyor is conventionally used in such a case for joining or diverting carriers or for changing pushers. The system therefore has the problem of requiring a very high equip-ment cost and a wide space.
Accordingly, it has recently been desired to provide a power-and-free conveyor in which pushers can be 12~
changed over or carriers can be joined together or diverted without necessitating any special device other than the conveyor.
The conventional conveyor has another problem. Since the engaging dog and the anticoasting dog are fixed to the free trolley, the engagement of the pusher with the engaging dog exerts great impact on the free trolley and consequently to the carrier, causing trouble to the work on the article in transit, such as a motor vehicle assembly, and further producing noises.
SUMMARY OF THE INVENTION
The present invention provides a power-and-free conveyor, comprising a power line, a free line coextensive with the power line thereabove, a multiplicity of pivotally movable pushers adapted to travel with a drive chain of the power line;
free trolleys attached to carriers on the free line; and shock absorber means for mitigating impact due to engagement of at least one of said pushers with one of said trolleys, wherein each of the trolleys comprises a main body and a slider mounted thereon and slidable longitudinally along the trolley, the slider being provided with an engaging dog and an anticoasting dog, the slider of each of said trolleys being connected to the main body by said shock absorber means.
With the power-and-free conveyor disclosed herein, one pusher can be changed over to anotner, or carriers can be switched from one line to another for joining or diversion properly without necessitating any special device, while the conveyor is very simple in construction and is very low in equipment cost.
Furthermore, the pusher is engageable with the free trolley l~lgfiO
engaging dog or the carrier can be stopped without subjecting the carrier to any impact and without producing noises. The conveyor therefore assures very quiet efficient flow production, for example, of motor vehicles.
BRIEF DESCRIPTION OF THE DRAWINGS
Figure 1 is a fragmentary left side elevation on an enlarged scale showing a power-and-free conveyor;
Figure 2 is a view in section taken along the line II-II
in Figure l;
Figure 3 is an enlarged perspective view showing a pusher;
Figure 4 is an enlarged view in section taken along the line IV-IV in Figure 2;
1~9~i0 Fig. 5 is a fragmentary left side elevation on an enlarged scale showing the conveyor with a carrier at rest;
Fig. 6 is an enlarged fragmentary bottom view in section taken along the line VI-VI in Fig. 5;
Fig. 7 is a fragmentary plan view schematically showing a power line switch portion of the conveyor;
Fig. 8 is a left side elevation of Fig. 7;
Fig. 9 is an enlarged view in section taken along the line IX-IX in Fig. 7; and Fig. 10 is an enlarged fragmentary side elevation of the conveyor showing a pusher-as it is being overrun by a carrier.
DESCRIPTION OF THE PREFERRED EMBODIMENT
The terms "front," "rear," "right" and "left"
as herein used are based on Fig. 1. "Front" refers to the left side of Fig. 1, "rear" to the right side thereof, "right" to the back side of the plane of Fig. 1, and "left"
to the front side of the same.
With reference to Figs. 1 to 3, a power-and-free conveyor, which is of the type to be installed under the floor, comprises a power line 1 composed of a pair of opposed power rails 2, a free line 21 composed of a pair of opposed free rails 22 and coextensive with the power line 1 thereabove, a multiplicity of pivotally movable 1~91~;0 pushers 5 adapted to travel with a drive chain 4 for the power line 1, and a pair of front and rear free trolleys 23, 24 attached to each carrier 20 on the free line 21.
The front free trolley 23 comprises a main body 23A and a slider 33 provided inside the main body 23A and slidable forward or rearward. The slider 33 is providedon each of its right and left sides with a pair of outwardly projecting slide pins 34, 34 inserted in slots 35, 35 extending longitudinally of the trolley and formed in the opposed side walls of the main body 23A. Accordingly, the slider 33 is slidable forward or rearward over a distance corresponding to the amount of movement of the pins 34, 34 in the slots 35, 35. The slider 33 has at its front end a downwardly projecting engaging dog 25 and at its rear end an anticoasting dog 26 opposed to the engaging dog 25.
The slider 33 is connected to the main body 23A
by a shock absorber 40.
Each pusher 5 comprises an attaching member 6 pivoted by a pin 10 to a power trolley 3 and an engaging member 7 provided horizontally at the forward end of the attaching member 6, the pusher 5 being generally T-shaped when seen from front. The engaging member 7 includes a center portion 7a having an increased thickness and a dog engaging face 8 at its rear end, and opposite side portions 7b, 7c having a reduced thickness and an overrunning dog 1~91~60 passing inclined face 9 which extends fowardly upward from the rear edge of each side portion.
Each engaging dog 25 comprises a horizontal connecting portion 25a integral with the front end of the slider 33 and vertical engaging portions 25b, 25c extending from the opposite ends of the portion 25a, the engaging dog 25 resembling a gate when seen from front. Each of the vertical engaging portions 25b, 25c has at its front end a pusher depressing inclined face 28 extending obliquely forwardly upward.
The vertical engaging portions 25b, 25c of the engaginq dog 25 are formed each at its outer end with an inclined face 29 for depressing the pusher 5 from one side.
Each of the side portions 7b, 7c of the horizontal engaging member 7 of the pusher 5 has at its outer end a side collision preventing inclined face 11 which is adapted to come into contact with the inclined face 29. These faces 29 and 11 are inclined at an angle of about 30 to about 45 degrees.
The anticoasting dog 26 opposed to and spaced at a distance from the engaging dog 25 on the slider 33 has its outer end 26a held at a level for this end 26a to come into contact with the overrunning dog passing inclined faces 9, 9 of the side portions 7b, 7c of the engaging pusher member 7. The dog 26 has on each side of its outer ` - `J
1~919bO
end an inclined face 30 for depressing the pusher 5 side-ways.
As seen in Fig. 4, the shock absorber 40 comprises a cylinder 42 pivoted to the free trolley main body 23A
by a pair of opposite pins 41, 41, a piston 43 slidably housed in the cylinder 42 and having an orifice 44 extend-ing through the piston longitudinally of the cylinder for passing air or like fluid, and a piston rod 45. The piston rod 45 has one end fixed to the piston 43 within the cylinder 42 and the other end attached to a connector 46.
Outside the cylinder 42, the connector 46 is attached by a pin 47 to an upward projection 36 at the front end of the slider 33. A bellows-shaped tubular protective cover 48 is provided between and interconnects the connector 46 and the front wall of the cylinder 42. The portion of the piston rod 45 projecting forward from the cylinder 42 is covered with the protective cover 48.
An accumulating cam 27 is attached to the rear free trolley 24 of the carrier 20. The accumulating cam 27 is in the form of a bar, has at its rear end an inclined face 31 for depressing the pusher 5 when the pusher approaches from behind and is formed on each side of its lower end wlth an inclined face 32 for depressing the pusher 5 sideways.
When the pusher 5, travelling with the drive ~lg~O
chain 4, comes into engagement with the engaging dog 25 on the front trolley 23 of the carrier 20, the piston rod 45 of the shock absorber 40 is advanced forward to move the piston 43 forward within the cylinder 42 at the same time, causing air or like fluid in the space on the front side of the piston 43 within the cylinder 42 to flow through the orifice 44 into the space on the rear side of the piston, whereby the impact due to the engagement of the pusher 5 with the engaging dog 25 is mitigated.
While the carrier 20 is in travel in usual state, the horizontal engaging member 7 of the pusher 5 is in engagement with the opposed vertical engaging portions 25b, 25c of the engaging dog 25 as shown in Fig. 2.
When the carrier 20 is to be stopped at a desired location on the conveyor line, a carrier stopping device 50 is used as shown in Figs. S and 6. The device 50 comprises a disengaging member 51 generally T-shaped when seen from below and disposed at one side of the conveyor line horizontally movably. The member 51 includes a central disengaging portion 52 and stoppers 54, 54 at opposite sides of its front end. The disengaging portion 52 has at its rear end an inclined face 53 for depressing the horizontal engaging member 7 of the pusher 5 to release the pusher 5 from the engaging dog 25 on the front trolley 23. The stoppers 54, 54 are adapted to come into contact with the 1~91~60 front ends of the engaging portions 25b, 25c of the engaging dog 25.
The stopper-equipped disengaging member 51 of the carrier stopping device 50 is usually disposed at one side of the conveyor line in a standby position at a distance therefrom.
When a desired carrier 20 is to be stopped, the disengaging member 51 is horizontally shifted from the standby position to above the conveyor line. When the front free trolley 23 of the carrier 20 approaches as propelled by a pusher 5, the inclined face 53 of the central disengaging portion 52 depresses the pusher 5 out of engagement with the engaging dog 25. While the pusher continues to advance as held depressed by the lower surface of the disengaging portion 52, the front ends of the opposed vertical engaging portions 25b, 25c of the engaging dog 25 come into contact with and are stopped by the stoppers 54, 54, whereby the slider 33 integral with the engaging dog 25 is retracted. The slider 33 retracts the piston rod 45 of the shock absorber 40 and also the piston 43 within the cylinder 42 thereof, causing air or like fluid in the space behind the piston 43 to flow through the orifice 44 into the space on the front side of the piston. This mitigates the impact due to the contact of the engaging portions 25b, 25c with the stoppers 54, 54, permitting iV
the front free trolley 23 and the carrier 20 to stop slowly. With the carrier 20 thus brought to a halt, the piston 43 of the shock absorber 40 within the cylinder 42 is positioned at the rear end thereof, ready for the subsequent travel of the carrier 20.
When a carrier 20 is to join the preceding carrier 20 at rest, theinclined face 31 at the rear end of barlike accumulating cam 27 on the rear free trolley 24 of the preceding carrier 20 at rest depresses the center portion of the pusher 5 propelling the front free trolley 23 of the following carrier 20, bringing the pusher 5 out of engage-ment with the engaging dog 25 of the front free trolley 23. Subsequently, the front end of the dog 25 comes into contact with the rear end of the rear free trolley 24 of the preceding carrier 20 at rest, whereby the engaging dog 25 and the slider 33 integral therewith are slowly retracted to permit the following carrier 20 to stop slowly under the action of its shock absorber 40. After the following carrier 20 has been thus stopped, the piston 43 within the cylinder 42 of the shock absorber 40 is positioned at the rear end thereof and is ready for the subsequent travel of the carrier 20.
Figs. 7 to 10 show a specific arrangement wherein a carrier 20 on one free line 21 is forwarded by pushers SA, 5B on two different power lines lA, lB.
The power~and-free conveyor of the type installed under the floor and shown in Figs. 7 to 9 comprises first and second power lines lA, lB arranged partly in parallel, a free line 21 partly coextensive with the two power lines lA, ls thereabove, many pivotally movable pushers 5A, 5B and adapted to travel with drive chains 4 of the power lines lA, lB, respectively, and an engaging dog 25 mounted on the free front trolley 23 of each carrier 20 on the free line 21 and engageable with the pushers 5A, 5B.
Each of the first and second power lines lA, lB
is composed of a pair of opposed steel channel members serving as power rails 2A or 2B. The free line 21 comprises a pair of opposed free rails 22 each in the form of a steel channel member. At a section P where the first and second power lines lA, lB extend in parallel, the power lines lA, lB are arranged at opposite sides of the free line 21.
The operation of the conveyor will be described next.
Before the carrier 20 on the free line 21 reaches the power line parallel section P, the opposite side portions 7b, 7c of the horizontal engaging member 7 of a pusher 5A on the first power line lA are in engagement with the opposed vertical engaging portions 25b, 25c of the engaging dog 25 on the carrier 20 as seen in Fig. 2 to propell the carrier 20. When the carrier 20 approaches 1~915't~0 the parallel section P, the left side portion 7b of the engaging member 7 of the pusher SA comes into engagement with the right vertical engaging portion 25c of the engaging dog 25 as shown in Fig. 9 since the first power line lA is shifted with respect to the free line 21. Pushers SB on the second power line lB are free to travel until they reach the section P.
seyond the section P, the first power line lA
extends away from the free line 21, so that the pusher SA
is disengaged from the right engaging portion 25c of the engaging dog 25 to leave the carrier 20. In the parallel section P, an advancing pusher SB on the second power line lB comes into engagement with the left engaging portion 25b of the engaging dog 25 on the carrier 20, which is there-after propelled by the pusher SB on the second power line lB. Beyond the section P, the second power line lB extends immediately below the free line 21, so that the opposite side portions 7b, 7c of the engaging member 7 of the pusher 5B are brought into engagement with the opposed vertical engaging portions 25b, 25c of the dog 25 as shown in Fig. 2.
The first power line lA and the second power line lB may be the same or different in the speed of travel of the pushers 5A and SB. The carrier 20 can be forwarded irrespective of the speed difference between the pushers 5A and 5B.
~291~6~
.
More specifically stated, no problem of course arises when the pushers 5A, 5B on the first and second power lines lA, lB are driven at equal speeds.
When the pusher 5A on the first power line lA
is slower than the pusher 5B on the second power line lB, the carrier 20 as brought to the parallel section P by the slower pusher 5A can be subsequently forwarded by the faster pusher 5s without any problem.
Finally, suppose the pusher 5A on the first power line lA is faster than the pusher 5B on the second power line lB. When the carrier 20 is brought into the section P as propelled by the faster pusher 5A, with the slow pusher 5B already positioned in the section P, the upper end of the slow pusher 5B is depressed by the inclined face 28 at the front end of the engaging dog 25 on the carrier 20,and the lower end 26a of the anticoasting dog 26 further comes into contact with the ovérrunning dog passing inclined surface 9 of the horizontal engaging member 7 of the pusher 5B to depress the pusher 5B as seen in Fig. 10. Consequently, the carrier 20 overruns the pusher 5B. At a location beyond the section P, the faster pusher 5A on the first power line lA leaves the carrier 20, so that the slow pusher 5B on the second power line lB thereafter overtakes the carrier 20 to further propel the carrier 20. Thus, no problem arises.
96(~
Since the slider 33 having the engaging dog 25 and the anticoasting dog 26 is connected by the shock absorber 40 to the main body 23A of the front free trolley 23 of each carrier 20, the pusher 5 is engageable with the engaging dog 25 with diminished impact without producing noises by the action of the shock absorber 40.
It is noted that the engaging dog 25, the anti-coasting dog 26 and the accumulating cam 27 on the carrier 20 have on their opposite sides pusher depressing inclined faces 29, 30 and 32, respectively, and that each end of the horizontal engaging member 7 of the pusher SB has the side collision preventing inclined face 11. Accordingly, when the carrier 20 propelled by a pusher 5A on the first power line lA and a pusher 5B on the second power line lB
enter the parallel section P at the same time, the pusher depressing inclined face comes into contact with the collision preventing inclined face 11 of the pusher 5B to depress the pusher 5B. Consequently, no side collision occurs.
With the power-and-free conveyor of the present invention, carriers 20 can be switched from one line to another for joining or diversion in the same manner as in the above embodiment although not shown.
The shock absorber 40 is not limited to the illus-trated structure but may comprise a coiled spring or the like.
1~196o Although the present invention has been described above as embodied as a power-and-free conveyor of the type to be installed under the floor, the invention is similarly applicable to overhead power-and-free conveyors by modifying S the arrangement of components and inverting the relation of the pusher 5 to the opposed members involving gravity.
Although the illustrated carrier 20 has a pair of front and rear free trolleys 23, 24, two intermediate free trolleys may be connected between these trolleys, with an article support member supported by the intermediate trolleys, when elongated articles are to be transported.
TITLE OF THE INVENTION
POWER-AND-FREE CONVEYOR
.
BACKGROUND OF THE INVENTION
The present invention relates to a power-and-free conveyor.
Power-and-free conveyors are already well known which comprise a power line, a free line coextensive with the power line thereabove, a multiplicity of pivotally movable pushers adapted to travel with a drive chain for the power line, engaging dogs mounted on carrier free trolleys on the free line, and anticoasting dogs mounted on the free trolleys and each opposed to the engaging dog.
These conveyors are used for automating flow production.
With the conveyor line system, carriers are switched for joining or diversion from one line to another article processing line, or the pushers propelling carriers are changed over to other pushers. A carrier stopping device or the like which is separate from the power-and-free conveyor is conventionally used in such a case for joining or diverting carriers or for changing pushers. The system therefore has the problem of requiring a very high equip-ment cost and a wide space.
Accordingly, it has recently been desired to provide a power-and-free conveyor in which pushers can be 12~
changed over or carriers can be joined together or diverted without necessitating any special device other than the conveyor.
The conventional conveyor has another problem. Since the engaging dog and the anticoasting dog are fixed to the free trolley, the engagement of the pusher with the engaging dog exerts great impact on the free trolley and consequently to the carrier, causing trouble to the work on the article in transit, such as a motor vehicle assembly, and further producing noises.
SUMMARY OF THE INVENTION
The present invention provides a power-and-free conveyor, comprising a power line, a free line coextensive with the power line thereabove, a multiplicity of pivotally movable pushers adapted to travel with a drive chain of the power line;
free trolleys attached to carriers on the free line; and shock absorber means for mitigating impact due to engagement of at least one of said pushers with one of said trolleys, wherein each of the trolleys comprises a main body and a slider mounted thereon and slidable longitudinally along the trolley, the slider being provided with an engaging dog and an anticoasting dog, the slider of each of said trolleys being connected to the main body by said shock absorber means.
With the power-and-free conveyor disclosed herein, one pusher can be changed over to anotner, or carriers can be switched from one line to another for joining or diversion properly without necessitating any special device, while the conveyor is very simple in construction and is very low in equipment cost.
Furthermore, the pusher is engageable with the free trolley l~lgfiO
engaging dog or the carrier can be stopped without subjecting the carrier to any impact and without producing noises. The conveyor therefore assures very quiet efficient flow production, for example, of motor vehicles.
BRIEF DESCRIPTION OF THE DRAWINGS
Figure 1 is a fragmentary left side elevation on an enlarged scale showing a power-and-free conveyor;
Figure 2 is a view in section taken along the line II-II
in Figure l;
Figure 3 is an enlarged perspective view showing a pusher;
Figure 4 is an enlarged view in section taken along the line IV-IV in Figure 2;
1~9~i0 Fig. 5 is a fragmentary left side elevation on an enlarged scale showing the conveyor with a carrier at rest;
Fig. 6 is an enlarged fragmentary bottom view in section taken along the line VI-VI in Fig. 5;
Fig. 7 is a fragmentary plan view schematically showing a power line switch portion of the conveyor;
Fig. 8 is a left side elevation of Fig. 7;
Fig. 9 is an enlarged view in section taken along the line IX-IX in Fig. 7; and Fig. 10 is an enlarged fragmentary side elevation of the conveyor showing a pusher-as it is being overrun by a carrier.
DESCRIPTION OF THE PREFERRED EMBODIMENT
The terms "front," "rear," "right" and "left"
as herein used are based on Fig. 1. "Front" refers to the left side of Fig. 1, "rear" to the right side thereof, "right" to the back side of the plane of Fig. 1, and "left"
to the front side of the same.
With reference to Figs. 1 to 3, a power-and-free conveyor, which is of the type to be installed under the floor, comprises a power line 1 composed of a pair of opposed power rails 2, a free line 21 composed of a pair of opposed free rails 22 and coextensive with the power line 1 thereabove, a multiplicity of pivotally movable 1~91~;0 pushers 5 adapted to travel with a drive chain 4 for the power line 1, and a pair of front and rear free trolleys 23, 24 attached to each carrier 20 on the free line 21.
The front free trolley 23 comprises a main body 23A and a slider 33 provided inside the main body 23A and slidable forward or rearward. The slider 33 is providedon each of its right and left sides with a pair of outwardly projecting slide pins 34, 34 inserted in slots 35, 35 extending longitudinally of the trolley and formed in the opposed side walls of the main body 23A. Accordingly, the slider 33 is slidable forward or rearward over a distance corresponding to the amount of movement of the pins 34, 34 in the slots 35, 35. The slider 33 has at its front end a downwardly projecting engaging dog 25 and at its rear end an anticoasting dog 26 opposed to the engaging dog 25.
The slider 33 is connected to the main body 23A
by a shock absorber 40.
Each pusher 5 comprises an attaching member 6 pivoted by a pin 10 to a power trolley 3 and an engaging member 7 provided horizontally at the forward end of the attaching member 6, the pusher 5 being generally T-shaped when seen from front. The engaging member 7 includes a center portion 7a having an increased thickness and a dog engaging face 8 at its rear end, and opposite side portions 7b, 7c having a reduced thickness and an overrunning dog 1~91~60 passing inclined face 9 which extends fowardly upward from the rear edge of each side portion.
Each engaging dog 25 comprises a horizontal connecting portion 25a integral with the front end of the slider 33 and vertical engaging portions 25b, 25c extending from the opposite ends of the portion 25a, the engaging dog 25 resembling a gate when seen from front. Each of the vertical engaging portions 25b, 25c has at its front end a pusher depressing inclined face 28 extending obliquely forwardly upward.
The vertical engaging portions 25b, 25c of the engaginq dog 25 are formed each at its outer end with an inclined face 29 for depressing the pusher 5 from one side.
Each of the side portions 7b, 7c of the horizontal engaging member 7 of the pusher 5 has at its outer end a side collision preventing inclined face 11 which is adapted to come into contact with the inclined face 29. These faces 29 and 11 are inclined at an angle of about 30 to about 45 degrees.
The anticoasting dog 26 opposed to and spaced at a distance from the engaging dog 25 on the slider 33 has its outer end 26a held at a level for this end 26a to come into contact with the overrunning dog passing inclined faces 9, 9 of the side portions 7b, 7c of the engaging pusher member 7. The dog 26 has on each side of its outer ` - `J
1~919bO
end an inclined face 30 for depressing the pusher 5 side-ways.
As seen in Fig. 4, the shock absorber 40 comprises a cylinder 42 pivoted to the free trolley main body 23A
by a pair of opposite pins 41, 41, a piston 43 slidably housed in the cylinder 42 and having an orifice 44 extend-ing through the piston longitudinally of the cylinder for passing air or like fluid, and a piston rod 45. The piston rod 45 has one end fixed to the piston 43 within the cylinder 42 and the other end attached to a connector 46.
Outside the cylinder 42, the connector 46 is attached by a pin 47 to an upward projection 36 at the front end of the slider 33. A bellows-shaped tubular protective cover 48 is provided between and interconnects the connector 46 and the front wall of the cylinder 42. The portion of the piston rod 45 projecting forward from the cylinder 42 is covered with the protective cover 48.
An accumulating cam 27 is attached to the rear free trolley 24 of the carrier 20. The accumulating cam 27 is in the form of a bar, has at its rear end an inclined face 31 for depressing the pusher 5 when the pusher approaches from behind and is formed on each side of its lower end wlth an inclined face 32 for depressing the pusher 5 sideways.
When the pusher 5, travelling with the drive ~lg~O
chain 4, comes into engagement with the engaging dog 25 on the front trolley 23 of the carrier 20, the piston rod 45 of the shock absorber 40 is advanced forward to move the piston 43 forward within the cylinder 42 at the same time, causing air or like fluid in the space on the front side of the piston 43 within the cylinder 42 to flow through the orifice 44 into the space on the rear side of the piston, whereby the impact due to the engagement of the pusher 5 with the engaging dog 25 is mitigated.
While the carrier 20 is in travel in usual state, the horizontal engaging member 7 of the pusher 5 is in engagement with the opposed vertical engaging portions 25b, 25c of the engaging dog 25 as shown in Fig. 2.
When the carrier 20 is to be stopped at a desired location on the conveyor line, a carrier stopping device 50 is used as shown in Figs. S and 6. The device 50 comprises a disengaging member 51 generally T-shaped when seen from below and disposed at one side of the conveyor line horizontally movably. The member 51 includes a central disengaging portion 52 and stoppers 54, 54 at opposite sides of its front end. The disengaging portion 52 has at its rear end an inclined face 53 for depressing the horizontal engaging member 7 of the pusher 5 to release the pusher 5 from the engaging dog 25 on the front trolley 23. The stoppers 54, 54 are adapted to come into contact with the 1~91~60 front ends of the engaging portions 25b, 25c of the engaging dog 25.
The stopper-equipped disengaging member 51 of the carrier stopping device 50 is usually disposed at one side of the conveyor line in a standby position at a distance therefrom.
When a desired carrier 20 is to be stopped, the disengaging member 51 is horizontally shifted from the standby position to above the conveyor line. When the front free trolley 23 of the carrier 20 approaches as propelled by a pusher 5, the inclined face 53 of the central disengaging portion 52 depresses the pusher 5 out of engagement with the engaging dog 25. While the pusher continues to advance as held depressed by the lower surface of the disengaging portion 52, the front ends of the opposed vertical engaging portions 25b, 25c of the engaging dog 25 come into contact with and are stopped by the stoppers 54, 54, whereby the slider 33 integral with the engaging dog 25 is retracted. The slider 33 retracts the piston rod 45 of the shock absorber 40 and also the piston 43 within the cylinder 42 thereof, causing air or like fluid in the space behind the piston 43 to flow through the orifice 44 into the space on the front side of the piston. This mitigates the impact due to the contact of the engaging portions 25b, 25c with the stoppers 54, 54, permitting iV
the front free trolley 23 and the carrier 20 to stop slowly. With the carrier 20 thus brought to a halt, the piston 43 of the shock absorber 40 within the cylinder 42 is positioned at the rear end thereof, ready for the subsequent travel of the carrier 20.
When a carrier 20 is to join the preceding carrier 20 at rest, theinclined face 31 at the rear end of barlike accumulating cam 27 on the rear free trolley 24 of the preceding carrier 20 at rest depresses the center portion of the pusher 5 propelling the front free trolley 23 of the following carrier 20, bringing the pusher 5 out of engage-ment with the engaging dog 25 of the front free trolley 23. Subsequently, the front end of the dog 25 comes into contact with the rear end of the rear free trolley 24 of the preceding carrier 20 at rest, whereby the engaging dog 25 and the slider 33 integral therewith are slowly retracted to permit the following carrier 20 to stop slowly under the action of its shock absorber 40. After the following carrier 20 has been thus stopped, the piston 43 within the cylinder 42 of the shock absorber 40 is positioned at the rear end thereof and is ready for the subsequent travel of the carrier 20.
Figs. 7 to 10 show a specific arrangement wherein a carrier 20 on one free line 21 is forwarded by pushers SA, 5B on two different power lines lA, lB.
The power~and-free conveyor of the type installed under the floor and shown in Figs. 7 to 9 comprises first and second power lines lA, lB arranged partly in parallel, a free line 21 partly coextensive with the two power lines lA, ls thereabove, many pivotally movable pushers 5A, 5B and adapted to travel with drive chains 4 of the power lines lA, lB, respectively, and an engaging dog 25 mounted on the free front trolley 23 of each carrier 20 on the free line 21 and engageable with the pushers 5A, 5B.
Each of the first and second power lines lA, lB
is composed of a pair of opposed steel channel members serving as power rails 2A or 2B. The free line 21 comprises a pair of opposed free rails 22 each in the form of a steel channel member. At a section P where the first and second power lines lA, lB extend in parallel, the power lines lA, lB are arranged at opposite sides of the free line 21.
The operation of the conveyor will be described next.
Before the carrier 20 on the free line 21 reaches the power line parallel section P, the opposite side portions 7b, 7c of the horizontal engaging member 7 of a pusher 5A on the first power line lA are in engagement with the opposed vertical engaging portions 25b, 25c of the engaging dog 25 on the carrier 20 as seen in Fig. 2 to propell the carrier 20. When the carrier 20 approaches 1~915't~0 the parallel section P, the left side portion 7b of the engaging member 7 of the pusher SA comes into engagement with the right vertical engaging portion 25c of the engaging dog 25 as shown in Fig. 9 since the first power line lA is shifted with respect to the free line 21. Pushers SB on the second power line lB are free to travel until they reach the section P.
seyond the section P, the first power line lA
extends away from the free line 21, so that the pusher SA
is disengaged from the right engaging portion 25c of the engaging dog 25 to leave the carrier 20. In the parallel section P, an advancing pusher SB on the second power line lB comes into engagement with the left engaging portion 25b of the engaging dog 25 on the carrier 20, which is there-after propelled by the pusher SB on the second power line lB. Beyond the section P, the second power line lB extends immediately below the free line 21, so that the opposite side portions 7b, 7c of the engaging member 7 of the pusher 5B are brought into engagement with the opposed vertical engaging portions 25b, 25c of the dog 25 as shown in Fig. 2.
The first power line lA and the second power line lB may be the same or different in the speed of travel of the pushers 5A and SB. The carrier 20 can be forwarded irrespective of the speed difference between the pushers 5A and 5B.
~291~6~
.
More specifically stated, no problem of course arises when the pushers 5A, 5B on the first and second power lines lA, lB are driven at equal speeds.
When the pusher 5A on the first power line lA
is slower than the pusher 5B on the second power line lB, the carrier 20 as brought to the parallel section P by the slower pusher 5A can be subsequently forwarded by the faster pusher 5s without any problem.
Finally, suppose the pusher 5A on the first power line lA is faster than the pusher 5B on the second power line lB. When the carrier 20 is brought into the section P as propelled by the faster pusher 5A, with the slow pusher 5B already positioned in the section P, the upper end of the slow pusher 5B is depressed by the inclined face 28 at the front end of the engaging dog 25 on the carrier 20,and the lower end 26a of the anticoasting dog 26 further comes into contact with the ovérrunning dog passing inclined surface 9 of the horizontal engaging member 7 of the pusher 5B to depress the pusher 5B as seen in Fig. 10. Consequently, the carrier 20 overruns the pusher 5B. At a location beyond the section P, the faster pusher 5A on the first power line lA leaves the carrier 20, so that the slow pusher 5B on the second power line lB thereafter overtakes the carrier 20 to further propel the carrier 20. Thus, no problem arises.
96(~
Since the slider 33 having the engaging dog 25 and the anticoasting dog 26 is connected by the shock absorber 40 to the main body 23A of the front free trolley 23 of each carrier 20, the pusher 5 is engageable with the engaging dog 25 with diminished impact without producing noises by the action of the shock absorber 40.
It is noted that the engaging dog 25, the anti-coasting dog 26 and the accumulating cam 27 on the carrier 20 have on their opposite sides pusher depressing inclined faces 29, 30 and 32, respectively, and that each end of the horizontal engaging member 7 of the pusher SB has the side collision preventing inclined face 11. Accordingly, when the carrier 20 propelled by a pusher 5A on the first power line lA and a pusher 5B on the second power line lB
enter the parallel section P at the same time, the pusher depressing inclined face comes into contact with the collision preventing inclined face 11 of the pusher 5B to depress the pusher 5B. Consequently, no side collision occurs.
With the power-and-free conveyor of the present invention, carriers 20 can be switched from one line to another for joining or diversion in the same manner as in the above embodiment although not shown.
The shock absorber 40 is not limited to the illus-trated structure but may comprise a coiled spring or the like.
1~196o Although the present invention has been described above as embodied as a power-and-free conveyor of the type to be installed under the floor, the invention is similarly applicable to overhead power-and-free conveyors by modifying S the arrangement of components and inverting the relation of the pusher 5 to the opposed members involving gravity.
Although the illustrated carrier 20 has a pair of front and rear free trolleys 23, 24, two intermediate free trolleys may be connected between these trolleys, with an article support member supported by the intermediate trolleys, when elongated articles are to be transported.
Claims
THE EMBODIMENTS OF THE INVENTION IN WHICH AN EXCLUSIVE
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:
1. A power-and-free conveyor, comprising a power line, a free line coextensive with the power line thereabove, a multiplicity of pivotally movable pushers adapted to travel with a drive chain of the power line; free trolleys attached to carriers on the free line; and shock absorber means for mitigating impact due to engagement of at least one of said pushers with one of said trolleys, wherein each of the trolleys comprises a main body and a slider mounted thereon and slidable longitudinally along the trolley, the slider being provided with an engaging dog and an anticoasting dog, the slider of each of said trolleys being connected to the main body by said shock absorber means.
2, A power-and-free conveyor as defined in claim 1, wherein the free trolley main body is formed in its opposite side walls with slots extending longitudinally along the trolley, and the slider has outwardly projecting slide pins formed on its opposite sides, wherein the slide pins being inserted in the slots to position the slider inside the main body of the trolley and to render the slider slidable longitudinally along the trolley.
3, A power-and-free trolley as defined in claim 1, wherein the shock absorber means comprises a cylinder and a piston housed therein and having an orifice, wherein the slider being connected to the piston by a piston rod, and wherein the cylinder being pivoted to the free trolley main body by a pair of pins.
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:
1. A power-and-free conveyor, comprising a power line, a free line coextensive with the power line thereabove, a multiplicity of pivotally movable pushers adapted to travel with a drive chain of the power line; free trolleys attached to carriers on the free line; and shock absorber means for mitigating impact due to engagement of at least one of said pushers with one of said trolleys, wherein each of the trolleys comprises a main body and a slider mounted thereon and slidable longitudinally along the trolley, the slider being provided with an engaging dog and an anticoasting dog, the slider of each of said trolleys being connected to the main body by said shock absorber means.
2, A power-and-free conveyor as defined in claim 1, wherein the free trolley main body is formed in its opposite side walls with slots extending longitudinally along the trolley, and the slider has outwardly projecting slide pins formed on its opposite sides, wherein the slide pins being inserted in the slots to position the slider inside the main body of the trolley and to render the slider slidable longitudinally along the trolley.
3, A power-and-free trolley as defined in claim 1, wherein the shock absorber means comprises a cylinder and a piston housed therein and having an orifice, wherein the slider being connected to the piston by a piston rod, and wherein the cylinder being pivoted to the free trolley main body by a pair of pins.
Applications Claiming Priority (5)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP60163402A JPS6223859A (en) | 1985-07-23 | 1985-07-23 | Power-and-free-conveyor |
| JP163402/85 | 1985-07-23 | ||
| JP60265481A JPS62125946A (en) | 1985-11-25 | 1985-11-25 | Power-and-free-conveyor |
| JP265481/85 | 1985-11-25 | ||
| CA000513663A CA1266017A (en) | 1985-07-23 | 1986-07-14 | Power-and-free conveyor |
Related Parent Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA000513663A Division CA1266017A (en) | 1985-07-23 | 1986-07-14 | Power-and-free conveyor |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1291960C true CA1291960C (en) | 1991-11-12 |
Family
ID=27167615
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA000597221A Expired - Lifetime CA1291960C (en) | 1985-07-23 | 1989-04-19 | Power-and-free conveyor |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA1291960C (en) |
-
1989
- 1989-04-19 CA CA000597221A patent/CA1291960C/en not_active Expired - Lifetime
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| MKEX | Expiry |