JP2004284797A - Roller conveyor facility - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide roller conveyor facility capable of attaching a valve unit easily and quickly. <P>SOLUTION: This roller conveyor facility 1 conveys an article among a plurality of zones Z<SB>1</SB>to Z<SB>n</SB>. Many rollers 6 and a unit base 20 positioned below a group of rollers are provided on a frame body 2 side. An accumulation unit 30 which is positioned on the unit base 20 to connect and disconnect a conveyor driving means 10 with/from the group of rollers 6, a brake unit 40 abutting on and leaving the group of rollers 6, and a valve unit 50 for operating both units 30, 40 reversibly are provided in each zone Z<SB>1</SB>to Z<SB>n</SB>. A cargo presence detection means 105 connected with a control unit 106 operating the valve unit 50 is provided in each zone Z<SB>1</SB>to Z<SB>n</SB>. The valve unit can be easily and quickly attached to the unit base by only work from above. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a roller conveyor equipment used for conveying an article (conveyed object) between a plurality of zones.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, the following configuration has been provided as this type of roller conveyor equipment. That is, a large number of rollers and a unit base located below the roller group are provided on the frame body side, and each zone is located on the unit base and has a conveyor driving means for the roller group. And a brake device that makes contact with and separates from the roller group.
[0003]
The wheel device raises and lowers the lifting frame by a pair of air actuators (raising and lowering means), thereby causing the conveyor driving means to be connected and disconnected, and the brake device raises and lowers the lifting body by a pair of air actuators to form a roller Are configured so as to contact and separate from each other. At that time, the wheel device and the brake device are configured to act reversibly on the roller group (for example, see Patent Document 1).
[0004]
The following configuration is provided as another conveyor. That is, a large number of rollers are provided on the frame side, and a drive mechanism that is located below the roller group and moves a drive belt (or a drive chain) toward and away from the roller group in each section (zone). And a braking mechanism for braking the roller group are provided as a pair.
[0005]
The drive mechanism operates the pressing plate by an actuator (elevating means) to cause the drive belt to contact and separate, and the braking mechanism causes the brake pad to elevate and lower by the actuator to press against the roller group. It is configured. At this time, the actuator of the drive mechanism and the actuator of the brake mechanism are configured to reversibly act on the roller group by switching the electromagnetic valve (for example, see Patent Document 2).
[0006]
[Patent Document 1]
JP-A-2002-321807 (page 4-6, FIG. 3-8)
[0007]
[Patent Document 2]
Microfilm of Japanese Utility Model Application No. 6-13473 (Japanese Utility Model Application No. 7-28124) (page 7, FIG. 1-4)
[0008]
[Patent Document 3]
JP-A-5-713 (page 3-4, FIG. 6)
[0009]
[Patent Document 4]
JP-A-6-263233 (FIG. 2-3)
[0010]
[Problems to be solved by the invention]
However, according to the above-described conventional configuration, the valve device for reversibly operating the air actuator of the wheel device and the air actuator of the brake device is located below the unit base (on the back side), Further, an electromagnetic valve for causing the actuator of the drive mechanism and the actuator of the braking mechanism to act reversibly is also located below the actuator group. Therefore, the mounting operation of the valve device and the solenoid valve is not easily performed, for example, by reversing the unit base, and it takes time.
[0011]
SUMMARY OF THE INVENTION It is an object of the present invention to provide a roller conveyor system capable of easily and quickly mounting a valve unit.
[0012]
[Means for Solving the Problems]
In order to achieve the above-mentioned object, a roller conveyor device according to claim 1 of the present invention is a roller conveyor device that conveys an article over a plurality of zones. A unit base located below the roller group, and in each zone, an accumulator unit positioned on the unit base to cause a conveyor driving means to cut off and act on the roller group; and And a valve unit for reversibly operating the accumulation unit and the brake unit. Each zone is connected to a control unit for operating the valve unit. A load detecting means is provided.
[0013]
Therefore, according to the first aspect of the present invention, the brake unit and the accumulator unit are reversibly acted on the roller group by operating the valve unit via the control unit in response to the detection of the presence detection means. Goods can be transported between the two. By performing such an operation for each zone, the articles stopped in each zone can be sequentially transported to the zone one downstream downstream, so that the articles can be sequentially paid out. And, the mounting of the valve unit to the unit base can be performed only from above.
[0014]
According to a second aspect of the present invention, in the roller conveyor equipment according to the first aspect, the valve unit includes a receiving body connected to a main supply pipe of the working fluid, and a working fluid from the receiving body. A switching valve for reversibly supplying the accumulator unit and the brake unit and a joint body for supplying the working fluid from the switching valve to the accumulator unit and the brake unit are integrated by a coupling tool. It is characterized by being constituted.
[0015]
Therefore, according to the second aspect of the present invention, the valve unit can be configured by integrating the receiving body, the switching valve, and the joint body via the connecting member.
According to a third aspect of the present invention, in the roller conveyor equipment according to the second aspect of the present invention, the switching valve is a solenoid valve, and the switching operation is performed via the control unit based on the detection of the presence detecting means. It is characterized by being performed.
[0016]
Therefore, according to the third aspect of the invention, the switching valve can be switched by performing power supply and power supply stop via the control unit based on the detection of the presence detection means.
[0017]
Further, in the roller conveyor equipment according to claim 4 of the present invention, in the configuration according to claim 2 or 3, the presence detecting means is a photoelectric tube type, and the detection signal is input to the control unit. It is a characteristic.
[0018]
Therefore, according to the invention of claim 4, after the article is detected by the non-contact type presence detecting means, the detection signal can be input to the control unit.
In addition, in the roller conveyor equipment according to the fifth aspect of the present invention, in the configuration according to any one of the second to fourth aspects, the accumulator unit and the brake unit are provided with a plurality of actuators that perform a disconnection operation or a contact / separation operation. The switching valve is formed with an accumulation-side supply path and a brake-side supply path, and the joint body is capable of communicating with a first receiving path that can communicate with one supply path and with the other supply path. A second receiving path is formed, and a first distribution path and a second distribution path that are respectively branched from the first receiving path and the second receiving path are formed, and the first distribution path or the second distribution path is formed. The distribution path and the accumulator-side actuator or the brake-side actuator are connected to each other via a communication body.
[0019]
Therefore, according to the fifth aspect of the present invention, by switching the switching valve to the brake side, the working fluid reaching the receiving body via the main supply pipe is transferred from the brake side supply path to the first receiving path (or the second reception path). To the actuators of the brake unit via the pair of front and rear first distribution paths (or second distribution paths) and the communication body, and these actuators can be brought into contact with each other. Further, by switching the switching valve to the accumulation side, the working fluid reaching the receiving body via the main supply pipe is caused to flow from the accumulation side supply path to the second reception path (or the first reception path). Then, the actuator can be connected and moved by flowing into the actuators of the accumulation unit through the pair of front and rear second distribution paths (or first distribution paths) and the communication body.
[0020]
According to a sixth aspect of the present invention, there is provided the roller conveyor equipment according to the fifth aspect, wherein the accumulator-side actuator and the brake-side actuator are each paired back and forth along the conveyor conveyance path, and the first distribution path And the second distribution path is a pair of front and rear along the conveyor conveyance path, and is formed with a phase shift in the width direction of the conveyor, and the communication groups are arranged without overlapping. It is.
[0021]
Therefore, according to the invention of claim 6, both communicating bodies connected to the accumulator-side actuator and both communicating bodies connected to the brake-side actuator can be arranged without overlapping (intersecting) with each other, and the working length can be reduced. It can be arranged shorter (as short as possible).
[0022]
In the roller conveyor equipment according to claim 7 of the present invention, in the configuration according to claim 5 or 6, the valve unit displaces the joint body by 180 degrees and integrates with the receiving body and the switching valve by a connecting tool. In one of two positions in which the joint body is displaced, one of the first receiving path and the second receiving path is communicated with one supply path, and the second receiving path and the second receiving path are connected to the other supply path. 1 is configured to be connected to any one of the receiving paths.
[0023]
Therefore, according to the seventh aspect of the present invention, the accumulation-side communication body and the brake-side communication body are always arranged without overlapping (intersecting) with each other regardless of the arrangement (interval) of the actuator in the accumulation unit or the brake unit. In addition to this, it is possible to reduce the length of use (as the shortest) and to dispose it.
[0024]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described below with reference to FIGS.
1 to 4, a frame main body 2 of the roller conveyor equipment 1 includes a pair of left and right conveyor frames 3, a connection frame 4 provided between lower portions of the two conveyor frames 3, and the like. Leg members 5 are connected between the lower portions and at a plurality of locations in the length direction.
[0025]
Rollers 6 are provided between the two conveyor frames 3 at a number of positions in the length direction so as to freely rotate. That is, the roller group 6 is freely rotatably supported between the two conveyor frames 3 by the hexagonal shaft portion of the roller shaft 7 being located in the hexagonal hole (or notch) formed in the conveyor frame 3. I have. As a result, a conveyor transport path 9 is formed above the roller 6 group.
[0026]
Conveyor driving means 10 is provided in the frame main body 2 and at a position on one conveyor frame 3 side. That is, reversing guide wheels 11 are disposed at both ends of the conveyor transport path 9 below the roller 6 group, and between the reversing guide wheels 11 are positioned below the roller 6 group. A unit base 20 is provided. On the unit base 20, the conveyor transport path 9 is divided into a plurality of zones Z. ₁ ~ Z _n The accumulator units 30 are provided in a divided state, and the brake units 40 are arranged inside each accumulator unit 30 as a pair.
[0027]
A box-shaped drive unit frame 12 is provided between the lower portions of both conveyor frames 3, and a motor 13 with a speed reducer is mounted on the drive unit frame 12, and a drive wheel 14 is provided on an output shaft of the motor 13. Is provided. Further, near the motor 13, one of the conveyor frames 12 is provided with a pair of reversing guide wheels 15, and the drive unit frame 12 is provided with a tension guide wheel 16 whose position is adjustable.
[0028]
An endless rotating body 18 composed of a driving endless belt or the like is hung from above over the both reversing guide wheels 11 and the accumulation unit 30 group, and is configured to be able to contact the rollers 6 group from below. At the same time, the rotation is transmitted by the contact. Furthermore, while being hung on the lower guide wheel body 17 group from above, it is hung on both the reversing guide wheel body 15 and the tension guide wheel body 16, and then hung on the drive wheel body 14, a turning force is applied. It is configured to be. That is, most of the rollers 6 are configured to be rotatable when the endless rotating body 18 of the conveyor driving means 10 comes into contact with the lower part. An example of the conveyor driving means 10 is constituted by the above 11 to 18 and the like.
[0029]
The unit base 20 includes a horizontal plate portion 21 and a vertical plate portion 22 formed by bending upward from both ends of the horizontal plate portion 21 in the conveyor width direction, and is located above the connection frame 4. Then, after the spacer 23 is provided between the horizontal plate portion 21 and the connection frame 4, the spacer 23 is connected by a connecting tool (bolt / nut) 24. At this time, the return path 19 of the endless rotating body 18 is formed by the space (gap) between the horizontal plate portion 21 and the connection frame 4 determined by the height dimension of the spacer 23.
[0030]
The group of rollers 6 includes a plurality of zones Z in the direction of the conveyor conveyance path 9. ₁ ~ Z _n And each zone Z ₁ ~ Z _n In each case, the accumulator unit 30 for causing the conveyor driving means 10 to make and break the roller 6 group is provided.
[0031]
These accumulator units 30 include an elevating guide means 31 provided between the unit base 20 and the horizontal plate portion 21, an elevating frame 32 guided by the elevating guide means 31, the horizontal plate portion 21 and the elevating frame 32. , And an upper guide wheel body 34 provided at four places (a plurality of places) in the direction of the conveyor conveyance path 9 in the lift frame 32. The upper guide wheel group 34 is configured to be able to contact the endless rotating body 18 from below.
[0032]
Here, a pair of elevating guide means 31 is disposed in front and back along the conveyor transport path 9, and the air actuator 33 is located inside the elevating guide means 31 and a pair of air actuators 33 is provided in front and back along the conveyor transport path 9 (multiple). ) Is arranged. An example of the accumulation unit 30 is configured by the above 31 to 34 and the like.
[0033]
On the inner side of each accumulation unit 30 and on the side of the frame main body 2, the brake units 40 that are in contact with and separate from the rollers 6 are arranged as pairs. That is, in the direction of the conveyor transport path 9, each zone Z ₁ ~ Z _n The brake unit 40 provided for each unit includes an elevating body 42 guided by elevating guide means 41 provided between the unit base 20 and the horizontal plate portion 21; And a brake member 44 provided on the elevating body 42 and capable of acting on (contact with) the rollers 6 from below.
[0034]
The elevating body 42 is formed by a horizontal plate portion 42a and a pair of (plural) rising portions 42b that are bent upward from left and right edges of the horizontal plate portion 42a to form an open C-shaped rail. (C-shaped frame). The brake member 44 is formed in a rectangular block shape by, for example, rubber. At that time, a groove 45 that can be fitted into the rising portion 42b from above is formed on the lower side so as to open downward and forward and backward.
[0035]
Here, a pair of elevating guide means 41 is disposed in front and back along the conveyor transport path 9, and the air actuator 43 is located inside the elevating guide means 41 and a pair of air actuators 43 is provided in front and back along the conveyor transport path 9 ) Is arranged. Note that the interval l between the pair of air actuators 43 is smaller than the interval L between the pair of air actuators 33 in the accumulator 30, that is, l <L, and thus is viewed along the conveyor transport path 9. At this time, the air actuator 43 of the brake unit 40 is located inside the air actuator 33 of the accumulation unit 30. An example of the brake unit 40 is configured by the above 41 to 45 and the like.
[0036]
1, 3 to 9, the air actuator 33 of the accumulation unit 30 and the air actuator 43 of the brake unit 40 are provided on the horizontal plate 21 of the unit base 20 inside the brake unit 40. The switching operation of the valve unit 50 is configured to reversibly act on the roller 6 group.
[0037]
Here, at a predetermined position on the horizontal plate portion 21 of the unit base 20, one inner circular hole (a positioning portion of the positioning portion) is sequentially arranged from the inside to the outside in the conveyor width direction in order to attach and detach the valve unit 50 with one touch. An example) 25, two rectangular holes (an example of locking portions) 26 in the direction of the conveyor transport path 9, and one outer round hole (an example of a positioning portion) 27 are formed. Further, an operation through portion 28 for manually operating the valve unit 50 side is formed near the rectangular hole 26 (all will be described later in detail).
[0038]
The valve unit 50 includes a receiving body 51 connected to a main supply pipe 110 for pressurized air (an example of a working fluid) A, and pressurized air A from the receiving body 51 to the accumulation unit 30 side and the brake unit 40 side. And a joint body 81 for supplying pressurized air A from the switching valve 61 to the accumulation unit 30 side and the brake unit 40 side by a connecting member 88. It is composed of
[0039]
That is, the main body 52 of the receiving body 51 has a rectangular block shape, and has a through-hole 53 formed in a direction along the conveyor conveyance path 9 when the main body 52 is attached to the unit base 20. A supply hole 54 is formed in communication with the middle of the supply hole 54 and having an outer end opened. One round projection (an example of a portion to be positioned) 55 which can be fitted into the outer round hole 27 from above on the outer surface side facing downward, and acts on the rectangular hole 26 from above. And two (a pair of) locked pieces (an example of a locked portion) 56 which can be elastically engaged by the lock. Further, two locking portions 57 of the electric wiring 75 are formed on the outer surface side facing upward in the direction of the conveyor transport path 9.
[0040]
Here, both the locked pieces 56 are plate-shaped elastically deformable in the adjacent direction, and on the outer surface side of the free end thereof, a guiding inclined surface 56a which becomes more outward toward the upper side, and an upper end of the guiding inclined surface 56a A locking surface 56b extending from the portion in the adjacent direction is formed. In addition, the locking portion 57 is configured to lock the electric wiring 75 inserted from the conveyor width direction with the outer surface of the main body 52 facing upward. An example of the receiving body 51 is constituted by the above 52 to 57 and the like. Here, the receiving body 51 is integrally formed of, for example, resin.
[0041]
The switching valve 61 is of a solenoid valve type, and its valve main body 62 is in contact with the main body 52 of the receiving body 51. In the valve body 62, a receiving valve chamber 63 is formed, and an accumulation-side supply valve chamber 64A and a brake-side supply valve chamber 64B are separately formed with the reception valve chamber 63 as a center. The valve seats 65A and 65B are formed between the receiving valve chamber 63 and the supply valve chambers 64A and 64B.
[0042]
A valve shaft 66 is provided so as to be inserted through the respective valve chambers 63, 64A, 64B. The valve shaft 66 is provided with a valve which can be selectively brought into contact with or separated from the valve seats 65A, 65B. The bodies 67A and 67B are provided. One end of the valve shaft 66 is connected to a solenoid 68 provided on one end side of the valve body 62, and a valve is provided between the other end and a cover body 69 provided on the other end side of the valve body 62. A spring 70 for moving the shaft 66 to one end is provided.
[0043]
On the outward side of the valve main body 62, a receiving path 71 that connects the supply hole portion 54 and the receiving valve chamber 63 is formed, and an accumulation-side exhaust path 72A that communicates with the accumulation-side supply valve chamber 64A. And a brake-side exhaust passage 72B communicating with the brake-side supply valve chamber 64B. Further, on the inward side of the valve body 62, an accumulation side supply path 73A communicating with the accumulation side supply valve chamber 64A and a brake side supply path 73B communicating with the brake side supply valve chamber 64B are formed separately. ing.
[0044]
When the solenoid 68 is off, the valve shaft 66 is moved to one end by the urging force of the spring 70, and the valve body 67A acts on the valve seat 65A when the solenoid 68 is off, as shown in FIGS. Thus, the receiving passage 71 and the brake-side supply passage 73B are configured to communicate with each other via the brake-side supply valve chamber 64B. When the solenoid 68 is turned on, the switching valve 61 moves the valve shaft 66 to the other end against the urging force of the spring 70, as shown in FIG. 8, so that the valve body 67B acts on the valve seat 65B. Thus, the receiving passage 71 and the accumulation-side supply passage 73A are configured to communicate with each other via the accumulation-side supply valve chamber 64A.
[0045]
The solenoid 68 is provided with a manual operation section 74, and the operation through section 28 is formed at a position corresponding to the manual operation section 74. The electric wiring 75 from the solenoid 68 is locked by the locking portion 57, and a solenoid-side socket 76 is provided at a free end of the electric wiring 75. Note that members 77A and 77B for silencing and dust removal are provided outside the exhaust paths 72A and 72B. The valve body 62, the solenoid 68, and the cover body 69 are integrated by a bolt 78 or the like. An example of the switching valve 61 is configured by the above 62 to 78 and the like.
[0046]
The main body 82 of the joint body 81 has a rectangular block shape, and includes a first receiving path 83A that can communicate with an accumulation side supply path (an example of one supply path) 73A, and a brake side supply path (an example of the other supply path). ) And a second receiving path 83B that can communicate with 73B is formed in parallel. The inner parts of the receiving paths 83A and 83B are not open, and the inner part of the first receiving path 83A is branched and communicated with the first distribution path 84A, and the inner part of the second receiving path 83B is connected to the second distribution path. 84B.
[0047]
Here, the distribution paths 84A and 84B are formed in a through-hole shape that is oriented along the conveyor transport path 9 when the distribution paths 84A and 84B are attached to the unit base 20. It will be forked. Further, the distribution paths 84A and 84B are formed with a phase shifted in the conveyor width direction. One round projection (an example of a portion to be positioned) 85 that can be fitted into the inner round hole 25 from above is provided on each of the upper and lower outer surfaces of the main body 82 of the joint body 81. I have. An example of the joint body 81 is configured by the above 82 to 85 and the like.
[0048]
The receiving body 51, the switching valve 61, and the joint body 81 having the above-described configuration are integrated by a bolt-type connecting member 88 that is inserted into the switching valve 61 from the joint body 81 and then screwed to the receiving body 51 side. ing. At this time, the joint body 81 is displaced by 180 degrees so that the receiving body 51 and the switching valve 61 can be integrated with the connecting member 88. An example of the valve unit 50 is configured by the above 51 to 88 and the like.
[0049]
A pair of first distribution passages 84A in the joint body 81 and a pair of air actuators 33 in the accumulation unit 30 are connected to each other via an accumulation-side tube (an example of a communication body) 100A. A pair of second distribution passages 84B in the joint body 81 and a pair of air actuators 43 on the brake unit 40 side are connected to each other via a brake-side tube (an example of a communication body) 100B.
[0050]
At that time, as described above, the second distribution path 84B is located on the brake unit 40 side with respect to the first distribution path 84A, and the distance l between the pair of air actuators 43 in the brake unit 40 is equal to the pair of air actuators 43 in the accumulation unit 30. Is set to be smaller than the distance L between the air actuators 33, the accumulation side tube 100A and the brake side tube 100B are in a state where both the brake side tubes 100B are located inside both the accumulation side tubes 100A. Therefore, they are arranged without overlapping each other.
[0051]
Each zone Z ₁ ~ Z _n Is provided with a photoelectric tube type presence detection means 105. The detection signals from the presence detection means 105 are connected to the terminal block 107 of the control unit 106. The electric wiring 108 from the terminal block 107 side is connected to the electric wiring 75 on the switching valve 61 side by inserting the control-side socket 109 provided at the end thereof into the solenoid-side socket 76.
[0052]
Thereby, by inputting the detection signal of the presence detection means 105 to the control unit 106, the switching valve 61 is switched via the control unit 106 based on the detection of the presence detection means 105. I have. Each zone Z ₁ ~ Z _n The arrangement position of the load detection means 105 in the direction of the conveyor conveyance path 9 in the above is appropriately set according to the coasting of the conveyed articles or the like, and is appropriately changed.
[0053]
In the direction along the conveyor conveyance path 9, the through holes 53 of the receiving bodies 51 in the adjacent valve units 50 are connected via main supply pipes 110. Thereby, the main supply path of the pressurized air A is formed in a straight line (series). One of the open ends of the main supply path is connected to an air supply source (not shown) for supplying the pressurized air A, and the other is closed.
[0054]
With the above configuration, each zone Z ₁ ~ Z _n The valve unit 50 is provided inside the electric wiring region D where the outermost electric wiring region D where the electric wiring 108 is disposed, and the receiving body 51 and the main supply pipe 110 are disposed. The air supply region E and the output region F in which the switching valve 61 and the joint body 81 are disposed and located inside the air supply region E are arranged in alignment.
[0055]
Hereinafter, an assembling operation in the roller conveyor facility 1 will be described.
First, the connecting member 88 is inserted from the joint body 81 to the switching valve 61 and then screwed to the receiving body 51 side, so that the receiving body 51, the switching valve 61 and the joint body 81 are connected as shown in FIGS. Can be easily integrated via the connecting member 88 to form the valve unit 50.
[0056]
Next, in a state in which the two locked pieces 56 on the valve unit 50 side are opposed to the rectangular holes 26 on the unit base 20 from above, that is, the guiding inclined surfaces 56a are placed on the edges 26a forming the rectangular holes 26 upward. In this state, the valve unit 50 is pushed in (down). As a result, the locked pieces 56 are elastically deformed in a direction approaching each other by the guide inclined surface 56a being guided by the edge 26a, and are elastically restored by the guide inclined surface 56a getting over the edge 26a. As a result, an elastic engagement posture in which the locking surface 56b faces the lower surface of the edge 26a is achieved. During such an operation, the round projections 55 and 85 on the valve unit 50 side are fitted into the outer round hole 27 and the inner round hole 25 on the unit base 20 side from above.
[0057]
In this manner, the valve unit 50 can be attached to the unit base 20. At this time, the valve unit 50 formed by integrating the receiving body 51, the switching valve 61, and the joint body 81 performs a large number of stop screw operations. Without the need, it can be easily and quickly mounted by one-touch operation from above, and the workability can be improved. The mounting posture is such that the locked piece 56 is elastically engaged with the edge 26a on the side of the rectangular hole 26 so as not to come off and the round projections 55 and 85 are fitted into the round holes 27 and 25. , And can always be suitably maintained.
[0058]
After attaching the valve unit 50 to the unit base 20 as described above, piping and wiring are performed in an arbitrary order. That is, as shown in FIGS. 3 and 7, the pair of first distribution passages 84A in the joint body 81 and the pair of air actuators 33 in the accumulation unit 30 are connected via the accumulation-side tube 100A, respectively. The second distribution path 84B is connected to the pair of air actuators 43 on the brake unit 40 side via the brake-side tubes 100B.
[0059]
At this time, the accumulation-side tube 100A and the brake-side tube 100B can be arranged neatly and neatly without overlapping (intersecting) with each other because the brake-side tubes 100B can be positioned inside the accumulation-side tubes 100A. It can be installed at a low cost by shortening the use length (at the shortest).
[0060]
The connection between the through holes 53 of the receiving bodies 51 in the adjacent valve units 50 is connected via the main supply pipe 110. This makes it possible to form the main supply path of the pressurized air A linearly in the direction along the conveyor conveyance path 9 and orderly.
[0061]
By locking the electric wiring 75 from the solenoid 68 to the locking portion 57, the electric wiring 75 can be set at a fixed position to prevent the electric wiring 75 from being disturbed by vibration or the like, and the solenoid-side socket 76 can be fixed at a fixed position. That is, it may be located outside the linear position of the main supply pipe 110. Accordingly, the electric wiring 108 from the terminal block 107 side of the control unit 106 is connected to the solenoid socket 76 by inserting the control socket 109 provided at the end thereof outside the linear position of the main supply pipe 110. Can be wired neatly.
[0062]
As described above, the mounting of the valve unit 50 to the unit base 20 and the piping and wiring can be easily and quickly performed by operations from above. Thereafter, by assembling the rollers 6 and the like, the assembly of the roller conveyor equipment 1 is completed. The removal of the valve unit 50 and the like can be performed by the reverse operation.
[0063]
Adjustment of the switching valve 61 after assembly in this manner, that is, adjustment of the solenoid 68 and the like, is performed by operating the manual operation unit 74 through the operation through portion 28 from the back surface (lower surface) of the unit base 20. This can be easily and quickly performed without removing the roller 6 or removing the valve unit 50 from the unit base 20.
[0064]
With the above-described assembly configuration, each zone Z ₁ ~ Z _n Of the valve units 50 provided in the order from the outside to the inside include an electric wiring area D where the electric wiring 108 is arranged, an air supply area E including the receiving body 51, a switching valve 61 and a joint body 81. It can be arranged in alignment with the output area F, so that the whole can be easily viewed and maintenance can be easily performed.
[0065]
Next, a basic operation at the time of operation of the roller conveyor equipment 1 will be described.
In the roller conveyor equipment 1, the endless rotating body 18 can be rotated by driving the motor 13 in the conveyor driving means 10. At this time, the endless rotating body 18 is supported and guided by the upper guide wheels 34 of each accumulation unit 30 in the action path portion between the reversing guide wheels 15, and the lower guide wheels 17 in the return path 19. While passing through between the connection frame 4 and the unit base 20 while being supported and guided by the.
[0066]
When the endless rotating body 18 is rotated in this manner, the air actuator 33 of the accumulation unit 30 is extended and the lifting frame 32 is raised, whereby the endless rotating body 18 is raised by the upper guide wheel body 34 group. Thus, the roller 6 can be brought into contact with the group of rollers 6 from below. Thereby, the roller 6 group can be driven and rotated by the endless rotating body 18, so that the articles (folding container, container, cardboard, etc.) supported by the roller 6 group can be transported on the conveyor transport path 9.
[0067]
Further, by moving the air actuator 33 of the accumulation unit 30 to contract and lower the elevating frame 32, the endless rotating body 18 can be separated downward from the roller 6 group by the lowering of the upper guide wheel body group 34. At this time, the air actuator 43 of the brake unit 40, which reversibly moves up and down with the air actuator 33 of the accumulation unit 30, is extended to raise the lifting body 42, so that the brake member 44 is moved to the roller 6 group. It can abut from below. As a result, a braking force is applied to the roller group 6 that has been idle due to the separation of the endless rotating body 18, whereby the rotation of the roller group 6 is stopped, and the conveyance of the article can be stopped.
[0068]
Then, the article is conveyed while the accumulation unit 30 is actuated, so that the zone Z at the tip end (downstream) is moved. ₁ Can pay out (delivery) the goods from. Further, by repeating the article conveyance by operating the accumulation unit 30 and the article stop by operating the brake unit 40, each zone Z on the conveyor conveyance path 9 is repeated. ₁ ~ Z _n The article can be intermittently transported (progressively transported) over the interval, and as described above, the zone Z ₁ , The goods can be paid out sequentially.
[0069]
Next, each zone Z ₁ ~ Z _n The reversible operation of the accumulation unit 30 and the brake unit 40 based on the operation of the presence detection means 105 will be described. That is, for example, when there is no article in the conveyor transport path 9, the presence detection means 105 does not detect and does not input a detection signal to the control unit 106 side. At this time, power is supplied from the control unit 106 side to the solenoid 68 of the switching valve 61 in each valve unit 50 via the electric wires 108 and 75. Accordingly, in each valve unit 50, the solenoid 68 of the switching valve 61 is turned on, and as shown in FIG. 8, the valve shaft 66 is moved to the other end side against the urging force of the spring 70, and the valve body 67B is moved. By acting on the valve seat 65B to shut off the brake-side supply valve chamber 64B, the receiving path 71 and the accumulation-side supply path 73A are communicated via the accumulation-side supply valve chamber 64A.
[0070]
Therefore, the pressurized air A reaching the through hole 53 of the receiving body 51 via the main supply pipe 110 is supplied to the supply hole 54, the receiving path 71, the accumulation side supply valve chamber 64A, the accumulation side supply path 73A, 1 and flows into the two air actuators 33 of the accumulator unit 30 via the pair of front and rear first distribution paths 84A and the accumulation side tube 100A, thereby causing the air actuators 33 to extend and move. The rollers 6 are driven and rotated by the rotating body 18 so that the articles can be conveyed on the conveyor conveyance path 9.
[0071]
The pressurized air A in both the air actuators 43 of the brake unit 40 flows back through the brake side tube 100B, the second distribution path 84B, the second receiving path 83B, the brake side supply path 73B, and the brake side supply valve chamber 64B. After that, it can be discharged from the brake-side exhaust passage 72B. At this time, noise is eliminated and dust is removed by passing through the member 77B.
[0072]
Thereby, the zone Z at the upstream end _n The goods supplied to each zone Z _n ~ Z ₁ Can be sequentially conveyed. At that time, each zone Z _n ~ Z ₂ Detects the article by the presence detection means 105 in the zone Z. At this time, the detected zone Z _n ~ Z ₂ Downstream zone Z adjacent to _n-1 ~ Z ₁ Is in a non-detection state, even if the detection signal enters the control unit 106 side, the zone Z downstream from the control unit 106 side _n-1 ~ Z ₁ The power supply to the solenoid 68 of the switching valve 61 in each of the valve units 50 can be continued. Therefore, each zone Z _n ~ Z ₂ In the valve unit 50, the on state of the solenoid 68 in the switching valve 61 can be maintained.
[0073]
The article conveyed as described above is in the zone Z at the downstream end. ₁ , For example, when the article is stopped by stopper means (not shown), the article is moved to the downstream end zone Z. ₁ And a detection signal is input to the control unit 106 side. At this time, the zone Z at the downstream end from the control unit 106 side ₁ The power supply to the solenoid 68 of the switching valve 61 in the valve unit 50 corresponding to the above is stopped.
[0074]
As a result, the downstream end zone Z ₁ In the valve unit 50, the solenoid 68 of the switching valve 61 is turned off, and as shown in FIGS. 7 and 9, the urging force of the spring 70 moves the valve shaft 66 to one end side (switching movement), and the valve body 67A Act on the valve seat 65A to shut off the accumulation side supply valve chamber 64A, and connect the receiving path 71 and the brake side supply path 73B via the brake side supply valve chamber 64B.
[0075]
As a result, the pressurized air A to the air actuator 33 of the accumulation unit 30 is shut off, and the air actuator 33 is contracted and moved, whereby the endless rotating body 18 can be moved downward with respect to the roller 6 group. .
[0076]
At the same time, the pressurized air A reaching the through-hole 53 of the receiving body 51 via the main supply pipe 110 is supplied to the supply hole 54, the receiving path 71, the brake-side supply valve chamber 64B, and the brake-side supply path 73B. Then, the air actuator 43 is caused to flow through the second receiving path 83B, and then flows into the two air actuators 43 of the brake unit 40 through the pair of front and rear second distribution paths 84B and the brake-side tube 100B to extend the air actuators 43. As a result, the brake member 44 is brought into contact with the group of rollers 6 from below, and the rotation is stopped by applying a braking force to the group of rollers 6 that have been idle due to the separation of the endless rotating body 18, thereby conveying the article. And stop zone Z at the downstream end ₁ May be located.
[0077]
In such a state, the next article is one zone Z upstream. ₂ Is moved to the adjacent downstream zone Z ₁ Is in the detection state, and the detection signal is on the control unit 106 side. ₂ When the detection signal from the presence detection means 105 enters the control unit 106 side, the zone Z one upstream from the control unit 106 side ₂ The power supply to the solenoid 68 of the switching valve 61 in the valve unit 50 is stopped.
[0078]
Therefore, this one zone upstream Z ₂ Of the valve unit 50 at the downstream end zone Z ₁ In the same manner as above, and conveys the conveyed articles one zone Z upstream. ₂ May stop. The articles conveyed one after another are sequentially moved to the upstream zone Z in the same manner as described above. ₃ ~ Z _n May stop.
[0079]
Next, as described above, each zone Z ₁ ~ Z _n The operation of sequentially paying out the stopped articles (storage) will be described.
First, the zone Z at the downstream end ₁ The switching valve 61 of the valve unit 50 provided in the above is switched by the payout signal. As a result, the supply of the pressurized air A to the air actuator 43 of the brake unit 40 is cut off, and the pressurized air A flows into the air actuator 33 of the accumulation unit 30. You can pay out by giving power.
[0080]
By this payout, the zone Z at the downstream end ₁ Is not detected, and the detection signal is not input to the control unit 106 side. Therefore, the zone Z one zone upstream from the control unit 106 side. ₂ Is supplied to the solenoid 68 of the switching valve 61 in the valve unit 50 of FIG.
[0081]
As a result, one zone Z upstream ₂ 8, the solenoid 68 of the switching valve 61 in the valve unit 50 is turned on, and as shown in FIG. 8, the brake-side supply valve chamber 64B is shut off and the accumulation-side supply valve chamber 64A is communicated. Therefore, one zone Z upstream ₂ The two air actuators 33 are extended, and the roller 6 group is driven and rotated by the endless rotating body 18.
[0082]
As a result, one zone Z upstream ₂ Is in a state where articles can be conveyed, so that articles can be conveyed to zone Z at the downstream end. ₁ Transport to And zone Z at the downstream end ₁ In the same manner as described above, the article carried into ₁ Can stop at. As a result, one zone Z upstream ₂ Is not detected, and the subsequent operations are the same as described above. That is, each zone Z ₂ ~ Z _n To the zone Z one zone downstream ₁ ~ Z _n-1 Can be transported forward. By the above operation, the articles stopped on the conveyor transport path 9 can be sequentially paid out.
[0083]
Next, another embodiment of the present invention will be described with reference to FIGS. That is, the valve unit 50 is configured such that the joint body 81 is displaced by 180 degrees from the above-described embodiment (see FIGS. 3 and 7) and can be integrated with the receiving body 51 and the switching valve 61 by the connecting member 88. ing.
[0084]
Here, in the accumulation unit 30 and the brake unit 40, the interval LL between the pair of air actuators 43 in the brake unit 40 is larger than the interval L between the pair of air actuators 33 in the accumulation unit 30, that is, L <LL. Thus, when viewed along the conveyor transport path 9, the air actuator 43 of the brake unit 40 is located outside the air actuator 33 of the accumulation unit 30.
[0085]
Then, in the valve unit 50, the joint body 81 is displaced by 180 degrees so that the second receiving path 83B communicates with the accumulation side supply path (an example of one supply path) 73A and the brake side supply path (the other supply path). Example of Road) A first receiving path 83A communicates with 73B. In such a communication state, the receiving body 51, the switching valve 61, and the joint body 81 are connected to each other by the bolt-type connecting member 88 which is inserted from the joint body 81 to the switching valve 61 and then screwed to the receiving body 51 side. It is integrated.
[0086]
A pair of first distribution passages 84A in the joint body 81 and a pair of air actuators 43 on the brake unit 40 side are connected to each other via a brake-side tube (an example of a communication body) 100B. The pair of second distribution passages 84B in the joint body 81 and the pair of air actuators 33 in the accumulation unit 30 are connected to each other via an accumulation-side tube (an example of a communication body) 100A.
[0087]
At this time, as described above, the second distribution path 84B is located on the brake unit 40 side with respect to the first distribution path 84A, and the distance LL between the pair of air actuators 43 in the brake unit 40 is equal to the pair of air actuators 43 in the accumulation unit 30. Is larger than the distance L between the air actuators 33, the accumulation tube 100A and the brake tube 100B are in a state where both accumulation tubes 100A are located inside both brake tubes 100B. Therefore, they are arranged without overlapping each other.
[0088]
Next, the flow of the pressurized air A in the above-described another embodiment will be described.
As shown in FIG. 11, when the solenoid 68 of the switching valve 61 in the valve unit 50 is off, the urging force of the spring 70 moves the valve shaft 66 to one end, causing the valve body 67A to act on the valve seat 65A and accumulate. The side supply valve chamber 64A is shut off, and the receiving path 71 and the brake side supply path 73B are communicated via the brake side supply valve chamber 64B.
[0089]
As a result, the pressurized air A to the air actuator 33 of the accumulation unit 30 can be shut off. At the same time, the pressurized air A reaching the through-hole 53 of the receiving body 51 via the main supply pipe 110 is supplied to the supply hole 54, the receiving path 71, the brake-side supply valve chamber 64B, and the brake-side supply path 73B. Then, the air actuator 43 can be made to flow through the first receiving path 83A, and flow into the two air actuators 43 of the brake unit 40 via the pair of front and rear first distribution paths 84A and the brake-side tube 100B, so that the air actuators 43 can be extended.
[0090]
Further, when the solenoid 68 of the switching valve 61 in the valve unit 50 is on, the valve shaft 66 is moved to the other end side against the urging force of the spring 70, and the valve body 67B is caused to act on the valve seat 65B so as to act on the brake side. The supply valve chamber 64B is shut off, and the receiving path 71 and the accumulation side supply path 73A are communicated via the accumulation side supply valve chamber 64A.
[0091]
As a result, the pressurized air A to the air actuator 43 of the brake unit 40 can be shut off. At the same time, the pressurized air A reaching the through hole 53 of the receiving body 51 via the main supply pipe 110 is supplied to the supply hole 54, the receiving path 71, the accumulation side supply valve chamber 64A, and the accumulation side supply path 73A. Then, the air flows into the two receiving passages 83B, and flows into the two air actuators 33 of the accumulation unit 30 via the pair of front and rear second distribution passages 84B and the accumulation side tube 100A to extend the air actuators 33.
[0092]
As described above, in the two postures in which the joint body 81 is displaced by 180 degrees, by integrating the receiving body 51 and the switching valve 61 with the connecting member 88, the first receiving path 83A and the second receiving path are connected to one supply path 73A. By connecting any one of the passage 83B and the other supply passage 73B to one of the second reception passage 83B and the first reception passage 83A, the accumulation unit 30 and the brake unit 40 Regardless of the arrangement (spacing) of the air actuators 33 and 43, the accumulation-side tube 100A and the brake-side tube 100B can be always arranged neatly and beautifully without overlapping (intersecting) with each other. It can be shortened (as short as possible) and installed cheaply.
[0093]
In the above-described embodiment, the communication body, the main supply pipe 110, and the like may be made of metal, resin, rubber, or the like, or may be a combination thereof.
In the above-described embodiment, the type in which the valve unit 50 is mounted on the unit base 20 by one-touch operation is shown, but this is the case in which the valve unit 50 is mounted on the unit base 20 by a set screw type or the like. The format may be used.
[0094]
In the above-described embodiment, as the valve unit 50, the receiving body 51, the switching valve 61, and the joint body 81 are shown as being integrated via the connecting member 88. Some or all of the valve 61 and the joint body 81 may be separated and attached to the unit base 20.
[0095]
In the above-described embodiment, the solenoid valve type is shown as the switching valve 61, but this may be a mechanically operated type.
In the above-described embodiment, a photoelectric tube type is shown as the presence detection means 105, but this may be a contact type using a sensing roller.
[0096]
In the above-described embodiment, the type in which the air actuator 33 is used as the accumulation-side actuator and the air actuator 43 is used as the brake-side actuator is shown, but this may be an actuator using hydraulic pressure.
[0097]
In the above-described embodiment, the air actuator 33 on the accumulation side and the air actuator 43 on the brake side have a pair of front and rear sides along the conveyor transport path 9, respectively. The format may be used.
[0098]
In the above-described embodiment, the type in which the accumulation-side tube 100A and the brake-side tube 100B are arranged without overlapping each other is shown.
[0099]
In the above-described embodiment, as the valve unit 50, the type in which the joint body 81 is displaced by 180 degrees and can be integrated with the receiving body 51 and the switching valve 61 by the connecting member 88 is shown. It may not be possible, but may be a form that is integrated in a fixed posture.
[0100]
【The invention's effect】
According to the first aspect of the present invention, by operating the valve unit via the control unit upon detection of the presence detection means, the brake unit and the accumulation unit act reversibly on the roller group. In addition, the transport of articles between the zones can be performed smoothly and reliably. By performing such an operation for each zone, the articles stopped in each zone can be sequentially transported to the zone one downstream downstream, so that the articles can be sequentially paid out. And, the attachment of the valve unit to the unit base can be easily and quickly performed only by work from above.
[0101]
According to the second aspect of the present invention, the valve unit can be configured by easily integrating the receiving body, the switching valve, and the joint body via the connecting member.
According to the third aspect of the present invention, the switching valve can be switched by performing power supply and power supply stop via the control unit based on the detection of the presence detection means.
[0102]
Further, according to the fourth aspect of the present invention, after the article is detected by the non-contact type presence detecting means, the detection signal can be input to the control unit.
[0103]
Further, according to the fifth aspect of the present invention, by switching the switching valve to the brake side, the working fluid reaching the receiving body via the main supply pipe can be transferred from the brake-side supply path to the first receiving path ( Alternatively, the actuator can be caused to flow to the second receiving path) and to flow into the actuator of the brake unit through the pair of front and rear first distribution paths (or second distribution paths) and the communication body, so that these actuators can abut. By switching the switching valve to the accumulation side, the working fluid reaching the receiving body via the main supply pipe is caused to flow from the accumulation side supply path to the second reception path (or the first reception path). Then, the actuator can be connected and moved by flowing into the actuators of the accumulation unit through the pair of front and rear second distribution paths (or first distribution paths) and the communication body.
[0104]
According to the sixth aspect of the present invention, the two communication bodies connected to the accumulator-side actuator and the two communication bodies connected to the brake-side actuator are arranged neatly and neatly without overlapping (intersecting) each other. It can be installed at a low cost by shortening the use length (as short as possible).
[0105]
According to the seventh aspect of the present invention, the accumulator-side communication body and the brake-side communication body always overlap (intersect) each other irrespective of the arrangement (interval) of the actuator in the accumulation unit or the brake unit. In addition, it can be arranged neatly and with good appearance, and can be arranged inexpensively by shortening the use length (as short as possible).
[Brief description of the drawings]
FIG. 1 is a partially cutaway plan view of a roller conveyor equipment, showing an embodiment of the present invention.
FIG. 2 is a partially cutaway side view of the roller conveyor equipment.
FIG. 3 is a partially cutaway plan view of a main part of the roller conveyor equipment.
FIG. 4 is a vertical sectional front view of the roller conveyor equipment.
FIG. 5 is a perspective view seen from above a valve unit in the roller conveyor equipment.
FIG. 6 is a perspective view seen from below a valve unit in the roller conveyor equipment.
FIG. 7 is a cross-sectional plan view of the valve unit in the brake state of the roller conveyor equipment.
FIG. 8 is a cross-sectional plan view of the valve unit in the accumulating state of the roller conveyor equipment.
FIG. 9 is a cross-sectional plan view of a main part of a valve unit in the roller conveyor equipment.
FIG. 10 shows another embodiment of the present invention, and is a partially cutaway plan view of a main part of a roller conveyor facility.
FIG. 11 is a cross-sectional plan view of the valve unit in the brake state of the roller conveyor equipment.
[Explanation of symbols]
1. Roller conveyor equipment
2 Frame body
6 rollers
9 Conveyor transport route
10 Conveyor driving means
13 Motor
18 Endless rotating body
20 unit base
21 Horizontal plate
22 vertical plate
25 Inside round hole (positioning part)
26 rectangular hole (locking part)
26a edge
27 Outer round hole (positioning part)
28 Operation penetration
30 Accumulation unit
31 Elevating guide means
32 lifting frame
33 Air Actuator
34 Upper guide wheel
40 brake unit
41 Elevating guide means
42 lifting body
43 Air Actuator
44 Brake member
50 valve unit
51 Acceptor
52 body
53 Through hole
54 Supply hole
55 Round protrusion (positioned part)
56 Locked piece (locked portion)
57 Locking part
61 Switching valve
62 Valve body
63 receiving valve room
64A Accumulation side supply valve chamber
64B Brake side supply valve chamber
66 stem
68 solenoid
70 spring
71 Reception Road
72A Accumulated exhaust path
72B Brake side exhaust path
73A Accumulation side supply path
73B Brake side supply path
74 Manual operation unit
75 Electrical Wiring
81 Joint body
82 body
83A first receiving road
83B 2nd reception route
84A First distribution path
84B Second distribution path
85 Round protrusion (positioned part)
88 Connector
100A accumulation side tube (communication body)
100B Brake side tube (communication body)
105 means for detecting presence
106 control unit
107 terminal block
108 Electric wiring
110 Main supply piping
A Pressurized air (working fluid)
L Spacing of air actuator 33
l Spacing of air actuator 43
LL Interval of air actuator 43
Z ₁ ~ Z _n zone
D Electric wiring area
E Supply area
F output area

Claims (7)

A roller conveyor device for transporting articles between a plurality of zones, wherein a number of rollers and a unit base located below a roller group are provided on a frame main body side, and each zone includes the unit An accumulator unit located on the base for causing the conveyor drive means to contact / disengage the roller group; a brake unit for abutting / separating the roller group; and reversibly connecting the accumulator unit and the brake unit to each other. And a valve unit for operating the valve unit, wherein each zone is provided with a load detection means connected to a control unit for operating the valve unit. The valve unit includes a receiving body connected to the main supply pipe of the working fluid, a switching valve for reversibly supplying the working fluid from the receiving body to the accumulation unit side and the brake unit side, and an operation from the switching valve. 2. The roller conveyor equipment according to claim 1, wherein the joint body for supplying and supplying the fluid to the accumulation unit side and the brake unit side is integrated by a coupling tool. 3. The roller conveyor equipment according to claim 2, wherein the switching valve is of a solenoid valve type, and is switched by a control unit based on detection of the presence detecting means. 4. The roller conveyor equipment according to claim 2, wherein the presence detecting means is a photoelectric tube type, and the detection signal is input to the control unit. Each of the accumulator unit and the brake unit is provided with a plurality of actuators that perform a disconnection operation or an abutment / separation operation, and the switching valve is formed with an accumulation-side supply passage and a brake-side supply passage. A first receiving path that can communicate with the supply path and a second receiving path that can communicate with the other supply path are formed, and the first receiving path and the first receiving path that are respectively branched into a plurality from the second receiving path. A distribution path and a second distribution path are formed, and the first distribution path or the second distribution path is connected to the accumulation-side actuator or the brake-side actuator via a communication body. The roller conveyor equipment according to claim 2. The accumulator-side actuator and the brake-side actuator are each paired forward and backward along the conveyor transport path, and the first distribution path and the second distribution path are paired forward and backward along the conveyor transport path, respectively, and in the conveyor width direction. 6. The roller conveyor equipment according to claim 5, wherein the communication bodies are arranged without being overlapped with each other. The valve unit is configured such that the joint body is displaced by 180 degrees and can be integrated with the receiving body and the switching valve by the connecting tool. In the two postures in which the joint body is displaced, the first receiving path and the second receiving path are connected to one supply path. The second receiving path is connected to one of the second receiving path and the other receiving path is connected to one of the second receiving path and the first receiving path. 6. The roller conveyor equipment according to 6.

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