JPH032512Y2 - - Google Patents

Description

[Detailed Description of the Invention] Industrial Application Field The present invention relates to an improvement in a bucket lift that supplies a fixed amount of powdered raw material to a bucket provided to carry the powder on a chain.

BACKGROUND ART Conventionally, a bucket lift has been used as a conveying device for supplying a certain amount of powdered raw material. There are various shapes of this bucket lift, such as S-shaped, U-shaped, loop type, and modified loop type.When feeding raw materials into the bucket from the inlet, no matter which type is used, when the raw material is fed into the bucket from the inlet, the powder or granular raw material is In order to prevent spillage from the bucket, there are ideas such as using a bucket with a wrap flange and the one described in Japanese Utility Model Application Publication No. 43624/1983.

Problems to be Solved by the Invention Even if a bucket having a lap flange is used as described above, the granular raw material on the flange portion may spill or spill due to vibration during transportation. Furthermore, the presence of the wrap flange portion complicates the conveyance mechanism and increases the incidence of failure. Also, Utsukai Showa 60-43624
In the case of the device described in the publication, the problem is that due to the difference in falling speed due to the particle size and density difference of the powdered raw material, the raw material spills from the gap between the buckets, causing variations in the supply amount of a certain amount and lack of reliability. There is.

Problems to be Solved by the Invention The present invention has been made to solve the above-mentioned problems. A raw material 5 input hopper 6 having a discharge port 4 on the lower side, a chain foil 8 rotatably supported on a bucket drive shaft 7, and a chain 11 for a bucket provided to carry a bucket 10 are attached to a chain foil 8 for the bucket and a chain foil 9 for the bucket for the bucket. The chain wheel 9 is provided to engage with the chain wheel 9, and the rotary valve driving chain wheel 2 and the chain wheel 8 are both connected by a rotary valve driving chain 12 to form a bucket lift and a lower part of the outlet 4 of the raw material 5 input port hopper 6. A collection chute 13 is provided via a bucket 10, and a fixed chute 14 and a discharge gate 15 are attached to the lower end of the collection chute 13, and a joint bar 16 and a cam lever 17 for the discharge gate are connected to the other end of the cam support shaft 1 via fulcrums 16, 16'.
Cam drive chain wheel 19 and cam 2 pivotally supported by 8
The present invention provides a recovery chute for a bucket trift in which a conveyance mechanism is provided in which the chain wheel 8 and the cam drive chain wheel 19 are interlocked with each other by a chain 21 and covered with a casing 22. The feeding mechanism for the powder raw material as used in the present invention is not limited to the rotary valve type, and other methods may be used.

Function The present invention has the above-mentioned configuration, in which a certain amount of the powder raw material 5 stored in the input hopper 6 is supplied to the bucket 10 by the rotary valve 3, and then conveyed through the bucket chain 11. However, powder and granular materials that spill due to gaps between the buckets and vibrations during transportation are once collected in the collection chute provided at the bottom, and then transferred to the joint bar 16 via the discharge gate 15 and the fulcrums 16 and 16'. By engaging the cam 20 with a cam drive chain wheel 19 whose end of the discharge gate cam lever 17 is pivotally supported on the cam support shaft 18, and by providing both the chain wheel 8 and the cam drive chain wheel 19 to be interlocked by the chain 21, the cam 20 and Discharge gate cam lever 17 Due to other actions, discharge gate 15
Since it has the effect of opening the pipe and discharging the collected granular raw material, it has the effect of completely preventing the raw material from spilling and scattering to other places.

Examples Examples of the present invention will be described below. Using an S-type bucket lift, the transportation capacity is 6t/
h, conveying speed of powder raw material with apparent specific gravity 0.4
It was transported at a speed of 2.8m/min. In this conveyance state, the powder raw material collected in the collection chute reached 0.1%. The recovered powder raw material is appropriately discharged to a fixed location by the action of a chain wheel, a cam interlocked with the cam drive chain wheel, and a cam lever for the discharge gate, so that variations in the amount of supply are greatly reduced.
In addition, the spillage and scattering of powder raw materials has been eliminated, and the failure rate of bucket lifts has been reduced.

Effects of the Invention As described above, the present invention solves the problem of spillage of powdered raw materials and at the same time simplifies the conveyance mechanism, thereby greatly reducing the failure rate. Furthermore, since the variation in the amount of raw material supplied is reduced, it is expected that the reliability will be improved in terms of quality control as well.

[Brief explanation of the drawing]

FIG. 1 is a front view of a bucket lift according to the present invention, and FIG. 2 is a sectional view taken along line A-A' in the figure. In the diagram, 1... rotary valve input shaft, 2...
Chain foil for rotary valve drive, 3...Rotary valve, 4...Discharge port, 5...Raw material, 6
... Input hopper, 7 ... Bucket drive shaft, 8
...Chain foil, 9...Chain foil for bucket, 10...Bucket, 11...Chain for bucket, 12...Rotary valve drive chain, 13
...Recovery chute, 14...Fixed chute, 15
...Discharge gate, 16, 16'...Fully point, 17...
...Cam lever for discharge gate, 18...Cam support shaft, 19...Cam drive chain wheel, 20...Cam, 21...Chain.

Claims (1)

[Scope of utility model registration request] A rotary valve drive chain wheel 2 pivotally supported on a rotary valve input shaft 1, a raw material 5 input port hopper 6 having a discharge port 4 at the bottom provided to accommodate the rotary valve 3, and a bucket drive shaft 7
A chain wheel 8 is pivotally supported by a chain wheel 8, a chain wheel 11 for a bucket wheel 9 is provided to carry a bucket wheel 10, and a chain wheel 11 for a bucket wheel 8 is provided to engage with the chain wheel 9 for driving a rotary valve. A bucket lift is formed by linking both of them with a rotary valve drive chain 12, and a recovery chute 13 is provided at the bottom of the discharge port 4 of the raw material 5 input port hopper 6 via a bucket 10, and the bottom end of the recovery chute 13 is The fixed chute 14 and the discharge gate 15 are connected to the fulcrum 16,1
A cam 20 is provided in engagement with a cam drive chain wheel 19 in which the ends of the joint bar 16 and the discharge gate cam lever 17 are pivotally supported on a cam support shaft 18 via the joint bar 16', and both the chain wheel 8 and the cam drive chain wheel 19 are connected to the chain 21. A bucket lift that is characterized by being designed to be linked with the .