JPH0130713B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention particularly relates to a feeding device with flow rate adjustment that adjusts the flow rate of granular materials such as grains and supplies them onto a belt conveyor or the like. .

Conventional technology Conventional feeding devices for feeding granular materials such as grain onto a belt conveyor, etc. have either simply provided a hopper at the outlet of a grain tank, or have provided a hopper with a valve at the outlet of a grain tank. There are known devices in which the flow rate of grains can be adjusted.

In addition, the weight of the weight rotates the adjustment plate to close the supply port, and the rotation of the adjustment screw adjusts the opening limit of the adjustment plate, that is, the amount of grain supplied that flows out from the supply port. This is known as Special Publication No. 52-7624.

Problems to be Solved by the Invention However, in conventional feeding devices, grains are dropped directly from a hopper or a hopper with a valve onto a belt conveyor, etc., so there is a risk that the grains may be scattered on the belt conveyor, etc. When grains fall from a hopper or a hopper with a valve onto a belt conveyor, dust is generated and pollutes the area around the belt conveyor, making it impossible to respond to increases and decreases in the flow rate of grains.

In addition, in the system described in Japanese Patent Publication No. 52-7624, a weight rod with a weight attached outside the supply port is attached to a rotating shaft to which an adjustment plate for adjusting the opening degree of the tank supply port is fixed, and a weight rod is attached inside the tank. When the number of grains reaches the minimum limit, the supply port is closed by rotating the rotating shaft using a weight, which is troublesome because it takes time and effort to attach the weight to the adjustment plate. Since the weight rod to which the weight is attached is located outside the supply port, if you touch the weight rod by mistake, the adjustment plate may rotate. It only adjusted the limits.

The object of the present invention is that when powder is introduced from the supply port, the powder accumulates on the bottom plate of the gate, and the two gates apply the biasing force of the weight according to the weight of the powder, that is, the flow rate. The gates are opened by rotating in a direction to separate from each other against the pressure, and the powder and granules are supplied from the opened gates onto a belt conveyor, etc., and the bottom plate of the opened gate guides the flow of the powder and granules. Powder and granules fed from the supply port do not fall directly onto the belt conveyor, etc., and there is no risk of the powder and granules scattering on the belt conveyor, preventing dust generation, and making it easier to attach the weight to the gate. It is easy to do this, and there is no need to accidentally touch the weights and open the gates.As soon as the powder or granules introduced from the supply port run out, the gates are immediately rotated toward each other by the biasing force of the weights. When the screw rod is moved in the axial direction, the stopper also moves along with the screw rod, and the gates move away from each other against the biasing force of the weights in response to the weight of the powder. Even if they rotate, the engaging bodies on the side plates of the two gates are simultaneously engaged with the stopper, and one stopper regulates the rotation of the two gates, thereby preventing the powder from being supplied from the gate to the top of the belt conveyor, etc. It is an object of the present invention to provide a supply device with flow rate adjustment capable of reliably adjusting the flow rate of granules using a stopper.

Means for Solving the Problems The supply device with flow rate adjustment of the present invention has two gates located below the opening supply port and close to each other.
A weight is provided on the bottom plate of the two gates to urge each gate in the closing direction, and a screw rod of the opening adjustment device is arranged in the vicinity of the supply port in the axial direction. a stopper is provided on the threaded rod of the opening adjustment device in a direction crossing the axial direction of the opening adjustment device so as to face the side plate of the gate;
The present invention is characterized in that engaging bodies that engage with the stoppers are provided on the side plates of each of the gates.

Embodiments Hereinafter, embodiments of the present invention will be described in detail based on the drawings.

In FIG. 1, 1 is a supply device, and a supply port 3 is provided in an upper plate 2 of the supply device 1 with an opening.
As shown in FIG. 2, on opposite edges of the supply port 3, guide plates 4, which are slightly inclined downward, are provided.
4, and below the supply port 3, two gates 8, 8 consisting of a bottom plate 6 and a side plate 7 are arranged so as to be rotatable in the directions of approaching and separating from each other. , 8 are provided with weights 10, 10 on the lower surfaces of the bottom plates 6, 6, which bias each gate 8, 8 in the closing direction toward the outer ends located in mutually opposite directions.
are provided respectively, and a belt conveyor 11 is provided below the two gates 8,8.

As shown in FIG. 3, on opposite side edges of the supply port 3, there are mounting plates 5, 5 hanging downward.
The side plates 7, 7 provided on both sides of the bottom plate 6 of the gate 8 are rotatably attached to the mounting plates 5, 5 via shafts 9, 9, and the side plates 7, 7 of the gate 8 are rotatably attached to the mounting plates 5, 5. 5 and 5, respectively.

The two gates 8, 8 are closed by a weight 10 with the joints of the inner edges of the bottom plates 6, 6 slanted slightly lower, as shown by solid lines in FIG. are balanced in a closed state with the shafts 9, 9 as fulcrums.

As shown in FIG. 3, a screw rod 13 of an opening adjustment device is provided near the supply port 3 of the top plate 2 so as to be movable in the axial direction. A threaded portion 15 is fixed to the upper surface of the upper plate 2 at a position corresponding to the insertion hole, and a threaded rod 13 is screwed onto the threaded portion 15.
An opening adjustment handle 12 is provided at the upper end of 3.
As shown in FIG. 4, a stopper 14 is provided at the lower end of the screw rod 13 in a direction intersecting the axial direction, facing one side plate 7 of the gate 8 and parallel to the upper plate 2.

When the opening adjustment handle 12 is rotated, the screw rod 13
is moved vertically along the threaded portion 15 together with the opening adjustment handle 12, and at the same time, the stopper 1
4 is also adapted to be moved in the vertical direction together with the screw rod 13.

Side plates 7, 7 on the screw rod 13 side of the two gates 8, 8
is an engagement pin 16,1 that engages with the stopper 14.
6 are provided to protrude laterally, respectively.

The opening adjustment device for the gate 8 is composed of an opening adjustment handle 12, a screw rod 13, a stopper 14, a threaded portion 15, and an engagement pin 16.

Next, the operation of this embodiment will be explained.

When grains are introduced through the supply port 3 of the upper plate 2, the grains are guided by the guide plate 4 and accumulate on the bottom plates 6, 6 of the two gates 8, 8, and the gates 8, 8 release the grains. Depending on the weight, the weight 1 is centered around the axes 9 and 9.
The inner edges of the bottom plates 6, 6 of the gates 8, 8 are separated, and the gates 8, 8 are rotated in the direction of the arrow in FIG. It is opened as shown by the dotted chain line, and the grains flow down onto the belt conveyor 11 through the gates 8,8.

At this time, if the amount of grains fed into the supply port 3 of the upper plate 2 is small, the weight of the grains added to the bottom plates 6, 6 of the gates 8, 8 will be small, and the gates 8, 8 will be It rotates slightly around the center to open it slightly, and a small amount of grain flows down onto the belt conveyor 11 through the gates 8,8.

If the amount of grains fed into the supply port 3 of the top plate 2 is large, the weight of the grains added to the bottom plates 6, 6 of the gates 8, 8 will be large, and the gates 8, 8 will be centered around the shafts 9, 9. It is rotated and opened wide, and a large amount of grains are flown down onto the belt conveyor 11 through the gates 8,8.

Then, all the grains fed into the supply port 3 of the upper plate 2 flow down onto the belt conveyor 11, and gates 8 and 8
When the weight of the grains is no longer applied to the bottom plates 6, 6 of
The gates 8, 8 are rotated about the shafts 9, 9 by the weight of the weights 10, 10, respectively, in the direction opposite to the arrow direction in the drawing of FIG.
The inner edges of the gates 8 and 8 are brought into close proximity, and the gates 8, 8 are closed as shown by solid lines in FIG.

When you want to convey grains little by little on the belt conveyor 11, rotate the opening adjustment handle 12 by hand so that the screw rod 13 moves along the threaded part 15 to adjust the opening adjustment handle 1.
At the same time, stopper 1 moves downward with 2.
4 is moved downward with the screw rod 13 so as to be away from the upper plate 2, the gates 8, 8 are moved around the shafts 9, 9 by the weight of the grains against the biasing force of the weights 10, 10, Even if the gates 8, 8 are rotated in the direction of the drawing arrow in the figure, the engagement pins 16, 16 of the side plates 7, 7 of the gates 8, 8 will engage with the stoppers 14, and the gates 8, 8 will open only slightly. is slightly opened, and the grains fed into the supply port 3 of the upper plate 2 pass through the gates 8 and 8 and are transferred little by little to the belt conveyor 1.
1 flows down.

When you want to convey a large amount of grain on the belt conveyor 11, rotate the opening adjustment handle 12 by hand so that the screw rod 13 moves along the threaded part 15.
At the same time, the stopper 14
If the gates 8, 8 are moved upward together with the screw rod 13 so as to approach the upper plate 2, the gates 8, 8 will be moved around the shafts 9, 9 by the weight of the grains against the biasing force of the weights 10, 10, as shown in FIG. When rotated in the direction of the arrow in the drawing, the gates 8, 8 are wide open and the gates 8, 8 are opened.
The engaging pins 16, 16 of the side plates 7, 8 engage with the stopper 14, the gates 8, 8 are wide open, and a large amount of grain flows down onto the belt conveyor 11 through the gates 8, 8.

Effects of the Invention As described above, according to the supply device with flow rate adjustment of the present invention, two gates are arranged below the opening supply port so as to be rotatable in the directions of approaching and separating from each other, By installing weights on the bottom plates of the two gates to bias each gate in the closing direction, when powder and granules are introduced from the supply port, the powder accumulates on the bottom plate of the gate, and the powder and granules are removed. According to the weight of the weight, that is, the flow rate, the two gates open the gates by rotating away from each other against the biasing force of the weights, so that the powder and granules are transferred from the opened gate onto the belt conveyor, etc. Moreover, since the bottom plate of the open gate guides the flow of powder and granules, the powder and granules introduced from the supply port do not fall directly onto the belt conveyor, etc.
There is no risk of powder particles scattering on the belt conveyor, etc., preventing the generation of dust, making it easy to attach the weight to the gate, and preventing the gate from accidentally touching the weight and opening it. As soon as the powder or granular material inputted from the supply port is used up, the gates are rotated toward each other by the biasing force of the weights, so that the gates can be reliably closed.

In addition, the screw rod of the opening adjustment device is provided near the supply port so as to be movable in the axial direction, and the screw rod of the opening adjustment device is provided with a stopper facing the side plate of the gate in a direction intersecting the axial direction. Since engaging bodies that engage with the stoppers are provided on the side plates of the gate, when the screw rod is moved in the axial direction, the stoppers also move together with the screw rod, and the gate resists the biasing force of the weight in response to the weight of the powder. Even if the two gates are rotated in the direction away from each other, the engaging bodies on the side plates of the two gates engage the stopper at the same time, so one stopper regulates the rotation of the two gates and the gates are moved away from each other. The stopper can reliably adjust the flow rate of the powder and granular material supplied onto the belt conveyor or the like.

[Brief explanation of drawings]

1 is a plan view of a supply device with flow rate adjustment according to an embodiment of the present invention, FIG. 2 is a sectional view taken along line AA in FIG. 1, and FIG. 3 is a sectional view taken along line BB in FIG. 1. 4 is a sectional view taken along line CC in FIG. 1. 1... Supply device, 2... Top plate, 3... Supply port,
4...Guide plate, 5...Mounting plate, 6...Bottom plate,
7...Side plate, 8...Gate, 9...Shaft, 10...
Weight, 11... Belt conveyor, 12... Opening adjustment handle, 13... Screw rod, 14... Stopper, 15... Threaded portion, 16... Engagement pin.

Claims (1)

[Claims] 1. Two gates are arranged below the supply port to be opened so as to be rotatable in directions approaching and separating from each other, and weights are provided on the bottom plates of the two gates to bias each gate in the closing direction. , a screw rod of an opening adjustment device is provided in the vicinity of the supply port so as to be movable in the axial direction, a stopper is provided on the screw rod of the opening adjustment device facing the side plate of the gate in a direction crossing the axial direction, A supply device with flow rate adjustment, characterized in that engaging bodies that engage with the stopper are provided on the side plates of two gates, respectively.