JPH03224648A - Dehydrator of bean sprouts - Google Patents

Abstract

PURPOSE:To smoothly discharge the dehydrated substance without enlarging the erection height of a machine and also forming a bridge of the substance by freely turnably attaching a chord part pivotally to the diameter part of the bottom part of a dehydration tank and forming the bottom plate of two sheets of semidisk. CONSTITUTION:When dehydration is completed after a dehydration tank 4 is rotated in a prescribed time, this tank 4 is rotated at low velocity and also a protrusion rod 30 is projected to the inside part by actuating a solenoid 31. Therefore, the protrusion rod 30 is allowed to abut against the lower end part of a hook 26 pivotally attached to the outside of the tank 4. Since the engaged piece 27 of a bottom plate 12 is detached from the engaging groove 26' of the hook 26, the bottom plate 12 of the tank 4 is opened and substance to be hydrated falls to the lower part and is discharged. Then, when discharge of the substance is finished, a ring 23 is lowered by rotation of a geared motor 16. The abutting piece 15 of a lever 14 is pushed down to the lower part and the bottom plate 12 is moved to the direction of closing 3.

Description

[Detailed Description of the Invention] (Field of Industrial Application) The present invention relates to a dehydrating device for bean sprouts that utilizes centrifugal force, and in particular is configured to facilitate the removal of bean sprouts from a dehydration tank after dehydration. Concerning dehydration equipment for bean sprouts.

When harvested and washed bean sprouts, shredded vegetables, etc. (in the present specification, these are collectively referred to as sprouts) are packed in bags and sent out, it is necessary to perform a dehydration operation.

The present invention performs such a dehydration operation. The present invention provides a dehydration device particularly suitable for.

(Conventional device) A conventional dehydration device in which the bottom plate of the dehydration tank is left open is disclosed in Japanese Patent Application Laid-Open No. 1973-
No. 108065, etc.

This method requires a large space below the dehydration tank to open the bottom plate because it is opened by rotating the bottom plate as a single unit, and the installation height of the device is disadvantageous.

In addition, as seen in Japanese Patent Application Laid-open No. 49-43259, there is a model in which the bottom plate is divided into four parts and the parts are opened to discharge the dehydrated material, but the opening/closing mechanism of the bottom plate is complicated. However, there were drawbacks such as bridging of the dehydrated material during discharge from the dehydrator, preventing smooth discharge.

(Problems to be Solved by the Invention) The present invention provides a dewatering device that does not require an increase in the installation height of the machine, and also prevents the dehydrated material from forming bridges (a dewatering device that has a bottom plate that can be smoothly discharged and has a simple mechanism). It provides:

(Means and effects for solving the problem) In the present invention, the bottom plate is composed of two semicircular plates, and the chord part of the bottom plate is rotatably pivoted to the diameter part of the bottom of the dehydration tank. be. According to this configuration, the two semicircular plates that make up the bottom plate are rotated to open and close around the string part that is pivotally connected to the bottom of the dehydration tank, so the space for their rotation is reduced to one piece. Only half of the bottom plate is needed, and the bottom of the dehydration tank only has a pivoting part that crosses its diameter, so there are few parts that can act as bridges to prevent the dehydrating material from falling, and the structure is simple. It is.

(Example) The following is based on one embodiment shown in the attached drawings. The present invention will be specifically explained below.

In FIG. 1, reference numeral 1 denotes a body of a dewatering apparatus, and a rotatable shaft 2 is vertically supported at the center of the body 1.

A cylindrical dehydration tank 4 is attached to the rotating shaft 2 via a rib 3. The dehydration tank 4 is composed of a perforated plate for dehydration.

A variable speed motor 5 is attached to the outside of the machine 1, and a belt 8 is passed between a pulley 6 attached to the rotating shaft of the variable speed motor 5 and a pulley 7 attached to the rotating shaft 2 of the dehydration tank 4. The dehydration tank 4 is rotated by the rotation of the motor 5.

The machine body l is provided with a drainage hole lO, and an annular gutter 11 is provided in the drain hole lO, which collects and discharges water that is blown away by centrifugal force from the dehydration tank 4 and falls along the inner wall of the machine body 1. It looks like this.

The bottom plate 12 of the dehydration tank 4 is divided into two semicircular parts as shown in FIG. It is now possible to open it.

A lever 14 is attached to each of the semicircular bottom plates 12, and an abutment piece 15 is attached to each lever 14.

As shown by the imaginary line in Figure 1, As the bottom plate 12 moves, the lever 14 also moves together.

A geared motor 16 is attached to the upper part of the body 1, and a crank disk 17 is attached to its rotating shaft.

A crank bin 18 is attached to the crank disc 17.

On the other hand, a lever 20 is pivotally attached to a lever fulcrum 19 on the machine frame 1, a pin 2 is attached to the lever 2o, and a link 22 is attached between the crank pin 18 and the pin 21.

A ring 23 for opening and closing the bottom plate is arranged concentrically between the dehydration tank 4 and the machine body l, and the ring 23 is connected to the link 2 suspended from the tip of the lever 2o.
It is held suspended at 4.24'.

The connecting portion of the link 24, 24' is a slide piece 2 that slides along a guide groove G appropriately provided on the inner wall of the fuselage l.
4”.

Therefore, when the geared motor 16 rotates and the crank disk 17 rotates, the crank bin 18
As the lever 2 moves, the link 22 is displaced vertically and the lever 2
0 around the fulcrum 19, the link 24°2
4' is displaced up and down to move the ring 23 in the up and down direction.

When the ring 23 is raised, the ring 23 allows the contact piece 15 in contact with it to rotate upward, and the bottom plate 12 opens as shown by the imaginary line in FIG.

On the other hand, when the ring 23 is lowered, The contact piece 15 is pushed down and the bottom plate 12 is in a closed state.

As shown in FIGS. 3 and 4, a hook 26 is pivotally attached to the outer periphery of the lower part of the dehydration tank 4 by means of a bottle 25, and an engagement groove 26' is formed in the hook 26.

On the other hand, a retaining piece 27 is attached to the bottom plate 12, and this engaging piece 27 engages with the engagement groove 26° of the hook 26 to hold the bottom plate 12 in the closed position.

The upper end of the hook 26 is pulled by the tension spring 28, and the retaining piece 27 is engaged in the retaining groove 28'.
That is, the bottom plate 12 is held in a closed state.

29 is a connection of the hook 26 by the spring 28. It is a stopper that restricts movement.

On the other hand, as shown in FIG.
is provided.

When the ejection rod 30 is ejected into the body l by the solenoid 31, it comes to a position where it comes into contact with the hook 26 pivotally mounted on the outer periphery of the dehydration tank 4. Therefore, when the pop-out rod 30 is projected while the dehydration tank 4 is rotating, it hits the hook 26 which is pivotally attached to the dehydration tank 4.

Assuming that the dewatering tank is rotating in the direction of the arrow shown in FIGS. 3 and 4, the pop-out rod 30 hits the hook 26 and the hook 26 is pulled by the spring 28 from the state shown in FIG. 3 to the state shown in FIG. Rotate around pin 25 against the force.

Accordingly, the engagement piece 27 of the bottom plate 12 is disengaged from the engagement groove 26' of the hook 26, and the bottom plate 12 is opened as shown by the imaginary line in FIG.

When the ring 23 is lowered by rotating the guard motor 16 with the bottom plate 12 open, the bottom plate 12 is moved as described above.
is displaced from the open position in the closing direction, the retaining piece 27 is displaced while opening the hook 26 as shown in Figure 5, and the engaging piece 2
7 fits into the engagement groove 26' of the hook 26 and is held in the closed state.

In the figure, 32 indicates the amount of material to be dehydrated in the dehydration tank 4. A phototube 33 is a light projector for detecting the filling level.

34 throws the dehydrated material 35 into the dehydration tank 4. It is a conveyor belt that carries

Next, using FIG. The operation will be explained.

As shown in (■) in FIG. 6, the bottom plate 12 of the dehydration tank 4 is closed and the material to be dehydrated is input from the conveyor 34. When the level of the input material reaches a predetermined height, the conveyor 34 is turned off. After stopping, the dehydration tank 4 is rotated as shown in Fig. 0.

As the dehydration pa4 rotates, the material to be dehydrated inside is dehydrated by centrifugal force.

When dehydration is completed after rotation for a predetermined time, the dehydration tank 4 is rotated at a low speed, and the solenoid 31 is operated to cause the pop-out rod 30 to protrude inward.

Therefore, the pop-out rod 30 comes into contact with the lower end of the hook 26 pivoted on the outside of the dehydration tank 4, and the bottom plate 12
Since the engaging piece 27 of the hook 26 is removed from the engaging groove 26' of the hook 26, the bottom plate 12 of the dehydrating tank 4 is opened as shown in Figure 0, and the material to be dehydrated falls downward and is discharged.

At this time, the ring 23 is pulled upward so that the contact piece 15 of the lever 14 does not come into contact with the rotation of the bottom plate 12.

When the discharge of the material to be dehydrated is completed, the ring 23 is lowered by the rotation of the guard motor 16, and the contact piece 15 of the lever 14 is pushed down.
Move in the closing direction.

At this time, the solenoid is retracting the pop-out rod 30, and the bottom plate 12 is moved back as explained with reference to FIG.
The engagement piece 27 pushes the hook 26 apart and rises to fit into the engagement groove 26' of the hook 26, and the bottom plate 12 is held in the closed position.

In this state, the dehydration operation returns to the state shown in Figure 0 again.

In addition, there is a hook 26 for fixing the bottom plate and a solenoid 31 for engaging and disengaging the hook 26. The structure such as the ring 23 that closes the bottom plate is merely an example, and the bottom plate 12 can be held in a closed state and opened when desired.
It goes without saying that any other suitable structure may be used as long as the structure is closed.

(Effects of the Invention) As specifically explained above, the present invention provides a dehydration device in which the bottom plate of the dehydration tank is configured to be freely openable. It is configured such that it is rotatably pivoted on the diameter portion of the diaphragm.

According to this configuration, the two semicircular plates that make up the bottom plate are opened and closed by being rotated around the string part that is pivotally connected to the bottom of the dehydration tank, so that only one space is required for the rotation. It only takes half of the bottom plate, so the installation height of the device can be kept low. Moreover, since the bottom l of the dehydration tank has only a pivot portion that crosses its diameter, there are few areas where the dehydrating material may form when it falls.

In addition, the bottom plate is made up of two semicircular plates, and the strings are pivoted, making it easy to assemble.
The strength of the pivoting part is greater than that of a single-plate structure (6), etc.2. Figures 3 to 6 are plan views taken along line ■-■, side views showing the hook 26 enlarged and its construction taken in the embodiments of Figures 1 and 2; The figure is a schematic diagram of the apparatus shown in FIG. 1, illustrating the operation of the apparatus.

l...Aircraft 4...Dehydration tank 12...Bottom plate 18... crank bin 23...Ring 2...Rotation axis 6... Gear tomo 14... lever 20... lever 26... hook ) View S ) 5゜ exemption the law of nature Success " the law of nature 27...bond piece 30... pop-up stick spear and others

Claims (1)

[Scope of Claims] A dehydration device in which a rotating cylindrical dehydration tank has an openable bottom plate, and by opening the bottom plate, objects to be dehydrated in the dehydration tank can be dropped and taken out, A dewatering device for bean sprouts, characterized in that the bottom plate is composed of two semicircular plates, and the chord part of the bottom plate is rotatably pivoted to the diameter part of the bottom of the dehydration tank.