JPH0217765Y2 - - Google Patents

Description

[Detailed Description of the Invention] This invention relates to a perforation device, and more particularly to a perforation device used to make holes in the shells of cultured shellfish.

There are two main types of methods for cultivating and raising shellfish: one is the cage-net culture method in which shellfish are grown by placing them in a cage net, and the other is by making a hole in a part of the shell. This is a hanging aquaculture method in which fish are cultured by threading a string through a hole and hanging it.

In the latter ear hanging culture method, a perforator is used to make a hole in a part of the shell, and the applicant has already proposed such a perforator.

All of these drilling machines are single-shaft drilling machines, and the awl automatically reciprocates up and down to make a hole in the shell, but the process of placing the shell on a pedestal, holding it, drilling, extruding (discharging), etc. is done in the same place. Therefore, there is a limit to the speed of each of the above-mentioned process operations, and it has been difficult to efficiently drill holes into a large number of shellfish.

The present invention was developed to solve the above-mentioned problems with the conventional single-axis drilling machine. Multiple drilling machines are mounted on a rotating table plate, and the multiple drilling machines are operated by a single motor. The purpose of the present invention is to provide a highly efficient rotary multi-spindle drilling device by automatically operating the drilling machine and performing drilling and discharging automatically during one revolution of the table plate.

The perforating device of the present invention that achieves this purpose has a table plate rotatably attached to a support that is fixed upright on a base plate, and a plurality of perforators arranged on the table plate at equal distances from the center of rotation. The drilling shaft with the drilled awl of these drilling machines is rotatably supported on a frame attached to the support shaft so as to be able to move up and down, and a shell holder is fixed directly below the drilling shaft. A shell holding rod that moves toward and away from the shell holder is attached so as to be resiliently slidable, and a pulley is fixed to the drilling shaft, so that the pulley of each drilling machine and the pulley of the motor for rotating the drilling shaft installed on the base plate are connected to each other. A belt is wrapped between the holes, and an inclined guide is provided on the rotational trajectory of the drilling machine to push down and guide the frame supporting the drilling shaft, and a shell holding rod is placed outside the area of the inclined guide. The gist of this is that a guide rod is provided with an extruded opening.

In the perforating device of the present invention, a plurality of perforators are arranged on a table plate which is driven and rotated.The perforators are arranged radially at positions equidistant from the rotation center of the table plate, and Therefore, the shell-holding rod of each drilling machine is moved up and down, and the drilling shaft is moved up and down.

The structure for rotating the drilling shafts of multiple drilling machines installed on a table board is one in which the drilling shafts are rotated by one motor for rotating the drilling shafts located outside the table board, and the pulley of that motor A belt is wound around a pulley attached to each drilling shaft so that the drilling shafts of the drilling machines that move sequentially rotate.

Furthermore, since the motor for rotating the drilling shaft is placed outside the table plate, the drilling shaft moving along the line connecting the motor and the center of the table plate moves away from the belt, so the forced drive state is temporarily interrupted. be.

Hereinafter, one embodiment of the present invention will be described based on the drawings. Reference numeral 1 indicates a base plate, 2 a column fixedly fixed on the base plate 1, and a boss portion 3' of a table plate 3 having a circular plan view attached to the column 2. A pulley 4 is rotatably supported on the boss portion 3', and a motor 7 for rotating the table plate mounted on a pedestal 6 provided on a support 5 fixedly erected on the base plate 1 is connected via a speed reducer 8. A belt 9 is wound around the pulley 4 and the output shaft pulley of the reducer 8, and the table plate 3 is driven and rotated.

On the top surface of the table board 3 are eight drilling machines _10-1 ,
_10-2 ... _10-7 , _10-8 are arranged radially at equal distances from the rotation center of the table plate 3, and the above-mentioned drilling machines _10-1 , _10-2 ...10- are mounted on the support 5.
A drilling shaft rotation motor 11 for driving and rotating the drilling shaft _{No. 8} is attached.

The drilling machines _10-1 , _10-2 ... _10-8 have a support shaft 1
2. A frame 14 is attached to the support shaft 12 via a spring 13 so as to be able to move vertically, a drilling shaft 15 is rotatably supported on the frame 14, and a chuck 16 is attached to the lower end of the drilling shaft 15. Awl 17, drilling shaft 1
5, a ruler 19 provided on the shell holder 18, and a receiving plate 20 for placing the shell a, and a pulley 21 is integrally attached to the perforation shaft 15. While being fixed, the frame body 14
A roller 35 is attached to the inclined guide 2, which will be described later.
The frame body 14 is pushed down by the guide along the line 7.

Therefore, each drilling machine _10-1 , _10-2 ... _10-8
The belt 3 passes between a pulley 21 fixed to the drilling shaft 15 of
7 is wound so that at least the drilling shaft 15 of the drilling machine moving within the drilling section is driven to rotate.

That is, when viewed with the table plate 3 stopped, the drilling machine 1 is located on a line connecting the center of rotation of the table plate 3 and the center of the motor 11 for rotating the drilling shaft.
Only the _0-1 pulley 21 is not related to the belt 37,
A belt 37 is wound around the seven pulleys 21 of the drilling machines _10-2 , _10-3 ... _10-8 and the pulley 36 of the motor 11 for rotating the drilling shaft, and as the table plate 3 rotates, the belt 37 The drilling machine is moved to a non-contact state one after another.

Further, each of the punching machines _10-1 , _{10-2 ,} .

The holding means includes a slide rod 22 located below the table plate 3 and slidably attached on a line connecting the center of the shell holder 18 and the rotation center of the table plate 3;
A shell holding rod 23 is installed perpendicularly to the slide rod 22 outside the table board 3, a spring 24 is attached to the base of the slide rod 22, and a spring 24 is attached to the base of the slide rod 22 to pull and bias the slide rod 22 toward the center of the table board 3. It consists of the attached roller 25, and the roller 2
5 is guided in sliding contact with the outer circumferential surface of a guide rod 29, which will be described later, so that the slide rod 22 is pushed outward, and the shell retaining rod 23 also moves into the groove 2 of the receiving plate 20 accordingly.
6 to the tip side, away from the shell a on the receiving plate 20, so that the shell a that has been drilled can be discharged and the shell a can be set.

Frame 14 of drilling machines _10-1 , _10-2 ... _10-8
The inclined guide 27, which pushes the awl 17 downward to pierce the shell a, tilts the planar arc-shaped rod having a length of about 1/4 of the circumference downward from one side to the other, and the other side. The end thereof is bent upward, and the inclined guide is fixed to the column 2 via a stay 28 so as to be positioned on the rotation trajectory of a roller 35 attached to the frame 14 of the drilling machine.

That is, the inclined guide 27 is disposed approximately in the middle of the range where the pulley 21 of each punching machine and the belt 37 come into contact.

Further, the downward slope of the inclined guide 27 is set to a stroke sufficient for the awl 17 connected to the drilling shaft 15 to pierce the shell on the shell holder 18.

The guide rod 29 which pushes the shellfish holding rod 23 outward and opens above the receiving plate 20 pushes outward the roller 25 attached to the base of the slide rod 22 of the shellfish holding rod 23 in the closed state. The mounting range is approximately 1/2 of the circumference, and both ends thereof are bent inward to ensure smooth movement onto the outer surface of the guide rod 29 and separation from the guide rod 29.

Furthermore, the installation position of the guide rod 29 is within the range of about 3/4 of the circumference outside the area where the above-mentioned inclined guide 27 is installed, and between the both ends of the guide rod 29 and the side end of the inclined guide 27. Provide an interval between them.

That is, within the length of the guide rod 29, the shellfish holding rod 23 is pushed outward to make the shellfish holder open.
In other ranges, the shell holding rod 23 is pulled toward the center by the contracting force of the spring 24, and the receiving plate 2
It will hold down the shell a above 0, and therefore,
The inclined guide 27 is installed at least within the shell holding section A that presses down the shell A.

Further, the guide rod 29 is fixed at a predetermined position with respect to the table plate 3 which is driven and rotated, and is attached via a stay 30 whose one end is fixed to the support column 2, or as shown in FIGS. 7 and 8. As shown, it may be fixed in any way, such as by supporting legs 31 fixed upright on the base plate 1.

In the figure, 32 is a shell drop rod, which is installed at the beginning of the section where the shellfish holding rod 23 is pushed outward and the shell holder 18 becomes open, and the shell drop rod 32 is fixed upright on the top plate 1. By bending and positioning the upper end on the path of the receiving plate 20, and driving and rotating the table plate 3, the shell a that has completed drilling can be automatically removed from the shell holder 18. .

33 is a power distribution box, and 34 is a cover.

Next, to explain the operation of the above-mentioned punching device,
First, when the table plate rotation motor 7 and the drilling shaft rotation motor 11 are activated, the eight drilling machines _10-1 , _10-2 ... _10-8 installed on the table plate 3 are activated.
The drilling shaft 15 drives and rotates, and during one rotation, the shellfish holding rod 23 opens → the shellfish holding rod closes → the frame 14 holding the drilling shaft 15 moves downward → the shellfish holding rod opens. are repeated in sequence.

Therefore, while the shell holding rod 23 is opening, the shell a is held between the ruler 19 of the shell holder 18 and the receiving plate 20.
When the roller 25 is inserted and set, the roller 25 will be separated from the guide rod 29 as the table plate 3 rotates.
The shell holding rod 23 is drawn toward the center by the contraction force of the spring 24 and presses down the shell a. When the shell a is moved to the position of the inclined guide 27 in this state, the roller 35 provided on the frame 14 is pushed down and the perforation is completed. It is done.

After passing through the inclined guide 27, the frame body 14
is pushed upward by the elastic force of the spring 13, the awl 17 is pulled out from the shell a, and then the shell holding rod 23 is opened by the roller 25 being guided along the outer circumferential surface of the guide rod 29, and the shell holder is opened. stand 18
The shell a, which has completed the upper hole, hits the shell dropping rod 32 and is ejected from the shell holder 18.

The above operations are sequentially performed by the eight punching machines installed on the table plate 3 as the table plate 3 rotates.

As described in detail above, the perforating device of the present invention has a plurality of perforators installed on a rotating table plate, and the perforating shaft of each perforator is driven and rotated by one motor, and Since a belt is wrapped around the pulley of the drilling shaft of each drilling machine and the pulley of the motor for rotating the drilling shaft, drilling is performed within approximately 1/4 circumference of the table plate facing the motor pulley. The shaft pulley separates from the belt, and the punching shaft moves within a predetermined range (approximately 1/4 rotation) while power transmission is cut off and it remains stopped. Therefore, since there is a pause state every time the table plate completes one rotation, that is, one drilling operation, the bearings are cooled appropriately.
It can prevent phenomena such as burn-in and can withstand long-term use.

Therefore, it is possible to provide a highly practical multi-axis drilling device capable of drilling a large amount of holes.

[Brief explanation of drawings]

The drawings show one embodiment of the present invention, and FIG. 1 is a front view, FIG. 2 is a partially cutaway plan view, FIG. 3 is a partially cutaway front view showing a perforated state, and FIG. 4 is a diagram showing removal of shells. FIG. 5 is an enlarged front view showing the inclined guide, FIG. 6 is a plan view of the same, FIG. 7 is an enlarged plan view showing the guide rod, and FIG. 8 is a partially cut-away front view. , FIG. 9 is a cross-sectional view taken along line 9--9 in FIG. 4. In the figure, 1: base plate, 2: support column, 3: table plate,
7: Table rotation motor, _10-1 , _10-2 ...
_10-8 : Drilling machine, 11: Drilling shaft rotation motor,
12: Support shaft, 14: Frame, 15: Drilling shaft, 17:
Awl, 18: Shell holder, 21: Drilling shaft pulley, 2
3: Shell holding rod, 27: Inclined guide, 29: Guide rod, 37: Belt.

Claims (1)

[Scope of utility model registration request] A plurality of perforators are arranged at equal distances from the center of rotation on a rotating table plate, and pulleys are fixed to the perforating shafts of the perforators, and the pulleys of each perforator are positioned outside of the table plate. A belt is wound around the pulley of the motor for rotating the drilling shaft installed on the base plate, and a frame supporting the drilling shaft is placed approximately in the middle of the range where the belt contacts the pulley of each drilling machine. A drilling device that is provided with an inclined guide that pushes down and guides the tool downward, and a guide rod that pushes the tool holding rod outward to form an opening in a portion other than the installation range of the inclined guide.