JPS6020967B2 - Automatic squid drawing machine - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an automatic wire drawing machine that automatically forms linear notches on the surface of a wire.

When producing boiled squid and grilled squid, a plurality of linear notches are formed on the squid surface to improve appearance.

By the way, since the conventional linear notch formation work is done manually using a safety razor, the workability is very poor and the cost is high. With the above points in mind, it is an object of the present invention to improve workability and reduce costs by automatically performing the linear notch work.

That is, in the present invention, a plurality of running belts are arranged in parallel, a blade is provided between each belt so that the upper part thereof protrudes from the belt conveying surface, and a pressing body is provided above the blade. The pressing surface of this pressing body is movable in the running direction of the belt, and while the squid is conveyed on the belt, it is pressed by the pressing body so that the blade forms a linear notch on the surface of the squid. It is something. DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the accompanying drawings showing embodiments thereof.

As shown in the figure, pulleys 2 are provided at the front and rear of the upper part of the frame 1, a plurality of endless belts 3 are stretched between the two pulleys, and a plurality of disc-shaped blades 4 are inserted between each belt 3 with the upper part thereof Provided so as to protrude from the conveying surface of the belt.

The number of blades 4 is determined by the number of linear notches formed on the surface of the cutter A, and the interval between them is also determined by the interval between the notches. The width of the entire belt 3 is set to a length that is sufficient to transport the car A horizontally. One pulley 2 (on the right side in Figure 1) of the belt 3 is rotated at a constant speed by a motor 6 via a reducer 5 and a variable speed reducer 6', and this rotation causes a cutter A placed on the belt 3 to be cut into a blade. 4.

The other pulley 2 is movable back and forth (left and right in FIG. 1) by a bolt and nut mechanism 20, and the tension of the belt 3 is adjusted by this mechanism 20. Further, the support shaft 7 of each blade 4 is also rotatably supported by the frame 1 so as to be rotatable by the motor 8. A fountain/zuru 9 is provided on each blade 4, and the fountain prevents deterioration of cutting, and a gutter 10 receives the fountain.
is provided in the frame 1 below the blade 4. A water pipe or the like is connected to the fountain nozzle 9 so that water can be poured freely. In addition, support plates 11 are provided in front and behind the blade 4 to prevent the belt 3 from warping due to the pressure of a cutter presser belt, which will be described later, and to prevent the depth of the linear notch from being distorted. As shown in FIG.
It is preferable to form a rising arm 12 on the side of the belt 1 and use this wall 12 as a guide for the belt 3. Pulley 1 is above belt 3.
3, a mirror-slanted presser belt 14 is disposed forward, and this belt 14 can be run by a motor 6 via the transmission 5.

The front part of the belt 14 reaches as far as the blade 4, and the pulley 13 at the front part is supported by an arm 15 as shown in FIG. It is rotatably supported, and the front pulley 1 is moved by swinging the arm 15.
3 can move up and down. As shown in the figure, the arm 15 is divided into two parts, and its length is adjusted depending on the screwing degree of the bolt 16, so that the tension level of the belt 14 can be adjusted. On the other hand, the bottom dead center of the bearing of the front pulley 13 is determined by the bolt 17, and the pressing force of the belt 14 is determined by the pressing force of the bolt 18 via the spring 19. This pressing force and bottom dead center are determined appropriately depending on the size of the squid A, but the size of the squid in action depends on the spring 19.
It is absorbed by the expansion and contraction of. Next, the effect will be explained.

Now, with both belts 3 and 14 running and the blade 4 rotating and spinning, if you place a squid horizontally on the rear of belt 3 (left end in Figure 1), as belt 3 runs, it will move. It is conveyed and reaches the blade 4 while being sandwiched between both belts 3 and 14, and linear notches as many as the number of blades 4 are formed on the surface of the blade, and then it falls from the conveyance plate 21 into a storage box (not shown).

By repeating the above operations, bran-like notches are sequentially formed on the surface of the squid A. Note that the conveyance speeds of the belts 3 and 14 are the same, and the rotational speed of the blade 4 is much faster than that, and its direction is the opposite conveyance direction. In the example, the pulley 2 of 600 mm was set to 4&pm, and the blade 4 of 700 mm was set to 150 mm.
Further, it is preferable that this device be made of stainless steel as much as possible. Furthermore, casters or the like may be attached to the lower part of the device to make it movable. As described above, according to the automatic wire drawing machine of the present invention, a plurality of belts are arranged in parallel, and a blade is provided between each belt so that the upper part of the blade protrudes from the belt conveying surface. While conveying the squid, the blade was used to form linear notches on the surface of the squid. It can be formed automatically, improving workability and reducing costs.

In addition, a pressing body is provided above the blade, and the pressing surface of this pressing body runs in the running direction of the belt, so that the squid is held and conveyed at the notch forming part.
The cutter moves smoothly and beautiful cut lines can be obtained.

[Brief explanation of the drawing]

FIG. 1 is a front view of an embodiment of the automatic wire drawing machine of the present invention, FIG. 2 is a partially removed right side view of FIG. 1, and FIG. 3 is a plan view of FIG. 1. 3... Belt, 4... Blade, 9... Fountain nozzle, 1
4...Belt. Figure 1 Figure 2 Figure 3

Claims (1)

[Claims] 1 A plurality of running belts are arranged in parallel, a blade is provided between each belt so that its upper part protrudes from the belt conveying surface, and a pressing body is provided above the blade, and the pressing surface of this pressing body The automatic squid drawing machine is capable of traveling in the running direction of a belt, and is configured to press the squid with a pressing member while conveying it on the belt, and to form linear notches on the surface of the squid using the blade.