RU2555796C2 - Method of production of block for net plate for traps with framework for catching aquatic organisms - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to commercial fishing. Dimensions of block for net plate are determined based on the shape and size of the trap framework in accordance with the given mathematics.

EFFECT: invention provides manufacturing blocks for optimal net plates netting used in traps.

3 dwg, 1 tbl, 1 ex

Description

The method relates to industrial fisheries and can be used to develop technology for cutting net plates, for equipping traps with a frame for fishing crustaceans, mollusks and fish.

A known method of creating patterns for a net plate, which is worn on top of the trap frame and is a rectangular plate with a certain length and height, which is calculated depending on the size of the trap frame. (The album “Seafood fishing by traps in the Far Eastern basin” Vladivostok, 1990, p. 82, 86, 98).

Closest to the claimed technical solution is a method of creating a pattern by which a net web is made, intended to fit a rigid frame in a device for fishing shrimps and gastropods (Application No. 2013117770 of 04/17/2013). In this case, the net web is located inside the frame.

The disadvantage of this pattern is that it is made by the selection method for each specific frame, which entails significant loss of working time and additional costs of network materials. When changing the shape and dimensions of the frame, as well as changing the mesh size of the net plate, it is necessary to re-select the necessary dimensions for the manufacture of the pattern.

The objective of the invention is to provide a method of manufacturing a pattern for cutting optimal mesh plates by calculating the parameters of the patterns, as well as reducing the loss of working time and costs of network materials.

, гдеThe problem is solved in that the method of manufacturing a pattern for cutting a net plate to traps with a frame for fishing hydrobionts is characterized in that the pattern is made based on the shape and size of the frame of the trap, while the horizontal size of the pattern is determined according to the expression:

where

L is the horizontal size of the pattern,

D ₁ - the inner diameter of the lower ring of the trap,

U _D1 is the landing coefficient of the net plate on the lower ring of the trap frame (the net plate is located inside the frame),

n is the number of cells taken in the seam when forming a mesh stocking,

a is the mesh step of which the mesh web is made;

the vertical size of the pattern is determined by the formula:

B = (B _n.c. + 2n * a ) + B ₁ + B ₂ + (B _n.c. + 2n * a ), where

B is the vertical size of the pattern,

B _n.k. - the height of the patterns forming the lower base of the trap,

B ₁ - the height of the patterns between the lower and middle rings of the frame,

B ₂ - the height of the patterns forming the net trough,

B _VK - the height of the pattern, forming the upper base of the trap.

Moreover, B _n.k. (the height of the pattern forming the lower base of the trap) is determined by the formula:

,

,

B ₁ (the height of the pattern between the lower and middle rings of the frame) is determined by the formula:

, где

where

- размер ребра жесткости, расположенного между нижним и средним кольцами каркаса,

- the size of the stiffeners located between the lower and middle rings of the frame,

U _D2 is the landing coefficient of the net plate on the second ring of the frame;

B ₂ (the height of the pattern forming the net trough) is determined by the formula:

, где

where

- размер ребра жесткости, расположенного между средним и верхним кольцами каркаса,

- the size of the stiffeners located between the middle and upper rings of the frame,

h _I - the height of the inlet of the trap,

H is the depth of the net trough,

D ₂ - the size of the inner diameter of the middle ring of the frame,

- внутренний диаметр каркаса ловушки, проходящего посередине между верхним и средним кольцами каркаса,

- the inner diameter of the frame of the trap, passing in the middle between the upper and middle rings of the frame,

L ′ is the horizontal size of the pattern, without cells taken in the seam,

, гдеB _century (the height of the pattern that forms the upper base of the trap) is determined by the formula:

where

D ₃ - the size of the inner diameter of the upper ring of the frame.

The essence of the method is as follows.

The pattern is a rectangular canvas. For the manufacture of patterns, it is necessary to determine the horizontal and vertical size of the canvas. To do this, measure the size of the frame, on the basis of which a trap for fishing hydrobionts will be made. To do this, measure the lower, middle, upper diameters of the trap ring, the height of the trap, set the depth of the net trough and the height of the inlet.

Based on these data, traps are calculated.

Thus, the claimed method of manufacturing a pattern for cutting mesh cloths meets the criteria of the invention:

"Novelty" - in the inventive method of manufacturing patterns for the first time used the calculated data on which the manufacture of patterns;

“Inventive step” - from the prior art determined by the applicant, the use of trap parameters for constructing a pattern for cutting a net web was not known;

"Industrial application" - this method is simple to implement and can be used for the manufacture of patterns in enterprises for the equipment of fishing gear.

The proposed pattern is illustrated by the drawings shown in figures 1-3.

Figure 1 - pattern for the manufacture of a mesh plate, figure 2 - frame trap in the context; figure 3 - trap, equipped with a net cloth made according to the pattern, in the context.

The horizontal size of the pattern L - 1 (figure 1) depends on the inner diameter D ₁ - the lower ring of the trap 9 (figure 2), the landing coefficient U _D1 = 0.7-0.707 (which is set before the formation of the pattern), the number of cells n taken in the seam during the formation of the net stocking, mesh step of the net web from which the net plate for the trap will be made and is determined by the formula:

, где

where

L is the horizontal size of the pattern,

D ₁ - the inner diameter of the lower ring of the frame of the trap,

U _D1 is the landing coefficient of the net plate on the lower ring of the trap frame (the net plate is located inside the frame),

n is the number of cells taken in the seam when forming a mesh stocking,

a is the mesh step of which the mesh web is made;

The vertical size B - 2 (figure 1) patterns are defined as the sum of the values:

B = (B _n.c. + 2n * a ) + B ₁ + B ₂ + (B _n.c. + 2n * a )

;wherein the height of the pattern B _n.k. - 3 (figure 1), forming the lower base of the trap is calculated by the formula

;

при этом для определения величины B₁ необходимо знать величину ребра жесткости 11 (фиг.2) от нижнего основания 9 (фиг.2) до среднего кольца 10 (фиг.2) каркаса и посадочный коэффициент U_D2 сетной пластины на среднем кольце, который вычисляем по формуле:

, где

;height curves B ₁ - 4 (1) 9 between the lower frame 10 and the middle ring (2) is calculated by the formula

in order to determine the value of B ₁ it is necessary to know the value of the stiffener 11 (Fig. 2) from the lower base 9 (Fig. 2) to the middle ring 10 (Fig. 2) of the frame and the landing coefficient U _{D2 of the} net plate on the middle ring, which is calculated according to the formula:

where

;

, при этом учитывают размер ребра жесткости 12 (фиг.2), расположенного между средним 10 (фиг.2) и верхним кольцами 13 (фиг.2) каркаса, высоту входного отверстия 7 (фиг.1) ловушки, которая зависит от размера объекта лова.the height of the patterns B ₂ - 5 (figure 1), which forms a net trough, calculated by the formula

, taking into account the size of the stiffener 12 (figure 2), located between the middle 10 (figure 2) and the upper rings 13 (figure 2) of the frame, the height of the inlet 7 (figure 1) of the trap, which depends on the size of the object fishing.

, при этом учитывают размер внутреннего диаметра верхнего кольца 13 (фиг.2).The height of the patterns B _VK - 6 (1) forming the upper base of the trap, is calculated by the formula

, taking into account the size of the inner diameter of the upper ring 13 (figure 2).

и

соответственно. Сетная пластина, изготовленная по лекалу (фиг.1), вшита внутрь каркаса. Между кольцами 9 и 10 сетное полотно натянуто в тугую вдоль ребра жесткости 11 длиной

. Между средним кольцом каркаса 10 и верхним 13 сетное полотно имеет определенную слабину по высоте, что позволяет сформировать сетной желоб 14 (фиг.3). Слабина дели по высоте формируется размером ребра жесткости

между средним 10 и верхним 13 кольцами каркаса, глубиной H желоба 14 и размером

входного отверстия 7. Лини 15 и 16 формируют сетной желоб, между которыми образуется сетной фартук (на рисунке не обозначен). В фартуке вырезают входные отверстия 7, между которыми образуются сетные перемычки 8 (фиг.1).The trap (figure 3) consists of a frame, which is formed by the lower 9, middle 10, upper rings 13 with inner diameters D ₁ , D ₂ , and D _3, respectively, and stiffeners 11, 12 long

and

respectively. A net plate made according to the pattern (Fig. 1) is sewn into the frame. Between rings 9 and 10, the mesh web is stretched tight along the stiffener 11 in length

. Between the middle ring of the frame 10 and the upper 13 mesh net has a certain slack in height, which allows you to form a mesh groove 14 (figure 3). Delhi delhi height is formed by the size of the stiffener

between the middle 10 and upper 13 rings of the frame, the depth H of the groove 14 and the size

inlet 7. Lines 15 and 16 form a net chute, between which a net apron is formed (not indicated in the figure). The inlet 7 is cut out in the apron, between which net jumpers 8 are formed (Fig. 1).

The calculation technology shows that, knowing the size and shape of the frame, you can determine the shape and size of the patterns for making a net plate to any traps that are used in the hydrobiont field.

The step-by-step determination of the parameters of the net plate necessary to cover a certain part of the frame allows you to insert marking belts L ₁ , L ₂ and L ₃ (Fig. 1) equal to the length of the inner circumference of the rings of the frame 9, 10 and 13, respectively (Fig. 3 ), which are welded to the rings of the frame during the manufacturing process. A mesh apron with inlet openings is formed by the upper 15 and lower 16 lines (Fig. 3), the length of which is set based on the depth of the gutter and the vertical size of the inlet, which depends on the size of the fishing object. Lines 15, 16 are threaded into adjacent meshes of the net web.

Example.

и L_p=0,43 м

. При этом глубина сетного желоба H=0,10 м, высота входного отверстия h_вх=0,12 м, шаг ячеи a=0,012 м и сетное полотно посажено на нижнее кольцо с посадочным коэффициентом U_D1=0,7.A pattern is made according to which a net web is cut out to a snap of a shrimp trap frame having the following parameters: D ₁ = 0.70; D ₂ = 0.60; D ₃ = 0.50,

and L _p = 0.43 m

. Moreover, the depth of the net trough H = 0.10 m, the height of the inlet h _in = 0.12 m, the mesh pitch a = 0.012 m and the net is planted on the lower ring with a landing coefficient U _D1 = 0.7.

Table The calculated and practical values of the main parameters of the pattern in the cells Options L B _n.k. + 2n a B ₁ B ₂ B _century + 2n a B Estimated values, m 3,192 0.420 0.288 0.384 0.288 1,380 Practical values, m 3,240 0.432 0.276 0.372 0.312 1,392 Estimated values, cell. 133 17.5 12.0 16,0 12.0 57.5 Practical values, cell. 135 18.0 11.5 15,5 13.0 58.0

The table shows that the accuracy of the calculated and practical values of the main parameters of the pattern ranges from 2.8-8.3%, which allows you to create the optimal mesh for the rigging of the frame for traps for fishing both invertebrates and fish.

Claims (1)

A method of manufacturing a pattern for cutting a net plate to traps with a frame for fishing hydrobionts, characterized in that the pattern is made based on the shape and size of the frame of the trap,
the horizontal size of the pattern is determined according to the expression:

where
L is the horizontal size of the pattern,
D ₁ - the inner diameter of the lower ring of the trap,
U _D1 is the landing coefficient of the net plate on the lower ring of the trap frame,
n is the number of cells taken in the seam when forming a mesh stocking,
a is the mesh step of which the mesh web is made;
the vertical size of the pattern is determined by the formula:
B = (B _n.c. + 2n * a ) + B ₁ + B ₂ + (B _n.c. + 2n * a ), where
B is the vertical size of the pattern,
B _n.k. - the height of the patterns forming the lower base of the trap,
B ₁ - the height of the patterns between the lower and middle rings of the frame,
B ₂ - the height of the patterns forming the net trough,
B _VK - the height of the pattern, forming the upper base of the trap;
wherein B _n.k. (the height of the pattern forming the lower base of the trap) is determined by the formula:

,
B ₁ (the height of the pattern between the lower and middle rings of the frame) is determined by the formula:

where

- the size of the stiffeners located between the lower and middle rings of the frame,
U _D2 is the landing coefficient of the net plate on the second ring of the frame;
B ₂ (the height of the pattern forming the net trough) is determined by the formula:

where

- the size of the stiffeners located between the middle and upper rings of the frame,
h _I - the height of the inlet,
H is the depth of the net trough,
D ₂ - the size of the inner diameter of the middle ring of the frame,

- the inner diameter of the frame, passing in the middle between the upper and middle rings of the frame,
L '- the horizontal size of the patterns, without cells taken in the seam,
B _century (the height of the pattern that forms the upper base of the trap) is determined by the formula:

where
D ₃ - the size of the inner diameter of the upper ring of the frame.

Images