RU2017902C1 - Mounted equipment for ripping strong ground - Google Patents

Abstract

FIELD: ripping of strong grounds. SUBSTANCE: each additional bursting member has changeable bursting member. Changeable members are secured to side surface of additional members. Changeable member width depends on width of main bursting member, angle of ground bursting and needed depth of ripping. EFFECT: higher efficiency. 7 dwg

Description

 The invention relates to techniques for excavation and open cast mining.

 Known attachments for loosening strong soils mounted on a base machine with an arrow. This equipment includes a guide rod pivotally connected to the boom of the base machine, and a wedge-ripper interacting with the guide rod. At the lower end of the guide rod there is a locking-clamping head, which is located in the closed cavity of the wedge-ripper body. Over the wedge-ripper on the guide rod mounted firing pin connected to the cargo rope. The body of the wedge-ripper has a vertical cutout, the upper part of which is made in the form of a through groove in the side wall of a closed cavity, and the lower part is in the form of a slot in the wedge of the wedge-ripper. The main two-arm lever, which is spring loaded with spring elements relative to the body, is installed in the cutout of the housing. One of the shoulders of the main lever is made in the form of a cleaving element placed in the slot, and the other shoulder is located in the through groove. The wedge-ripper is equipped with two additional pivotally mounted in the cutout of the body and located symmetrically with respect to the main spring-loaded two-shouldered lever spring-loaded two-shouldered levers, which are spring loaded with elastic elements relative to the body. One of the shoulders of the additional two-shouldered levers is made in the form of additional cleaving elements placed in the slots of the wedge-shaped part of the body, and the other shoulders are located in the through groove of the side wall of the closed cavity with the possibility of the interaction of the locking-clamping head of the guide rod during loosening until it interacts with the shoulder of the main two-shouldered lever.

, h₁= 0,7

, где b - ширина скалывающих элементов;
Ψ - угол скола прочного грунта.The lengths of the main h ₂ and additional h ₁ cleaving elements correspond to the values
h ₂ = 1.7

, h ₁ = 0.7

where b is the width of the cleaving elements;
Ψ is the angle of cleavage of solid soil.

 The disadvantage of this equipment is that when changing the required depth of cultivation and the angle of cleavage of solid soil, uneven loosening of the soil by the main and additional cleaving elements is carried out.

This disadvantage is illustrated by comparing the soil loosening pattern with the main and additional shear elements of the attached equipment at the maximum loosening depth h ₂ and cleavage angle Ψ (Fig. 3) with soil loosening schemes with this equipment while reducing the loosening depth to h _tr at cleaving angle Ψ (Fig. 4 ), when changing the angle of cleavage of solid soil to Ψ ₁ > Ψ with a depth of loosening h ₂ (Fig. 5) and while reducing the depth of loosening to h _tr and changing the angle of cleavage of solid soil to Ψ ₁ > Ψ (Fig. 6).

As can be seen from the diagrams, the loosening area S _{2 by the} main shearing element is larger than the loosening area S _{1 by} additional shearing elements, which leads to uneven loosening of the soil and a decrease in the loosening capacity.

 The purpose of the invention is to ensure uniform loosening of strong soil with the main and additional cleaving elements when changing the required depth of loosening and cleavage angle of solid soil.

-

ctgΨ₁- 1,5

b , где b - ширина основного скалывающего элемента;
Ψ - угол скола прочного грунта, на которой рассчитывались основной и дополнительные скалывающие элементы;
Ψ₁ - угол скола рыхлимого прочного грунта;
h_тр - требуемая глубина рыхления прочного грунта.The goal is achieved in that in the attachment for loosening strong soils, each additional cleaving element is equipped with a replaceable cleaving element fixed to its side surface, and the width of the replaceable cleaving element corresponds to
δ =

-

ctgΨ ₁ - 1.5

b, where b is the width of the main cleaving element;
Ψ is the angle of cleavage of solid soil, on which the primary and secondary cleaving elements were calculated;
Ψ ₁ - the angle of cleavage of loose solid soil;
h _Tr - the required depth of loosening of solid soil.

 Introduction to the composition of the device of replaceable cleaving elements and their implementation in accordance with the above formula allows you to get a new property, which consists in the possibility of uniform loosening of strong soil with the main and additional cleaving elements when changing the required depth of loosening and cleavage angle of solid soil. Therefore, interchangeable shear elements introduced into the device and their geometric parameters should be considered as significant distinguishing features that provide a positive effect, and this solution meets the criterion of "significant differences".

In FIG. 1 shows attachments before introducing a wedge into the ground; in FIG. 2 is a view A in FIG. 1; in FIG. 3 is a diagram of the loosening of the soil by the main and additional shearing elements of the attachment at the maximum loosening depth h ₂ and cleavage angle Ψ; in FIG. 4 is a diagram of loosening the soil with this equipment when reducing the depth of tillage to h _tr at a cleavage angle Ψ; in FIG. 5 is a diagram of loosening the soil with this equipment when changing the angle of cleavage of solid soil to Ψ ₁ > Ψ at the depth of loosening h ₂ ; in FIG. 6 is a diagram of loosening the soil with this equipment while reducing the depth of loosening to h _tr and changing the angle of cleavage of solid soil to Ψ ₁ >Ψ; in FIG. 7 is a diagram of loosening the soil by the proposed equipment while reducing the depth of loosening to h _tr and changing the angle of cleavage of solid soil to Ψ ₁ > Ψ.

, h₁= 0,7

, где b - ширина основного скалывающего элемента;
Ψ - угол скола прочного грунта, на который рассчитывались основной и дополнительные скалывающие элементы.Attachments for loosening strong soils are mounted on the boom 1 of the base machine and includes a guide rod 2, pivotally connected to the boom 1, and a wedge-ripper 3. At the lower end of the guide rod 2 there is a locking-clamping head 4, which is located in a closed cavity 5 of the housing ripper wedge 3. Above the ripper wedge 3, a striker 6 is mounted on the guide rod 2, connected to the cargo cable 7, the case of the ripper 3 has a vertical cutout, the upper part of which is made in the form of a through groove 8 in the side walls e 9 closed cavity 5, and the bottom - in a slot 10 in the wedge part of the wedge-ripper housing 3. The recess set basic double-arm lever 11, which spring elements 12 and 13 is spring-loaded relative to the housing. One of the shoulders of the main lever 11 is made in the form of the main cleaving element 14 located in the slot 10, and the other shoulder 15 is located in the through groove 8. The wedge-ripper 3 is equipped with two additional pivotally mounted in the cutout of the housing and located symmetrically relative to the main spring-loaded two-arm lever 11 spring-loaded two-arm levers 16 and 17, which elastic elements 18 are spring-loaded relative to the housing. One of the shoulders of the additional two-arm levers 16 and 17 is made in the form of additional shearing elements 19 and 20, located in the slot 10 of the wedge of the housing, and the other shoulders 21 and 22 are located in the through groove of the side wall of the closed cavity with the possibility of interaction of the locking-clamping head 4 of the guide rod 2 in the process of loosening until it interacts with the shoulder of the main two-shouldered lever 11. The lengths of the main h ₂ and additional h ₁ cleaving elements correspond to
h ₂ = 1.7

, h ₁ = 0.7

where b is the width of the main cleaving element;
Ψ is the angle of cleavage of solid soil, on which the main and additional cleaving elements were calculated.

-

ctgΨ₁- 1,5

b , где h_тр - требуемая глубина рыхления прочного грунта;
Ψ₁ - угол скола рыхлимого прочного грунта.Each additional shearing element 19 and 20 is equipped with a removable shear element 23 fixed to its side surface, the width of the replaceable shearing element corresponding to a value
δ =

-

ctgΨ ₁ - 1.5

b, where h _Tr - the required depth of cultivation of solid soil;
Ψ ₁ - the angle of cleavage of loose solid soil.

The width of the replaceable cleaving element 23 can be determined by considering the scheme of loosening the soil with the proposed equipment while reducing the depth of loosening to h _tr and changing the angle of cleavage of the solid soil to Ψ ₁ > Ψ (Fig. 7).

Uniform loosening of the soil with the main and additional cleaving elements equipped with replaceable cleaving elements is achieved when the areas S ₁ and S _{2 of the} soil, which are opened and shifted by the additional elements 19 and 20, equipped with replaceable cleaving elements 23 and the main cleaving element 14, are equal.

, где Δ =h₂-h_тр - уменьшение глубины рыхления прочного грунта по сравнению с расчетной;
b₁ - ширина дополнительных скалывающих элементов, снабженных сменными скалывающими элементами.Area S _{1 is} calculated by the formula
S ₁ = 2b ₁ (h ₁ -Δ) + (h ₁ -Δ) ² ctgΨ ₁ + b (h ₁ -Δ) -

where Δ = h ₂ -h _tr - a decrease in the depth of loosening of solid soil in comparison with the calculated;
b ₁ - the width of the additional cleaving elements provided with replaceable cleaving elements.

,
Приравнивая площади S₁ и S₂ и учитывая, что δ =b₁-b, имеем
2δ(h₁-Δ)= b(h₂-h₁)+(h₂-h₁)²ctgΨ₁+

- (h₁-Δ)²ctgΨ₁-3b(h₁-Δ). Учитывая, что
h₂-h₁=

, h₁-Δ=h_тр-(h₂-h₁)=h_тр-

,
после преобразования получаем
δ=

-

ctgΨ₁- 1,5

b
Навесное оборудование работает следующим образом.Area S _{2 is} calculated by the formula
S ₂ = b (h ₂ -h ₁ ) + (h ₂ -h ₁ ) ² ctgΨ ₁ +

,
Equating the areas S ₁ and S ₂ and taking into account that δ = b ₁ -b, we have
2δ (h ₁ -Δ) = b (h ₂ -h ₁ ) + (h ₂ -h ₁ ) ² ctgΨ ₁ +

- (h ₁ -Δ) ² ctgΨ ₁ -3b (h ₁ -Δ). Given that
h ₂ -h ₁ =

, h ₁ -Δ = h _Tr - (h ₂ -h ₁ ) = h _Tr -

,
after conversion we get
δ =

-

ctgΨ ₁ - 1.5

b
Attachments work as follows.

 The wedge-ripper 3 is installed on the ground. In this case, the clamping-clamping head 4 abuts against the lower surface of the cavity 5. Then, the hammer 6 is discharged, which moves along the rod 2 and strikes the body of the wedge-ripper 3. As a result of the impact, the latter is introduced into the ground. Together with it, elements 14, 19, 20 are introduced into the soil.

After shock immersion of the wedge-ripper 3 in the soil to the required depth, it is removed from the soil. To do this, raise the rod 2. When it is lifted, the clamping-clamping head 4 first interacts with the shoulders 21 and 22 of the additional levers 16 and 17, and therefore of the additional cleaving elements 19 and 20, equipped with interchangeable cleaving elements 23, which produce separation and shear from slaughter of a certain volume of soil (area S ₁ in Fig. 7).

With a further rise of the rod 2, the clamping-clamping head 4 begins to interact with the shoulder 15 of the main lever 11. As a result, the main lever 11, and therefore the main shear element 14, rotates, which detaches and moves the additional amount of soil from the bottom (area S ₂ in Fig. 7).

 After setting the wedge-ripper 3 to a new place, the clamping-clamping head 4 is lowered into the cavity 5 and abuts against its lower surface. When lowering the head 4 under the action of the springs 12 and 13, the main lever 11 gradually rotates and the main shear element 14 returns to its original position. With further lowering of the head 4 under the action of the springs 18, the additional levers 16 and 17 gradually rotate and the additional shearing elements 19 and 20, equipped with replaceable shearing elements 23, return to their original position. Next, a new dipping cycle of the wedge-ripper 3 is performed.

The supply of additional shearing elements 19 and 20 with removable shearing elements 23 of a certain width, calculated by the above formula, leads to the equality of the forces acting from the side of the clamping-clamping head 4 on the shoulders 21 and 22 of the additional levers 16 and 17 and the shoulder 15 of the main lever 11, with this is achieved by the equality of the areas S ₁ and S ₂ torn off and shifted by additional and basic shearing elements of the soil when changing the required depth of cultivation and the cleavage angle of solid soil. This allows you to evenly loosen the soil with the main and additional shearing elements.

Claims (1)

ATTACHED EQUIPMENT FOR TILLING STRONG SOILS, including the main and additional cleaving elements, characterized in that, in order to uniformly loosen the strong soil with the main and additional cleaving elements when changing the required loosening depth and cleavage angle of the solid soil, each additional cleaving element is equipped with a fixed on its side the surface with a replaceable cleaving element, wherein the width δ of the replaceable cleaving element corresponds to
δ =

-

ctgΨ ₁ - 1.5

b ,,
where b is the width of the main shearing element;
Ψ is the angle of cleavage of solid soil for which cleaving elements were calculated;
Ψ ₁ - the angle of cleavage of loose solid soil;
h _Tr - the required depth of soil cultivation.

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