RU191991U1 - RIPPER UNIT WITH HANDLE - Google Patents

Abstract

The utility model relates to the technical field of construction equipment, in particular to a new cultivating tool combined with a handle. The ripping tool combined with the handle includes an arrow, a handle, a tooth seat and a middle hydraulic cylinder. The boom is pivotally connected to the handle, one end of the housing of the middle hydraulic cylinder is pivotally connected to the boom, and the other end of the middle hydraulic cylinder is pivotally connected to the handle, the lower part of the handle has a cross shape, and the tooth seat is made at the lower end of the handle. 1 ill.

Description

Technical field

The utility model relates to the technical field of construction equipment, in particular to a new cultivating tool combined with a handle.

State of the art

As traditional mounted implements for excavators, the well-known excavator cultivators usually have a box-shaped design, which can be more time-consuming during construction, if production cannot be achieved, production costs can increase significantly, and the weight of the handle will hardly meet the requirements of most working conditions. moreover, the required working mass of the handle cannot be achieved even after adding filler. Moreover, with the well-known handles of excavators for cultivation, a traditional cultivator is used with a small depth of development, a complex structure, a short service life, an increased number of problems and a high cost of maintenance; it may seem that the handle’s hydraulic cylinder, which drives it, gives flexibility to the functions of the cultivator, but in reality it performs only an auxiliary role. Utility Model Disclosure

In order to solve the above technical problems, the utility model proposes a new ripping tool combined with a handle, which has a simple design, does not require the use of a hydraulic cylinder for the handle and uses the combined design of the handle and cultivator; therefore, the handle becomes the main working body, and, without limiting the different components and parts of the known cultivator, the depth of production increases, and the cost of maintenance is significantly reduced.

In order to achieve these goals, the utility model uses the following flowcharts.

The invention provides a new ripping tool combined with a handle, including an arrow, a handle, a tooth seat and a middle hydraulic cylinder, the arrow being pivotally connected to the handle, one end of the middle hydraulic cylinder body pivotally connected to the boom, and the other end of the middle hydraulic cylinder body pivotally connected to handle, the lower part of the handle has a cross-shaped shape, and at the lower end of the handle made a seat for the tooth.

In addition, the handle is made of ultra-thick steel plate and has a thickness of 200-800 mm.

In addition, the upper part of the handle has a box-shaped structure into which filler can be introduced, the lower part of the handle is made of an ultra-thick steel plate and has a thickness of 200-800 mm.

In addition, one end of the boom is located on the excavator, the other end is pivotally connected to the handle, the boom is driven by the boom hydraulic cylinder, the flow of hydraulic fluid from two or more hydraulic valves of the excavator is concentrated in the middle hydraulic cylinder.

In addition, decorative holes are made on the handle.

The beneficial effects of the utility model are as follows.

The utility model has a simple design, does not use the hydraulic cylinder of the bucket handle and uses the combined design of the handle and cultivator, so the handle becomes the main working body, and, without limiting the different components and design details of the known cultivator, the depth of production is increased and the cost of maintenance is significantly reduced the handle, which is made of ultra-thick steel plate, not only facilitates the work, but also increases the overall structural feasibility, own weight and reinforcement loosening, the proposed middle hydraulic cylinder uses two or more hydraulic control valves for supplying hydraulic fluid, which can take more advantage of combining the flow from two excavator hydraulic pumps to provide hydraulic fluid to a powerful hydraulic cylinder and, ultimately, increase the power and speed of the hydraulic cylinder, as well as to increase work efficiency, the provided decorative holes not only look good, but also provide a comfortable lift during installation.

Description of the attached drawing

In FIG. 1 shows a design of a utility model.

Specific Embodiments of a Utility Model

Below, a utility model will be described with reference to the accompanying drawing and specific embodiments.

Embodiment 1: as shown in FIG. 1, the utility model proposes a new cultivating tool combined with a handle, which includes an arrow 1, a handle 2, a tooth seat 3 and a middle hydraulic cylinder 4, wherein the arrow 1 is pivotally connected to the handle 2, one end of the middle hydraulic cylinder 4 is pivotally connected to the arrow 1 and the other end of the middle hydraulic cylinder 4 is pivotally connected to the handle 2, the pivot point of the middle hydraulic cylinder 4 and the handle 2 is higher than the pivot point of the boom 1 and the handle 2, the lower part of the handle 2 has a cross-shaped shape mu, and the tooth seat 3 is located on the lower end of the handle 2. The utility model does not use the hydraulic cylinder of the bucket handle, but uses the combined design of the handle and cultivator, therefore the handle becomes the main working body, and, without limiting the different components and design details of the known cultivator, the depth of production is increased and the cost of maintenance is significantly reduced.

In addition, the handle 2 is made of ultra-thick steel plate and has a thickness of 200 - 800 mm, which not only facilitates the work, but also increases the overall structural feasibility, own weight and loosening force.

In addition, the upper part of the handle 2 has a box-shaped structure into which the filler is introduced, the lower part of the handle 2 is made of an ultra-thick steel plate and has a thickness of 200 - 800 mm, which not only facilitates the work, but also increases the overall structural feasibility, own weight and force loosening.

In addition, one end of the boom 1 is located on the excavator and pivotally connected to it, the other end is pivotally connected to the handle 2, the boom 1 being driven by the boom hydraulic cylinder, one end of the boom hydraulic cylinder is pivotally connected to the excavator, the rod end of the boom hydraulic cylinder is pivotally connected to boom 1, and the point of articulation of the hydraulic cylinder of the boom and boom 1 is located between the point of articulation of the hydraulic cylinder of the boom and excavator and the connection point of the boom 1 and handle 2, and the flow of hydraulic fluid bones from two or more hydraulic valves of the excavator are concentrated in the middle hydraulic cylinder 4, which can take more advantage of combining the flow from two hydraulic pumps of the excavator to provide hydraulic fluid to a powerful hydraulic cylinder and, ultimately, increase the power and speed of the hydraulic cylinder, as well as increase efficiency.

In addition, decorative holes 2-1 are made on the handle 2, which not only look good, but are also convenient for lifting during installation.

Claims (5)

1. A ripping tool combined with a handle, including an arrow, a handle, a tooth seat and a middle hydraulic cylinder, the arrow being pivotally connected to the handle, one end of the middle hydraulic cylinder body is pivotally connected to the arrow, and the other end of the middle hydraulic cylinder is pivotally connected to the handle, lower part of the handle has a cruciform shape, and the tooth seat is made at the lower end of the handle. 2. The cultivating tool combined with the handle according to claim 1, characterized in that the handle is made of an ultra-thick steel plate and has a thickness of 200 - 800 mm. 3. The cultivating tool combined with the handle according to claim 1, characterized in that the upper part of the handle is a box-shaped structure, and a filler is introduced into this box-shaped structure, the lower part of the handle is made of ultra-thick steel plate and has a thickness of 200 - 800 mm. 4. The loosening tool combined with the handle according to claim 1, characterized in that one end of the boom is located on the excavator, the other end is pivotally connected to the handle, and the boom is driven by the boom hydraulic cylinder, the flow of hydraulic fluid from two hydraulic valves or more excavator concentrated in the middle hydraulic cylinder. 5. The cultivating tool combined with the handle according to claim 1, characterized in that the decorative holes are made on the handle.

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