KR102618339B1 - Wasted engine disassembly workbench - Google Patents

Abstract

We present a waste engine disassembly workbench that increases user convenience and improves work convenience and safety by easily changing the arrangement of a seated waste engine.
The waste engine disassembly workbench is a waste engine disassembly workbench for disassembling waste engines. The body unit support part and body are formed to be inclined downward from one side toward the other side and have discharge holes penetrating along the vertical direction on the other side. A body unit including a body unit support portion that supports the unit support portion from the lower side, a waste engine seating unit disposed on the upper side of the body unit and spaced apart from the upper surface of the body unit, the upper part is coupled to the waste engine seating unit, and the lower part is installed on the body unit. It includes a control unit and a collection unit disposed on the lower side of the body unit support and connected to the discharge hole to collect waste oil from a waste engine. The waste engine seating unit is installed so that the waste engine is in contact with the waste engine at at least three positions, and the waste engine is seated on the top thereof, and at least a portion of the waste engine can be rotated in the vertical direction about the central axis. At least a portion of the control unit is configured to be tiltable so that the waste engine mounted on the waste engine seating unit can be tilted.

Description

Wasted engine disassembly workbench}

The present invention relates to a waste engine disassembly workbench, which increases user convenience and improves work convenience and safety by easily changing the arrangement of a mounted waste engine.

In general, the rehabilitation of scrap metal involves collecting resources through collectors, sorting and washing the collected resources into common properties (e.g., ferrous metals or non-ferrous metals), and then recrystallizing them in a blast furnace to produce new products. It is used as.

Conventionally, in order to collect resources from waste engines, waste engines were pressed into a press, etc., and then the resources were collected. However, the conventional press method has the problem of causing environmental pollution because the fuel oil (i.e., waste oil) inside the waste engine is pressed without being discharged.

Accordingly, in order to improve the above problem, a relatively heavy waste engine was lifted with a hoist and placed on a workbench, and then workers dismantled the waste engine manually to collect resources such as scrap metal and aluminum.

However, in the conventional case, when workers dismantle a waste engine, there is a problem in that the worker cannot easily dismantle the waste engine because the arrangement state of the waste engine with a heavy load cannot be easily changed.

KR 10-2013-0106260

The present invention provides a waste engine disassembly workbench that increases user convenience and improves work convenience and safety by easily changing the arrangement of a seated waste engine.

A waste engine disassembly workbench according to an embodiment of the present invention for solving the above problem is a waste engine disassembly workbench for seating a waste engine in order to disassemble a waste engine. It is formed to be inclined downward from one side toward the other side and has an upward and downward direction on the other side. A body unit including a body unit support portion formed with a discharge hole penetrating along the body unit support portion and a body unit support portion supporting the body unit support portion from a lower side; A waste engine seating unit disposed on the upper side of the body unit and spaced apart from the upper surface of the body unit; An adjustment unit whose upper part is coupled to the waste engine seating unit and whose lower part is installed on the body unit; And a collection unit disposed on the lower side of the body unit support portion and connected to the discharge hole to collect waste oil of the waste engine; wherein the waste engine seating unit contacts the waste engine at at least three or more positions. The waste engine is seated on the upper part, and at least a part of it is rotatably installed so that it can be rotated in the vertical direction about the central axis, and the control unit is configured to tilt the waste engine mounted on the waste engine seating unit. At least part of it is configured to be tiltable so that it can be tilted.

The waste engine seating unit includes a seating unit body portion whose central portion penetrates along the vertical direction and is connected to an upper part of the adjustment unit; And a seating unit rotating portion, the center of which penetrates along the vertical direction, is rotatably coupled to the upper portion of the seating unit body portion, and on which the waste engine is seated; and a seating unit motor installed on the seating unit body and capable of generating a driving force so as to rotate the seating unit rotating portion coupled on the seating unit body, and a seating unit coupled to an end of the seating unit motor. It includes a pinion gear and a seating unit driving unit including a seating unit rack gear extending from a lower part of the seating unit rotating portion along a circumferential direction with the vertical direction as a central axis and engaged with the seating unit pinion gear. The unit rotating unit is recessed inward from its upper surface so that the angled portion of the waste engine can be inserted into the inside and supported by a plurality of seating grooves spaced apart along the circumferential direction, and is recessed inward at the bottom thereof. It is provided with a lead-in groove extending along the circumferential direction, and the seating unit body part is configured to be inserted into the lead-in groove so that it can rotate relative to the seat unit rotating part, and the adjustment unit includes the body unit. An adjustment unit body portion tiltably coupled to the body unit support portion so as to maintain a level position with respect to the floor surface of the workplace on which it is seated; a first adjustment unit support portion whose lower part is fixed to the adjustment unit body, the upper portion of which is rotatably connected to the lower part of the seating unit rotating portion, and which can be expanded and contracted along the vertical direction; It is spaced apart from the first adjustment unit support portion along the circumferential direction, its lower portion is fixed to the adjustment unit body, its upper portion is rotatably connected to the lower portion of the seating unit rotating portion, and is elastically driven along the vertical direction. Possible second adjustment unit support; It is spaced apart from the first adjustment unit support part and the second control unit support part along the circumferential direction, its lower part is fixed to the control unit body, and its upper part is rotatably connected to the lower part of the seating unit rotating part. , a third adjustment unit support portion capable of expanding and contracting along the vertical direction; It is disposed at the center of the control unit body portion, its upper part is fixed to the lower part of the seating unit rotating portion, and extends in a spiral manner along the vertical direction to absorb and distribute the load of the waste engine seated on the waste engine seating unit. Control unit buffer for; and is installed on the control unit body, connected to the first control unit support part to the third control unit support part, and expands and contracts the first control unit support part to the third control unit support part by a user's operation. It includes an adjustment unit controller for controlling each drive, wherein the first to third adjustment unit supports are spaced apart from each other at an angle of 120° along the circumferential direction, and the control unit body portion is a disk. An adjustment unit body member formed into a shape; a plurality of control unit support members, the upper part of which is rotatably coupled to the lower side of the control unit body member, the lower part of which is rotatably coupled to the body unit support, and which are formed to be expandable and contractible along the vertical direction; an adjustment unit sensing member installed inside the adjustment unit body member and capable of detecting a horizontal state of the adjustment unit body member; and an adjustment unit control member installed on the adjustment unit body member, connected to the adjustment unit sensing member, and configured to control the plurality of adjustment unit support members according to a detection result of the adjustment unit sensing member. The control unit controller is operated by the user to expand and contract the first control unit support part to the third control unit support part to different lengths, thereby tilting the waste engine seated on the waste engine seating unit. Control it to do so.

It is installed on one side of the body unit support portion so that the waste oil of the waste engine remaining on the upper part of the body unit support portion can be removed from the body unit support portion, and is directed from one side of the body unit support portion to the other side of the body unit. It further includes a cleaning unit for spraying the cleaning liquid in one direction, wherein the cleaning unit includes: a cleaning unit storage unit for storing the cleaning liquid; a cleaning unit path portion connected to the cleaning unit storage unit and serving as a passage through which the cleaning liquid moves; One side is connected to the cleaning unit path portion, and the other side is disposed to face the upper surface of the body unit support portion, and a cleaning unit injection portion for spraying the cleaning liquid that has moved through the cleaning unit path portion. The path portion is provided with a plurality of baffles therein, and the plurality of baffles are formed with a plurality of slits penetrating along a direction in which the cleaning liquid moves within the cleaning unit path portion. Installed directions are arranged to intersect each other along the direction in which the cleaning liquid moves within the cleaning unit path portion, and the plurality of baffles are arranged at an obtuse angle with respect to the direction in which the cleaning fluid moves within the cleaning unit path portion, It is arranged in a zigzag shape along the direction in which the cleaning liquid moves, and a plurality of porous holes formed through and arranged radially are provided on one side of the cleaning unit spraying unit, and on the other side of the cleaning unit spraying unit, the cleaning unit spraying unit is provided. A plurality of air inlets are provided so that air can be sucked in from the outside of the unit, and the air inlets are spaced apart from each other along the outer peripheral surface of the other side of the cleaning unit injection unit with the moving direction of the cleaning liquid as the central axis, and the collection The unit includes: a collection unit piping portion whose one side is connected to the discharge hole and the other side of which is branched from each other to form a first discharge passage and a second discharge passage; A waste oil reject unit connected to the first discharge passage and used to store the waste oil; a cleaning liquid collection unit disposed in parallel with the waste oil collection unit, connected to the second discharge passage, and configured to store the cleaning liquid; and a collection unit control unit rotatably installed inside the collection unit piping unit, which rotates and is configured to selectively open and close one of the first discharge passage and the second discharge passage. , a pair of first body unit support members, the upper part of which is rotatably coupled to a lower part of one side of the body unit support portion, and the lower part of which is seated on the floor surface; The upper portion is rotatably coupled to the lower portion of the other side of the body unit support portion, and the lower portion is seated on the bottom surface, is formed to be longer than the vertical length of the pair of first body unit support members, and extends in the vertical direction. a pair of second body unit support members capable of stretching and contracting; and a body unit control installed on the first body unit support member, connected to the pair of second body unit support members, and configured to control expansion and contraction of the pair of second body unit support members by operation of a user. member; wherein the body unit control member controls the expansion and contraction drive of the pair of second body unit support members to change the inclination angle of the body unit support portion, and the adjustment unit control member includes the body unit support member. It is connected to the unit control member to transmit and receive signals to each other, and when the inclination angle of the body unit support is changed through the body unit control member, the degree of change is measured to control the driving of the plurality of adjustment unit support members.

The waste oil collection unit includes a waste oil collection bellows pipe connected to the first discharge passage; A waste oil storage tank connected to the waste oil collection bellows pipe; And a waste oil filtering module installed inside the waste oil collection bellows pipe to separate oil and moisture from the waste oil, wherein the waste oil filtering module includes a waste oil filtering upper body that has a heating wire built into the side and can be heated; , a waste oil filter upper body filled in the waste oil filtering upper body and including a filtering member made of a mineral that filters foreign substances from the inflowed waste oil and radiates far-infrared rays to the waste oil by heating the waste oil filtering upper body; A waste oil filtering lower body that communicates with the waste oil filtering upper body and forms a plurality of floating balls, a moisture membrane that absorbs moisture from the outer periphery of the waste oil filtering lower body, and a hydrophobic material around the moisture membrane to collect oil. A waste oil filter lower body including a hydrophobic membrane that allows the oil to pass through the hydrophobic membrane and an oil save part that stores oil that has passed through the hydrophobic membrane and forms a path through which the stored oil is discharged. It includes a waste oil filter upper body and The waste oil filter lower body has at least a portion of a diatomaceous earth coating layer, and the cleaning fluid collection unit includes a cleaning fluid collection bellows pipe connected to the second discharge passage. a cleaning liquid storage tank connected to the cleaning liquid collection bellows pipe and having a space for storing the introduced cleaning liquid; a cleaning liquid collection heating element embedded in the cleaning liquid storage tank, extending along the circumference of the space, and applying heat to the cleaning liquid contained in the space to purify the cleaning liquid; and an iron filtering member installed on the lower side of the cleaning liquid storage tank, formed of a magnetic material, and configured to filter the iron parts from the cleaning liquid by applying electromagnetic attraction to the iron parts moving with the cleaning liquid.

The waste engine seating unit includes a plurality of seating unit detection units installed to be spaced apart from each other along the circumferential direction in the seating unit rotating unit to detect whether the waste engine is seated on the seating unit rotating unit; and a seating unit light emitting unit installed on a side of the seating unit rotating unit, connected to a plurality of the seating unit detection units, and configured to selectively emit light of different colors, wherein the seating unit light emitting unit The unit includes a first light emitting member that irradiates blue light with a wavelength of 380 nm or more to 500 nm; a second light emitting member that irradiates red light with a wavelength of 635 nm or more and 700 nm or less; and a light emitting controller connected to the plurality of seating unit detection units and the first light emitting member and the second light emitting member to selectively control the driving of the first light emitting member and the second light emitting member. It includes; wherein the light emitting controller operates the second light emitting member to irradiate red light when a detection signal is transmitted from less than three seating unit detection units among the plurality of seating unit detection units, and the light emitting unit radiates red light. When a detection signal is transmitted from three or more seating unit detection units among the plurality of seating unit detection units, the divergence controller operates the first light emitting member to radiate blue light, and the seating unit rotation unit is made of a metal material. The seating unit detection unit is configured to measure a change in capacitance of the seating unit rotating portion and determine whether the waste engine is in contact with the seating unit rotating portion by determining a change in the measured value.

According to the present invention, the arrangement of the waste engine can be changed to a state desired by the user while the waste engine is seated. Accordingly, the user can easily disassemble the waste engine.

Additionally, waste oil discharged from waste engines can be collected and stored separately.

In addition, the durability of the structure supporting the waste engine can be improved by supporting the load of the waste engine.

Figure 1 is a diagram showing the structure of a waste engine disassembly workbench according to an embodiment of the present invention.
Figures 2(a) and 2(b) are views showing the waste engine seating unit and the control unit according to an embodiment of the present invention as viewed from one side and the other, respectively, with respect to the crossing direction.
Figure 3 is a partially enlarged view of part A of Figure 2(a).
Figure 4 is a view showing a waste engine supported by a hoist moving to the upper side of a waste engine disassembly workbench according to an embodiment of the present invention.
Figure 5 is a diagram showing a waste engine being seated on the upper part of the seating unit through a hoist.
Figure 6 is a diagram showing the first to third control unit supports being extended and adjusting the height of the waste engine seated on the seating unit.
Figure 7 is a diagram showing the first control unit support portion being further extended and tilting the waste engine.
Figure 8 is a diagram showing the cleaning unit spraying cleaning liquid onto the waste oil remaining on the body unit support portion.
Figure 9 is a diagram showing the structure of the cleaning unit adjustment member of the cleaning unit path portion according to an embodiment of the present invention.
Figure 10 is a diagram showing the structure of the baffle and slit of the cleaning unit path portion according to an embodiment of the present invention.
Figure 11 is a diagram showing the structure of a cleaning liquid spray unit according to an embodiment of the present invention.
Figure 12 is a diagram showing the structure of a waste oil filtering module according to an embodiment of the present invention.
Figure 13 is a diagram showing the structure of a first light-emitting member according to an embodiment of the present invention.

Hereinafter, embodiments will be described in detail with reference to the attached drawings. However, various changes can be made to the embodiments, so the scope of the patent application is not limited or limited by these embodiments. It should be understood that all changes, equivalents, or substitutes for the embodiments are included in the scope of rights.

Specific structural or functional descriptions of the embodiments are disclosed for illustrative purposes only and may be modified and implemented in various forms. Accordingly, the embodiments are not limited to the specific disclosed form, and the scope of the present specification includes changes, equivalents, or substitutes included in the technical spirit.

Terms such as first or second may be used to describe various components, but these terms should be interpreted only for the purpose of distinguishing one component from another component. For example, a first component may be named a second component, and similarly, the second component may also be named a first component.

When a component is referred to as being “connected” to another component, it should be understood that it may be directly connected or connected to the other component, but that other components may exist in between.

The terms used in the examples are for descriptive purposes only and should not be construed as limiting. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, terms such as “comprise” or “have” are intended to designate the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, but are not intended to indicate the presence of one or more other features. It should be understood that this does not exclude in advance the possibility of the existence or addition of elements, numbers, steps, operations, components, parts, or combinations thereof.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as generally understood by a person of ordinary skill in the technical field to which the embodiments belong. Terms defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and unless explicitly defined in the present application, should not be interpreted in an ideal or excessively formal sense. No.

In addition, when describing with reference to the accompanying drawings, identical components will be assigned the same reference numerals regardless of the reference numerals, and overlapping descriptions thereof will be omitted. In describing the embodiments, if it is determined that detailed descriptions of related known technologies may unnecessarily obscure the gist of the embodiments, the detailed descriptions are omitted.

The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below and will be implemented in various different forms. The present embodiments only serve to ensure that the disclosure of the present invention is complete and that common knowledge in the technical field to which the present invention pertains is not limited. It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims.

In the embodiments of the present invention, unless otherwise defined, all terms used herein, including technical or scientific terms, are the same as those commonly understood by a person of ordinary skill in the technical field to which the present invention pertains. It has meaning. Terms defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and unless clearly defined in the embodiments of the present invention, have an ideal or excessively formal meaning. It is not interpreted as

The shapes, sizes, proportions, angles, numbers, etc. disclosed in the drawings for explaining embodiments of the present invention are illustrative, and the present invention is not limited to the matters shown. Additionally, in describing the present invention, if it is determined that a detailed description of related known technologies may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. When 'includes', 'has', 'consists of', etc. mentioned in this specification are used, other parts may be added unless 'only' is used. When a component is expressed in the singular, the plural is included unless specifically stated otherwise.

When interpreting a component, it is interpreted to include the margin of error even if there is no separate explicit description.

In the case of a description of a positional relationship, for example, if the positional relationship of two parts is described as 'on top', 'on the top', 'on the bottom', 'next to', etc., 'immediately' Alternatively, there may be one or more other parts placed between the two parts, unless 'directly' is used.

When an element or layer is referred to as “on” another element or layer, it includes instances where the element or layer is directly on top of or intervening with another element. Like reference numerals refer to like elements throughout the specification.

The size and thickness of each component shown in the drawings are shown for convenience of explanation, and the present invention is not necessarily limited to the size and thickness of the components shown.

Each feature of the various embodiments of the present invention can be partially or fully combined or combined with each other, and as can be fully understood by those skilled in the art, various technical interconnections and operations are possible, and each embodiment may be implemented independently of each other. It may be possible to conduct them together due to a related relationship.

Figure 1 is a diagram showing the structure of a waste engine disassembly workbench according to an embodiment of the present invention, and Figures 2 (a) and Figure 2 (b) are cross directions of a waste engine seating unit and an adjustment unit according to an embodiment of the present invention. It is a diagram showing the view from one side and the other, respectively, Figure 3 is a diagram showing a partial enlargement of part A of Figure 2(a), and Figure 4 is a disassembly of a waste engine according to an embodiment of the present invention. It is a diagram showing the waste engine supported by a hoist moving to the upper side of the workbench, Figure 5 is a diagram showing the waste engine being seated on the upper part of the seating unit through the hoist, and Figure 6 is the first control unit. It is a diagram showing how the support part to the third control unit support part is extended and adjusting the height of the waste engine seated on the seating unit. Figure 7 shows the first control unit support part being further extended and tilting the waste engine. Figure 8 is a view showing the cleaning unit spraying cleaning liquid on the waste oil remaining on the body unit support, and Figure 9 is a diagram showing the cleaning unit control member of the cleaning unit path portion according to an embodiment of the present invention. Figure 10 is a diagram showing the structure of the baffle and slit of the cleaning unit path portion according to an embodiment of the present invention, and Figure 11 is a diagram showing the structure of the cleaning liquid spray portion according to an embodiment of the present invention. 12 is a diagram showing the structure of a waste oil filtering module according to an embodiment of the present invention, and FIG. 13 is a diagram showing the structure of the first light-emitting member according to an embodiment of the present invention.

Hereinafter, with reference to FIGS. 1 to 13, the structure of the waste engine disassembly workbench 100 according to an embodiment of the present invention will be described.

The waste engine disassembly workbench 100 according to an embodiment of the present invention includes a body unit 110, a waste engine seating unit 120, an adjustment unit 130, a collection unit 140, and a cleaning unit 150. Meanwhile, a hoist (H0) is installed in the workshop (e.g., the ceiling of the workshop) where the waste engine disassembly workbench 100 is installed, and the waste engine (E) is lifted by the hoist (Ho) and placed on the waste engine disassembly workbench (100). It can be settled.

Meanwhile, in an embodiment of the present invention, a plurality of waste engine seating units 120 and adjustment units 130 may be provided on the body unit 110 and may be arranged to be spaced apart. In an embodiment of the present invention, a case in which the waste engine seating unit 120 and the control unit 130 are provided as a single unit will be described as an example.

More specifically, the waste engine disassembly workbench 100 is a waste engine disassembly workbench for seating the waste engine (E) in order to disassemble the waste engine (E), from one side to the other side (based on one direction shown in FIG. 1). ) a body unit support portion 111 that is inclined downward and has a discharge hole 111a penetrating along the vertical direction (see Figure 1) on the other side, and a body unit support portion that supports the body unit support portion 111 from the lower side. A body unit 110 having (112), a waste engine seating unit 120 disposed on the upper side of the body unit 110 and spaced apart from the upper surface of the body unit 110, the upper part of which is the waste engine seating unit 120. It is coupled to the control unit 130, the lower part of which is installed on the body unit 110, and is disposed on the lower side of the body unit support 111 and connected to the discharge hole 111a to discharge waste oil (WO) of the waste engine (E). Includes a collection unit 140 to collect (Waste Oil). Here, the waste engine seating unit 120 is in contact with the waste engine (E) at at least three or more positions (i.e., points), the waste engine (E) is seated on the upper part, and at least a portion of the waste engine is rotated about the central axis in the vertical direction. It is installed at least rotatably so that it can be rotated. In addition, the control unit 130 is configured to be tiltable at least in part so that the waste engine (E) mounted on the waste engine seating unit 120 can be tilted.

The body unit 110 is seated (and installed) on the floor of the workshop (not shown) and serves as the body of the waste engine disassembly workbench 100.

The body unit 110 includes a body unit support portion 111 and a body unit support portion 112.

The body unit support portion 111 is formed to be inclined with respect to the direction in which the workshop floor extends (i.e., one direction shown in FIG. 1). Accordingly, the waste oil (WO) discharged from the waste engine (E) moves in one direction from one side to the other due to the height difference.

Additionally, the inclination angle of the body unit support portion 111 can be adjusted by the body unit support portion 112, which will be described later.

In addition, the body unit support portion 111 has a wave- or comb-shaped rib (not shown) and a wave- or comb-shaped slit (not shown) along one direction on its upper surface to allow waste oil to flow better. may be extended and formed alternately and spaced apart along a cross direction (see FIG. 1) that is horizontally orthogonal to one direction.

The body unit support portion 112 supports the body unit support portion 111 from the lower side and is formed to be flexible in the vertical direction.

The body unit support member 112 includes a first body unit support member 112a, a second body unit support member 112b, and a body unit control member 112c.

The upper part of the first body unit support member 112a is rotatably coupled to the lower part of one side of the body unit support part 111, and the lower part is seated on the floor. The first body unit support members 112a are provided in pairs and are spaced apart along the intersection direction at the lower part of one side of the first body unit support portion 111.

The second body unit support member (112b) has its upper part rotatably coupled to the lower part of the other side of the body unit support part 111, its lower part is seated on the floor, and a pair of first body unit support members (112a) It is formed to be longer than the vertical length of and is formed to be capable of stretching and contracting along the vertical direction. For example, the second body unit support member 112b may include a cylinder link that expands and contracts along the vertical direction and whose length can be varied.

The body unit control member 112c is connected to a pair of second body unit support members 112b, and controls the expansion and contraction of the pair of second body unit support members 112b by driving (operation) by the user. Accordingly, the inclined angle of the body unit support portion 111 can be adjusted organically. That is, the body unit control member 112c can change the inclination angle of the body unit support portion 111 by controlling the expansion and contraction drive of the pair of second body unit support members 112b.

The waste engine seating unit 120 may be a part where the waste engine (E) is actually seated on the body unit 110.

The waste engine seating unit 120 includes a seating unit body portion 121, a seating unit rotating portion 122, a seating unit driving portion 123, a seating unit detecting portion 124, and a seating unit light emitting portion 125.

The seating unit body portion 121 has its center penetrated in the vertical direction (a hole H1 is formed in the drawing) and is connected to the upper part of the adjustment unit 130. For example, the seating unit body portion 121 may be formed as a ring-shaped disk extending along the circumferential direction of a circle with the vertical direction as the central axis. That is, the center of the seating unit body portion 121 is penetrated along the vertical direction, and a part of the waste engine (E) seated on the seating unit rotating portion 122 can be inserted into the penetrated center.

In addition, the seating unit body portion 121 is coupled to the seating unit rotating portion 122 so that a portion of it is inserted into the inlet groove 122b of the seating unit rotating portion 122, which will be described later, and can rotate relative to the seating unit rotating portion 122. do.

The seating unit rotating portion 122 has its center penetrated along the vertical direction (in the drawing, a hole (H2) is formed that communicates with the hole (H1) of the seating unit body portion 121), and the seating unit body portion 121 It is rotatably coupled to the upper part, and the waste engine (E) can be seated on the upper part.

Here, the seating unit rotating portion 122 is recessed inward from the upper surface so that the angled portion of the waste engine E can be inserted into the inner side (that is, from the upper side to the lower side along the vertical direction) and supported, and along the circumferential direction. It is provided with a plurality of spaced apart seating grooves (122a). Here, the seating groove 122a may be formed to be concavely recessed inward in the seating unit rotating part 122 in a hemispherical or rectangular parallelepiped shape.

In addition, the seating unit rotation unit 122 is provided with a recessed groove 122b at the bottom thereof, which is recessed inward (that is, from the bottom to the top along the vertical direction) and extends along the circumferential direction.

Additionally, the seating unit rotation unit 122 may be formed of a metal material.

The seating unit driving unit 123 is installed on the seating unit body 121 so as to rotate the seating unit rotating unit 122 coupled on the seating unit body 121 and includes a seating unit motor ( 123a), a seating unit pinion gear 123b coupled to the end of the seating unit motor 123a, and a seating unit pinion gear extending along the circumferential direction with the vertical direction as the central axis from the lower part of the seating unit rotating part 122. It includes a seating unit rack gear (123c) engaged with (123b). Here, the seating unit rack gear 123c is formed to extend in a range of 180° to 190° around the circumference of the seating unit rotation unit 122 based on the circumferential direction. Accordingly, when the seating unit motor (123a) generates a driving force to rotate the seating unit pinion gear (123b), the seating unit rack gear (123c) engaged with the seating unit pinion gear (123b) engages and moves along the circumferential direction. And in conjunction with this, the seating unit rotation unit 122 rotates and rotates. Therefore, by the rotation of the seating unit rotating part 122, the waste engine (E) rotates and its arrangement changes.

A plurality of seating unit detection units 124 are provided, and are installed to be spaced apart from the seating unit rotating unit 122 in the circumferential direction to detect whether the waste engine (E) is seated on the seating unit rotating unit 122.

In addition, the seating unit detection unit 124 measures the change in capacitance of the seating unit rotating unit 122 and determines the change in the measured value to detect whether the waste engine (E) is in contact with the seating unit rotating unit 122. can do. That is, when the waste engine (E) comes into contact with the seating unit rotating part 122 made of a metal material, the capacitance of the seating unit rotating part 122 may change, and the seating unit detection unit 124 is the seating unit described above. By detecting the capacitance of the rotating unit 122, it is possible to check whether the seating unit rotating unit 122 is seated.

For example, nine seating unit detection units 124 are provided, and are arranged to be spaced apart at an angle of 20° based on the circumferential direction. That is, each seating unit detection unit 124 can detect whether the waste engine E is in contact with an area within an angle range of 20° from the seating unit rotation unit 122 based on the circumferential direction.

The seating unit light emitting unit 125 is installed on the side of the seating unit rotating unit 122, is connected to a plurality of seating unit detection units 124, and can selectively emit light of different colors.

The seating unit light emitting unit 125 includes a first light emitting member 125a, a second light emitting member 125b, and a light emitting controller 125c.

The first light emitting member 125a irradiates blue light with a wavelength of 380 nm or more to 500 nm.

The second light emitting member 125b irradiates red light with a wavelength of 635 nm or more and 700 nm or less.

The light emitting controller 125c is connected to a plurality of seating unit detection units 124 and the first light emitting member 125a and the second light emitting member 125b, and transmits the first light emitting member 125a and the second light emitting member 125b. The driving of the diverging member 125b is selectively controlled. Specifically, when a detection signal is transmitted from less than three seating unit detection units 124 among the plurality of seating unit detection units 124, the light emitting controller 125c operates the second light emitting member 125b to emit red light. can be investigated. On the other hand, when a detection signal is transmitted from three or more seating unit detection units 124 among the plurality of seating unit detection units 124, the light emitting controller 125c operates the first light emitting member 125a to radiate blue light. You can.

Meanwhile, the above-described first light-emitting member 125a includes a light-emitting diode 125aa and a light guide 125ab.

The light guide 125ab includes a first guide surface 125aba, a second guide surface 125abb, a first reflection surface 125abc, and a second reflection surface 125abd.

More specifically, the first light-emitting member 125a includes a light-emitting diode 125aa that emits light and irradiates light. For example, the light emitting diode 125aa may irradiate first light, which is blue light with a wavelength of 380 nm or more to 500 nm.

Additionally, the light guide 125ab guides light emitted from the plurality of light emitting diodes 125aa.

The light guide (125ab) has a first guide surface (125aba) disposed opposite to the surface on which the plurality of light emitting diodes (125aa) are arranged, and extends along the circumference of the light guide (125ab) in one direction from the first guide surface (125aba). A second guide surface 125abb for outputting incident light and a first reflection surface 125abc are disposed opposite to each other and are formed as a curved surface whose absolute value of inclination decreases as it goes from the first guide surface 125aba to the second guide surface 125abb. ) and a second reflective surface 125abd.

The light guide (125ab) is made of a material having a refractive index of 1.3 or more to 1.6 or less, is formed to be rotationally symmetrical with one direction as the central axis, and directs light incident through the first guide surface (125aba) to the first reflection surface ( It is configured to continuously reflect between the second reflection surface 125abc) and the second reflection surface 125abd and to emit it uniformly along the circumferential direction of a circle with one direction as the central axis through the second guide surface 125abb.

The control unit 130 is configured to be tiltable at least in part so that the waste engine (E) mounted on the waste engine seating unit 120 can be tilted.

The control unit 130 includes an control unit body part 131, a first control unit support part 132, a second control unit support part 133, a third control unit support part 134, and an control unit buffer part 135. ) and an adjustment unit controller 136.

The control unit body portion 131 is tiltably coupled to the body unit support portion 111 so that it can be maintained horizontal with respect to the workplace floor surface on which the body unit 110 is seated.

The adjustment unit body portion 131 includes an adjustment unit body member 131a, a plurality of adjustment unit support members 131b, an adjustment unit sensing member 131c, and an adjustment unit control member 131d.

The control unit body member 131a is formed in a disk shape. The adjustment unit body member 131a can be arranged horizontally with respect to the floor surface of the workplace through a plurality of adjustment unit support members 131b, an adjustment unit detection member 131c, and an adjustment unit control member 131d, which will be described later.

The plurality of adjustment unit support members (131b) have their upper portions rotatably coupled to the lower side of the adjustment unit body member (131a), and their lower portions are rotatably coupled to the body unit support portion 111, along the vertical direction. Formed to enable kidney contraction. For example, the plurality of adjustment unit support members 131b are provided in three pieces and are arranged to be spaced apart at an angle of 120° along the circumferential direction.

The control unit detection member 131c is installed on the control unit body member 131a and can detect the horizontal state of the control unit body member 131a.

The adjustment unit control member 131d is connected to the adjustment unit detection member 131c, and can control a plurality of adjustment unit support members 131b according to the detection result of the adjustment unit detection member 131c.

In addition, the adjustment unit control member 131d is connected to the body unit control member 112c to transmit and receive signals to each other, and when the inclination angle of the body unit support portion 111 is changed through the body unit control member 112c. , the driving of the plurality of adjustment unit support members 131b can be controlled by measuring the degree of change.

The first adjustment unit support part 132 has its lower part fixed to the control unit body part 131, its upper part rotatably connected to the lower part of the seating unit rotating part 122, and capable of being stretched and driven in the vertical direction. is formed For example, the first adjustment unit support portion 132 may be provided as a cylinder link that expands and contracts along the vertical direction and whose length can be varied.

The second control unit support part 133 is spaced apart from the first control unit support part 132 along the circumferential direction, its lower part is fixed to the control unit body part 131, and its upper part is attached to the seating unit rotating part 122. It is rotatably connected to the lower part and can be formed to be flexible and driveable in the vertical direction. For example, the second adjustment unit support portion 133 may be provided as a cylinder link that expands and contracts along the vertical direction and whose length can be varied.

The third control unit support part 134 is spaced apart from the first control unit support part 132 and the second control unit support part 133 along the circumferential direction, and its lower part is fixed to the control unit body part 131, The upper part is rotatably connected to the lower part of the seating unit rotating part 122, and is formed to be flexible and driveable in the vertical direction. For example, the third adjustment unit support portion 134 may be provided as a cylinder link that expands and contracts along the vertical direction and whose length can be varied. Here, the first adjustment unit support portion 132 to the third adjustment unit support portion 134 are arranged to be spaced apart from each other at an angle of 120° along the circumferential direction.

The control unit buffer 135 is disposed at the center of the control unit body 131, its upper part is fixed to the lower part of the seating unit rotating part 122, and extends spirally along the vertical direction, and is a waste engine seating unit ( 120) can absorb and distribute the load of the waste engine (E) seated on it. The diameter of the adjustment unit buffer 135 may be larger than the inner diameter of the central portion of the seating unit rotation unit 122. That is, the upper part of the adjustment unit buffer 135 is coupled to a portion adjacent to the penetrating center of the seating unit rotation unit 122 based on the radial direction of a circle with the vertical direction as the central axis.

The control unit controller 136 is connected to the first control unit support part 132 to the third control unit support part 134, and is operated by the user to move the first control unit support part 132 to the third control unit support part. The expansion and contraction of the parts 134 can be controlled individually.

In addition, the control unit controller 136 is operated by the user to expand and contract the first control unit support part 132 to the third control unit support part 134 to different lengths, respectively, to install the waste engine seating unit 120. ) can be placed at an angle. Additionally, the adjustment unit controller 136 can be arranged so that the upper surface of the seating unit rotation unit 122 is parallel to the floor of the workplace.

The collection unit 140 is disposed on the lower side of the body unit support portion 111 and is connected to the discharge hole 111a to collect waste oil from the waste engine (E). Additionally, the collection unit 140 can collect the cleaning liquid (CL) sprayed from the cleaning unit 150 to clean the body unit support portion 111.

The collection unit 140 includes a collection unit piping unit 141, a waste oil water rejection unit 142, a cleaning liquid collection unit 143, and a collection unit control unit 144.

One side of the collection unit piping unit 141 is connected to the discharge hole 111a, and the other side branches off from each other to form a first discharge passage 141a and a second discharge passage 141b. For example, the collection unit piping unit 141 may be formed of a bellows pipe.

The waste oil reject unit 142 is connected to the first discharge passage 141a, and waste oil (WO) can be stored.

The waste oil collection unit 142 includes a waste oil collection bellows pipe 142a, a waste oil storage tank 142b, and a waste oil filtering module 142c.

The waste oil collection bellows pipe 142a is connected to the first discharge passage 141a.

The waste oil storage tank (142b) is connected to the waste oil collection bellows pipe (142a).

The waste oil filtering module 142c is installed inside the waste oil collection bellows pipe 142a and can separate oil and moisture from waste oil (WO).

The waste oil filtering module (142c) consists of a waste oil filter upper body (142ca), a floating ball (142cb), a waste oil filtering lower body (142cc), a moisture membrane (142cd), a hydrophobic membrane (142ce), an oil save part (142cf), and a waste oil filtering module (142c). Includes filter subbody (142 cg).

The waste oil filter upper body 142ca is filled with the waste oil filtering upper body 142caa, which has a heating wire 142cac built into its side and can be heated, and the waste oil filtering upper body 142caa, and removes foreign substances from the inflow waste oil (WO). It includes a filtering member (142cab) made of mineral that filters and radiates far-infrared rays to the waste oil (WO) by heating the waste oil filtering upper body (142caa).

The waste oil filter lower body (142cg) communicates with the waste oil filtering upper body (142caa) and collects moisture from the waste oil filtering lower body (142cc) in which a plurality of floating balls (142cb) are formed, and the outer periphery of the waste oil filtering lower body (142cc). A moisture membrane (142cd) that absorbs, a hydrophobic membrane (142ce) composed of a hydrophobic material around the moisture membrane (142cd) that allows only oil to pass through, and stored oil as the oil that passes through the hydrophobic membrane (142ce) is stored. It includes an oil save part (142 cf) where this discharge path is formed.

Here, at least a portion of the waste oil filter upper body 142ca and the waste oil filter lower body 142cg have a diatomaceous earth coating layer.

The cleaning liquid collection unit 143 is arranged in parallel with the waste oil collection unit 142, is connected to the second discharge passage 141b, and stores the cleaning liquid CL.

The cleaning fluid collection unit 143 includes a cleaning fluid collection bellows pipe 143a, a cleaning fluid storage tank 143b, a cleaning fluid collection heating element 143c, and a steel filtering member 143d.

The cleaning liquid collection bellows pipe 143a is connected to the second discharge passage 141b.

The cleaning liquid storage tank 143b is connected to the cleaning liquid collection bellows pipe 143a and has a space for storing the inflow cleaning liquid CL.

The cleaning liquid collection heating wire 143c is embedded in the cleaning liquid storage tank 143b, extends along the perimeter of the space of the cleaning liquid storage tank 143b, and heats the cleaning liquid (CL) contained in the above-mentioned space to heat the cleaning liquid (CL). It can be purified.

The iron filtering member 143d is installed on the lower side of the cleaning liquid storage tank 143b, is made of a magnetic material, and applies electromagnetic attraction to the iron parts moving with the cleaning liquid CL to separate the iron parts from the cleaning liquid CL. You can filter. For example, the iron filtering member 143d may include a magnet.

The collection unit control unit 144 is rotatably installed inside the collection unit piping unit 141, rotates, and can selectively open and close either the first discharge passage (141a) or the second discharge passage (141b). there is. Here, the collection unit control unit 144 is electromagnetically connected to the cleaning unit spraying unit 153 of the cleaning unit 150, which will be described later, and when the cleaning unit spraying unit 153 is not operated, the second discharge passage 141b ) can be closed, and if the cleaning unit injection unit 153 is not operating, the first discharge passage (141a) can be closed.

The cleaning unit 150 is installed on the body unit support portion 111 so that the waste oil (WO) of the waste engine (E) remaining on the upper part of the body unit support portion 111 can be removed from the body unit support portion 111. It is installed on one side, and the cleaning liquid can be sprayed along one direction from one side of the body unit support portion 111 toward the other side of the body unit 110.

The cleaning unit 150 includes a cleaning unit storage unit 151, a cleaning unit path unit 152, and a cleaning unit spraying unit 153.

The cleaning unit storage unit 151 stores the cleaning liquid (CL).

The cleaning unit path portion 152 is connected to the cleaning unit storage portion 151 and may be a passage through which the cleaning liquid (CL) moves. Here, the cleaning unit path portion 152 is provided with a plurality of baffles 152a therein. Specifically, the plurality of baffles 152a are located in the direction in which the cleaning liquid CL moves within the cleaning unit path portion 152. A plurality of slits 152b are formed along the . Additionally, the plurality of baffles 152a are arranged so that their installation directions intersect each other along the direction in which the cleaning liquid CL moves within the cleaning unit path portion 152. Additionally, the plurality of baffles 152a may be arranged at an obtuse angle with respect to the direction in which the cleaning liquid CL moves within the cleaning unit path portion 152, and may be arranged in a zigzag shape along the direction in which the cleaning liquid CL moves. there is.

Meanwhile, the cleaning unit path portion 152 may further include a cleaning unit adjustment member 152c capable of adjusting its inner diameter therein. Additionally, the cleaning liquid path portion 152 includes a cleaning liquid path 152d, which is a path along which the cleaning liquid CL moves.

The cleaning unit control member 152c is formed to surround at least a portion of the cleaning unit path portion 152 based on the direction in which the cleaning liquid CL moves and forms a space in which the cleaning unit control member 152cb, which will be described later, is installed. The cleaning unit control body 152ca, at least a part of which is the path along which the cleaning liquid (CL) moves in the internal space of the cleaning unit control body 152ca, is a cleaning unit control body that can be moved to the center of the cleaning unit control body 152ca. It may include a cleaning unit control body (152cb) installed around the inner peripheral surface of (152ca) and a cleaning unit driving body (not shown) connected to the cleaning unit control body (152cb) to move the cleaning unit control body (152cb). there is. The cleaning unit control body 152cb may be expanded toward the center of the cleaning unit control body 152ca in an aperture manner by driving the cleaning unit. Accordingly, the diameter of the path along which the cleaning liquid CL moves within the cleaning unit path portion 152 changes, and the speed at which the cleaning liquid moves may be changed by a predetermined amount.

The cleaning unit spray unit 153 is arranged so that one side is connected to the cleaning unit path part 152 in one direction and the other side faces the upper surface of the body unit support part 111, and moves through the cleaning unit 150. A cleaning liquid (CL) may be sprayed.

In addition, a plurality of porous holes 153a formed through and radially disposed may be provided on one side of the cleaning unit spray unit 153. Additionally, the other side of the cleaning unit spraying unit 153 may be provided with a plurality of air inlets 153b so that air can be sucked in from the outside of the cleaning unit spraying unit 153. Additionally, the air inlets 153b may be arranged to be spaced apart along the outer peripheral surface of the other side of the cleaning unit spray unit 153 with the moving direction of the cleaning liquid CL as the central axis.

In this way, with the waste engine seated, the arrangement of the waste engine can be changed to the state desired by the user. Accordingly, the user can easily disassemble the waste engine. Additionally, waste oil discharged from waste engines can be collected and stored separately. In addition, the durability of the structure supporting the waste engine can be improved by supporting the load of the waste engine.

Although embodiments of the present invention have been described in more detail with reference to the accompanying drawings, the present invention is not necessarily limited to these embodiments, and various modifications may be made without departing from the technical spirit of the present invention. . Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but are for illustrative purposes, and the scope of the technical idea of the present invention is not limited by these embodiments. Therefore, the embodiments described above should be understood in all respects as illustrative and not restrictive. The scope of protection of the present invention should be interpreted in accordance with the claims below, and all technical ideas within the equivalent scope should be construed as being included in the scope of rights of the present invention.

Therefore, other implementations, other embodiments, and equivalents of the claims also fall within the scope of the following claims.

100: Waste engine disassembly workbench 110: Body unit
120: Waste engine seating unit 130: Control unit
140: collection unit 150: cleaning unit

Claims (3)

A waste engine disassembly workbench for seating a waste engine in order to disassemble the waste engine,
A body unit including a body unit support portion that is inclined downward from one side toward the other side and has a discharge hole penetrating in the vertical direction on the other side, and a body unit support portion that supports the body unit support portion from a lower side;
A waste engine seating unit disposed on the upper side of the body unit and spaced apart from the upper surface of the body unit;
An adjustment unit whose upper part is coupled to the waste engine seating unit and whose lower part is installed on the body unit; and
A collection unit disposed below the body unit support portion and connected to the discharge hole to collect waste oil of the waste engine,
The waste engine seating unit is in contact with the waste engine at at least three or more positions, the waste engine is seated on the top thereof, and at least a part of the waste engine is installed to be rotatable so that it can be rotated about the central axis in the vertical direction,
The control unit is configured to be tiltable at least in part so that the waste engine mounted on the waste engine seating unit can be tilted,
The waste engine seating unit is,
A seating unit body portion, the center of which penetrates along the vertical direction, and is connected to the upper part of the adjustment unit; and
A seating unit rotating portion whose central portion penetrates along the vertical direction, is rotatably coupled to an upper portion of the seating unit body portion, and on which the waste engine is seated; and
A seating unit motor installed on the seating unit body and capable of generating driving force so as to rotate the seating unit rotating portion coupled on the seating unit body, and a seating unit pinion coupled to an end of the seating unit motor. A seating unit driving unit including a gear and a seating unit rack gear extending from the lower portion of the seating unit rotating portion along a circumferential direction with the vertical direction as the central axis and engaged with the seating unit pinion gear,
The seating unit rotating portion is provided with a plurality of seating grooves that are recessed inward from the upper surface and spaced apart along the circumferential direction so that the angled portion of the waste engine can be inserted into the inside and supported, and are provided with a plurality of seating grooves spaced apart in the circumferential direction at the bottom thereof. It has a lead-in groove that is recessed and extends along the circumferential direction,
The seating unit body portion is configured so that a portion thereof is inserted into the recess and can rotate relative to the seating unit rotating portion,
The control unit is,
An adjustment unit body portion tiltably coupled to the body unit support portion so as to maintain a horizontal level with respect to the floor surface of the workplace where the body unit is seated;
a first adjustment unit support portion whose lower part is fixed to the adjustment unit body, the upper portion of which is rotatably connected to the lower part of the seating unit rotating portion, and which can be expanded and contracted along the vertical direction;
It is spaced apart from the first adjustment unit support portion along the circumferential direction, its lower portion is fixed to the adjustment unit body, its upper portion is rotatably connected to the lower portion of the seating unit rotating portion, and is elastically driven along the vertical direction. Possible second adjustment unit support;
It is spaced apart from the first adjustment unit support part and the second control unit support part along the circumferential direction, its lower part is fixed to the control unit body, and its upper part is rotatably connected to the lower part of the seating unit rotating part. , a third adjustment unit support portion capable of expanding and contracting along the vertical direction;
It is disposed at the center of the control unit body portion, its upper part is fixed to the lower part of the seating unit rotating portion, and extends in a spiral manner along the vertical direction to absorb and distribute the load of the waste engine seated on the waste engine seating unit. Control unit buffer for; and
It is installed on the control unit body, connected to the first control unit support part to the third control unit support part, and the first control unit support part to the third control unit support part is expanded and contracted by a user's operation. Includes a control unit controller for controlling each,
The first adjustment unit support part to the third control unit support part are spaced apart from each other at an angle of 120° along the circumferential direction,
The control unit body part,
A control unit body member formed in a disk shape;
a plurality of control unit support members, the upper part of which is rotatably coupled to the lower side of the control unit body member, the lower part of which is rotatably coupled to the body unit support, and which are formed to be expandable and contractible along the vertical direction;
an adjustment unit sensing member installed inside the adjustment unit body member and capable of detecting a horizontal state of the adjustment unit body member; and
An adjustment unit control member installed on the adjustment unit body member, connected to the adjustment unit sensing member, and configured to control the plurality of adjustment unit support members according to a detection result of the adjustment unit sensing member,
The control unit controller is operated by a user's operation to expand and contract the first control unit support part to the third control unit support part to different lengths to tilt the waste engine seated on the waste engine seating unit. A waste engine disassembly workbench that controls placement. delete In claim 1,
It is installed on one side of the body unit support portion so that the waste oil of the waste engine remaining on the upper part of the body unit support portion can be removed from the body unit support portion, and is directed from one side of the body unit support portion to the other side of the body unit. It further includes a cleaning unit for spraying the cleaning liquid in one direction,
The cleaning unit is,
a cleaning unit storage unit that stores the cleaning liquid;
a cleaning unit path portion connected to the cleaning unit storage unit and serving as a passage through which the cleaning liquid moves;
One side is connected to the cleaning unit path portion, and the other side is disposed to face the upper surface of the body unit support portion, and a cleaning unit injection portion for spraying the cleaning liquid moving through the cleaning unit path portion,
The cleaning unit path portion is provided with a plurality of baffles therein,
The plurality of baffles are formed with a plurality of slits penetrating along a direction in which the cleaning liquid moves within the cleaning unit path portion,
The plurality of baffles are arranged so that their installation directions intersect each other along the direction in which the cleaning liquid moves within the cleaning unit path portion,
The plurality of baffles are arranged at an obtuse angle with respect to the direction in which the cleaning liquid moves within the cleaning unit path portion, and are arranged in a zigzag shape along the direction in which the cleaning liquid moves,
A plurality of porous holes formed through and arranged radially are provided on one side of the cleaning unit spray unit,
On the other side of the cleaning unit spraying unit, a plurality of air inlets are provided so that air can be sucked in from the outside of the cleaning unit spraying unit,
The air inlet is arranged to be spaced apart along the outer peripheral surface of the other side of the cleaning unit spray unit with the moving direction of the cleaning liquid as the central axis,
The collection unit is,
a collection unit piping part whose one side is connected to the discharge hole and whose other side branches off from each other to form a first discharge passage and a second discharge passage;
A waste oil reject unit connected to the first discharge passage and used to store the waste oil;
a cleaning liquid collection unit disposed in parallel with the waste oil collection unit, connected to the second discharge passage, and configured to store the cleaning liquid; and
A collection unit control unit rotatably installed inside the collection unit piping unit, rotated, and configured to selectively open and close one of the first discharge passage and the second discharge passage,
The body unit support part,
a pair of first body unit support members, the upper part of which is rotatably coupled to a lower part of one side of the body unit support portion, and the lower part of which is seated on the bottom surface;
The upper portion is rotatably coupled to the lower portion of the other side of the body unit support portion, and the lower portion is seated on the bottom surface, is formed to be longer than the vertical length of the pair of first body unit support members, and extends in the vertical direction. a pair of second body unit support members capable of stretching and contracting; and
A body unit control member installed on the first body unit support member, connected to the pair of second body unit support members, and configured to control expansion and contraction of the pair of second body unit support members by operation of a user. Contains ;,
The body unit control member controls the expansion and contraction drive of the pair of second body unit support members to change the inclination angle of the body unit support portion,
The adjustment unit control member is connected to the body unit control member to transmit and receive signals to each other, and when the inclination angle of the body unit support portion is changed through the body unit control member, the degree of change is measured and a plurality of adjustment units are connected. A waste engine disassembly workbench that controls the operation of support members.