CN221164294U - A conveyer for aluminium liquid transportation - Google Patents

Abstract

The application discloses a transportation device for transporting aluminum liquid, which comprises a moving mechanism, a lifting mechanism, a rotating mechanism and an aluminum liquid storage device. The moving mechanism has self-moving capability and can move according to a preset path, and the moving mechanism also has a containing space for containing the lifting mechanism, the rotating mechanism and the aluminum liquid storage device. The lifting mechanism is arranged in the accommodating space of the moving mechanism, can synchronously move along with the moving mechanism, and can lift or descend in the accommodating space along the vertical direction. The rotating mechanism is arranged on the lifting mechanism, can synchronously move along with the lifting mechanism and can rotate along the horizontal direction. The aluminum liquid storage device is arranged on the rotating mechanism and can synchronously rotate along with the rotating mechanism. The aluminum liquid storage device is provided with a heating component, and the heating component is used for heating the tank body of the aluminum liquid storage device.

Description

A conveyer for aluminium liquid transportation

Technical Field

The application relates to the technical field of material transportation, in particular to a transportation device for aluminum liquid transportation.

Background

With the rapid development of manufacturing industry, original manufacturing plants gradually evolved from manually transporting materials to transporting them by mechanical equipment. For example, for storing molten aluminum in a die casting machine, a forklift is generally used for transportation. However, the existing forklift is generally driven by a worker in a starting and controlling way, and aluminum liquid is used as high-temperature liquid, so that the safety of the worker is affected to a certain extent in the transportation process. In addition, because of the specificity of the aluminum liquid tank, the aluminum liquid tank needs to be powered to ensure the temperature of the aluminum liquid, and the existing aluminum liquid tank is powered by manual wiring, so that the safety of workers is also influenced, and the transportation efficiency is also influenced.

Therefore, how to improve the safety and the transportation efficiency of the aluminum liquid is a urgent problem for those skilled in the art.

Disclosure of utility model

The embodiment of the application provides a transportation device for transporting aluminum liquid, which aims to solve the problem of how to improve the safety and the transportation efficiency of transporting the aluminum liquid in the prior art.

The embodiment of the application provides a transportation device for transporting molten aluminum, which comprises:

The moving mechanism has self-moving capability and can move according to a preset path; the moving mechanism is also provided with an accommodating space;

The lifting mechanism is arranged in the accommodating space of the moving mechanism, can synchronously move along with the moving mechanism, and can lift or descend in the accommodating space along the vertical direction;

The rotating mechanism is arranged on the lifting mechanism, can synchronously move along with the lifting mechanism and can rotate along the horizontal direction;

The aluminum liquid storage device is arranged on the rotating mechanism and can synchronously rotate along with the rotating mechanism; the aluminum liquid storage device is provided with a heating component, and the heating component is used for heating the tank body of the aluminum liquid storage device.

Optionally, the lifting mechanism includes:

One end of the driving piece is arranged on the moving mechanism;

The first connecting twisted rod is connected with the other end of the driving piece;

The second connecting twisted rod is connected with the first connecting twisted rod through a cross rod;

The connecting support frame is connected to the upper end parts of the first connecting twisted rod and the second connecting twisted rod respectively, so that the connecting support frame is lifted or lowered under the driving of the first connecting twisted rod and the second connecting twisted rod.

Optionally, the rotation mechanism includes:

the connecting plate is connected with the connecting support frame;

The rotating motor is connected with the connecting plate and is positioned below the connecting plate;

The transmission assembly is arranged on the connecting plate and connected with the output end of the rotating motor so as to rotate under the drive of the output end of the rotating motor;

And the meshing end of the rotating wheel disc is connected with the transmission assembly, and the supporting end of the rotating wheel disc protrudes out of the connecting plate.

Optionally, the transmission assembly includes:

The connecting shaft is connected with the output end of the rotating motor;

the transmission gear is connected with the connecting shaft and meshed with the meshing end of the rotating wheel disc so as to rotate under the drive of the connecting shaft and drive the rotating wheel disc to rotate.

Optionally, the material of the rotary wheel disc is a heat insulation material.

Optionally, the heating assembly includes:

The fixed box body is connected with the tank body;

the electricity utilization module is arranged on the fixed box body and used for acquiring electric energy and releasing the electric energy;

The heating cavity is an inner wall cavity of the tank body and is used for being connected with a power supply end of the power utilization module so as to obtain electric energy of the power supply end of the power utilization module to heat the aluminum liquid in the tank body;

the heat insulation cavity is arranged at the periphery of the heating cavity and used for heat insulation;

The heating cavity and the heat insulation cavity form a liquid containing part of the tank body.

Optionally, the power module further includes:

The power taking end is used for obtaining electric energy of an external power supply;

The battery pack can be connected with the electricity taking end and the power supply end of the electricity utilization module and is used for acquiring electric energy input by the electricity taking end and outputting the electric energy to the power supply end.

Optionally, the electricity taking end is further used for being connected with a battery assembly of the moving mechanism and used for obtaining electric energy of the battery assembly.

Optionally, the aluminum liquid storage device further includes:

The pressure pump is arranged on the fixed box body and used for changing the pressure in the tank body;

The pressure transmission pipeline is connected with the output end of the pressure pump and the tank body and is used for transmitting the air pressure provided by the pressure pump;

And the conveying connecting piece is communicated with the inside of the tank body and is used for conveying aluminum liquid.

Optionally, the moving mechanism includes:

A body;

The driving motor is arranged on the machine body and used for driving the machine body to move;

And the control device is arranged in the machine body, connected with the driving motor and used for controlling the driving motor to move according to a preset path.

Compared with the prior art, the application has the following advantages:

The embodiment of the application provides a transportation device for transporting aluminum liquid, which comprises a moving mechanism, a lifting mechanism, a rotating mechanism and an aluminum liquid storage device. The moving mechanism has self-moving capability and can move according to a preset path, and the moving mechanism also has a containing space for containing the lifting mechanism, the rotating mechanism and the aluminum liquid storage device. The lifting mechanism is arranged in the accommodating space of the moving mechanism, can synchronously move along with the moving mechanism, and can lift or descend in the accommodating space along the vertical direction. The rotating mechanism is arranged on the lifting mechanism, can synchronously move along with the lifting mechanism and can rotate along the horizontal direction. The aluminum liquid storage device is arranged on the rotating mechanism and can synchronously rotate along with the rotating mechanism. The aluminum liquid storage device is provided with a heating component, and the heating component is used for heating the tank body of the aluminum liquid storage device.

According to the embodiment, the moving mechanism drives the aluminum liquid storage device to move, so that automatic transportation of aluminum liquid is realized. The lifting mechanism and the rotating mechanism which are mutually connected are arranged on the moving mechanism, wherein the rotating mechanism is connected with the aluminum liquid storage device, so that the height position and the corresponding rotating angle of the aluminum liquid storage device can be adjusted, the position and the angle requirements of different structural devices in transferring aluminum liquid can be met, and the transportation efficiency of transporting aluminum liquid is improved. In addition, the aluminum liquid storage device is provided with a heating component, and the heating component can be directly used for heating the tank body of the aluminum liquid storage device, so that the requirement of manual wiring power supply for maintaining the temperature of the aluminum liquid is reduced, and the safety of transporting the aluminum liquid is further improved.

Drawings

Fig. 1 is a front view of a transporting device for transporting molten aluminum according to an embodiment of the present application.

Fig. 2 is a side view of a transportation device for transporting molten aluminum according to an embodiment of the present application.

Reference numerals:

The device comprises a moving mechanism 1, a machine body 11, a driving motor 12, a driving wheel 13, a protection structure 14, a lifting mechanism 2, a driving piece 21, a first connecting twisted rod 22, a second connecting twisted rod 23, a cross rod 24, a connecting support frame 25, a protection cover 26, a first connecting rod 27, a second connecting rod 28, a rotating mechanism 3, a connecting plate 31, a rotating motor 32, a connecting shaft 33, a transmission gear 34, a rotating wheel disc 35, a heat insulation fixing plate 36, an aluminum liquid storage device 4, a fixing box 41, a heating cavity 42, a heat insulation cavity 43, a cover 44, a tank 45, a pressure transmission pipeline 46, a conveying connecting piece 47 and a heat insulation plate 48.

Detailed Description

For a better understanding of the objects, technical solutions and advantages of the embodiments of the present application, those skilled in the art will clearly and completely describe the technical solutions of the embodiments of the present application with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments, but not all embodiments of the present application.

It is further noted that terms like "on," "connected to" another element may be directly on, connected to, or may exist with respect to the other element. In contrast, when an element is referred to as being "directly on" or "directly connected" to another element, there are no intervening elements present.

In the embodiments of the present application, the terms "first," "second," "third," and the like are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. The data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprise," "include," "contain," and the like, mean that there are stated features, but do not exclude one or more other features. Spatially relative terms such as "upper," "lower," "left," "right," "front," "rear," and the like, may be used to refer to a spatial relationship of one feature to another in the drawings, and it is understood that the spatially relative terms may be used to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, when the device in the figures is inverted, features that are "below" its features are described as "above" its features.

The embodiment of the application provides a transportation device for transporting aluminum liquid, which aims to solve the problem of how to improve the safety and the transportation efficiency of transporting the aluminum liquid in the prior art.

Fig. 1 is a front view of a transporting device for transporting molten aluminum according to an embodiment of the present application. Fig. 2 is a side view of a transportation device for transporting molten aluminum according to an embodiment of the present application.

As shown in fig. 1 to 2, an embodiment of the present application provides a transportation device for transporting molten aluminum, which includes a moving mechanism 1, a lifting mechanism 2, a rotating mechanism 3, and a molten aluminum storage device 4. Wherein the moving mechanism 1 has a self-moving capability and can move according to a preset path, and the moving mechanism 1 also has a containing space for containing the lifting mechanism 2, the rotating mechanism 3 and the aluminum liquid storage device 4. The lifting mechanism 2 is arranged in the accommodating space of the moving mechanism 1, can synchronously move along with the moving mechanism 1, and can lift or descend in the accommodating space along the vertical direction. The rotating mechanism 3 is arranged on the lifting mechanism 2, can synchronously move along with the lifting mechanism 2 and can rotate along the horizontal direction. The aluminum liquid storage device 4 is arranged on the rotating mechanism 3 and can synchronously rotate along with the rotating mechanism 3. The molten aluminum storage device 4 has a heating assembly for heating the tank 45 of the molten aluminum storage device 4. The specific structure and connection manner of each device will be specifically described as follows.

Specifically, in the present embodiment, the moving mechanism 1 includes: the device comprises a machine body 11, a driving motor 12, a control device, a driving wheel 13 and a driven wheel, wherein the machine body 11 is a supporting carrier of the moving mechanism 1 and is also a protective shell of the moving mechanism 1. The body 11 may be provided therein with a driving motor 12 and a control device, and the elevating mechanism 2 and the rotating mechanism 3 may be provided on the body 11. Specifically, the driving motor 12 is disposed inside the machine body 11 and connected to a driving wheel 13 disposed on a base of the machine body 11, so as to drive the machine body 11 to move by driving the driving wheel 13. The driven wheels are provided at corners of the base of the body 11 for providing support to the body 11 and smooth movement. The control device is arranged inside the machine body 11, and in one example, the control device is used for controlling a first control device for moving the moving mechanism 1 and a second control device for controlling the lifting mechanism 2 and the rotating mechanism 3 to operate, wherein the first control device is in communication connection with the driving motor 12 and is used for controlling the driving motor 12 to move according to a preset path. The second control device is respectively in communication connection with the lifting mechanism 2 and the rotating mechanism 3, and is used for controlling the lifting mechanism 2 to lift to a corresponding height and controlling the rotating mechanism 3 to rotate to a corresponding angle. The first control device and the second control device can communicate to mutually cooperate to complete carrying of the molten aluminum storage device 4 to the moving mechanism 1, the lifting mechanism 2 and the rotating mechanism 3.

In one example, the moving mechanism 1 has a receiving space, the receiving space is disposed at a middle position of the machine body 11, and the driving motor 12, the control device, the driving wheel 13 and the driven wheel are disposed at front and rear ends of the machine body 11. In an example, the accommodating space has a space accommodating portions of the lifting mechanism 2, the rotating mechanism 3, and the molten aluminum storage device 4, that is, when the lifting mechanism 2 is in the non-lifted state, the accommodating space may accommodate portions of the lifting mechanism 2, the rotating mechanism 3, and the molten aluminum storage device 4. In an example, the accommodating space has a space accommodating the elevating mechanism 2 and the rotating mechanism 3, i.e., the accommodating space can accommodate the elevating mechanism 2 and the rotating mechanism 3 when the elevating mechanism 2 is in an unopened state. In an example, the accommodating space has a space accommodating the lifting mechanism 2, i.e., the accommodating space may accommodate the lifting mechanism 2 when the lifting mechanism 2 is in a lifted state.

In an example, the moving mechanism 1 further comprises a battery assembly, the battery assembly comprises a battery pack, a charging interface and a discharging interface, wherein the charging interface is used for acquiring electric energy provided by an external power supply, the battery pack is used for storing the electric energy and releasing the electric energy, and the discharging interface is respectively connected with the moving mechanism 1, the lifting mechanism 2 and the rotating mechanism 3 and used for providing the electric energy for the moving mechanism 1, the lifting mechanism 2 and the rotating mechanism 3.

In an example, the moving mechanism 1 further includes a sensing device or a laser device for acquiring travel information in the moving route, the travel information including path information, obstacle information, material information, and the like. The induction device or the laser device feeds back the acquired traveling information to the first control device and the second control device, and the first control device and the second control device control the moving mechanism 1, the lifting mechanism 2 and the rotating mechanism 3 to carry the molten aluminum storage device 4 according to the traveling information.

In an example, the moving mechanism 1 further includes a protection structure 14, the protection structure 14 being provided at a peripheral side of the bottom of the body 11 for preventing the body 11 from being crashed or deformed at the time of collision of the body 11. In one example, the protective structure 14 includes a bumper strip or a bumper plate.

In the present embodiment, the lifting mechanism 2 is disposed in the accommodating space of the moving mechanism 1, can move synchronously with the moving mechanism 1, and can lift or descend in the accommodating space in the vertical direction. Specifically, in one example, the lifting mechanism 2 includes a driving member 21, a first connection stay 22, a second connection stay 23, and a connection support frame 25. One end of the driving member 21 is disposed on the moving mechanism 1, specifically, one end of the driving member 21 is hinged to the bottom of the machine body 11, and the other end of the driving member 21 is connected to the first connecting hinge 22 to drive the first connecting hinge 22 to move. The second connecting twisted rods 23 are connected with the first connecting twisted rods 22 through the cross rods 24 to form a group of connecting cross rods, two groups of connecting cross rods are arranged in the embodiment, the two groups of connecting cross rods are arranged oppositely, the lower end parts of the first connecting twisted rods 22 and the second connecting twisted rods 23 of each group are hinged with the bottom of the machine body 11, the end parts of the first connecting twisted rods 22 of each group are connected through the first connecting rods 27, and the end parts of the second connecting twisted rods 23 of each group are connected through the second connecting rods 28. The upper end of each of the first connecting twisted rod 22 and the second connecting twisted rod 23 of each group is hinged with the bottom of the connecting support frame 25 so as to be lifted or lowered under the driving of the first connecting twisted rod 22 and the second connecting twisted rod 23. Of course, in other examples, the other end of the driving member 21 is connected to the second connecting rod 23 to drive the second connecting rod 23 to move. The driving member 21 of the present embodiment includes a hydraulic driving cylinder or a pneumatic driving cylinder, and only one driving member 21 is required to be connected to one of the connecting rods (the first connecting rod 22 or the second connecting rod 23) to drive the whole lifting mechanism 2 to lift or descend.

In an example, when the connection support frame 25 is lifted by the first connection hinge rod 22 and the second connection hinge rod 23, the lifting height is flush with the upper end surface of the body 11 of the moving mechanism 1 or slightly higher than the upper end surface of the body 11 of the moving mechanism 1. Of course, in an example, after the connection support frame 25 is lifted by the first connection hinge rod 22 and the second connection hinge rod 23, the lifting height thereof is slightly lower than the upper end surface of the body 11 of the moving mechanism 1.

In an example, the lifting mechanism 2 is further provided with a protective cover 26, and the protective cover 26 is made of a flexible material and can be deformed correspondingly with the lifting or lowering of the lifting mechanism 2.

The rotating mechanism 3 is arranged on the lifting mechanism 2, can synchronously move along with the lifting mechanism 2 and can rotate along the horizontal direction. Specifically, in the present embodiment, the rotation mechanism 3 includes: a connection plate 31, a rotation motor 32, a transmission assembly and a rotation wheel 35. The connection plate 31 is connected to the connection support frame 25 to rise or fall synchronously with the connection support frame 25. In an example, the vertical section of the connection plate 31 is in a T shape, specifically, the connection plate 31 includes a horizontal support plate, a vertical support seat and a limiting groove body, the horizontal support plate is connected with the connection support frame 25, the vertical support seat is connected to the lower end face of the horizontal support plate, the lower end face of the horizontal support plate faces the bottom of the machine body 11, and the vertical support seat is located in a space between two sets of connection cross bars that are oppositely arranged. The limiting groove body is arranged on the lower end face of the horizontal supporting plate and can be integrally formed with the horizontal supporting plate. In an example, the restricting groove may be wrapped by the vertical support base when the vertical support base is connected to the lower end surface of the horizontal support plate. The rotating motor 32 is connected with the connecting plate 31 and is located below the connecting plate 31, specifically, the rotating motor 32 is arranged in the vertical supporting seat, the fixed end of the rotating motor 32 is fixedly connected with the vertical supporting seat, and the output end of the rotating motor 32 is arranged towards the limiting groove body.

The transmission assembly is arranged in the connecting plate 31 and is connected with the output end of the rotating motor 32 so as to rotate under the drive of the output end of the rotating motor 32, and corresponds to the specific structure of the connecting plate 31, the transmission assembly is arranged in the limiting groove body, and in one example, the transmission assembly comprises a connecting shaft 33 and transmission teeth 34, wherein the connecting shaft 33 is connected with the output end of the rotating motor 32 so as to synchronously rotate along with the output end of the rotating motor 32. In one example, one end of the connecting shaft 33 is placed in the restricting tank through the bottom slot of the restricting tank, and the other end is placed outside the restricting tank and connected to the output end of the rotating motor 32. The transmission gear 34 is disposed in the limiting groove body, connected with the connecting shaft 33, and meshed with the meshing end of the rotating wheel disc 35, so as to rotate under the drive of the connecting shaft 33 and drive the rotating wheel disc 35 to rotate.

In one example, the rotating wheel 35 includes an integrally formed engagement end and a support end, wherein the support end of the rotating wheel 35 protrudes from the connecting plate 31, and the support end of the rotating wheel 35 is configured to carry the molten aluminum storage device 4. The support end of the rotary disk 35 may be circular, square, or the like. The engagement end of the rotary disk 35 protrudes toward the restricting groove body, and is accommodated in the restricting groove body. In one example, the engagement end is provided with a circular shape, and the inner end surface of the circular engagement end is provided with engagement teeth, which can be engaged with the racks of the driving teeth 34, so that the engagement end can be driven to rotate by the driving teeth 34, and the whole rotary disk 35 can be driven.

After the engaging ends of the gear teeth 34 and the rotary disk 35 are mounted in the limiting groove, the notch of the limiting groove can be encapsulated by the horizontal support plate, so as to prevent the engaging ends of the gear teeth 34 and the rotary disk 35 from falling off from the limiting groove.

In one example, considering that the rotary wheel 35 is used to carry the molten aluminum storage device 4, the material of the rotary wheel 35 is a heat-insulating material. Correspondingly, the material of the connecting plate 31 can also be a heat insulation material so as to block the heat transferred by the molten aluminum storage device 4 through the connecting plate 31.

In one example, a heat insulating fixing plate 36 may be further provided between the rotary disk 35 and the bottom of the tank 45, and may also perform a heat insulating function on the rotary disk 35 while fixing the tank 45.

In this embodiment, the molten aluminum storage device 4 is disposed on the rotating mechanism 3 and can rotate synchronously with the rotating mechanism 3. Wherein the aluminium liquid storage means 4 has a heating assembly for heating the tank 45 of the aluminium liquid storage means 4. Specifically, in one example, the heating assembly includes a stationary housing 41, an electrical module, a heating cavity 42, an insulating cavity 43, and a cover 44. Wherein the fixed case 41 is connected with the can 45, and in one example, a heat insulation board 48 is provided at a side of the fixed case 41 opposite to the can 45 for blocking heat generated from the can 45, thereby protecting the fixed case 41. The power module is provided in the fixed case 41 for obtaining electric power and discharging the electric power. Specifically, in an example, the power module includes a power supply end, a power taking end and a battery pack, where the power supply end is used to supply power to the power device; the power taking end is used for obtaining electric energy of an external power supply; the battery pack can be connected with the electricity taking end and the power supply end of the electricity utilization module and is used for obtaining electric energy input by the electricity taking end and outputting the electric energy to the power supply end. In an example, the power take-off end of the heating assembly is further used for being connected with the battery assembly of the moving mechanism 1, and is used for obtaining electric energy of the battery assembly of the moving mechanism 1.

In this embodiment, the heating cavity 42 is an inner wall cavity of the tank 45 and is used for being connected with a power supply end of the power consumption module to obtain electric energy of the power supply end of the power consumption module to heat the aluminum liquid in the tank 45. Wherein, in an example, the heating cavity 42 includes an electric connection port and a heating wire, wherein the electric connection port is disposed on a wall of the heating cavity 42 and is used for being connected with a power supply end of the power utilization module to obtain electric energy of the power supply end of the power utilization module, and provide the electric energy to the heating wire for generating heat. The heat insulating chamber 43 is provided at the outer periphery of the heating chamber 42 for heat insulation. In this embodiment, the heating chamber 42 and the insulating chamber 43 constitute the liquid-containing portion of the tank 45. The cover 44 is sealed in the heating chamber 42 and the heat insulation chamber 43 to form a tank opening of the tank 45, and the cover 44 seals the tank 45.

In this embodiment, in order to obtain the aluminum liquid provided from the external device or provide the aluminum liquid in the tank 45 to the external device, the aluminum liquid storage device 4 further includes a pressure pump, a pressure transmission line 46, and a transmission connection member 47, wherein the pressure pump is provided in the fixed tank 41 for changing the pressure in the tank 45. The pressure transmission pipeline 46 is connected to the output end of the pressure pump and the tank 45 and is used for transmitting the air pressure provided by the pressure pump. In one example, the air pressure provided by the pressure pump may be positive pressure, i.e., the pressure within the can 45 is increased to expel the aluminum liquid from the can 45. In one example, the air pressure provided by the pressure pump may be negative, i.e., the pressure within the tank 45 is reduced to draw the external aluminum liquid into the tank 45. The conveying connector 47 is communicated with the interior of the tank 45 and is used for conveying the aluminum liquid, specifically, when the air pressure provided by the pressure pump is positive pressure, the pressure in the tank 45 is increased, and the conveying connector 47 discharges the aluminum liquid in the tank 45. When the air pressure supplied by the pressure pump is negative, the pressure in the tank 45 is reduced, and the delivery connection 47 absorbs the external aluminum liquid into the tank 45. In one example, the delivery connection 47 includes a delivery connection tube, which may be one or more. The conveying connecting piece 47 is made of high-temperature resistant materials, and the high-temperature resistant degree is higher than the heating temperature of the molten aluminum.

The embodiment of the application provides a transportation device for aluminum liquid transportation, which comprises a moving mechanism 1, a lifting mechanism 2, a rotating mechanism 3 and an aluminum liquid storage device 4. Wherein the moving mechanism 1 has a self-moving capability and can move according to a preset path, and the moving mechanism 1 also has a containing space for containing the lifting mechanism 2, the rotating mechanism 3 and the aluminum liquid storage device 4. The lifting mechanism 2 is arranged in the accommodating space of the moving mechanism 1, can synchronously move along with the moving mechanism 1, and can lift or descend in the accommodating space along the vertical direction. The rotating mechanism 3 is arranged on the lifting mechanism 2, can synchronously move along with the lifting mechanism 2 and can rotate along the horizontal direction. The aluminum liquid storage device 4 is arranged on the rotating mechanism 3 and can synchronously rotate along with the rotating mechanism 3. The molten aluminum storage device 4 has a heating assembly for heating the tank 45 of the molten aluminum storage device 4.

In the embodiment, the moving mechanism 1 drives the aluminum liquid storage device 4 to move, so that the aluminum liquid is automatically transported. The lifting mechanism 2 and the rotating mechanism 3 which are mutually connected are arranged on the moving mechanism 1, wherein the rotating mechanism 3 is connected with the aluminum liquid storage device 4, so that the height position and the corresponding rotating angle of the aluminum liquid storage device 4 can be adjusted, the position and the angle requirements of different structural devices in transferring aluminum liquid can be met, and the transportation efficiency of transporting aluminum liquid is improved. In addition, the aluminum liquid storage device 4 is provided with a heating component, and the heating component can be directly used for heating the tank 45 of the aluminum liquid storage device 4, so that the requirement of manual wiring power supply for maintaining the temperature of the aluminum liquid is reduced, and the safety of transporting the aluminum liquid is further improved.

While the application has been described with respect to the preferred embodiments, the scope of the application is not limited thereto, and any person skilled in the art can make possible variations and modifications within the scope of the application without departing from the spirit and scope of the application. Therefore, the protection scope of the present application should be defined by the claims.

Claims (10)

1. A transportation device for transporting molten aluminum, comprising:

The moving mechanism has self-moving capability and can move according to a preset path; the moving mechanism is also provided with an accommodating space;

The lifting mechanism is arranged in the accommodating space of the moving mechanism, can synchronously move along with the moving mechanism, and can lift or descend in the accommodating space along the vertical direction;

The rotating mechanism is arranged on the lifting mechanism, can synchronously move along with the lifting mechanism and can rotate along the horizontal direction;

The aluminum liquid storage device is arranged on the rotating mechanism and can synchronously rotate along with the rotating mechanism; the aluminum liquid storage device is provided with a heating component, and the heating component is used for heating the tank body of the aluminum liquid storage device.

2. The transport device for transporting molten aluminum according to claim 1, wherein the lifting mechanism comprises:

One end of the driving piece is arranged on the moving mechanism;

The first connecting twisted rod is connected with the other end of the driving piece;

The second connecting twisted rod is connected with the first connecting twisted rod through a cross rod;

The connecting support frame is connected to the upper end parts of the first connecting twisted rod and the second connecting twisted rod respectively, so that the connecting support frame is lifted or lowered under the driving of the first connecting twisted rod and the second connecting twisted rod.

3. The transportation device for transporting aluminum liquid according to claim 2, wherein the rotation mechanism comprises:

the connecting plate is connected with the connecting support frame;

The rotating motor is connected with the connecting plate and is positioned below the connecting plate;

The transmission assembly is arranged on the connecting plate and connected with the output end of the rotating motor so as to rotate under the drive of the output end of the rotating motor;

And the meshing end of the rotating wheel disc is connected with the transmission assembly, and the supporting end of the rotating wheel disc protrudes out of the connecting plate.

4. A transportation device for transportation of molten aluminum according to claim 3, wherein the transmission assembly comprises:

The connecting shaft is connected with the output end of the rotating motor;

the transmission gear is connected with the connecting shaft and meshed with the meshing end of the rotating wheel disc so as to rotate under the drive of the connecting shaft and drive the rotating wheel disc to rotate.

5. A transportation device for molten aluminum transportation according to claim 3, wherein the rotary wheel is made of heat-insulating material.

6. The transport device for transporting molten aluminum of claim 1, wherein the heating assembly comprises:

The fixed box body is connected with the tank body;

the electricity utilization module is arranged on the fixed box body and used for acquiring electric energy and releasing the electric energy;

The heating cavity is an inner wall cavity of the tank body and is used for being connected with a power supply end of the power utilization module so as to obtain electric energy of the power supply end of the power utilization module to heat the aluminum liquid in the tank body;

the heat insulation cavity is arranged at the periphery of the heating cavity and used for heat insulation;

The heating cavity and the heat insulation cavity form a liquid containing part of the tank body.

7. The transport device for transporting molten aluminum of claim 6, wherein the power module further comprises:

The power taking end is used for obtaining electric energy of an external power supply;

The battery pack can be connected with the electricity taking end and the power supply end of the electricity utilization module and is used for acquiring electric energy input by the electricity taking end and outputting the electric energy to the power supply end.

8. The transport device for transporting molten aluminum of claim 7 wherein said power take-off end is further adapted to be coupled to a battery pack of said moving mechanism for obtaining electrical power from said battery pack.

9. The transport device for aluminum liquid transport according to claim 6, wherein the aluminum liquid storage device further comprises:

The pressure pump is arranged on the fixed box body and used for changing the pressure in the tank body;

The pressure transmission pipeline is connected with the output end of the pressure pump and the tank body and is used for transmitting the air pressure provided by the pressure pump;

And the conveying connecting piece is communicated with the inside of the tank body and is used for conveying aluminum liquid.

10. The transport device for transporting molten aluminum according to claim 1, wherein the moving mechanism includes:

A body;

The driving motor is arranged on the machine body and used for driving the machine body to move;

And the control device is arranged in the machine body, connected with the driving motor and used for controlling the driving motor to move according to a preset path.