CN213414011U - A automobile body device for AGV dolly - Google Patents

Abstract

The utility model discloses a vehicle body device for an AGV (automatic guided vehicle), which comprises a vehicle frame, a front cover assembly and a rear cover assembly, wherein an organ cover plate is arranged between the front cover assembly and the vehicle frame, a first cover welding piece is arranged on one side of the vehicle frame, a second cover welding piece and a third cover welding piece are arranged on the other side of the vehicle frame, a pair of lifting photoelectric bracket welding pieces, a first cover welding piece and a second cover welding piece are respectively arranged on the first cover welding piece and the third cover welding piece, third aircraft bonnet weldment all with frame fixed connection, second aircraft bonnet weldment and third aircraft bonnet weldment fixed connection are equipped with display screen panel on the second aircraft bonnet weldment, are equipped with apron weldment and housing connecting plate on the third aircraft bonnet weldment, and the both sides of preceding aircraft bonnet assembly, the both sides of back aircraft bonnet assembly are equipped with fourth aircraft bonnet weldment, fifth aircraft bonnet weldment respectively, all install the scram mounting panel on the fourth aircraft bonnet weldment of both sides and on the fifth aircraft bonnet weldment of both sides. The utility model discloses stable in structure, inertia influence is little, and the radiating effect is good, and functional stability is excellent.

Description

A automobile body device for AGV dolly

Technical Field

The utility model relates to a AGV dolly technical field specifically is an automobile body device for AGV dolly.

Background

An Automated Guided Vehicle (AGV), also commonly referred to as an AGV cart, is a transport Vehicle equipped with an electromagnetic or optical automatic navigation device, capable of traveling along a predetermined navigation path, and having safety protection and various transfer functions. The industrial application does not need a driver's transport vehicle, and a rechargeable storage battery is used as a power source of the industrial application. Generally, the traveling path and behavior can be controlled by a computer, or the traveling path is set up by using an electromagnetic path (electromagnetic path-following system), the electromagnetic path is adhered to the floor, and the unmanned transport vehicle moves and operates according to the information brought by the electromagnetic path.

Because the control module of the AGV dolly and the associated functional device are concentrated on the bottom of the AGV, the inertia effect of the AGV dolly is ensured to start from the body at the bottom, and the AGV dolly can walk more stably.

However, the AGV is driven by path optimization during the traveling process, and the acceleration-deceleration-stop states of the car body are continuously switched during the traveling process, which results in that the bottom car body of the AGV does not have sufficient stability.

In the actual operation, the AGV dolly that puts into use still begins the automobile body more stable just, but uses some years and months later, in the dolly walking process, obviously appears some great abnormal sounds, long this past, causes the striking damage to the functional device in the AGV dolly bottom automobile body.

SUMMERY OF THE UTILITY MODEL

The problem to prior art exists, the utility model provides an automobile body device for AGV dolly, after using this automobile body device, automobile body overall structure stability preferred, automobile body inertia influence reduces, promote the radiating efficiency of function device in the automobile body, improve the functional stability of AGV automobile body, automobile body structure is compacter, more have linear aesthetic feeling, realize seamless butt joint, the automobile body device of ensureing the AGV dolly can normally work at the bottom that closes on goods shelves, conveniently be used for having the thing of transporting of skirting line, application scope is wide.

In order to solve the technical problem, the utility model discloses a technical scheme is:

the utility model provides a body device for AGV dolly, the body device includes the frame, is located the preceding cover assembly of frame one end and is located the back cover assembly of the frame other end, preceding cover assembly with be provided with organ cover apron between the frame, follow the width direction of body device, one side of frame is provided with first aircraft bonnet weldment, the opposite side of frame is provided with second aircraft bonnet weldment and third aircraft bonnet weldment, all be provided with a pair of lift photoelectric support weldment on the first aircraft bonnet weldment with on the third aircraft bonnet weldment, first aircraft bonnet weldment, second aircraft bonnet weldment, third aircraft bonnet weldment all with frame fixed connection, second aircraft bonnet weldment with third aircraft bonnet weldment fixed connection, be equipped with the display screen panel on the second aircraft bonnet weldment, be equipped with apron weldment and housing connecting plate on the third aircraft bonnet weldment, the both sides of preceding cover assembly the both sides of back cover assembly are equipped with fourth aircraft bonnet weldment, fifth aircraft bonnet weldment respectively, both sides on the fourth aircraft bonnet weldment with both sides all install the scram mounting panel on the fifth aircraft bonnet weldment.

The utility model discloses a solve its technical problem, the further technical scheme who adopts is:

furthermore, the fourth hood weldments on the two sides are fixedly connected with the first hood weldment and the second hood weldment respectively through first front and rear hood mounting supports, and the fifth hood weldments on the two sides are fixedly connected with the first hood weldment and the third hood weldment respectively through second front and rear hood mounting supports.

Furthermore, the first hood weldment, the two sides of the fourth hood weldment and the two sides of the fifth hood weldment are all provided with a plurality of oblique heat dissipation holes which are arranged in parallel and are all arranged from top to bottom in an inclined mode.

Further, the front cover assembly and the rear cover assembly are arranged in parallel; the fourth hood weldments on the two sides are arranged in parallel; the fifth hood weldments on the two sides are arranged in parallel.

Further, the second and third hood weldments are located on the same line, and the second and third hood weldments are both arranged in parallel with the first hood weldment.

Furthermore, a plurality of strip-shaped heat dissipation holes which are arranged in parallel are formed in the rear machine cover assembly.

Further, a groove is formed in the circumferential direction of the lower end of the vehicle body device, the groove is in a U-shaped design, and an opening of the groove faces outwards.

The utility model has the advantages that:

first, one side of the utility model is provided with a first hood weldment, the other side of the frame is provided with a second hood weldment and a third hood weldment, the first hood weldment, the second hood weldment and the third hood weldment are all fixedly connected with the frame, the second hood weldment is fixedly connected with the third hood weldment, both sides of the front hood assembly and both sides of the rear hood assembly are respectively provided with a fourth hood weldment and a fifth hood weldment, both sides of the fourth hood weldment are respectively fixedly connected with the first hood weldment and the second hood weldment through first front and rear hood mounting brackets, both sides of the fifth hood weldment are respectively fixedly connected with the first hood weldment and the third hood weldment through second front and rear hood mounting brackets, thereby improving the stability of the whole structure of the vehicle body, reducing the inertia influence of the vehicle body, and the first hood weldment, both sides of the fourth hood weldment and both sides of the fifth hood weldment are all provided with a plurality of oblique heat dissipation holes, the plurality of oblique heat dissipation holes are obliquely arranged from top to bottom, and the rear cover assembly is provided with a plurality of strip-shaped heat dissipation holes which are arranged in parallel, so that the heat dissipation efficiency of functional devices in the AGV body can be improved, and the functional stability of the AGV body is improved;

second, the utility model comprises a frame, a front cover assembly and a rear cover assembly, an organ cover plate is arranged between the front cover assembly and the frame, along the width direction of the body device, a first cover welding piece is arranged on one side of the frame, a second cover welding piece and a third cover welding piece are arranged on the other side of the frame, a pair of lifting photoelectric bracket welding pieces are arranged on the first cover welding piece and the third cover welding piece, the front cover assembly and the rear cover assembly are arranged in parallel, the fourth cover welding pieces on two sides are arranged in parallel, the fifth cover welding pieces on two sides are arranged in parallel, the second cover welding piece and the third cover welding piece are positioned on the same straight line, and the second cover welding piece and the third cover welding piece are arranged in parallel with the first cover welding piece, the arrangement of the above components makes the body structure of the AGV car more compact, has more linear aesthetic feeling, and simultaneously, the lower end circumference of the body device is provided with a groove, the recess is the U-shaped design, and the recess opening sets up outwards, reduces the clearance between AGV dolly and the goods shelves, can realize seamless butt joint, ensures that the automobile body device of AGV dolly can normally work near the bottom of goods shelves, conveniently is used for having the object of carrying of skirting line, and application scope is wide.

The above description is only an overview of the technical solution of the present invention, and in order to make the technical means of the present invention clearer and can be implemented according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present invention and accompanying drawings.

Drawings

FIG. 1 is a top view of a body mount for an AGV according to the present invention;

FIG. 2 is a front view of a body mount for an AGV according to the present invention;

fig. 3 is a side view of a body mount for an AGV cart according to the present invention.

The parts in the drawings are marked as follows:

the automobile hood comprises a frame 1, a first hood weldment 11, a second hood weldment 12, a display screen panel 121, a third hood weldment 13, a cover plate weldment 131, a hood connecting plate 132, a front hood assembly 2, a fourth hood weldment 21, a rear hood assembly 3, a fifth hood weldment 31, strip-shaped heat dissipation holes 32, an organ hood cover plate 4, a lifting photoelectric support weldment 5, an emergency stop mounting plate 6, a first front and rear hood mounting bracket 7, a second front and rear hood mounting bracket 8, oblique heat dissipation holes 9 and grooves 10.

Detailed Description

The following description is provided for illustrative embodiments of the present invention, and the advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure of the present invention. The present invention can also be implemented in other different ways, i.e. different modifications and changes can be made without departing from the scope of the present invention.

Examples

The utility model provides a car body device for AGV dolly, as shown in figure 1-figure 3, the car body device includes frame 1, is located preceding cover assembly 2 of frame one end and is located the back cover assembly 3 of the frame other end, preceding cover assembly with be provided with organ cover apron 4 between the frame, follow the width direction of car body device, one side of frame is provided with first cover weldment 11, the opposite side of frame is provided with second aircraft bonnet weldment 12 and third aircraft bonnet weldment 13, all be provided with a pair of lift optoelectronic support weldment 5 on the first aircraft bonnet weldment with on the third aircraft bonnet weldment, first aircraft bonnet weldment, second aircraft bonnet weldment, third aircraft bonnet weldment all with frame fixed connection, second aircraft bonnet weldment with third aircraft bonnet weldment fixed connection, be equipped with on the second aircraft bonnet weldment and show 121, be equipped with apron weldment 131 and housing connecting plate 132 on the third aircraft bonnet weldment, preceding cover assembly both sides the both sides of back cover assembly are equipped with fourth aircraft bonnet weldment 21, fifth aircraft bonnet weldment 31 respectively, both sides on the fourth aircraft bonnet weldment with both sides all install scram mounting panel 6 on the fifth aircraft bonnet weldment.

Both sides the fourth aircraft bonnet weldment all through around first cover installing support 7 respectively with first aircraft bonnet weldment the second aircraft bonnet weldment fixed connection, both sides the fifth aircraft bonnet weldment all through around the second cover installing support 8 respectively with first aircraft bonnet weldment the third aircraft bonnet weldment fixed connection.

The first hood weldment, the two sides, the fourth hood weldment and the two sides, the fifth hood weldment are all provided with a plurality of oblique heat dissipation holes 9 which are arranged in parallel and are all arranged from top to bottom in an inclined mode.

The front cover assembly and the rear cover assembly are arranged in parallel; the fourth hood weldments on the two sides are arranged in parallel; the fifth hood weldments on the two sides are arranged in parallel.

The second hood weldment and the third hood weldment are located on the same line, and the second hood weldment and the third hood weldment are all arranged in parallel with the first hood weldment.

The rear cover assembly is provided with a plurality of strip-shaped heat dissipation holes 32 which are arranged in parallel.

The lower end of the vehicle body device is circumferentially provided with a groove 10, the groove is in a U-shaped design, and the opening of the groove faces outwards.

The utility model discloses a working process and theory of operation as follows:

the utility model discloses a first aircraft bonnet weldment is installed to one side of frame, second aircraft bonnet weldment and third aircraft bonnet weldment are installed to the other side of frame, first aircraft bonnet weldment, second aircraft bonnet weldment, third aircraft bonnet weldment all are with frame fixed connection, second aircraft bonnet weldment and third aircraft bonnet weldment fixed connection, fourth aircraft bonnet weldment, fifth aircraft bonnet weldment are installed respectively to the both sides of preceding cover assembly, the both sides of back cover assembly, both sides fourth aircraft bonnet weldment all pass through first front and back cover installing support respectively with first aircraft bonnet weldment, second aircraft bonnet weldment fixed connection, both sides fifth aircraft bonnet weldment all pass through second front and back cover installing support respectively with first aircraft bonnet weldment, third aircraft bonnet weldment fixed connection, improve automobile body overall structure stability, reduce automobile body inertia influence, and first aircraft bonnet weldment, both sides fourth aircraft bonnet weldment and both sides fifth aircraft bonnet weldment all have a plurality of oblique louvres, the plurality of oblique heat dissipation holes are obliquely arranged from top to bottom, and the rear cover assembly is provided with a plurality of strip-shaped heat dissipation holes which are arranged in parallel, so that heat dissipation of functional devices in the AGV body is facilitated, and the functional stability of the AGV body is improved;

the utility model comprises a frame, a front cover assembly and a rear cover assembly, wherein an organ cover plate is arranged between the front cover assembly and the frame, a first cover welding piece is arranged on one side of the frame, a second cover welding piece and a third cover welding piece are arranged on the other side of the frame, a pair of lifting photoelectric bracket welding pieces are arranged on the first cover welding piece and the third cover welding piece respectively, the front cover assembly and the rear cover assembly are arranged in parallel, the fourth cover welding pieces on two sides are arranged in parallel, the fifth cover welding pieces on two sides are arranged in parallel, the second cover welding piece and the third cover welding piece are arranged on the same straight line, the second cover welding piece and the third cover welding piece are arranged in parallel with the first cover welding piece, the above components are arranged, so that the body structure of the AGV trolley is more compact, the linear aesthetic feeling is realized, meanwhile, a groove is circumferentially arranged at the lower end of the body device, the groove is designed in a U shape, and the groove opening is arranged outwards, the bottom layer that can realize the AGV dolly can normally work near goods shelves at the automobile body device, conveniently is used for having the transport of skirting line.

The above is only the embodiment of the present invention, not so above only is the embodiment of the present invention, not so limiting the patent scope of the present invention, all of which utilize the equivalent structure made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, all of which are included in the patent protection scope of the present invention.

Claims (7)

1. The utility model provides a body device for AGV dolly which characterized in that: the automobile body device comprises a frame (1), a front cover assembly (2) and a rear cover assembly (3), wherein the front cover assembly (2) is located at one end of the frame, the rear cover assembly (3) is located at the other end of the frame, an organ cover plate (4) is arranged between the front cover assembly and the frame, the width direction of the automobile body device is followed, a first cover welding piece (11) is arranged on one side of the frame, a second cover welding piece (12) and a third cover welding piece (13) are arranged on the other side of the frame, a pair of lifting photoelectric support welding pieces (5) are arranged on the first cover welding piece and the third cover welding piece respectively, the first cover welding piece, the second cover welding piece and the third cover welding piece are fixedly connected with the frame, the second cover welding piece is fixedly connected with the third cover welding piece, and a display screen panel (121) is arranged on the second cover welding piece, be equipped with apron weldment (131) and housing connecting plate (132) on the third aircraft bonnet weldment, preceding machine cover assembly's both sides the both sides of back machine cover assembly are equipped with fourth aircraft bonnet weldment (21), fifth aircraft bonnet weldment (31), both sides respectively on the fourth aircraft bonnet weldment with both sides all install scram mounting panel (6) on the fifth aircraft bonnet weldment.

2. The body mount for an AGV cart of claim 1, further comprising: both sides the fourth aircraft bonnet weldment all through first front and back cover installing support (7) respectively with first aircraft bonnet weldment the second aircraft bonnet weldment fixed connection, both sides the fifth aircraft bonnet weldment all through second front and back cover installing support (8) respectively with first aircraft bonnet weldment the third aircraft bonnet weldment fixed connection.

3. The body mount for an AGV cart of claim 2, further comprising: the first hood weldment, the two sides, the fourth hood weldment and the two sides, the fifth hood weldment are all provided with a plurality of oblique heat dissipation holes (9) which are arranged in parallel, and the oblique heat dissipation holes are all arranged in an inclined mode from top to bottom.

4. The body mount for an AGV cart of claim 1, further comprising: the front cover assembly and the rear cover assembly are arranged in parallel; the fourth hood weldments on the two sides are arranged in parallel; the fifth hood weldments on the two sides are arranged in parallel.

5. The body mount for an AGV cart of claim 1, further comprising: the second hood weldment and the third hood weldment are located on the same line, and the second hood weldment and the third hood weldment are all arranged in parallel with the first hood weldment.

6. The body mount for an AGV cart of claim 1, further comprising: the rear machine cover assembly is provided with a plurality of strip-shaped heat dissipation holes (32) which are arranged in parallel.

7. The body mount for an AGV cart of claim 1, further comprising: a groove (10) is formed in the circumferential direction of the lower end of the vehicle body device, the groove is in a U-shaped design, and the opening of the groove faces outwards.

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