CN113623997A

CN113623997A - Aging production line for electrical box

Info

Publication number: CN113623997A
Application number: CN202110991824.XA
Authority: CN
Inventors: 梁家辉; 程名箭; 杨智慧
Original assignee: Gree Electric Appliances Inc of Zhuhai; Zhuhai Gree Intelligent Equipment Co Ltd
Current assignee: Gree Electric Appliances Inc of Zhuhai; Zhuhai Gree Intelligent Equipment Co Ltd
Priority date: 2021-08-26
Filing date: 2021-08-26
Publication date: 2021-11-09
Anticipated expiration: 2041-08-26
Also published as: CN113623997B

Abstract

The invention relates to the technical field of electrical box aging, in particular to an electrical box aging production line, which comprises: the aging line comprises an oven and at least one layer of heating line body arranged in the oven, and the heating line body is movably arranged in the oven; the cooling line comprises cooling equipment and at least one layer of cooling line body, the cooling line body is movably arranged in the cooling equipment, and the input end of the cooling line is arranged corresponding to the output end of the aging line; the first transplanter is arranged at the output end of the aging line and can transfer the electrical box on the heating line body to the cooling line body; a transfer conveyor line comprising a first conveyor line disposed at an output end of the cooling line. Because the workman is when getting the electrical apparatus box, the electrical apparatus box has been through the cooling arrangement cooling, and the temperature is lower, consequently can not scalded, and compares with prior art, has reduced the refrigerated time of waiting, can improve production efficiency.

Description

Aging production line for electrical box

Technical Field

The invention relates to the technical field of electrical box aging, in particular to an electrical box aging production line.

Background

At present, the high-temperature aging of an electric appliance box of an air conditioner needs to be carried out by manually putting the electric appliance box into an aging box, and after the aging is finished, the electric appliance box is taken out and put on a tool car for temporary storage and waiting for natural cooling. In the whole process, the electrical box needs to be taken and placed manually, and the risk of scalding exists when the electrical box with high temperature is taken out manually after high-temperature aging is completed.

Disclosure of Invention

Therefore, the invention aims to overcome the defect that the electrical box is easily scalded when the electrical box is manually removed after high-temperature aging is finished in the prior art, and provides an electrical box aging production line capable of preventing the electrical box from being scalded.

In order to solve the technical problem, the invention provides an electrical box aging production line, which comprises: the aging line comprises an oven and at least one layer of heating line body arranged in the oven, and the heating line body is movably arranged in the oven; the cooling line comprises cooling equipment and at least one layer of cooling line body, the cooling line body is movably arranged in the cooling equipment, and the input end of the cooling line is arranged corresponding to the output end of the aging line; the first transplanter is arranged at the output end of the aging line and can transfer the electrical box on the heating line body to the cooling line body; a transfer conveyor line comprising a first conveyor line disposed at an output end of the cooling line.

Optionally, the cooling line includes a first cooling line body and a second cooling line body, the first cooling line body is disposed on an upper side of the second cooling line body, the cooling line is disposed in parallel with the aging line, the first transplanter can transfer an electrical box on the heating line body to the first cooling line body, the first end of the cooling line is provided with the first transplanter, the second end of the cooling line is provided with a first plate returning machine, the first plate returning machine can transfer an electrical box on the first cooling line body to the second cooling line body, and the first transmission line is disposed at the first end of the cooling line and connected to the second cooling line body.

Optionally, the electrical box aging production line further comprises a tooling plate, and the tooling plate is suitable for placing the electrical box; the cooling line also comprises a third cooling line body, and the third cooling line body is arranged at the lower side of the second cooling line body; the transfer conveying line further comprises a second conveying line arranged on the lower side of the first conveying line, the second conveying line is connected with a first end of a third cooling line body, one ends, far away from the cooling line, of the first conveying line and the second conveying line are provided with a second plate returning machine, and the second plate returning machine can convey the tooling plates on the first conveying line to the second conveying line; the transfer conveying line further comprises a feeding line connected with the second end of the third cooling line body.

Optionally, the feeding line is a double-layer line body, the double-layer line body includes an upper layer line body and a lower layer line body, the lower layer line body is connected with the third cooling line body, a third plate returning machine is arranged at one end of the double-layer line body, the end is far away from the third cooling line body, and the third plate returning machine can convey a tooling plate on the lower layer line body to the upper layer line body.

Optionally, a second transplanter is arranged at an input end of the aging line, the second transplanter and the first transplanter are symmetrically arranged, a jacking translation mechanism is arranged at one end, far away from the third board returning machine, of the upper line body, the jacking translation mechanism can transfer the tooling plate on the upper line body to the second transplanter, and the second transplanter can transfer the tooling plate to the heating line body.

Optionally, the jacking translation mechanism comprises: the bottom plate is fixed at one end, far away from the third plate returning machine, of the upper-layer wire body; the first belt line is arranged on the bottom plate in a liftable mode, the conveying direction of the first belt line is perpendicular to the conveying direction of the upper-layer line body, and the first belt line is provided with a first position which is flush with the upper-layer line body and a second position which is higher than the upper-layer line body; and the first driving mechanism is connected with the first belt line and is used for driving the first belt line to move up and down.

Optionally, a plurality of first guide holes are formed in the base plate, a first guide shaft is connected to the lower portion of the first belt line, and the first guide shaft is arranged in the first guide holes in a liftable manner.

Optionally, the first drive mechanism comprises a first air cylinder.

Optionally, the second transplanter comprises: the first rack is arranged at the input end of the aging line; the material receiving belt line is fixedly arranged in the first rack, when the first belt line is positioned at the second position, the material receiving belt line is connected with the first belt line, and the conveying direction of the material receiving belt line is consistent with that of the first belt line; a transfer belt line, the transfer belt line comprising: a first support plate disposed in the first frame; the longitudinal belt is arranged on the first supporting plate in a liftable mode and provided with a third position higher than the first supporting plate and a fourth position falling on the first supporting plate, the conveying direction of the longitudinal belt is consistent with the conveying direction of the material receiving belt line, and when the longitudinal belt is located at the third position, the longitudinal belt is connected with the material receiving belt line; the second driving mechanism is connected with the longitudinal belt and is used for driving the longitudinal belt to move up and down; the transverse belt is arranged on the first supporting plate, the conveying direction of the transverse belt is perpendicular to that of the longitudinal belt, when the longitudinal belt is located at the fourth position, the transverse belt is located on two sides of the longitudinal belt, tooling plates on the longitudinal belt fall on the transverse belt, and the transverse belt can convey the tooling plates to the heating wire body.

Optionally, the second drive mechanism comprises a second air cylinder.

Optionally, the heating wire body is provided with multiple layers, a third driving mechanism is arranged in the first frame, and the third driving mechanism is connected with the first supporting plate and used for driving the transfer belt wire to move up and down.

Optionally, the third drive mechanism comprises: the first lifting motor is arranged at the bottom of the first rack; the first driving wheel is connected with an output shaft of the first lifting motor; the first driven wheel is arranged at the top of the first frame; the first transmission belt is wound outside the first driving wheel and the first driven wheel, and the first supporting plate is connected with the first transmission belt.

Optionally, a plurality of second guide holes are formed in the first support plate, a plurality of second guide shafts are arranged between the bottom and the top of the first rack, and the first support plate is arranged on the second guide shafts in a liftable manner through the second guide holes.

Optionally, the first board returning machine, the second board returning machine, and the third board returning machine have the same structure, and each of the first board returning machine, the second board returning machine, and the third board returning machine includes: a second frame; the second supporting plate is arranged in the second rack in a liftable mode; the fourth driving mechanism is connected with the second supporting plate and is used for driving the second supporting plate to move up and down; a second belt line disposed on the second support plate; and the belt line motor is used for driving the second belt line to rotate forwards and backwards.

Optionally, the fourth driving mechanism includes: the second lifting motor is arranged at the bottom of the second rack; the second driving wheel is connected with an output shaft of the second lifting motor; the second driven wheel is arranged at the top of the second frame; and the second transmission belt is wound outside the second driving wheel and the second driven wheel, and the second support plate is connected with the second transmission belt.

Optionally, the electrical box aging production line further comprises a feeding line, the feeding line is used for conveying electrical boxes to be aged, the feeding line is parallel to the upper line body, a support frame is arranged at the tail end of the feeding line, the support frame comprises two vertical support beams and a horizontal support beam connected to the top ends of the two vertical support beams, one vertical support beam is located on one side of the feeding line far away from the feeding line, the other vertical support beam is located on one side of the feeding line far away from the feeding line, and the electrical box aging production line further comprises a manipulator movably arranged on the horizontal support beam and capable of grabbing and placing the electrical boxes on the feeding line on the tooling plate on the upper line body.

Optionally, the number of the aging lines is two, the cooling line is arranged between the two aging lines, and correspondingly, the number of the first transplanter and the number of the second transplanter are two respectively.

Optionally, the cooling apparatus comprises a cooling windbox.

The technical scheme of the invention has the following advantages:

the invention provides an electrical box aging production line, when the electrical box needs to be aged, the electrical box is sequentially placed on a heating line body, an oven is used for heating the electrical box in the moving process of the heating line body to age the electrical box, after the electrical box is aged, the electrical box is transferred to a cooling line body through a first transplanter at the output end of the aging line, the cooling line body drives the electrical box to pass through cooling equipment in the moving process, the cooling equipment cools and cools the electrical box, after the cooling is finished, the electrical box is transferred to a first conveying line of a transfer conveying line from the cooling line body, a worker can stand beside the first conveying line to take down the cooled electrical box, and because the electrical box is cooled by the cooling equipment when the worker takes the electrical box, the temperature is low, the electrical box cannot be scalded, compared with the prior art, the time for waiting for cooling is reduced, the production efficiency can be improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic structural diagram of an electrical box aging production line provided in embodiment 1 of the present invention;

FIG. 2 is a front view of FIG. 1;

FIG. 3 is a top view of FIG. 1;

fig. 4 is a schematic partial structure diagram of an electrical box aging production line provided in embodiment 1 of the present invention;

FIG. 5 is a schematic view of the jacking translation mechanism of FIG. 3 at an angle;

FIG. 6 is a schematic view of the jacking translation mechanism of FIG. 3 at another angle;

FIG. 7 is a schematic view of the second transplanter shown in FIG. 1;

FIG. 8 is a front view of FIG. 7;

FIG. 9 is a schematic diagram of the construction of the transfer belt line of FIG. 7;

FIG. 10 is a front view of FIG. 9;

FIG. 11 is a schematic structural view of the first plate returning machine in FIG. 1;

FIG. 12 is a schematic diagram of the structure of the burn-in line of FIG. 1;

FIG. 13 is a partial cross-sectional view of FIG. 12;

FIG. 14 is a schematic diagram of the cooling line of FIG. 1;

fig. 15 is a front view of fig. 14.

Description of reference numerals:

1. aging the wire; 101. an oven; 102. heating the wire body; 2. a cooling line; 201. cooling the wind box; 202. a first cooling wire body; 203. a second cooling wire body; 204. a third cooling wire body; 3. a first transplanter; 4. a first transmission line; 5. a first plate returning machine; 501. a second frame; 502. a second support plate; 503. a second belt line; 504. a belt line motor; 505. a second lift motor; 506. a second drive belt; 6. a second conveying line; 7. a second plate returning machine; 8. assembling a plate; 9. an upper layer wire body; 10. a lower layer wire body; 11. a third plate returning machine; 12. a second transplanter; 1201. a first frame; 1202. a material receiving belt line; 1203. a transfer belt line; 12031. a first support plate; 12032. a longitudinal belt; 12033. a transverse belt; 12034. a second cylinder; 1204. a first lift motor; 1205. a first drive belt; 1206. a second guide shaft; 13. a jacking translation mechanism; 1301. a base plate; 1302. a first belt line; 1303. a first cylinder; 1304. a first guide shaft; 14. a material coming line; 15. a support frame; 16. a manipulator; 17. an electrical appliance box.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Examples

Therefore, as shown in fig. 1 to 15, the embodiment provides an electrical box aging production line, which can avoid being scalded.

In one embodiment, as shown in fig. 1 to 3, the electrical box aging production line comprises an aging line 1, a cooling line 2, a first transplanting machine 3 and a transfer conveying line.

The aging line 1 comprises an oven 101 and at least one layer of heating line body 102 arranged in the oven 101, wherein the heating line body 102 is movably arranged in the oven 101; the cooling line 2 comprises cooling equipment and at least one layer of cooling line body, the cooling line body is movably arranged in the cooling equipment, and the input end of the cooling line 2 is arranged corresponding to the output end of the aging line 1; the first transplanter 3 is arranged at the output end of the aging line 1, and the first transplanter 3 can transfer the electrical box 17 on the heating line body 102 to the cooling line body; the transfer conveyor line comprises a first conveyor line 4 arranged at the output end of the cooling line 2.

The oven 101 is provided with a plurality of heating parts therein, and can be heated along with the electric appliance box 17 on the heating wire body 102.

In this embodiment, when the electrical box 17 needs to be aged, the electrical boxes 17 are sequentially placed on the heating wire body 102, the oven 101 heats the electrical box 17 all the time during the moving process of the heating wire body 102, so that the electrical box 17 is aged, after the aging of the electrical box 17 is completed, the electrical box 17 is transferred to the cooling wire body through the first transplanter 3 at the output end of the aging wire 1, the cooling wire body drives the electrical box 17 to pass through the cooling device during the moving process, the cooling device cools and cools the electrical box 17, after the cooling is completed, the electrical box 17 is transferred from the cooling wire body to the first transmission line 4 of the transfer transmission line, a worker can stand beside the first transmission line 4 to take off the cooled electrical box 17, because the worker cools the electrical box 17 through the cooling device when taking the electrical box 17, the temperature is low, so that the worker cannot be scalded, and compared with the prior art, the time for waiting for cooling is reduced, and the production efficiency can be improved.

The heating wire body 102 and the cooling wire body are conventional movable production wire bodies, and the specific structure of the heating wire body 102 and the cooling wire body will not be described in detail in this embodiment.

In addition to the above embodiments, in a preferred embodiment, the cooling line 2 includes a first cooling line body 202 and a second cooling line body 203, the first cooling line body 202 is disposed above the second cooling line body 203, the cooling line 2 is disposed in parallel with the aging line 1, the first transplanter 3 can transfer the electrical equipment box 17 on the heating line body 102 onto the first cooling line body 202, the first transplanter 3 is disposed at a first end of the cooling line 2, the first plate returning machine 5 is disposed at a second end of the cooling line 2, the first plate returning machine 5 can transfer the electrical equipment box 17 on the first cooling line body 202 onto the second cooling line body 203, and the first transmission line 4 is disposed at the first end of the cooling line 2 and is connected to the second cooling line body 203. In this embodiment, the output end of the aging line 1 of the electrical box 17 is transferred to the first cooling line body 202 through the first transplanter 3, the first cooling line body 202 drives the electrical box 17 to pass through the cooling device in the moving process, the cooling device cools and cools the electrical box 17, and then the electrical box 17 passes through the first plate returning machine 5, the electrical box 17 is transferred to the second cooling line body 203, and is cooled and cooled again through the cooling device, after cooling is completed, the electrical box 17 is transferred to the first conveying line 4 of the transfer conveying line from the second cooling line body 203, and a worker can stand beside the first conveying line 4 to take down the cooled electrical box 17, because the worker takes the electrical box 17, the electrical box 17 is cooled and cooled twice through the cooling device, and the temperature is low, so that scalding can be avoided.

The first conveying line 4 is a conventional movable production line, and the specific structure of the first conveying line 4 will not be described in detail in this embodiment.

On the basis of the above embodiment, in a preferred embodiment, the electrical box aging production line further comprises a tooling plate 8, wherein the tooling plate 8 is suitable for placing the electrical box 17; the cooling line 2 further comprises a third cooling line body 204, and the third cooling line body 204 is arranged at the lower side of the second cooling line body 203; the transfer conveying line further comprises a second conveying line 6 arranged on the lower side of the first conveying line 4, the second conveying line 6 is connected with a first end of a third cooling line body 204, a second plate returning machine 7 is arranged at one end, far away from the cooling line 2, of the first conveying line 4 and one end, far away from the cooling line 2, of the second conveying line 6, and the second plate returning machine 7 can convey the tooling plates 8 on the first conveying line 4 to the second conveying line 6; the transfer conveyor line further comprises a feeding line connected with the second end of the third cooling line body 204. In this embodiment, after the electrical box 17 is placed on the tooling plate 8, the tooling plate 8 and the electrical box 17 on the tooling plate 8 are placed in the aging line 1 for heating and aging, the tooling plate 8 and the electrical box 17 on the tooling plate 8 are transferred to the first cooling line body 202 at the output end of the aging line 1 through the first transplanter 3, the first cooling line body 202 drives the tooling plate 8 and the electrical box 17 on the tooling plate 8 to pass through the cooling device in the moving process, the cooling device cools and cools the electrical box 17, then the electrical box 17 on the tooling plate 8 and the tooling plate 8 is transferred to the second cooling line body 203 through the first plate returning machine 5, the cooling device cools and cools again, after cooling is completed, the tooling plate 8 and the electrical box 17 on the tooling plate 8 are transferred to the first conveying line 4 of the conveying line from the second cooling line body 203, a worker can stand beside the first conveying line 4 to take down the cooled electrical box 17, the tooling plate 8 is transferred to the second conveying line 6 through the second plate returning machine 7, the second conveying line 6 conveys the tooling plate 8 to the third cooling line body 204, the third cooling line body 204 is connected with the feeding line, so the tooling plate 8 can be transferred to the feeding line, then the electrical box 17 to be aged can be placed on the tooling plate 8 on the feeding line, the tooling plate 8 and the electrical box 17 on the tooling plate 8 are placed in the aging line 1 for heating and aging, and the process is repeated. After the cooling is accomplished, 8 self-moving of frock board arrive this sides of the input of ageing line 1, can realize the circulation of whole production line, improve production efficiency, reduce artificial work load.

The second conveying line 6 and the feeding line are conventional movable production lines, and the detailed structure of the second conveying line 6 and the feeding line will not be described in detail in this embodiment.

In addition to the above embodiments, in a preferred embodiment, the feeding line is a double-layer line body, the double-layer line body includes an upper layer line body 9 and a lower layer line body 10, the lower layer line body 10 is connected with a third cooling line body 204, a third plate returning machine 11 is arranged at one end of the double-layer line body far away from the third cooling line body 204, and the third plate returning machine 11 can transfer the tooling plate 8 on the lower layer line body 10 onto the upper layer line body 9. In this embodiment, after the cooling is completed, the tooling plate 8 and the electrical box 17 on the tooling plate 8 are transferred from the second cooling line 203 to the first conveying line 4 of the transfer conveying line, a worker can stand beside the first conveying line 4 to take down the cooled electrical box 17, the tooling plate 8 is transferred to the second conveying line 6 through the second plate returning machine 7, the second conveying line 6 conveys the tooling plate 8 to the third cooling line 204, the third cooling line 204 is connected with the lower line 10 to transfer the tooling plate 8 to the lower line 10, then the tooling plate 8 is transferred to the upper line 9 through the third plate returning machine 11, the upper line 9 moves in the direction opposite to the moving direction of the lower line 10 to move towards the aging line 1, so that after the electrical box 17 to be heated is placed on the tooling plate 8, the upper line 9 drives the tooling plate 8 and the electrical box 17 on the tooling plate 8 to move towards the aging line 1, the aging line 1 is beneficial to putting the tool plate 8 and the electrical box 17 on the tool plate 8 again, and the production efficiency can be improved.

In addition to the above embodiments, in a preferred embodiment, the input end of the aging line 1 is provided with a second transplanter 12, the second transplanter 12 is symmetrically arranged with the first transplanter 3, one end of the upper line body 9 far away from the third plate returning machine 11 is provided with a lifting translation mechanism 13, the lifting translation mechanism 13 can transfer the tooling plate 8 on the upper line body 9 to the second transplanter 12, and the second transplanter 12 can transfer the tooling plate 8 to the heating line body 102. In this embodiment, put the electrical apparatus box 17 that will wait to heat behind frock board 8, upper wire body 9 drives frock board 8 and the removal of electrical apparatus box 17 on the frock board 8 towards one side of ageing line 1, after electrical apparatus box 17 on frock board 8 and the frock board 8 moves to jacking translation mechanism 13, jacking translation mechanism 13 shifts the electrical apparatus box 17 on frock board 8 and the frock board 8 to in the second transplanter 12 automatically, second transplanter 12 is automatic with electrical apparatus box 17 automatic transfer on frock board 8 and the frock board 8 to on the heating wire body 102 of ageing line 1, whole heating and cooling's process can realize automaticly, the manual operation volume is less, production efficiency is higher, and the process of putting electrical apparatus box 17 on the heating wire body 102 need not manual operation, the risk of being scalded has been avoided.

In addition to the above embodiments, in a preferred embodiment, as shown in fig. 5 and 6, the jacking translation mechanism 13 includes a bottom plate 1301, a first belt line 1302, and a first driving mechanism. The bottom plate 1301 is fixed at one end, far away from the third plate returning machine 11, of the upper-layer wire body 9; the first belt line 1302 is arranged on the bottom plate 1301 in a liftable manner, the conveying direction of the first belt line 1302 is perpendicular to the conveying direction of the upper-layer line 9, and the first belt line 1302 has a first position flush with the upper-layer line 9 and a second position higher than the upper-layer line 9; the first driving mechanism is connected to the first belt line 1302 and is configured to drive the first belt line 1302 to move up and down. Specifically, during operation, after the tooling plate 8 and the electrical box 17 on the tooling plate 8 are moved to the lifting translation mechanism 13, the tooling plate 8 and the electrical box 17 on the tooling plate 8 fall on the first belt line 1302, then the first driving mechanism drives the first belt line 1302 to ascend, and after the first belt line 1302 ascends, the tooling plate 8 and the electrical box 17 on the tooling plate 8 are transferred to the second transplanter 12.

In one embodiment, the first driving mechanism comprises a first air cylinder 1303, and the first belt line 1302 is driven to move up and down through the first air cylinder 1303, so that the structure is simple and the control is convenient. In an alternative embodiment, the first driving mechanism comprises a motor and a rack-and-pinion mechanism, the motor is connected to a pinion, the pinion is engaged with the rack, and the rack is connected to the first belt line 1302 to drive the first belt line 1302 to move up and down.

In addition to the above embodiments, in a preferred embodiment, a plurality of first guide holes are provided on the base plate 1301, a first guide shaft 1304 is connected to a lower portion of the first belt line 1302, and the first guide shaft 1304 is disposed in the first guide holes so as to be capable of being lifted. In this embodiment, the first guide shaft 1304 and the first guide hole are engaged with each other, and can guide the vertical movement of the first belt line 1302. Of course, in other alternative embodiments, the first guide hole and the first guide shaft 1304 may not be provided.

On the basis of the above embodiments, in a preferred embodiment, as shown in fig. 7 to 10, the second transplanter 12 includes a first frame 1201, a receiving belt 1202, and a transfer belt 1203. Wherein, the first frame 1201 is arranged at the input end of the aging line 1; the material receiving belt line 1202 is fixedly arranged in the first frame 1201, when the first belt line 1302 is located at the second position, the material receiving belt line 1202 is connected with the first belt line 1302, and the conveying direction of the material receiving belt line 1202 is consistent with the conveying direction of the first belt line 1302; the transfer belt line 1203 includes a first support plate 12031, a longitudinal belt 12032, a second drive mechanism, and a transverse belt 12033. A first support plate 12031 is disposed in the first frame 1201; the longitudinal belt 12032 is arranged on the first support plate 12031 in a liftable manner, and has a third position higher than the first support plate 12031 and a fourth position on the first support plate 12031, the conveying direction of the longitudinal belt 12032 is consistent with the conveying direction of the material receiving belt line 1202, and when the longitudinal belt 12032 is at the third position, the longitudinal belt 12032 is connected with the material receiving belt line 1202; the second driving mechanism is connected with the longitudinal belt 12032 and is used for driving the longitudinal belt 12032 to move up and down; the lateral belts 12033 are provided on the first support plate 12031, the conveying direction of the lateral belts 12033 is perpendicular to the conveying direction of the longitudinal belts 12032, and when the longitudinal belts 12032 are located at the fourth position, the lateral belts 12033 are located on both sides of the longitudinal belts 12032, the tool plate 8 on the longitudinal belts 12032 is dropped on the lateral belts 12033, and the lateral belts 12033 can transfer the tool plate 8 onto the heating wire body 102. In this embodiment, specifically, when the tooling plate 8 and the electrical box 17 on the tooling plate 8 are moved to the lifting and translating mechanism 13, the tooling plate 8 and the electrical box 17 on the tooling plate 8 fall on the first belt line 1302, then the first driving mechanism drives the first belt line 1302 to ascend, the first belt line 1302 ascends to transfer the electrical box 17 on the tooling plate 8 and the tooling plate 8 to the material receiving belt line 1202, then the second driving mechanism drives the longitudinal belt 12032 to move, the longitudinal belt 12032 is located at the third position connected with the material receiving belt line 1202, the longitudinal belt 12032 is flush with the material receiving belt line 1202, the electrical box 17 on the tooling plate 8 and the tooling plate 8 is transferred from the material receiving belt line 1202 to the longitudinal belt 12032, then the second driving mechanism drives the longitudinal belt 12032 to descend, the longitudinal belt 12032 falls on the first support plate 12031, and the electrical box 17 on the tooling plate 8 and the tooling plate 8 falls on the transverse belt 12033, since the transfer direction of the horizontal belt 12033 is parallel to or coincides with the transfer direction of the heating wire 102, the tool plate 8 and the electrical box 17 on the tool plate 8 can be transferred to the heating wire 102.

It should be noted that the structure of the second transplanter 12 is identical to that of the first transplanter 3, and the structure of the first transplanter 3 will not be described in detail in this embodiment.

Specifically in one embodiment, the second drive mechanism includes a second air cylinder 12034. As shown in fig. 10, the first support plate 12031 has a mounting groove thereon, and the second cylinder 12034 is disposed in the mounting groove. In the embodiment, the second air cylinder 12034 drives the longitudinal belt 12032 to move up and down, so that the structure is simple and the control is convenient. In an alternative embodiment, the second driving mechanism comprises a motor and a rack-and-pinion mechanism, the motor is connected to a gear, the gear is meshed with a rack, and the rack is connected to the longitudinal belt 12032 to drive the longitudinal belt 12032 to move up and down.

On the basis of the above embodiments, in a preferred embodiment, the heating wire body 102 is provided with multiple layers, and a third driving mechanism is provided in the first frame 1201, and is connected to the first support plate 12031 for driving the transfer belt line 1203 to move up and down. In this embodiment, by providing the third driving mechanism, the tool plate 8 and the electric appliance box 17 on the tool plate 8 can be conveyed to the heating wire bodies 102 having different heights.

Specifically, in one embodiment, as shown in fig. 12 and 13, the heating wire bodies 102 are provided in four layers, and when the tooling plate 8 and the electrical equipment boxes 17 on the tooling plate 8 are placed on the heating wire bodies 102 in the lowermost layer, the heating wire bodies 102 in the uppermost layer are aged, the tooling plate 8 on the heating wire bodies 102 in the uppermost layer and the electrical equipment boxes 17 on the tooling plate 8 are sequentially transferred to the cooling line 2 by the first transplanter 3, and then the tooling plates 8 on the heating wire bodies 102 in the remaining layers and the electrical equipment boxes 17 on the tooling plate 8 are sequentially transferred to the cooling line 2 in this order.

In addition to the above embodiments, in a preferred embodiment, the third driving mechanism includes a first lifting motor 1204, a first driving wheel, a first driven wheel, and a first transmission belt 1205. Wherein, the first lifting motor 1204 is arranged at the bottom of the first frame 1201; the first driving wheel is connected with an output shaft of the first lifting motor 1204; the first driven wheel is arranged at the top of the first frame 1201; the first transmission belt 1205 is wound around the first driving wheel and the first driven wheel, and the first support plate 12031 is connected to the first transmission belt 1205. In this embodiment, the operation direction of the first transmission belt 1205 can be controlled by controlling the forward and reverse rotation direction of the first lifting motor 1204, so as to drive the transfer belt line 1203 to move up or down, and since the first driving wheel is located at the bottom of the first frame 1201 and the first driven wheel is located at the top of the first frame 1201, the transfer belt line 1203 can have a larger movement stroke, so that the tooling plate 8 and the electrical boxes 17 on the tooling plate 8 can be conveyed to the heating line bodies 102 at different heights. In an alternative embodiment, the third driving mechanism may include a driving cylinder, by which the transfer belt line 1203 is driven to move up and down.

In a preferred embodiment, a plurality of second guide holes are formed in the first support plate 12031, a plurality of second guide shafts 1206 are arranged between the bottom and the top of the first frame 1201, and the first support plate 12031 is arranged on the second guide shafts 1206 through the second guide holes in a liftable manner. In this embodiment, the engagement of the second guide hole and the second guide shaft 1206 can guide the lifting movement of the transfer belt line 1203, ensuring that the transfer belt line 1203 moves in the vertical direction. Of course, in other alternative embodiments, the second guide hole and the second guide shaft 1206 may not be provided.

In addition to the above embodiments, in a preferred embodiment, as shown in fig. 11, the first plate returning machine 5, the second plate returning machine 7, and the third plate returning machine 11 have the same structure, and each of them includes: a second frame 501, a second supporting plate 502, a fourth driving mechanism, a second belt line 503, and a belt line motor 504. The second supporting plate 502 is arranged in the second frame 501 in a liftable manner; the fourth driving mechanism is connected with the second supporting plate 502 and is used for driving the second supporting plate 502 to move up and down; the second belt line 503 is disposed on the second support plate 502; the belt line motor 504 is used for driving the second belt line 503 to rotate in the forward and reverse directions.

For the first plate returning machine 5, the second support plate 502 is first located at a position flush with the first cooling wire body 202, the conveying direction of the second belt line 503 is made to coincide with the conveying direction of the first cooling wire body 202, the tooling plate 8 on the first cooling wire body 202 and the electrical box 17 on the tooling plate 8 can be transferred onto the second belt line 503, then the fourth driving mechanism drives the second support plate 502 to descend, the second support plate 502 is made to be flush with the second cooling wire body 203, the belt line motor 504 controls the second belt line 503 to rotate in the reverse direction, the conveying direction of the second belt line 503 is made to coincide with the conveying direction of the second cooling wire body 203, and the tooling plate 8 and the electrical box 17 on the tooling plate 8 are transferred onto the second cooling wire body 203.

In the second plate returning machine 7, the second support plate 502 is first positioned at a position flush with the first conveying line 4, the conveying direction of the second belt line 503 is made to coincide with the conveying direction of the first conveying line 4, the tool plate 8 on the first conveying line 4 and the electrical box 17 on the tool plate 8 can be transferred onto the second belt line 503, and then the fourth driving mechanism drives the second support plate 502 to descend, the second support plate 502 is made to be flush with the second conveying line 6, the belt line motor 504 controls the second belt line 503 to rotate in the reverse direction, the conveying direction of the second belt line 503 is made to coincide with the conveying direction of the second conveying line 6, and the tool plate 8 and the electrical box 17 on the tool plate 8 are transferred onto the second conveying line 6.

For the third plate returning machine 11, the second support plate 502 is first positioned at a position flush with the lower wire 10, the conveying direction of the second belt wire 503 is made to coincide with the conveying direction of the lower wire 10, the tooling plate 8 on the lower wire 10 and the electrical box 17 on the tooling plate 8 can be transferred onto the second belt wire 503, then the fourth driving mechanism drives the second support plate 502 to ascend, the second support plate 502 is made flush with the upper wire 9, the belt wire motor 504 controls the second belt wire 503 to rotate in the reverse direction, the conveying direction of the second belt wire 503 is made to coincide with the conveying direction of the upper wire 9, and the tooling plate 8 and the electrical box 17 on the tooling plate 8 are transferred onto the upper wire 9.

In addition to the above-described embodiments, in a preferred embodiment, the fourth drive mechanism includes: a second lifting motor 505, a second driving wheel, a second driven wheel and a second transmission belt 506. Wherein, the second lifting motor 505 is arranged at the bottom of the second frame 501; the second driving wheel is connected with an output shaft of the second lifting motor 505; the second driven wheel is arranged at the top of the second frame 501; a second driving belt 506 is wound around the second driving wheel and the second driven wheel, and the second supporting plate 502 is connected to the second driving belt 506. In this embodiment, the operation direction of the second driving belt 506 can be controlled by controlling the forward and reverse rotation direction of the second lifting motor 505, so as to drive the second belt line 503 to move up or down, and since the second driving wheel is located at the bottom of the second frame 501 and the second driven wheel is located at the top of the second frame 501, the second belt line 503 can have a larger movement stroke. In an alternative embodiment, the fourth driving mechanism may include a driving cylinder, and the second belt line 503 is driven to move up and down by the driving cylinder.

On the basis of the above embodiment, in a preferred embodiment, as shown in fig. 4, the electrical box aging production line further includes a feeding line 14, the feeding line 14 is used for conveying an electrical box 17 to be aged, the feeding line 14 is parallel to the upper-layer wire body 9, a support frame 15 is arranged at the tail end of the feeding line 14, the support frame 15 includes two vertical support beams and a horizontal support beam connected to the top ends of the two vertical support beams, one vertical support beam is positioned on one side of the feeding line 14 far away from the feeding line, the other vertical support beam is positioned on one side of the feeding line far away from the feeding line 14, the electrical box aging production line further includes a manipulator 16, and the manipulator 16 is movably arranged on the horizontal support beam and can grab and place the electrical box 17 on the feeding line 14 on the tooling plate 8 on the upper-layer wire body 9. In this embodiment, the incoming material line 14 receives the incoming material, when the electrical box 17 moves to the tail end along with the incoming material line 14, the manipulator 16 grabs and places the electrical box 17 on the tooling plate 8 of the upper-layer wire body 9, only one worker is needed to place the electrical box 17 to be aged on the incoming material line 14 beside the incoming material line 14, and in addition, one worker is needed to take down the cooled electrical box 17 beside the first conveying line 4, and the rest processes do not need manual operation, so that the production efficiency is high.

In addition to the above embodiments, in a preferred embodiment, as shown in fig. 1 and 3, two aging lines 1 are provided in parallel, a cooling line 2 is provided between the two aging lines 1, and correspondingly, two first and

second transplanting machines

3 and 12 are provided, respectively. The production efficiency can be further improved.

On the basis of the above embodiment, in a preferred embodiment, as shown in fig. 14 and 15, the cooling apparatus includes a cooling wind box 201. In this embodiment, the cooling wind box 201 blows cold wind all the time while the tool plate 8 and the electrical box 17 on the tool plate 8 pass through the cooling device, and the cooling efficiency is high. In an alternative embodiment, the cooling apparatus comprises water-cooled tubes with a heat exchange medium therein.

According to the aging production line of the electrical box, the electrical box 17 is fed from the feeding line 14, after the electrical box reaches the tail end of the feeding line 14, the manipulator 16 can grab the electrical box 17 and place the electrical box 17 on the tooling plate 8 on the upper-layer line body 9, and the tooling plate 8 is used for bearing the on-line flow of the electrical box 17; when the tooling plate 8 and the electrical box 17 on the tooling plate 8 move to the jacking translation mechanism 13, the jacking translation mechanism 13 jacks the tooling plate 8 and transfers the tooling plate 8 to the second transplanting machines 12 on two sides, the tooling plate 8 firstly enters the material receiving belt lines 1202 of the second transplanting machines 12, then the first lifting motor 1204 enables the transfer belt lines 1203 to reach the height of the material receiving belt lines 1202 through the first transmission belt 1205, then the tooling plate 8 flows onto the longitudinal belts 12032 of the transfer belt lines 1203, then the second cylinder 12034 drives the longitudinal belts 12032 to descend, the tooling plate 8 falls onto the first lifting motor 1204, then the first lifting motor 1204 controls the transfer belt lines 1203 to reach the height of the heating line bodies 102 needing feeding through the first transmission belt 1205, and then the tooling plate 8 is conveyed onto the heating line bodies 102. The oven 101 heats the inside of the oven to age the electrical box 17 at a high temperature, the multiple layers of heating wire bodies 102 are all used for caching the electrical box 17, the electrical box 17 is filled with each layer of heating wire body 102 in sequence, and when the electrical box 17 in the first layer of heating wire body 102 is arranged in the last layer of heating wire body 102, the electrical box 17 in the first layer of heating wire body 102 is aged at a high temperature in the drying tunnel. Then the air is sent to the first cooling line body 202 on the uppermost layer of the cooling line 2 through the first transplanting machines 3 on the two corresponding sides, then the air flows to the first plate returning machine 5, and then the air flows to the second cooling line body 203 through the first plate returning machine 5, the electric box 17 always blows air for accelerating cooling for the electric box 17 in the two circulation interval cooling air boxes 201, and the cooling is finished after the electric box 17 finishes the two circulation. The electrical box 17 is then manually removed next to the first transmission line 4. The tooling plate 8 continues to advance through the second plate returning machine 7 to enter the third cooling line 204 for backflow, then the lower line 10 connected with the double-layer line returns the tooling plate 8 to the upper line 9 through the third plate returning machine 11, and the discharger box 17 is repeated.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims

1. The utility model provides an ageing production line of electrical apparatus box which characterized in that includes:

the aging line (1) comprises an oven (101) and at least one layer of heating line body (102) arranged in the oven (101), wherein the heating line body (102) is movably arranged in the oven (101);

the cooling line (2) comprises cooling equipment and at least one layer of cooling line body, the cooling line body is movably arranged in the cooling equipment, and the input end of the cooling line (2) is arranged corresponding to the output end of the aging line (1);

the first transplanter (3) is arranged at the output end of the aging line (1), and the first transplanter (3) can transfer an electric box (17) on the heating line body (102) to the cooling line body;

a transfer conveyor line comprising a first conveyor line (4) arranged at the output end of the cooling line (2).

2. The electrical box aging production line according to claim 1, characterized in that the cooling line (2) comprises a first cooling line body (202) and a second cooling line body (203), the first cooling line body (202) being provided at an upper side of the second cooling line body (203), the cooling line (2) being provided in parallel with the aging line (1), the first transplanter (3) being capable of transferring an electrical box (17) on the heating line body (102) onto the first cooling line body (202), a first end of the cooling line (2) being provided with the first transplanter (3), a second end of the cooling line (2) being provided with a first plate return machine (5), the first plate return machine (5) being capable of transferring an electrical box (17) on the first cooling line body (202) onto the second cooling line body (203), the first transfer line (4) being provided at the first end of the cooling line (2), and is connected with the second cooling wire body (203).

3. The appliance box aging line according to claim 2, further comprising a tooling plate (8), the tooling plate (8) being adapted to place the appliance box (17) thereon;

the cooling line (2) further comprises a third cooling line body (204), and the third cooling line body (204) is arranged on the lower side of the second cooling line body (203);

the transfer conveying line further comprises a second conveying line (6) arranged on the lower side of the first conveying line (4), the second conveying line (6) is connected with the first end of the third cooling line body (204), a second plate returning machine (7) is arranged at one end, far away from the cooling line (2), of the first conveying line (4) and the second conveying line (6), and the second plate returning machine (7) can convey tooling plates (8) on the first conveying line (4) to the second conveying line (6);

the transfer conveying line further comprises a feeding line connected with the second end of the third cooling line body (204).

4. The electrical box aging production line according to claim 3, characterized in that the feeding line is a double-layer line body, the double-layer line body comprises an upper layer line body (9) and a lower layer line body (10), the lower layer line body (10) is connected with the third cooling line body (204), a third plate returning machine (11) is arranged at one end of the double-layer line body, which is far away from the third cooling line body (204), and the third plate returning machine (11) can convey a tooling plate (8) on the lower layer line body (10) onto the upper layer line body (9).

5. The appliance box aging production line according to claim 4, characterized in that a second transplanter (12) is arranged at the input end of the aging line (1), the second transplanter (12) is arranged symmetrically to the first transplanter (3), a lifting and translating mechanism (13) is arranged at one end of the upper line body (9) far away from the third plate returning machine (11), the lifting and translating mechanism (13) can transfer a tooling plate (8) on the upper line body (9) into the second transplanter (12), and the second transplanter (12) can transfer the tooling plate (8) onto the heating line body (102).

6. Appliance box ageing line according to claim 5, characterised in that the jacking translation mechanism (13) comprises:

the bottom plate (1301) is fixed to one end, far away from the third plate returning machine (11), of the upper-layer wire body (9);

the first belt line (1302) is arranged on the bottom plate (1301) in a lifting mode, the conveying direction of the first belt line (1302) is perpendicular to the conveying direction of the upper-layer line body (9), and the first belt line (1302) has a first position flush with the upper-layer line body (9) and a second position higher than the upper-layer line body (9);

the first driving mechanism is connected with the first belt line (1302) and used for driving the first belt line (1302) to move up and down.

7. The appliance box aging production line according to claim 6, wherein a plurality of first guide holes are formed in the base plate (1301), a first guide shaft (1304) is connected to the lower portion of the first belt line (1302), and the first guide shaft (1304) is arranged in the first guide holes in a liftable manner.

8. The appliance box aging line of claim 6, wherein the first drive mechanism includes a first air cylinder (1303).

9. The appliance box aging line according to claim 6, characterized in that the second transplanter (12) comprises:

a first frame (1201) provided at an input end of the burn-in line (1);

the material receiving belt line (1202) is fixedly arranged in the first rack (1201), when the first belt line (1302) is located at the second position, the material receiving belt line (1202) is connected with the first belt line (1302), and the conveying direction of the material receiving belt line (1202) is consistent with the conveying direction of the first belt line (1302);

a transfer belt line (1203), the transfer belt line (1203) comprising:

a first support plate (12031) provided in the first chassis (1201);

the longitudinal belt (12032) is arranged on the first supporting plate (12031) in a liftable mode and provided with a third position higher than the first supporting plate (12031) and a fourth position falling on the first supporting plate (12031), the conveying direction of the longitudinal belt (12032) is consistent with the conveying direction of the material receiving belt line (1202), and when the longitudinal belt (12032) is located at the third position, the longitudinal belt (12032) is connected with the material receiving belt line (1202);

the second driving mechanism is connected with the longitudinal belt (12032) and is used for driving the longitudinal belt (12032) to move up and down;

the transverse belt (12033) is arranged on the first supporting plate (12031), the conveying direction of the transverse belt (12033) is perpendicular to the conveying direction of the longitudinal belt (12032), when the longitudinal belt (12032) is located at the fourth position, the transverse belt (12033) is located on two sides of the longitudinal belt (12032), a tooling plate (8) on the longitudinal belt (12032) falls on the transverse belt (12033), and the transverse belt (12033) can transfer the tooling plate (8) to the heating line body (102).

10. The appliance box aging line according to claim 9, wherein the second drive mechanism includes a second air cylinder (12034).

11. The electrical box aging production line of claim 9, wherein the heating wire body (102) is provided with a plurality of layers, and a third driving mechanism is provided in the first frame (1201), and is connected to the first supporting plate (12031) for driving the transfer belt line (1203) to move up and down.

12. The appliance box aging line of claim 11, wherein the third drive mechanism comprises:

the first lifting motor (1204) is arranged at the bottom of the first rack (1201);

the first driving wheel is connected with an output shaft of the first lifting motor (1204);

the first driven wheel is arranged at the top of the first frame (1201);

a first transmission belt (1205) wound around the first driving wheel and the first driven wheel, the first support plate (12031) being connected to the first transmission belt (1205).

13. The appliance box aging production line according to claim 11, wherein a plurality of second guide holes are formed in the first support plate (12031), a plurality of second guide shafts (1206) are arranged between the bottom and the top of the first rack (1201), and the first support plate (12031) is liftably arranged on the second guide shafts (1206) through the second guide holes.

14. The appliance box aging production line according to any one of claims 5 to 13, wherein the first board returning machine (5), the second board returning machine (7) and the third board returning machine (11) are identical in structure and each comprise:

a second gantry (501);

the second supporting plate (502) is arranged in the second rack (501) in a lifting manner;

the fourth driving mechanism is connected with the second supporting plate (502) and is used for driving the second supporting plate (502) to move up and down;

a second belt line (503) provided on the second support plate (502);

and the belt line motor (504) is used for driving the second belt line (503) to rotate in the positive and negative directions.

15. The appliance box aging production line of claim 14, wherein the fourth driving mechanism comprises:

the second lifting motor (505) is arranged at the bottom of the second rack (501);

the second driving wheel is connected with an output shaft of the second lifting motor (505);

the second driven wheel is arranged at the top of the second frame (501);

and the second transmission belt (506) is wound outside the second driving wheel and the second driven wheel, and the second supporting plate (502) is connected with the second transmission belt (506).

16. Appliance box ageing line according to any one of claims 4-13, characterised in that it further comprises a supply line (14), the supply line (14) being intended to convey the appliance boxes (17) to be aged, the supply line (14) being parallel to the upper wire body (9), a support frame (15) being provided at the end of the supply line (14), the support frame (15) comprising two vertical support beams, one of which being located on the side of the supply line (14) remote from the supply line and a horizontal support beam connected at the top ends of the two vertical support beams, the other vertical support beam being located on the side of the supply line remote from the supply line (14), and a manipulator (16), the manipulator (16) being movably arranged on the horizontal support beam, the electrical box (17) on the feeding line (14) can be grabbed and placed on the tooling plate (8) on the upper-layer line body (9).

17. The appliance box aging line according to any one of claims 5 to 13, wherein there are two aging lines (1) in parallel, the cooling line (2) is provided between the two aging lines (1), and correspondingly there are two of the first and second transplanting machines (3, 12), respectively.

18. Appliance box ageing line according to any of claims 1-13, characterised in that the cooling device comprises a cooling bellows (201).