CN219010378U - Single roller type heat treatment production line - Google Patents

Abstract

The utility model discloses a single roller type heat treatment production line which comprises a solid solution furnace, a first aging furnace and a second aging furnace, wherein one side of the solid solution furnace is provided with a feeding platform, the other side of the solid solution furnace is provided with a quenching mechanism, one side of the first aging furnace is provided with a transfer platform, the other side of the first aging furnace is provided with a first discharging platform, the quenching mechanism is propped against the transfer platform, the feeding platform, the solid solution furnace, the quenching mechanism, the transfer platform and the first aging furnace are arranged along the same axis direction, two sides of the second aging furnace are respectively provided with a feeding platform and a second discharging platform, the transfer platform is connected with a travelling rail, the other end of the travelling rail is connected with the feeding platform, and the heat treatment production line is also provided with a conveying mechanism. The utility model has compact production line arrangement and stable operation, can quickly replace the heat treatment process for production during heat treatment, can maximize the productivity and shorten the production line and quickly convert the process, thereby achieving the purposes of saving resources and reducing the production cost.

Description

Single roller type heat treatment production line

Technical Field

The utility model relates to the technical field of aluminum alloy heat treatment, in particular to a single roller type heat treatment production line.

Background

The heat treatment technology of aluminum alloy is a technology which selects a certain heat treatment standard, controls the heating speed to rise to a certain corresponding temperature when the heat treatment of aluminum alloy products, keeps the temperature for a certain time, cools at a certain speed and changes the structure of the alloy.

At present, large-scale continuous heat treatment production lines are commonly adopted by domestic aluminum alloy part casting manufacturing enterprises, the treatment mode is suitable for products with single products and large quantity, a large quantity of aluminum alloy parts can be continuously treated, the aging treatment process time is long, the solution treatment process time is short when some aluminum alloy part products are subjected to heat treatment, different heat treatment parameters are needed for treatment of some products with various varieties and large batches, if the large-scale heat treatment production lines are adopted for treatment, the resource waste is caused, the production benefit is influenced, and particularly for small-scale aluminum alloy casting enterprises, the manufacturing cost is intangibly improved, so that a miniaturized heat treatment production line is needed to meet the heat treatment requirements of the aluminum alloy parts with various varieties and large batches.

For this reason, we have devised a single roll type heat treatment line to solve the above problems.

Disclosure of Invention

The utility model aims to solve the defects of high resource consumption and low production efficiency of a large-scale aluminum alloy heat treatment production line in the prior art when heat treatment is carried out on various and large-batch aluminum alloy parts, and provides a single roller type heat treatment production line.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a monomer roller stick formula heat treatment production line, includes solution furnace, first ageing furnace and second ageing furnace, one side of solution furnace is provided with the feeding platform, and the opposite side is provided with quenching mechanism, one side of first ageing furnace is provided with the transportation platform, and the opposite side is provided with first ejection of compact platform, quenching mechanism with the transportation platform offsets, feeding platform, solution furnace, quenching mechanism, transportation platform and first ageing furnace are arranged along same axis direction, the both sides of second ageing furnace are provided with pan feeding platform and second ejection of compact platform respectively, the transportation platform is connected with the driving track, the other end of driving track with the pan feeding platform is connected, all be provided with conveying mechanism on feeding platform, solution furnace, quenching mechanism, transportation platform, first ageing furnace, pan feeding platform, first ejection of compact platform and the second ejection of compact platform.

Further, conveying mechanism is roller type conveying mechanism, including driving motor, chain and transmission club, the transmission club sets up a plurality of, and its one end is provided with the sprocket, driving motor's output passes through the chain with the sprocket is connected, sprocket on the transmission club passes through the chain interconnect.

Further, the conveying mechanism is respectively arranged on the upper end surfaces of the feeding platform, the transferring platform, the feeding platform, the first discharging platform and the second discharging platform, the transmission stick is arranged on two side furnace bodies of the solid solution furnace, the first time effect furnace and the second time effect furnace through bearings, and the conveying mechanism is positioned on the same horizontal plane and is in control connection with the operation control box.

Furthermore, the inlet end of the solid solution furnace is provided with a solid solution furnace door mechanism I, the outlet end of the solid solution furnace is provided with a solid solution furnace door mechanism II, the inlet end of the first aging furnace is provided with an aging furnace door mechanism I, the outlet end of the first aging furnace is provided with an aging furnace door mechanism II, the inlet end of the second aging furnace is provided with an aging furnace door mechanism III, and the outlet end of the second aging furnace is provided with an aging furnace door mechanism IV.

Further, install circulating fan, combustion heater and exhaust port on the furnace body of solution furnace, first time effect stove and second time effect stove, combustion heater is located the inside upside of furnace body, circulating fan installs in the top of furnace body, communicate through exhaust duct between the exhaust port.

Furthermore, overhaul ascending platforms are arranged on one sides of the tops of the solution furnace, the first aging furnace and the second aging furnace.

Further, a material frame is arranged on the conveying mechanism, and a travelling trolley is arranged on the travelling rail.

Compared with the prior art, the utility model has the beneficial effects that: the single roller type heat treatment production line provided by the utility model has the advantages that the structure is compact, the operation is stable, the heat treatment production line can meet the production requirements when products of aluminum alloy parts are various and small-batch production is realized, and the heat treatment process is quickly replaced for production when the products are singly dissolved or singly aged, and the production requirements can be well met when the products are singly dissolved or singly aged; in addition, the solid solution furnace and the aging furnace both adopt front and rear double-door structures, so that continuous production can be realized, the production line is shortened, the process is quickly converted, and particularly, the aging process time of the same product is long, the solid solution process time is short, and the maximum productivity is realized, thereby achieving the purposes of saving resources and reducing the production cost.

Drawings

FIG. 1 is a schematic diagram of an installation arrangement of a single roller type heat treatment production line according to the present utility model;

fig. 2 is a schematic structural diagram of an aging furnace of a single roller type heat treatment production line according to the present utility model.

In the figure: 1. a feeding platform; 2. a solid solution furnace; 21. a solid solution furnace door mechanism I; 22. a second solid solution furnace door mechanism; 3. a quenching mechanism; 4. a transfer platform; 5. a first time-efficient furnace; 51. an aging furnace door mechanism I; 52. aging furnace door mechanism II; 6. a conveying mechanism; 61. a driving motor; 62. a chain; 63. a transmission stick; 64. a sprocket; 7. a travelling rail; 8. a feeding platform; 9. a second aging furnace; 91. aging furnace door mechanism III; 92. aging furnace door mechanism IV; 93. a circulating fan; 94. a combustion heater; 95. a smoke outlet; 10. a first discharge platform; 11. the second discharging platform; 12. a smoke exhaust duct; 13. overhauling a climbing platform; 14. a walking trolley 15 and a material frame.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Examples:

as shown in fig. 1, the single roller type heat treatment production line comprises a solid solution furnace 2, a first time effect furnace 5 and a second time effect furnace 9, wherein a solid solution furnace door mechanism I21 is arranged at the inlet end of the solid solution furnace 2, a solid solution furnace door mechanism II 22 is arranged at the outlet end of the solid solution furnace 2, a time effect furnace door mechanism I51 is arranged at the inlet end of the first time effect furnace 5, a time effect furnace door mechanism II 52 is arranged at the outlet end of the first time effect furnace, a time effect furnace door mechanism III 91 is arranged at the inlet end of the second time effect furnace 9, a time effect furnace door mechanism IV 92 is arranged at the outlet end of the second time effect furnace, and a single furnace body adopts a double furnace door structure, so that continuous automatic production can be realized, the use efficiency is improved, and all the door mechanisms are electric hydraulic control type and are all in control connection with an operation control box.

One side of the solution furnace 2 is provided with a feeding platform 1, the other side is provided with a quenching mechanism 3, one side of the first aging furnace 5 is provided with a transfer platform 4, the other side is provided with a first discharging platform 10, the quenching mechanism 3 is propped against the transfer platform 4, the upper feeding platform 1, the solution furnace 2, the quenching mechanism 3, the transfer platform 4 and the first aging furnace 5 are arranged along the same axis direction, two sides of the second aging furnace 9 are respectively provided with a feeding platform 8 and a second discharging platform 11, the transfer platform 4 is connected with a travelling rail 7, the other end of the travelling rail 7 is connected with the feeding platform 8, the feeding platform 1, the solution furnace 2, the quenching mechanism 3, the transfer platform 4, the first aging furnace 5, the feeding platform 8, the second aging furnace 9, the first discharging platform 10 and the second discharging platform 11 are all provided with conveying mechanisms 6, and the overhauling and elevating platform 13 is arranged on one side of the tops of the solution furnace 2, the first aging furnace 5 and the second aging furnace 9. The conveying mechanism 6 is provided with a material frame 15, the travelling rail 7 is provided with a travelling trolley 14 for conveying the material frame 15, and the transferring platform 4 is used for transferring the material frame 15 into the first time-efficiency furnace 5 or the travelling trolley 14.

As shown in fig. 2, the conveying mechanism 6 is a roller-type conveying mechanism, and comprises a driving motor 61, a chain 62 and a transmission stick 63, wherein the transmission stick 63 is provided with a plurality of chain wheels 64 at one end, the output end of the driving motor 61 is connected with the chain wheels 64 through the chain 62, and the chain wheels 64 on the transmission stick 63 are connected with each other through the chain 62.

The conveying mechanism 6 is respectively arranged on the upper end surfaces of the feeding platform 1, the transferring platform 4, the feeding platform 8, the first discharging platform 10 and the second discharging platform 11, the transmission stick 63 is arranged on two side furnace bodies of the solid solution furnace 2, the first aging furnace 5 and the second aging furnace 9 through bearings, and the conveying mechanism 6 is positioned on the same horizontal plane and is in control connection with the operation control box.

The furnace bodies of the solid solution furnace 2, the first aging furnace 5 and the second aging furnace 9 are provided with a circulating fan 93, a combustion heater 94 and a smoke exhaust port 95, the combustion heater 94 is positioned on the upper side of the inside of the furnace body, the circulating fan 93 is arranged at the top of the furnace body, and the smoke exhaust ports 95 are communicated through a smoke exhaust pipeline 12.

When the device is operated, firstly, a solid solution furnace door mechanism I21 of a solid solution furnace 2 is opened, a conveying mechanism 6 is started, a material frame 15 on a feeding platform 1 is translated forwards into the solid solution furnace 2, the solid solution furnace door mechanism I21 is closed, the solid solution furnace 2 carries out solid solution treatment on products, the beat time is up, a solid solution furnace door mechanism II 22 is opened, the material frame 15 is operated into a quenching mechanism 3 to carry out quenching, after the quenching is completed, the material frame 15 enters a transferring platform 4, an ageing furnace door mechanism I51 is opened and then enters a first ageing furnace 5, the ageing furnace door mechanism I51 is closed, ageing treatment is carried out, after the ageing treatment is finished, an ageing furnace door mechanism II 52 is opened, and the material frame 15 is conveyed out through a first discharging platform 10 and cooled; when the first aging furnace 5 executes the operation, the solid solution furnace 2 can synchronously continue feeding production and repeat the actions until quenching is completed, the quenched material frame 15 runs on the transfer platform 4 and then moves on the traveling trolley 14, the aging furnace door mechanism III 91 is opened before moving to the second aging furnace 9, the aluminum alloy part products in the material frame 15 are conveyed into the furnace body of the second aging furnace 9 for aging treatment through the feeding platform 8 and the conveying mechanism 6, at the moment, the solid solution furnace 2 can carry out solid solution treatment on another aluminum alloy part product, and the production line of the utility model is provided with a single solid solution treatment line and two single aging treatment lines, wherein each treatment line can work independently, can also cooperate and complete solid solution treatment and aging treatment on different types of aluminum alloy part products, and has flexible running, low resource consumption and high production efficiency.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. The utility model provides a monomer roller stick formula heat treatment production line, its characterized in that, including solutionizing stove (2), first ageing stove (5) and second ageing stove (9), one side of solutionizing stove (2) is provided with feeding platform (1), and the opposite side is provided with quenching mechanism (3), one side of first ageing stove (5) is provided with and transports platform (4), and the opposite side is provided with first ejection of compact platform (10), quenching mechanism (3) with transport platform (4) offset, feeding platform (1), solutionizing stove (2), quenching mechanism (3), transport platform (4) and first ageing stove (5) are arranged along same axis direction, the both sides of second ageing stove (9) are provided with pan feeding platform (8) and second ejection of compact platform (11) respectively, transport platform (4) are connected with driving track (7), the other end of driving track (7) with pan feeding platform (8) are connected, feeding platform (1), stove (2), quenching mechanism (3), transport platform (4), first ageing stove (5), second ageing stove (8), second ageing stove (9) and first ageing platform (10) all are provided with ejection of compact platform (11).

2. The single roller type heat treatment production line according to claim 1, wherein the conveying mechanism (6) is a roller type conveying mechanism and comprises a driving motor (61), a chain (62) and a transmission roller (63), the transmission roller (63) is provided with a plurality of chain wheels (64) at one end, the output end of the driving motor (61) is connected with the chain wheels (64) through the chain (62), and the chain wheels (64) on the transmission roller (63) are connected with each other through the chain (62).

3. The single roller type heat treatment production line according to claim 2, wherein the conveying mechanism (6) is respectively installed on the upper end surfaces of the feeding platform (1), the transferring platform (4), the feeding platform (8), the first discharging platform (10) and the second discharging platform (11), the transmission roller (63) is installed on furnace bodies on two sides of the solid solution furnace (2), the first time effect furnace (5) and the second time effect furnace (9) through bearings, and the conveying mechanism (6) is located on the same horizontal plane and is in control connection with an operation control box.

4. The single roller type heat treatment production line according to claim 1, wherein the inlet end of the solid solution furnace (2) is provided with a solid solution furnace door mechanism I (21), the outlet end of the solid solution furnace is provided with a solid solution furnace door mechanism II (22), the inlet end of the first aging furnace (5) is provided with an aging furnace door mechanism I (51), the outlet end of the first aging furnace is provided with an aging furnace door mechanism II (52), the inlet end of the second aging furnace (9) is provided with an aging furnace door mechanism III (91), and the outlet end of the second aging furnace is provided with an aging furnace door mechanism IV (92).

5. The single roller type heat treatment production line according to claim 1, wherein a circulating fan (93), a combustion heater (94) and a smoke exhaust port (95) are arranged on the furnace bodies of the solid solution furnace (2), the first time effect furnace (5) and the second time effect furnace (9), the combustion heater (94) is positioned at the upper side of the inside of the furnace body, the circulating fan (93) is arranged at the top of the furnace body, and the smoke exhaust ports (95) are communicated through a smoke exhaust pipeline (12).

6. The single roller type heat treatment production line according to claim 1, wherein the overhauling ascending platform (13) is arranged on one side of the tops of the solid solution furnace (2), the first time effect furnace (5) and the second time effect furnace (9).

7. The single roller type heat treatment production line according to claim 1, wherein a travelling trolley (14) is arranged on the travelling rail (7), and a material frame (15) is arranged on the conveying mechanism (6).

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