CN217297936U - Aluminium alloy ageing furnace that heat insulating ability is good - Google Patents

Abstract

The utility model provides an aluminum profile aging furnace with good heat preservation, which comprises an aging furnace body, wherein a first lifting type sealing door and a second lifting type sealing door are respectively and fixedly arranged on two sides of the aging furnace body; the first lifting sealing door and the second lifting sealing door are formed by adopting the same structure and are symmetrically arranged; mounting bottom plates are fixed below the first lifting sealing door and the second lifting sealing door; when opening sealing door, lifting unit carries out the rolling to lift wire rope, and lift wire rope has an upwards tensile power to sealing door this moment, and simultaneously, the counter weight upwards pulls sealing door through counter weight wire rope to realized opening of sealing door, this kind of mode of opening, the gyration space outside the ageing furnace body that does not need, also need not the manual work and opens, simple structure, and control is convenient, has good heat insulating ability, effectively improves the hardness performance of aluminum product.

Description

Aluminium alloy ageing furnace that heat insulating ability is good

Technical Field

The utility model belongs to the technical field of the ageing furnace, especially, relate to an aluminium alloy ageing furnace that heat insulating ability is good.

Background

An aging treatment process in which a workpiece is heated to a high temperature and aged for a short time is called artificial aging, and an aging phenomenon in which the workpiece is left at room temperature or in a natural condition for a long time is called natural aging.

The aim of aging treatment is to eliminate the internal stress of a workpiece, stabilize the structure and the size, improve the mechanical property and the like, and the aluminum aging of an aluminum alloy aging furnace is found that the hardness of the alloy is not high after quenching, but the hardness is obviously increased after the alloy is placed at room temperature for a period of time, and the phenomenon is called precipitation hardening later; and (4) aging treatment, namely a heat treatment process for the alloy workpiece to be subjected to solution treatment, cold plastic deformation or casting, and after forging, the alloy workpiece is placed at a higher temperature or kept at room temperature to keep the performance, shape and size of the alloy workpiece changed along with time.

Most of traditional ageing oven's furnace gate is for running from opposite directions the formula, but because ageing oven is in order to facilitate the transport of work piece, need lay the track in ageing oven's bottom, and the track will be higher than ground one section, leaves the gap that equals with the track height at least for this reason traditional furnace gate's bottom to be convenient for opening and closing of furnace gate, but because the existence in gap, will lead to ageing oven's heat to scatter and disappear, lead to ageing oven's thermal insulation performance to descend.

Therefore, the invention of the aluminum profile aging furnace with good heat preservation performance is very necessary.

Disclosure of Invention

In order to solve the technical problem, the utility model provides a good aluminium alloy ageing furnace of heat insulating ability, the furnace gate of traditional ageing furnace that provides in the solution background art is mostly for opening from opposite directions, but because ageing furnace is for the ease of the transport of work piece, need lay the track in ageing furnace's bottom, and the track will be higher than ground one section, leave the gap that equals with track height for this reason traditional furnace gate's bottom at least, thereby be convenient for opening and closing of furnace gate, but because the existence in gap, will lead to the heat scattering and disappearing of ageing furnace, lead to the problem that the thermal insulation performance of ageing furnace descends. An aluminum profile aging furnace with good heat preservation performance comprises an aging furnace body, wherein a first lifting type sealing door and a second lifting type sealing door are fixedly arranged on two sides of the aging furnace body respectively; the first lifting sealing door and the second lifting sealing door are formed by adopting the same structure and are symmetrically arranged; mounting bottom plates are fixed below the first lifting sealing door and the second lifting sealing door; the mounting bottom plate is provided with a slide rail; the slide rail be provided with two, two the mutual parallel arrangement of slide rail, just the slide rail run through ageing furnace body and two mounting plate fixed connection.

As a further technical solution of the present invention, the first lifting type sealing door comprises a sealing door lifting frame; the inner side of the sealing door lifting frame is provided with a groove convenient for the sealing door to slide; the upper ends of the two sides of the sealing door lifting frame are provided with through holes; the sealing door lifting frame is connected with a sealing door in a sliding manner.

As a further technical proposal of the utility model, the upper end of the side of the sealing door lifting frame connected with the aging furnace body is provided with two fixing frames; the two fixing frames are fixed at the top of the aging furnace body, and inclined struts are further arranged between the two fixing frames and the aging furnace body.

As a further technical scheme of the utility model, two inner fixed pulleys are arranged below the top of the sealing door lifting frame, and outer fixed pulleys are arranged at the upper ends of the two sides of the sealing door lifting frame; the outer fixed pulley is positioned below the through hole.

As a further technical proposal of the utility model, a counterweight steel wire rope and a lifting steel wire rope are arranged above the sealing door; the counterweight steel wire rope and the lifting steel wire rope respectively penetrate through two different inner side fixed pulleys and outer side fixed pulleys; the tail end of the counterweight steel wire rope is provided with a counterweight; the tail end of the lifting steel wire rope is connected with the lifting component.

As a further technical scheme of the utility model, the counter weight be less than the weight of sealing door.

As a further technical scheme of the utility model, the sealing door comprises a door body, and the outer side surface of the door body is provided with a reinforcing frame; the upper end and the lower end of two side edges of the door body are both provided with a lifting pulley capable of sliding on the inner side of the lifting frame of the sealing door; and two lifting lugs convenient for connection of the counterweight steel wire rope and the lifting steel wire rope are fixedly arranged at the top of the door body.

As a further technical scheme of the utility model, the bottom of the door body be provided with sealed piece to set up two recesses with slide rail looks joint on sealed piece.

As a further technical scheme of the utility model, the lifting component comprises a fixed seat, the fixed seat is fixed on one side of the aging furnace body, two fixed disks are arranged on the fixed seat, the two fixed disks are fixedly connected through a connecting rod, and a lifting motor is arranged outside one of the fixed disks; the output shaft of the lifting motor penetrates through the inner side of the fixed disc, and a winding shaft used for winding the lifting steel wire rope is installed on the output shaft of the lifting motor in a matched mode.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. in the utility model, when the sealing door is opened, the lifting assembly winds the lifting steel wire rope, the lifting steel wire rope has an upward tensile force on the sealing door, and meanwhile, the counterweight pulls the sealing door upwards through the counterweight steel wire rope, so that the opening of the sealing door is realized;

2. in the utility model, when the sealing door is closed, the lifting assembly unreels the lifting steel wire rope, the lifting steel wire rope loses the traction force on the sealing door, and the sealing door can descend by the gravity of the sealing door because the counterweight is smaller than the weight counterweight of the sealing door, so that the sealing door is closed;

3. the utility model discloses in, through the setting of counter weight, can guarantee that the sealing door is in balanced state when opening and close, stability when improving the sealing door and going up and down, the utility model discloses in, the bottom of the door body is provided with sealed piece to set up two recesses with slide rail looks joint on sealed piece, from this so, in closed sealing door, have better leakproofness, need not to reserve the clearance, very big improvement the heat preservation effect of ageing furnace, effectively improve the hardness performance of aluminum product.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a rear view of fig. 1 of the present invention;

fig. 3 is a schematic structural view of a first lift type sealing door of the present invention;

fig. 4 is a schematic structural view of the sealing door of the present invention;

fig. 5 is an enlarged schematic view of fig. 1 at a in the present invention;

fig. 6 is an enlarged schematic view of the utility model at B of fig. 2.

In the figure:

1-aging furnace body, 2-installation bottom plate, 3-sliding rail, 4-first lifting sealing door, 5-second lifting sealing door, 41-sealing door lifting frame, 42-fixing frame, 43-inclined strut, 44-sealing door, 45-inner fixed pulley, 46-outer fixed pulley, 47-through hole, 48-counterweight steel wire rope, 49-counterweight, 410-lifting steel wire rope, 411-lifting component, 441-door body, 442-lifting pulley, 443-reinforcing frame, 444-lifting lug, 445-sealing block, 446-groove, 4111-fixing seat, 4112-fixing disk, 4113-connecting rod, 4114-lifting motor and 4115-winding shaft.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

the embodiment is as follows:

as shown in figures 1-6

The utility model provides an aluminum profile aging furnace with good heat preservation, which comprises an aging furnace body 1, wherein a first lifting type sealing door 4 and a second lifting type sealing door 5 are respectively and fixedly arranged at two sides of the aging furnace body 1; the first lifting sealing door 4 and the second lifting sealing door 5 are formed by adopting the same structure and are symmetrically arranged; the installation bottom plates 2 are fixed below the first lifting type sealing door 4 and the second lifting type sealing door 5; the mounting bottom plate 2 is provided with a slide rail 3; the slide rail 3 be provided with two, two slide rail 3 mutual parallel arrangement, just slide rail 3 run through ageing furnace body 1 and two mounting plate 2 fixed connection.

In this embodiment, the first lifting type sealing door 4 includes a sealing door lifting frame 41; the inner side of the sealing door lifting frame 41 is provided with a groove which is convenient for the sealing door 44 to slide; the upper ends of the two sides of the sealing door lifting frame 41 are provided with through holes 47; the sealing door lifting frame 41 is internally and slidably connected with a sealing door 44; two fixing frames 42 are arranged at the upper end of one side of the sealing door lifting frame 41 connected with the aging furnace body 1; the two fixing frames 42 are fixed at the top of the aging furnace body 1, and inclined struts 43 are further arranged between the two fixing frames 42 and the aging furnace body 1.

Particularly, through the arrangement of the fixing frame 42 and the inclined strut 43, the fixing effect between the sealing door lifting frame 41 and the aging oven body 1 is increased, and the phenomenon that the sealing door 44 falls off due to vibration when lifted is avoided.

In this embodiment, two inner fixed pulleys 45 are disposed below the top of the sealing door lifting frame 41, and outer fixed pulleys 46 are disposed at the upper ends of two sides of the sealing door lifting frame 41; the outer fixed pulley 46 is positioned below the through hole 47; a counterweight steel wire rope 48 and a lifting steel wire rope 410 are arranged above the sealing door 44; the counterweight steel wire rope 48 and the lifting steel wire rope 410 respectively pass through two different inner fixed pulleys 45 and outer fixed pulleys 46; the tail end of the counterweight steel wire rope 48 is provided with a counterweight 49; the end of the lifting steel wire rope 410 is connected with a lifting component 411.

Through adopting above-mentioned technical scheme, when opening sealing door 44, lift subassembly 411 carries out the rolling to lift wire rope 410, and lift wire rope 410 has an upwards tensile power to sealing door 44 this moment, and simultaneously, counter weight 49 upwards pulls sealing door 44 through counter weight wire rope 48 to realized opening of sealing door 44, this kind of opening mode does not need the gyration space beyond the aging oven body 1.

In this embodiment, the weight 49 is less than the weight of the sealing door 44; the sealing door 44 comprises a door body 441, and a reinforcing frame 443 is arranged on the outer side surface of the door body 441; the upper and lower ends of the two side edges of the door body 441 are provided with lifting pulleys 442 capable of sliding in the inner side of the sealing door lifting frame 41; two lifting lugs 444 convenient for connection of the counterweight steel wire rope 48 and the lifting steel wire rope 410 are fixedly mounted at the top of the door body 441.

Through adopting above-mentioned technical scheme, when closing sealing door 44, lift assembly 411 unreels lift wire rope 410, and lift wire rope 410 loses the traction force to sealing door 44 this moment, because counter weight 49 is less than sealing door 44's weight counter weight 49, sealing door 44 at this moment relies on its self gravity alright realize descending to sealing door 44's closing has been realized.

In this embodiment, the bottom of the door body 441 is provided with a sealing block 445, and the sealing block 445 is provided with two grooves 446 which are clamped with the slide rail 3.

Through adopting above-mentioned technical scheme, when closed sealing door 44, have better leakproofness, need not to reserve the clearance, very big improvement the heat preservation effect of ageing furnace.

In this embodiment, the lifting assembly 411 includes a fixing base 4111, the fixing base 4111 is fixed on one side of the aging furnace body 1, two fixing discs 4112 are arranged on the fixing base 4111, the two fixing discs 4112 are connected and fixed through a connecting rod 4113, and a lifting motor 4114 is arranged outside one of the fixing discs 4112; an output shaft of the lifting motor 4114 penetrates through the inner side of the fixed disc 4112, and a winding shaft 4115 used for winding the lifting steel wire rope 410 is installed on the output shaft of the lifting motor 4114 in a matching mode.

Through adopting above-mentioned technical scheme, be connected elevator motor 4114 with positive and negative rotation controller again to from this, just can control elevator motor 4114 positive and negative rotation through positive and negative rotation controller, thereby realized opening and close of sealing door 44, need not the manual work and go to open sealing door 44 with the hand, simple structure, control is convenient.

Principle of operation

The utility model discloses, when opening sealing door 44, lift subassembly 411 rolls lift wire rope 410, and lift wire rope 410 has an upwards tensile power to sealing door 44 this moment, and simultaneously, counter weight 49 upwards pulls sealing door 44 through counter weight wire rope 48 to realized opening of sealing door 44, and this kind of opening mode does not need the gyration space beyond ageing furnace body 1, also does not need the manual work to open, simple structure, and control is convenient;

when the sealing door 44 is closed, the lifting assembly 411 unreels the lifting steel wire rope 410, at this time, the lifting steel wire rope 410 loses traction force on the sealing door 44, and as the counterweight 49 is smaller than the weight counterweight 49 of the sealing door 44, the sealing door 44 can descend by virtue of the gravity of the sealing door 44 at this time, so that the sealing door 44 is closed;

in the novel sealing door, the balance weight 49 is arranged, so that the sealing door 44 can be in a balanced state when being opened and closed, and the stability of the sealing door 44 during lifting is improved; because the bottom of the door body 441 is provided with the sealing block 445, and the sealing block 445 is provided with the two grooves 446 which are clamped with the sliding rails 3, the sealing door 44 is closed, the sealing performance is good, gaps do not need to be reserved, and the heat preservation effect of the aging oven is greatly improved.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (9)

1. The utility model provides a good aluminium alloy ageing furnace of heat insulating ability which characterized in that: the aging furnace comprises an aging furnace body (1), wherein a first lifting sealing door (4) and a second lifting sealing door (5) are fixedly arranged on two sides of the aging furnace body (1) respectively; the first lifting sealing door (4) and the second lifting sealing door (5) are formed by adopting the same structure and are symmetrically arranged; the installation bottom plates (2) are fixed below the first lifting type sealing door (4) and the second lifting type sealing door (5); the mounting bottom plate (2) is provided with a slide rail (3); the novel aging furnace is characterized in that the number of the sliding rails (3) is two, the two sliding rails (3) are arranged in parallel, and the sliding rails (3) penetrate through the aging furnace body (1) and are fixedly connected with the two mounting bottom plates (2).

2. The aluminum profile aging furnace with good heat preservation performance as claimed in claim 1, wherein: the first lifting type sealing door (4) comprises a sealing door lifting frame (41); the inner side of the sealing door lifting frame (41) is provided with a groove convenient for the sliding of the sealing door (44); the upper ends of the two sides of the sealing door lifting frame (41) are provided with through holes (47); the sealing door lifting frame (41) is connected with a sealing door (44) in a sliding way.

3. The aluminum profile aging furnace with good heat preservation performance as claimed in claim 2, characterized in that: the upper end of one side of the sealing door lifting frame (41) connected with the aging furnace body (1) is provided with two fixing frames (42); the two fixing frames (42) are fixed at the top of the aging furnace body (1), and inclined struts (43) are further arranged between the two fixing frames (42) and the aging furnace body (1).

4. The aluminum profile aging furnace with good heat preservation performance as claimed in claim 3, characterized in that: two inner fixed pulleys (45) are arranged below the top of the sealing door lifting frame (41), and outer fixed pulleys (46) are arranged at the upper ends of two sides of the sealing door lifting frame (41); the outer fixed pulley (46) is positioned below the through hole (47).

5. The aluminum profile aging furnace with good heat preservation performance as claimed in claim 4, wherein: a counterweight steel wire rope (48) and a lifting steel wire rope (410) are arranged above the sealing door (44); the counterweight steel wire rope (48) and the lifting steel wire rope (410) respectively pass through two different inner fixed pulleys (45) and outer fixed pulleys (46); the tail end of the counterweight steel wire rope (48) is provided with a counterweight (49); the tail end of the lifting steel wire rope (410) is connected with the lifting component (411).

6. The aluminum profile aging furnace with good heat preservation performance as claimed in claim 5, is characterized in that: the weight (49) is less than the weight of the sealing door (44).

7. The aluminum profile aging furnace with good heat preservation performance as claimed in claim 6, is characterized in that: the sealing door (44) comprises a door body (441), and a reinforcing frame (443) is arranged on the outer side surface of the door body (441); the upper end and the lower end of two side edges of the door body (441) are respectively provided with a lifting pulley (442) which can slide in the inner side of the sealing door lifting frame (41); two lifting lugs (444) convenient for connection of the counterweight steel wire rope (48) and the lifting steel wire rope (410) are fixedly mounted at the top of the door body (441).

8. The aluminum profile aging furnace with good heat preservation performance as claimed in claim 7, is characterized in that: the bottom of the door body (441) is provided with a sealing block (445), and the sealing block (445) is provided with two grooves (446) which are clamped with the sliding rail (3).

9. The aluminum profile aging furnace with good heat preservation performance as claimed in claim 5, is characterized in that: the lifting assembly (411) comprises a fixed seat (4111), the fixed seat (4111) is fixed on one side of the aging oven body (1), two fixed disks (4112) are arranged on the fixed seat (4111), the two fixed disks (4112) are fixedly connected through a connecting rod (4113), and a lifting motor (4114) is arranged outside one fixed disk (4112); the output shaft of lift motor (4114) run through to the inboard of fixed disk (4112), and the cooperation is installed on the output shaft of lift motor (4114) and is used for going up and down winding axle (4115) that wire rope (410) twined.

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