CN217438242U - Heat insulation supporting device for vacuum vertical oil quenching furnace - Google Patents

Abstract

The utility model relates to a vacuum furnace production technical field relates to a thermal-insulated strutting arrangement that is used for vertical oil quenching stove in vacuum, can establish at square chest, its characterized in that: including insulated door, guide rail, heating chamber lid and adjusting part, the guide rail can with square incasement wall connection and with the insulated door is connected, the heating chamber lid with the insulated door is connected, drives the adjusting part can drive the insulated door with the heating chamber lid is followed together the guide rail removes. The utility model discloses useful part lies in: the lug boss is driven to move by the transmission chain, so that the heat insulation door and the heating chamber cover are driven to move together, and the control is more stable and rapid; the heat insulation door and the heating chamber cover can be opened and closed in a two-way mode, and the middle of the heat insulation door and the heating chamber cover is provided with the parting stop, so that good heat insulation and vibration reduction effects are achieved; the supporting plate is arranged, so that materials are loaded while the heat insulation door is opened and closed, the working efficiency is improved, and the space and the cost are saved; this structural design is simple, the simple operation, and degree of automation is high, labour saving and time saving.

Description

Heat insulation supporting device for vacuum vertical oil quenching furnace

Technical Field

The utility model relates to a vacuum furnace production technical field especially relates to a thermal-insulated strutting arrangement that is used for vertical oil quenching stove in vacuum.

Background

With the development of times and the improvement of technological level, new materials and new processes are continuously emerging. The traditional heat treatment mode cannot meet the requirements of the process, thereby promoting the rapid development of vacuum heat treatment. The vacuum furnace equipment can meet the process requirements of workpieces, is energy-saving and environment-friendly, and is developed rapidly. The vacuum furnace is vacuum heat treatment equipment with inflation pressure not exceeding atmospheric pressure in the working process of the equipment, and under the working condition, the size and the weight of the equipment required by a large-size workpiece are correspondingly increased, so that the operation of operators is inconvenient, and manual feeding is time-consuming and labor-consuming and has low efficiency.

The conventional opening mechanism for the heat insulation door of the vacuum vertical oil quenching furnace has the defects that the opening of a heating chamber cover is difficult, the material transportation wastes time and labor, the operation requirement cannot be met, the labor cost is greatly increased, and the danger in the operation process is increased. Therefore, a new heat insulation support device for a vacuum vertical oil quenching furnace is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a thermal-insulated strutting arrangement for vertical oil quenching stove in vacuum has solved the technical problem such as inconvenient, waste time and energy, inefficiency that exist among the prior art.

The utility model adopts the technical proposal that: the utility model provides a thermal-insulated strutting arrangement for vertical oil quenching stove in vacuum can establish in the square chest which characterized in that: including insulated door, guide rail, heating chamber cap and adjusting part, the guide rail can with square incasement wall connection and with the insulated door is connected, the heating chamber cap with the insulated door is connected, drives the adjusting part can drive the insulated door with the heating chamber cap is followed together the guide rail removes.

Further, the heat insulation door comprises a first heat insulation door and a second heat insulation door, correspondingly, the heating chamber cover comprises a first heating chamber cover and a second heating chamber cover, the first heat insulation door is connected with the first heating chamber cover, the second heat insulation door is connected with the second heating chamber cover, and the first heating chamber cover can be far away from or close to the second heating chamber cover by driving the adjusting assembly.

Furthermore, the adjusting part comprises a driving wheel, a driven wheel and a transmission chain, the driving wheel and the driven wheel can be connected with the inner wall of the square box, the driving wheel drives the driven wheel to rotate through the transmission chain, and the first heat insulation door and the second heat insulation door are connected with the transmission chain.

Furthermore, first thermal-insulated door through first bellying with the drive chain is connected, the thermal-insulated door of second pass through the second bellying with the drive chain is connected, the drive chain can drive first thermal-insulated door with the second thermal-insulated door is close to each other or alternate segregation.

Furthermore, the side surface of the first heat insulation door close to the guide rail and the side surface of the second heat insulation door close to the guide rail are respectively provided with a first guide wheel and a second guide wheel, and the first guide wheel and the second guide wheel are both in sliding connection with the guide rail.

Furthermore, the first heat insulation door is connected with the first heating chamber cover through a first support column, and the second heat insulation door is connected with the second heating chamber cover through a second support column.

Furthermore, the first supporting column penetrates through the end part of the first heating chamber cover and is connected with the first supporting plate, and the second supporting column penetrates through the end part of the second heating chamber cover and is connected with the second supporting plate.

Furthermore, first support column has a plurality ofly and adjacent be equipped with first parting bead between the first support column, the second support column has a plurality ofly and adjacent be equipped with the second parting bead between the second support column.

Furthermore, the first division bar is arranged between the first heating chamber cover and the first supporting plate, and the second division bar is arranged between the second heating chamber cover and the second supporting plate.

The utility model has the advantages and positive effects that: the lug boss is driven to move by the transmission chain, so that the heat insulation door and the heating chamber cover are driven to move together, and the control is more stable and rapid; the first heat insulation door and the second heat insulation door are arranged, the heat insulation door and the heating chamber cover can be opened and closed in a two-way mode, and the middle of the first heat insulation door and the second heat insulation door is provided with a division bar, so that a good heat insulation and shock absorption effect is achieved; the guide rail is arranged, so that the heat insulation door can stably move and can also stably support, and the whole process is safer; the supporting plate is arranged, so that materials are loaded while the heat insulation door is opened and closed, the working efficiency is improved, and the space and the cost are saved; this structural design is simple, and the simple operation can be adjusted according to actual need is nimble, and degree of automation is high, labour saving and time saving.

Drawings

Fig. 1 is a front view of an embodiment provided by the present invention;

fig. 2 is a left side view of an embodiment provided by the present invention;

fig. 3 is a top view of an embodiment provided by the present invention.

In the figure:

1. a heat-insulating door; 11. a first insulated door; 12. a second insulated door; 13. a first boss portion; 14. a second boss portion; 15. a first guide wheel; 16. a second guide wheel; 17. a first support column; 18. a second support column; 19. a first support plate; 20. a second support plate; 21. a first division bar; 22. a second division bar; 3. heating the chamber lid; 31. a first heating chamber lid; 32. a second heating chamber lid; 4. an adjustment assembly; 41. a driving wheel; 42. a driven wheel; 43. a drive chain; 5. a square box; 6. a speed reducer; 7. a guide rail.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1, a heat insulation supporting device for a vacuum vertical oil quenching furnace can be arranged in a square box 5, and is characterized in that: including insulated door 1, guide rail 7, heating chamber lid 3 and adjusting part 4, guide rail 7 and 5 inner wall connections of square chest and be connected with insulated door 1, heating chamber lid 3 is connected with insulated door 1, and drive adjusting part 4 can drive insulated door 1 and heating chamber lid 3 and move along guide rail 7 together. When insulated door 1 was opened, in sending the material to the heating chamber, insulated door 1 closed afterwards, and the material is placed on the device, has realized the dual function of switch insulated door and bearing the weight of the material, has improved work efficiency, has saved the cost.

Preferably, the heat insulation door 1 includes a first heat insulation door 11 and a second heat insulation door 12, and correspondingly, the heating chamber cover 3 includes a first heating chamber cover 31 and a second heating chamber cover 32, the first heat insulation door 11 is connected to the first heating chamber cover 31, the second heat insulation door 12 is connected to the second heating chamber cover 32, and the adjustment assembly 4 is driven to move the first heating chamber cover 11 away from or close to the second heating chamber cover 12. Set up first insulated door 11 and second insulated door 12, make insulated door 1 can two-wayly open and close, improved work efficiency, can adapt to more application scenes, the relative position of first insulated door 11 of rethread position sensor just can accurate control and second insulated door 12 realizes accurate closing and opening of insulated door 1, and then makes and realize better thermal-insulated effect and bearing capacity.

Preferably, the adjusting assembly 4 comprises a driving wheel 41, a driven wheel 42 and a transmission chain 43, the driving wheel 41 and the driven wheel 42 are both linked with the inner wall of the square box 5, the driving wheel 41 drives the driven wheel 42 to rotate through the transmission chain 43, and the first heat-insulation door 11 and the second heat-insulation door 12 are both connected with the transmission chain 43. In one embodiment, the driving wheel 41 and the driven wheel 42 are both fixedly connected with the inner wall of the square box 5, the driving wheel 41 is arranged on the left side of the first heat insulation door 11, the driven wheel 42 is arranged on the right side of the second heat insulation door 12, the speed reducer 6 is started to drive the driving wheel 41 to rotate, the driven wheel 42 is driven to rotate through the transmission chain 43, the position sensor is arranged on the outer side of the speed reducer 6, the relative position of the heat insulation door 1 is accurately controlled, and the construction quality and the construction effect are improved.

Preferably, the first heat insulation door 11 is connected to the transmission chain 43 through the first protrusion 13, the second heat insulation door 12 is connected to the transmission chain 43 through the second protrusion 14, and the transmission chain 43 can drive the first heat insulation door 11 and the second heat insulation door 12 to approach each other or separate from each other. In one embodiment, a first protrusion 13 is arranged below the first heat insulation door 11, a second protrusion 14 is arranged above the second heat insulation door 12, the first heat insulation door 11 and the second heat insulation door 12 are driven to move through the transmission chain 43, when the transmission chain 43 rotates clockwise, the second heat insulation door 12 is driven to move rightwards and the first heat insulation door 11 is driven to move leftwards, the first heat insulation door 11 and the second heat insulation door 12 are far away from each other, and therefore the heat insulation door 1 is opened; when the transmission chain 43 rotates counterclockwise, the second thermal insulation door 12 is driven to move leftward and the first thermal insulation door 11 is driven to move rightward, so that the first thermal insulation door 11 and the second thermal insulation door 12 approach each other, thereby closing the thermal insulation door 1. This design simple structure drives first insulated door 11 and the removal of second insulated door 12 respectively through first bellying 13 and second bellying 14, has realized two-way switch insulated door 1, saves space and has improved work efficiency.

Preferably, the side of the first heat-insulation door 11 close to the guide rail 7 and the side of the second heat-insulation door 12 close to the guide rail 7 are respectively provided with a first guide wheel 15 and a second guide wheel 16, and both the first guide wheel 15 and the second guide wheel 16 are slidably connected with the guide rail 7. In one embodiment, as shown in fig. 2, the first guide wheels 15 and the second guide wheels 16 are matched in shape with the guide rails 7, so that the first guide wheels 15 and the second guide wheels 16 move more rapidly and stably due to the fixed connection between the guide rails 7 and the square box 5, and the guide rails 7 also play a role in stably supporting the first heat-insulating doors 11 and the second heat-insulating doors 12, so that the device can stably bear materials, and the stability and safety during operation are ensured.

Preferably, the first heat-insulating door 11 is connected to the first heating chamber cover 31 through the first support column 17, and the second heat-insulating door 12 is connected to the second heating chamber cover 32 through the second support column 18. The first heat insulating door 11 and the first heating chamber lid 31, and the second heat insulating door 12 and the second heating chamber lid 32 are integrally moved by the first support column 17 and the second support column 18.

Preferably, the first supporting column 17 is connected to the first supporting plate 19 through an end of the first heating chamber cover 31, and the second supporting column 18 is connected to the second supporting plate 20 through an end of the second heating chamber cover 32. As main parts for bearing materials, the first supporting plate 19 and the second supporting plate 20 move along with the first heating chamber cover 31 and the second heating chamber cover 32 respectively, the heat insulation door 1 is opened and closed, materials are loaded and unloaded simultaneously, the working efficiency is improved, and the cost is saved.

Preferably, a plurality of first supporting columns 17 are provided with a first division bar 21 between adjacent first supporting columns 17, and a plurality of second division bars 22 are provided with a second supporting column 18 between adjacent second supporting columns 18. It should be noted that the number of the first supporting columns 17 and the second supporting columns 18 may be one, two, three, or even more, and the structure, shape, number, and material of the first supporting columns and the second supporting columns are not particularly limited. Set up the parting bead, can reduce heat transfer, make the transmission of power more even, and reduce vibration and noise, convenient maintenance and change have prolonged the life of equipment, have guaranteed the security of equipment operation in-process.

Preferably, the first division bar 21 is provided between the first heating chamber cover 31 and the first support plate 19, and the second division bar 22 is provided between the second heating chamber cover 32 and the second support plate 20. In one embodiment, as shown in fig. 3, when the heat insulation door 1 is fully opened, the workpiece is conveyed above the heat insulation door 1 by the material transfer device, the first boss 13 and the second boss 14 are driven by the transmission chain 43 to move together, the heat insulation door 1 is closed, then the material transfer mechanism descends, and the material can fall on the first support plate 19 and the second support plate 20, so that the function of carrying the material of the device is realized; after the heating is finished, the material lifting mechanism is lifted to a high position to jack the material from the device, at the moment, the transmission chain 43 drives the boss 13 and the second boss 14 to move together, the heat insulation door 1 is opened, and the material mechanism is lowered to transfer the material to a low position, so that the whole material transfer process is realized.

The first embodiment is as follows:

the utility model provides a thermal-insulated strutting arrangement for vertical oil quenching stove in vacuum can establish in square chest 5 which characterized in that: including insulated door 1, guide rail 7, heating chamber lid 3 and adjusting part 4, guide rail 7 and 5 inner wall connections of square chest and be connected with insulated door 1, heating chamber lid 3 is connected with insulated door 1, and drive adjusting part 4 can drive insulated door 1 and heating chamber lid 3 and move along guide rail 7 together.

The heat insulation door 1 includes a first heat insulation door 11 and a second heat insulation door 12, and correspondingly, the heating chamber cover 3 includes a first heating chamber cover 31 and a second heating chamber cover 32, the first heat insulation door 11 is connected with the first heating chamber cover 31, the second heat insulation door 12 is connected with the second heating chamber cover 32, and the first heating chamber cover 11 can be far away from or close to the second heating chamber cover 12 by driving the adjusting assembly 4.

The adjusting assembly 4 comprises a driving wheel 41, a driven wheel 42 and a transmission chain 43, wherein the driving wheel 41 and the driven wheel 42 are both connected with the inner wall of the square box 5, the driving wheel 41 drives the driven wheel 42 to rotate through the transmission chain 43, and the first heat insulation door 11 and the second heat insulation door 12 are both connected with the transmission chain 43.

The first heat insulation door 11 is connected with the transmission chain 43 through the first protrusion 13, the second heat insulation door 12 is connected with the transmission chain 43 through the second protrusion 14, and the transmission chain 43 can drive the first heat insulation door 11 and the second heat insulation door 12 to approach each other or separate from each other.

The side surface of the first heat insulation door 11 close to the guide rail 7 and the side surface of the second heat insulation door 12 close to the guide rail 7 are respectively provided with a first guide wheel 15 and a second guide wheel 16, and the first guide wheel 15 and the second guide wheel 16 are both connected with the guide rail 7 in a sliding manner.

The first heat insulating door 11 is connected to a first heating chamber lid 31 through a first support column 17, and the second heat insulating door 12 is connected to a second heating chamber lid 32 through a second support column 18.

The first support column 17 penetrates through the end of the first heating chamber cover 31 to be connected to the first support plate 19, and the second support column 18 penetrates through the end of the second heating chamber cover 32 to be connected to the second support plate 20.

The first support columns 17 are provided with a plurality of first division bars 21 between the adjacent first support columns 17, and the second support columns 18 are provided with a plurality of second division bars 22 between the adjacent second support columns 18.

The first partition 21 is provided between the first heating chamber lid 31 and the first support plate 19, and the second partition 22 is provided between the second heating chamber lid 32 and the second support plate 20.

The utility model has the advantages and positive effects that: the lug boss is driven to move by the transmission chain, so that the heat insulation door and the heating chamber cover are driven to move together, and the control is more stable and rapid; the first heat insulation door and the second heat insulation door are arranged, the heat insulation door and the heating chamber cover can be opened and closed in a two-way mode, and the middle of the first heat insulation door and the second heat insulation door is provided with a division bar, so that a good heat insulation and shock absorption effect is achieved; the guide rail is arranged, so that the heat insulation door can stably move and can also stably support, and the whole process is safer; the supporting plate is arranged, so that materials are loaded while the heat insulation door is opened and closed, the working efficiency is improved, and the space and the cost are saved; this structural design is simple, and the simple operation can be adjusted according to actual need is nimble, and degree of automation is high, labour saving and time saving.

The embodiments of the present invention have been described in detail, but the description is only for the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (9)

1. The utility model provides a thermal-insulated strutting arrangement for vertical oil quenching stove in vacuum can establish in the square chest which characterized in that: including insulated door, guide rail, heating chamber cap and adjusting part, the guide rail can with square incasement wall connection and with the insulated door is connected, the heating chamber cap with the insulated door is connected, drives the adjusting part can drive the insulated door with the heating chamber cap is followed together the guide rail removes.

2. The heat insulation supporting device for the vacuum vertical oil quenching furnace as claimed in claim 1, wherein: the heat insulation door comprises a first heat insulation door and a second heat insulation door, correspondingly, the heating chamber cover comprises a first heating chamber cover and a second heating chamber cover, the first heat insulation door is connected with the first heating chamber cover, the second heat insulation door is connected with the second heating chamber cover, and the first heating chamber cover is far away from or close to the second heating chamber cover through driving the adjusting assembly.

3. The heat insulation supporting device for the vacuum vertical oil quenching furnace as claimed in claim 2, wherein: the adjusting assembly comprises a driving wheel, a driven wheel and a transmission chain, the driving wheel and the driven wheel can be connected with the inner wall of the square box, the driving wheel drives the driven wheel to rotate through the transmission chain, and the first heat insulation door and the second heat insulation door are connected with the transmission chain.

4. The heat insulation supporting device for the vacuum vertical oil quenching furnace as claimed in claim 3, wherein: first thermal-insulated door through first bellying with the drive chain is connected, the thermal-insulated door of second pass through the second bellying with the drive chain is connected, the drive chain can drive first thermal-insulated door with the second thermal-insulated door is close to each other or alternate segregation.

5. The heat insulation supporting device for the vacuum vertical oil quenching furnace as claimed in claim 2, wherein: the side that first insulated door is close to the guide rail with the second insulated door is close to the side of guide rail is equipped with first leading wheel and second leading wheel respectively, first leading wheel with the second leading wheel all with guide rail sliding connection.

6. The heat insulation supporting device for the vacuum vertical oil quenching furnace as claimed in claim 2, wherein: the first heat insulation door is connected with the first heating chamber cover through a first supporting column, and the second heat insulation door is connected with the second heating chamber cover through a second supporting column.

7. The heat insulation supporting device for the vacuum vertical oil quenching furnace as claimed in claim 6, wherein: the first supporting column penetrates through the end part of the first heating chamber cover and is connected with the first supporting plate, and the second supporting column penetrates through the end part of the second heating chamber cover and is connected with the second supporting plate.

8. The heat insulation supporting device for the vacuum vertical oil quenching furnace as claimed in claim 7, wherein: first support column has a plurality ofly and adjacent be equipped with first parting bead between the first support column, the second support column has a plurality ofly and adjacent be equipped with the second parting bead between the second support column.

9. The heat insulation supporting device for the vacuum vertical oil quenching furnace as claimed in claim 8, wherein: the first division bar is arranged between the first heating chamber cover and the first supporting plate, and the second division bar is arranged between the second heating chamber cover and the second supporting plate.

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