CN210636030U - Annealing equipment for driving cylindrical gear of gap bridge box - Google Patents

Abstract

The utility model discloses an annealing equipment for passing bridge case initiative roller gear, including two backup pads, a lateral symmetry of backup pad is provided with a set of support column, the backup pad is kept away from a lateral symmetry of support column is provided with a set of bracing piece, two bracing piece and two be provided with two sets of dead levers between the support column, the top of dead lever is provided with high-frequency heating furnace, high-frequency heating furnace's top evenly is provided with a plurality of heat pipes. Has the advantages that: this device is through setting up a plurality of installation clamps to when needs carry out annealing to the work piece, go into fixedly through the cooperation of two installation clamps to the work piece, and then can carry out heat treatment to a plurality of work piece of fixing between the backup pad simultaneously, avoided traditional annealing device can only carry out annealing's the condition to a work piece at the same time, and then improved the efficiency of work, also reduced the time cost of mill.

Description

Annealing equipment for driving cylindrical gear of gap bridge box

Technical Field

The utility model relates to an annealing equipment field of initiative roller gear particularly, relates to an annealing equipment that is used for passing a bridge case initiative roller gear.

Background

Annealing is a heat treatment process for metals, which refers to slowly heating the metal to a certain temperature, holding for a sufficient time, and then cooling at a suitable rate. The purpose is to reduce hardness and improve machinability; the residual stress is reduced, the size is stabilized, and the deformation and crack tendency is reduced; refining grains, adjusting the structure and eliminating the structure defects. Specifically, annealing is a heat treatment process for materials, including metallic materials and non-metallic materials.

The traditional annealing device is used for annealing a workpiece by arranging the inductor and the tool clamp, and although the annealing process can be used for annealing the workpiece well, the annealing process can be only used for annealing one workpiece at the same time, so that the working efficiency is reduced, and the time cost of a factory is increased.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

To the problem among the correlation technique, the utility model provides an annealing equipment for passing a bridge case initiative roller gear to overcome the above-mentioned technical problem that current correlation technique exists.

Therefore, the utility model discloses a specific technical scheme as follows:

an annealing device for a driving cylindrical gear of a bridge-crossing box comprises two supporting plates, wherein a group of supporting columns are symmetrically arranged on one side of each supporting plate, a group of supporting rods are symmetrically arranged on one side of each supporting plate far away from the corresponding supporting column, two groups of fixing rods are arranged between the two supporting rods and the two supporting columns, a high-frequency heating furnace is arranged at the top end of each fixing rod, a plurality of heat conduction pipes are uniformly arranged at the top end of the high-frequency heating furnace, thermocouples are arranged at the top ends of the heat conduction pipes, a sliding groove is formed in one side of each supporting plate close to the high-frequency heating furnace, a plurality of sliding blocks are arranged in the sliding grooves, an installation clamp is arranged in the middle of each sliding block in an inserting mode, a limiting cavity is, and a first motor matched with the first worm is arranged at one end, far away from the support column, of the first worm and positioned at the top end of the support rod.

Furthermore, in order to facilitate uniform annealing treatment of the workpiece fixed in the mounting clamp, the first worm can be better matched with the first gear and can rotate at a uniform speed, and the first worm is connected with the support column through a bearing.

Furthermore, in order to facilitate the fixation of a workpiece, a driving device is arranged to be matched with the connecting column, so that the driving device drives the connecting column to reciprocate, the mounting clamp comprises a first gear matched with the first worm, a connecting seat is arranged at the middle position of the first gear in an inserting manner, a mounting seat is arranged at one side of the connecting seat away from the first gear, the driving device is arranged in the connecting seat, a second motor matched with the driving device is arranged at one side of the driving device, a connecting column matched with the driving device is arranged at one side of the driving device away from the first gear, a group of sawteeth are symmetrically arranged at two sides of the connecting column, a driving seat is arranged at one end of the connecting column away from the driving device, a mounting column is arranged at one side of the sawteeth away from the connecting column and is positioned in the mounting seat, and a, one side of the mounting column, which is far away from the connecting column, is provided with a mounting rod, one end of the mounting rod, which is far away from the connecting seat, is provided with a half gear matched with the connecting seat, and one side of the half gear, which is far away from the mounting rod, is provided with a control rod matched with the driving seat.

Furthermore, in order to fix the workpiece well, a fixing shaft is arranged, so that the second gear and the half gear are matched conveniently, and the half gear and the mounting rod and the second gear and the mounting column are connected through the fixing shaft respectively.

Further, in order to facilitate fixing and annealing of the workpiece by workers, and then by arranging a driving device, the driving device comprises a first group of fixing blocks connected with the connecting seat, two driving columns are arranged between the first group of fixing blocks, limiting grooves are formed in the outer sides of the driving columns, limiting blocks are arranged in the limiting grooves, the limiting blocks are far away from one sides of the driving columns, moving columns are arranged on one sides of the driving columns, mounting shafts are arranged at the bottom ends of the moving columns, the mounting shafts are connected with the inner wall of the connecting seat through second fixing blocks, and rotating shafts connected with the second motor are arranged on one sides of the driving columns.

Furthermore, in order to fix the workpiece by the mounting clamp, a groove and a limiting hole are arranged, so that a corresponding movable space can be provided for the second gear, the end, far away from the connecting seat, of the mounting column is provided with a groove matched with the second gear, and the two sides of the groove are symmetrically provided with the limiting hole matched with the fixed shaft.

The utility model has the advantages that:

1. compare with traditional annealing device, this device is through setting up a plurality of installation clamps to when needs carry out annealing to the work piece, press from both sides mutual cooperation through two installations and advance fixedly to the work piece, and then can be simultaneously between the backup pad a plurality of work piece fixed, simultaneously, carry out annealing to a plurality of work piece, avoided traditional annealing device can only carry out annealing's the condition to a work piece at the same time, and then improved the efficiency of work, also reduced the time cost of mill.

2. Through setting up drive arrangement and spliced pole and first worm and gear and cooperating to drive arrangement is reciprocating motion under the drive of motor two, and then drives the spliced pole and when reciprocating motion, can carry out fine fixed to the work piece that needs annealing process to handle, and the first worm and gear can carry out at the uniform velocity rotation to the work piece of fixing on the installation clamp under the drive of motor one simultaneously, and then make the work piece can be heated evenly.

Drawings

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

Fig. 1 is one of schematic structural views of an annealing apparatus for a drive cylindrical gear of an intermediate box according to an embodiment of the present invention;

fig. 2 is a second schematic structural diagram of an annealing apparatus for a drive cylindrical gear of a gap bridge box according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a mounting clamp of the annealing equipment for the driving cylindrical gear of the gap bridge box according to the embodiment of the invention;

fig. 4 is a schematic structural view of a mounting column of an annealing device for a drive cylindrical gear of a bridge box according to an embodiment of the invention;

fig. 5 is a schematic structural diagram of a driving device of the annealing equipment for the drive cylindrical gear of the gap bridge box according to the embodiment of the invention.

In the figure:

1. a support plate; 2. a support pillar; 3. a support bar; 4. fixing the rod; 5. a high-frequency heating furnace; 6. a heat conducting pipe; 7. a thermocouple; 8. a chute; 9. a slider; 10. installing a clamp; 1001. a first gear; 1002. a connecting seat; 1003. a mounting seat; 1004. a drive device; 1005. a second motor; 1006. connecting columns; 1007. saw teeth; 1008. mounting a column; 1009. a second gear; 1010. mounting a rod; 1011. a half gear; 1012. a driving seat; 1013. a control lever; 1014. a fixed shaft; 1015. a first fixed block; 1016. a drive column; 1017. a limiting groove; 1018. a limiting block; 1019. moving the column; 1020. installing a shaft; 1021. a second fixed block; 1022. a rotating shaft; 1023. a groove; 1024. a limiting hole; 11. a limiting cavity; 12. a first worm; 13. a first motor; 14. and a bearing.

Detailed Description

For further explanation of the embodiments, the drawings are provided as part of the disclosure and serve primarily to illustrate the embodiments and, together with the description, to explain the principles of operation of the embodiments, and to provide further explanation of the invention and advantages thereof, it will be understood by those skilled in the art that various other embodiments and advantages of the invention are possible, and that elements in the drawings are not to scale and that like reference numerals are generally used to designate like elements.

According to the utility model discloses an embodiment provides an annealing equipment for passing a bridge case initiative roller gear.

Referring to the drawings and the detailed description, as shown in fig. 1-5, according to the annealing equipment for the active cylindrical gear of the bridge-crossing box of the embodiment of the present invention, the annealing equipment comprises two support plates 1, a set of support columns 2 is symmetrically arranged on one side of the support plates 1, a set of support rods 3 is symmetrically arranged on one side of the support plates 1 away from the support columns 2, two sets of fixing rods 4 are arranged between the two support rods 3 and the two support columns 2, a high-frequency heating furnace 5 is arranged on the top end of the fixing rods 4, a plurality of heat conduction pipes 6 are uniformly arranged on the top end of the high-frequency heating furnace 5, a thermocouple 7 is arranged on the top end of the heat conduction pipes 6, a chute 8 is arranged on one side of the support plates 1 close to the high-frequency heating furnace 5, a plurality of sliders 9 are, the utility model discloses a support plate, including backup pad 1, spout 8, support column 2, support column 3, spout 8, the spout 8 is kept away from one side of spout 8 just is located set up spacing chamber 11 in the backup pad 1, be provided with in the spacing chamber 11 with the installation presss from both sides 10 matched with worm 12, worm 12 is kept away from the one end of support column 2 just is located the top of bracing piece 3 is provided with rather than matched with motor 13 to press from both sides 10 through setting up the installation, thereby can fix a plurality of work piece between backup pad 1 simultaneously, and then carry out the defervescence and handle a plurality of work piece simultaneously.

In one example, as for the first worm 12, the first worm 12 is connected with the support column 2 through the bearing 14, so that the first worm 12 can be better matched with the first gear 1001 through the bearing 14, the first worm can rotate at a constant speed, and the uniform annealing treatment of the workpiece fixed in the mounting clamp 10 is further facilitated.

In an example, for the mounting clip 10, the mounting clip 10 includes a first gear 1001 matched with the first worm 12, a connecting seat 1002 is inserted in a middle position of the first gear 1001, a mounting seat 1003 is arranged on one side of the connecting seat 1002, which is away from the first gear 1001, a driving device 1004 is arranged inside the connecting seat 1002, a second motor 1005 matched with the driving device 1004 is arranged on one side of the driving device 1004, a connecting column 1006 matched with the driving device is arranged on one side of the driving device 1004, which is away from the first gear 1001, a set of saw teeth 1007 are symmetrically arranged on two sides of the connecting column 1006, a driving seat 1012 is arranged on one end of the connecting column 1006, which is away from the driving column 1006, a mounting column 1008 is arranged in the mounting seat 1003, a second gear 1009 is arranged on one end of the mounting column 1008, which is away from the connecting seat 1002, one side of the mounting post 1008 away from the connecting post 1006 is provided with a mounting rod 1010, one end of the mounting rod 1010 away from the connecting seat 1002 is provided with a half gear 1011 matched with the connecting seat 1002, one side of the half gear 1011 away from the mounting rod 1010 is provided with a control rod 1013 matched with the driving seat 1012, so that the driving device 1004 is arranged to be matched with the connecting post 1006, and the driving device 1004 drives the connecting post 1006 to perform reciprocating motion, thereby facilitating the fixing of a workpiece.

In one example, for the half gear 1011, the half gear 1011 and the mounting rod 1010 and the gear 1009 and the mounting post 1008 are respectively connected by a fixing shaft 1014, so that the workpiece can be well fixed by arranging the fixing shaft 1014 to facilitate the matching between the gear 1009 and the half gear 1011.

In an example, for the driving device 1004, the driving device 1004 includes a set of first fixing blocks 1015 connected to the connecting seat 1002, a driving column 1016 is disposed between the two first fixing blocks 1015, a limiting groove 1017 is disposed on an outer side of the driving column 1016, a limiting block 1018 is disposed in the limiting groove 1017, a moving column 1019 is disposed on a side of the limiting block 1018 away from the driving column 1016, a mounting shaft 1020 is disposed at a bottom end of the moving column 1019, the mounting shaft 1020 is connected to an inner wall of the connecting seat 1002 through the two fixing blocks 1021, and a rotating shaft 1022 connected to the second motor 1005 is disposed on a side of the driving column 1016, so that a worker can fix and remove heat from a workpiece by providing the driving device 1004.

In an example, for the mounting post 1008, one end of the mounting post 1008 away from the connecting seat 1002 is provided with a groove 1023 matched with the second gear 1009, and two sides of the groove 1023 are symmetrically provided with limit holes 1024 matched with the fixing shaft 1014, so that by arranging the groove 1023 and the limit holes 1024, a corresponding movable space can be provided for the second gear 1009, and the fixing of the workpiece by the mounting clamp 10 is facilitated.

The working principle is as follows: when the device is used, the second motor 1005 is driven, the rotating shaft of the second motor 1005 drives the rotating shaft 1022 to rotate, the limit block 1018 moves towards the left side in the limit groove 1017, the limit block 1018 drives the moving column 1019 to move towards the left side, thereby driving the connecting column 1006 and the saw tooth 1007 to move to the left side, and the saw tooth 1007 is matched with the second gear 1009 and the half gear 1011 to drive the control rod 1013 to move to the outside, at this time, a workpiece is placed between the two mounting clamps 10, the second driving motor 1005 moves towards the right side, the moving column 1019 drives the connecting column 1006 and the saw tooth 1007 to move towards the right side, the saw tooth 1007, the second gear 1009 and the half gear 1011 are matched to drive the control rod 1013 to move inwards to fix the workpiece, at the moment, the first driving motor 13 and the high-frequency heating furnace 5 are driven, the rotating shaft of the first driving motor 13 drives the first worm 12 to rotate, therefore, the first worm 12 drives the first gear 1001 to rotate at a constant speed, and the high-frequency heating furnace 5 performs annealing treatment on the workpiece through the heat conduction pipe 6 and the thermocouple 7.

In conclusion, with the above technical solution of the present invention, compared with the conventional annealing device, the device has the advantages that by providing the plurality of mounting clips 10, when annealing treatment is required to be performed to a workpiece, the workpiece is fixed by the cooperation of the two mounting clips 10, and further, a plurality of workpieces fixed between the supporting plates 1 can be simultaneously heat-treated, thereby avoiding the situation that the conventional annealing device can only anneal one workpiece at the same time, further improving the working efficiency, and also reducing the time cost of a factory, by providing the driving device 1004 to cooperate with the connecting column 1006 and the worm one 12 to cooperate with the gear one 1001, so that the driving device 1004 reciprocates under the driving of the motor two 1005, and further, when the connecting column 1006 reciprocates, the workpiece required to be treated by the annealing process can be well fixed, and simultaneously the worm one 12 and the gear one 1001 are driven by the motor one 13, the workpiece fixed on the mounting clamp 10 can be rotated at a constant speed, so that the workpiece can be heated uniformly.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The annealing equipment for the driving cylindrical gear of the bridge-crossing box is characterized by comprising two supporting plates (1), wherein one side of each supporting plate (1) is symmetrically provided with a group of supporting columns (2), one side of each supporting plate (1), which is far away from the corresponding supporting column (2), is symmetrically provided with a group of supporting rods (3), two groups of fixing rods (4) are arranged between the two supporting rods (3) and the two supporting columns (2), the top end of each fixing rod (4) is provided with a high-frequency heating furnace (5), the top end of each high-frequency heating furnace (5) is uniformly provided with a plurality of heat conduction pipes (6), the top end of each heat conduction pipe (6) is provided with a thermocouple (7), one side, which is close to the high-frequency heating furnace (5), of each supporting plate (1) is provided with a sliding groove (8), a plurality of sliding blocks (9) are, keep away from spout (8) one side of spout (8) and be located seted up spacing chamber (11) in backup pad (1), be provided with in spacing chamber (11) with installation clamp (10) matched with worm (12), worm (12) are kept away from the one end of support column (2) and are located the top of bracing piece (3) is provided with rather than matched with motor (13).

2. Annealing equipment for drive spur gears of gap-bridge boxes according to claim 1, characterized in that the first worm (12) is connected with the support column (2) through a bearing (14).

3. The annealing equipment for the driving cylindrical gear of the gap bridge box according to claim 1, wherein the mounting clamp (10) comprises a first gear (1001) matched with the first worm (12), a connecting seat (1002) is arranged at the middle position of the first gear (1001) in an inserting way, a mounting seat (1003) is arranged on one side of the connecting seat (1002) far away from the first gear (1001), a driving device (1004) is arranged inside the connecting seat (1002), a second motor (1005) matched with the driving device (1004) is arranged on one side of the driving device (1004), a connecting column (1006) matched with the driving device (1001) is arranged on one side of the driving device (1004) far away from the first gear (1001), a group of saw teeth (1007) is symmetrically arranged on two sides of the connecting column (1006), and a driving seat (1012) is arranged on one end of the connecting column (1006) far away from the driving device (1004), sawtooth (1007) are kept away from one side of spliced pole (1006) and are located be provided with erection column (1008) in mount pad (1003), erection column (1008) are kept away from the one end of connecting seat (1002) is provided with gear two (1009), erection column (1008) are kept away from one side of spliced pole (1006) is provided with installation pole (1010), installation pole (1010) are kept away from the one end of connecting seat (1002) be provided with connecting seat (1002) matched with half gear (1011), half gear (1011) are kept away from one side of installation pole (1010) be provided with drive seat (1012) matched with control lever (1013).

4. An annealing equipment for drive cylindrical gear of gap bridge box according to claim 3, characterized in that, the connection between said half gear (1011) and said mounting bar (1010) and between said gear two (1009) and said mounting post (1008) are respectively through fixed shaft (1014).

5. An annealing equipment for drive cylindrical gear of gap bridge box according to claim 3, the device is characterized in that the driving device (1004) comprises a group of first fixing blocks (1015) connected with the connecting seat (1002), a driving column (1016) is arranged between the two first fixing blocks (1015), a limiting groove (1017) is arranged on the outer side of the driving column (1016), a limiting block (1018) is arranged in the limiting groove (1017), a moving column (1019) is arranged on one side of the limiting block (1018) far away from the driving column (1016), the side of the movable column (1019) far away from the limit block (1018) is connected with the connecting column (1006), a mounting shaft (1020) is arranged at the bottom end of the moving column (1019), the mounting shaft (1020) is connected with the inner wall of the connecting seat (1002) through a second fixing block (1021), and a rotating shaft (1022) connected with the second motor (1005) is arranged on one side of the driving column (1016).

6. The annealing equipment for the driving cylindrical gear of the gap bridge box according to claim 4, wherein one end of the mounting post (1008) far away from the connecting seat (1002) is provided with a groove (1023) matched with the second gear (1009), and two sides of the groove (1023) are symmetrically provided with limiting holes (1024) matched with the fixed shaft (1014).

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