CN116770041A

CN116770041A - Viscous damper part processing device

Info

Publication number: CN116770041A
Application number: CN202310726775.6A
Authority: CN
Inventors: 张春; 沈星星; 李磊; 吴义民; 李永彪; 徐彬
Original assignee: Anhui Shoulder Technology Co ltd
Current assignee: Anhui Shoulder Technology Co ltd
Priority date: 2023-06-19
Filing date: 2023-06-19
Publication date: 2023-09-19
Anticipated expiration: 2043-06-19
Also published as: CN117867253A; CN116770041B

Abstract

The invention discloses a viscous damper component processing device, which relates to the field of machining and comprises a frame, a base, a feeding roller path, a transferring and arranging device, a positioning and rotating device, a heating device and a preheating and deoxidizing device, wherein the rear end of the transferring and arranging device is provided with the feeding roller path, the front end of the transferring and arranging device is provided with a discharging roller path, and the transferring and arranging device can automatically transfer a cylinder body on a feeding channel and arrange the cylinder body into an equidistant state for positioning and rotating device; when the two rotary tables move in a centering manner to clamp the cylinder body, the cylinder body can be automatically lifted up towards the oblique upward direction of the feeding roller path, so that the induction coil can do linear motion under the condition of sleeving the cylinder body; the preheating deaerator can utilize the characteristics of oxygen consumption of combustion, remove the oxygen in the cylinder body, reduce the oxide skin that appears when the inside heat treatment of cylinder body to through the heating to the heat conduction board, make the circulated hot air preheat the cylinder body inside, influence that the temperature rise was too fast when avoiding induction heating.

Description

Viscous damper part processing device

Technical Field

The invention relates to the field of machining, in particular to a viscous damper component processing device.

Background

The viscous damper is widely applied to earthquake-resistant reconstruction of high-rise buildings, bridges and building structures, the components of the viscous damper mainly comprise a cylinder body, a piston rod, a piston and the like, the cylinder body is cut from seamless steel pipes, and the mechanical properties of the cylinder body are improved through heat treatment.

Oxidation can occur during heat treatment, so that the inner wall and the outer wall of the cylinder body can produce oxide skin, the oxide skin of the outer wall is more convenient to treat, the oxide skin of the inner wall is more troublesome to treat and is not easy to clean thoroughly, the subsequent treatment of the cylinder body is affected, and the temperature of the cylinder body is lower when the ambient air temperature is lower, and if the temperature rising speed is too high during heat treatment, the mechanical property of the heat treatment can be affected.

Disclosure of Invention

The present invention is directed to a viscous damper component handling apparatus that solves the above-mentioned problems of the prior art.

The device comprises a frame, a base, a feeding roller path, a transferring and arranging device, a positioning and rotating device, a heating device and a preheating and deoxidizing device, wherein the rear end of the transferring and arranging device is provided with the feeding roller path, the front end of the transferring and arranging device is provided with a discharging roller path, the transferring and arranging device comprises a supporting frame and a lifting frame, two supporting frames are symmetrically arranged on the base, a plurality of positioning blocks are equidistantly arranged on the supporting frames, a cylinder body is placed between two adjacent positioning blocks, a lifting frame which is in sliding connection with the base is arranged between the two supporting frames, a plurality of symmetrical lifting blocks are arranged on two sides of the lifting frame, and when the lifting blocks are lifted, the cylinder body above the lifting blocks is lifted, and is guided to enter a gap between the next positioning block and the positioning block through an inclined plane of the lifting block and an inclined plane on the positioning block; the positioning and rotating device is arranged on the frame and used for lifting the cylinder body between the positioning block and the positioning block away from the positioning block, sealing two ends of the cylinder body, isolating the interior of the cylinder body from the outside atmosphere and carrying out centering rotation on the cylinder body; the heating device heats the cylinder body on the positioning and rotating device through the moving induction coil; the preheating deaerating device is used for removing oxygen in the cylinder body and preheating the cylinder body.

Preferably, the transferring and arranging device further comprises a first hydraulic cylinder and a sliding seat, two rollers are arranged at the bottom of the lifting frame, the sliding seat is arranged below the rollers, two triangular blocks in tangential contact with the rollers are arranged on the sliding seat, the sliding seat is in sliding connection with the base and fixedly connected with an output shaft of the first hydraulic cylinder, sliding rods in sliding connection with the base are arranged at four corners of the bottom of the lifting frame, and the lifting blocks and the positioning blocks are of triangular structures.

Preferably, the positioning and rotating device comprises a first sliding frame and a second sliding frame, the first sliding frame and the second sliding frame are both in sliding connection with a guide rail on a rack, racks are fixedly connected to the tops of the first sliding frame and the second sliding frame, gears are meshed between the two racks, the racks are in sliding connection with the rack, the gears are rotationally connected with the rack, a plurality of rotating pipes are rotationally connected to the first sliding frame and the second sliding frame, a conical turntable is fixedly connected to the rotating pipes, the turntable is obliquely upwards arranged relative to a cylinder body corresponding to the turntable and is close to a feeding roller path, sealing gaskets sealed to two ends of the cylinder body are arranged on the turntable, a first motor is fixedly connected to the output shaft of the first motor and the rotating pipes on the first sliding frame, chain wheels are fixedly connected with chain wheels, a second hydraulic cylinder is fixedly connected to the rack, and an output shaft of the second hydraulic cylinder is fixedly connected with the second sliding frame.

Preferably, the heating device comprises a sliding plate and a second motor, a plurality of induction coils are fixedly connected to the sliding plate, the induction coils are coaxially arranged with the rotary table, the second motor is fixedly connected with the frame, the output shaft of the second motor is fixedly connected with a screw rod, the screw rod is in threaded connection with the sliding plate, two optical axes are respectively arranged on two sides of the screw rod, the optical axes are fixedly connected with the frame, and the sliding plate is in sliding connection with the optical axes.

Preferably, the preheating deaerating plant includes the combustion chamber, the combustion chamber is one section upper and lower open-ended body structure, be equipped with burning torch and heat conduction board in the combustion chamber, the air feed end of burning torch is connected to the gas pitcher through the hose, be equipped with combustible gas in the gas pitcher, the burning torch is located the below of heat conduction board, the top of combustion chamber is equipped with upper cover and its bottom is equipped with the lower cover, be equipped with the outlet duct on the upper cover, be equipped with the intake pipe on the lower cover, the outlet duct passes through rotary joint with the revolving tube on the balladeur train one and is connected, the intake pipe also passes through rotary joint with the revolving tube on the balladeur train two and is connected, the below of burning torch still is equipped with the fan.

The invention has the advantages that:

the cylinder bodies on the feeding channel can be automatically transported down through the transporting and arranging device and are arranged into an equidistant state for positioning by the positioning and rotating device;

when the two rotary tables move in a centering manner to clamp the cylinder body, the cylinder body can be automatically lifted up towards the oblique upward direction of the feeding roller path by utilizing the conical structure of the rotary tables, so that the cylinder body is automatically far away from the positioning block, and the induction coil can do linear motion under the condition of sleeving the cylinder body;

the preheating deaerating plant uses with the revolving stage cooperation that has the commentaries on classics pipe, can utilize the characteristics that burns oxygen consumption after sealed the cylinder body, get rid of the oxygen in the cylinder body, reduces the inside oxide skin that appears when heat treatment of cylinder body to through the heating to the heat conduction board, make circulated hot air preheat the cylinder body inside, influence that the temperature rise was too fast when avoiding induction heating.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of a positioning and rotating device and a heating device;

FIG. 3 is a schematic view of the structure of the supporting frame and the lifting frame;

FIG. 4 is a schematic view of the structures below the lifting frame;

FIG. 5 is a full cross-sectional view of the preheating device;

FIG. 6 is a schematic view of various structures within a combustion chamber;

in the figure: 1. a frame; 11. a guide rail; 2. a base;

3. a transfer arrangement device; 31. a support frame; 311. a positioning block; 32. lifting the frame; 321. lifting blocks; 33. a first hydraulic cylinder; 34. a slide; 35. a roller; 36. a slide bar;

4. positioning a rotating device; 41. a first sliding frame; 42. a second carriage; 43. a rack; 44. a gear; 45. a rotary pipe; 46. a turntable; 47. a first motor; 48. a sprocket; 49. a second hydraulic cylinder;

5. a heating device; 51. a slide plate; 52. a second motor; 53. an induction coil; 54. a screw rod; 55. an optical axis;

6. preheating an oxygen removal device; 61. a combustion chamber; 62. igniting the gun; 63. a heat conductive plate; 64. an upper cover; 641. an air outlet pipe; 65. a lower cover; 651. an air inlet pipe; 66. a fan; 7. a feeding roller path; 8. and (5) blanking a rollaway nest.

Detailed Description

The invention is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1 to 6, a viscous damper component processing device comprises a frame 1, a base 2, a feeding roller path 7, a transferring and arranging device 3, a positioning and rotating device 4, a heating device 5 and a preheating deoxidizing device 6, wherein the rear end of the transferring and arranging device 3 is provided with the feeding roller path 7, the front end of the transferring and arranging device is provided with a discharging roller path 8, the transferring and arranging device 3 comprises a supporting frame 31 and a lifting frame 32, two supporting frames 31 are symmetrically arranged on the base 2, a plurality of positioning blocks 311 are equidistantly arranged on the supporting frame 31, a cylinder body is placed between two adjacent positioning blocks 311, a lifting frame 32 which is in sliding connection with the base 2 is arranged between the two supporting frames 31, a plurality of symmetrical lifting blocks 321 are arranged on two sides of the lifting frame 32, and when the lifting blocks 321 are lifted, the cylinder body above the lifting blocks is lifted and guided into a gap positioning block between the next positioning block 311 through the inclined plane of the lifting block 311 and the inclined plane of the lifting block; the positioning and rotating device 4 is arranged on the frame 1 and is used for lifting the cylinder body between the positioning block 311 and the positioning block 311 away from the positioning block 311, sealing two ends of the cylinder body, isolating the interior of the cylinder body from the outside atmosphere and carrying out centering rotation on the cylinder body; the heating device 5 heats the cylinder body on the positioning and rotating device 4 through the moving induction coil 53; the preheating deaerator 6 is used for removing oxygen in the cylinder body and preheating the cylinder body.

In this embodiment, the transferring and arranging device 3 further includes a first hydraulic cylinder 33 and a sliding seat 34, two rollers 35 are disposed at the bottom of the lifting frame 32, the sliding seat 34 is disposed below the rollers 35, two triangular blocks in tangential contact with the rollers 35 are disposed on the sliding seat 34, the sliding seat 34 is slidably connected with the base 2 and fixedly connected with an output shaft of the first hydraulic cylinder 33, sliding rods 36 slidably connected with the base 2 are disposed at four corners of the bottom of the lifting frame 32, and the lifting blocks 321 and the positioning blocks 311 are of triangular structures.

In this embodiment, the positioning rotating device 4 includes a first carriage 41 and a second carriage 42, the first carriage 41 and the second carriage 42 are both slidably connected with the guide rail 11 on the frame 1, the tops of the first carriage 41 and the second carriage 42 are both fixedly connected with racks 43, a gear 44 is meshed between the two racks 43, the racks 43 are slidably connected with the frame 1, the gear 44 is rotatably connected with the frame 1, the first carriage 41 and the second carriage 42 are both rotatably connected with a plurality of rotating pipes 45, a conical turntable 46 is fixedly connected on the rotating pipes 45, the turntable 46 is obliquely arranged near the feeding raceway 7 relative to the corresponding cylinder body, a sealing gasket sealed at two ends of the cylinder body is arranged on the turntable 46, a first motor 47 is fixedly connected with an output shaft of the first motor 47, a sprocket 48 is fixedly connected with the rotating pipes 45 on the first carriage 41, the sprocket 48 is connected with a hydraulic cylinder 49 through a chain, and the output shaft of the second hydraulic cylinder 49 is fixedly connected with the second carriage 42.

In this embodiment, the heating device 5 includes a sliding plate 51 and a second motor 52, where the sliding plate 51 is fixedly connected with a plurality of induction coils 53, the induction coils 53 are coaxially disposed with the turntable 46, the second motor 52 is fixedly connected with the frame 1, and the output shaft is fixedly connected with a screw rod 54, the screw rod 54 is in threaded connection with the sliding plate 51, two sides of the screw rod 54 are respectively provided with an optical axis 55, the optical axis 55 is fixedly connected with the frame 1, the sliding plate 51 is slidably connected with the optical axis 55, and round holes through which the optical axis 55 and the screw rod 54 pass are disposed on the first carriage 41 and the second carriage 42.

In this embodiment, the preheating deaerating device 6 includes a combustion chamber 61, the combustion chamber 61 is a tube structure with a section open up and down, a igniting gun 62 and a heat conducting plate 63 are disposed in the combustion chamber 61, a gas supply end of the igniting gun 62 is connected to a gas tank through a hose, a combustible gas is disposed in the gas tank, the igniting gun 62 is located below the heat conducting plate 63, an upper cover 64 is disposed on top of the combustion chamber 61 and a lower cover 65 is disposed on the bottom of the combustion chamber 61, an air outlet pipe 641 is disposed on the upper cover 64, an air inlet pipe 651 is disposed on the lower cover 65, the air outlet pipe 641 is connected with a rotating tube 45 on the first carriage 41 through a rotary joint, the air inlet pipe 651 is also connected with the rotating tube 45 on the second carriage 42 through a rotary joint, a fan 66 is disposed below the igniting gun 62, and a wind direction of the fan 66 is from bottom to top. So that air in the cylinder is drawn into the combustion chamber 61 for combustion to consume oxygen, and the hot air flow after oxygen consumption is sent into the cylinder.

The working process and the principle thereof are as follows:

the cylinder body is placed on the material loading raceway 7, during the material loading, the output shaft of pneumatic cylinder one 33 extends, make slide 34 move to the right, the gyro wheel 35 of this moment can be along the inclined plane of the triangle piece on the slide 34 upwards, thereby make lifting frame 32 wholly upwards move, lifting frame 32 upwards move makes lifting block 321 upwards move, lifting block 321 lifts the cylinder body in the material loading raceway, when the extreme that is higher than the material loading raceway of lifting block 321 is up to the extreme, the cylinder body can roll down from lifting block 321, and roll down between first locating piece 311 and second locating piece 311, so that the location supports, the cylinder body of rear then is blocked by lifting block 321, can't follow the material loading raceway 7 and roll down.

Then the output shaft of the first hydraulic cylinder 33 is shortened, the sliding seat 34 is reset, the lifting block 321 is lowered, the other cylinder body rolls to the tail end of the feeding roller path 7, the process is repeated, the cylinder body originally positioned between the first positioning block 311 and the second positioning block 311 moves to the position between the second positioning block 311 and the third positioning block 311, and the like, and finally, the cylinder body is placed between all the positioning blocks 311.

Then the second hydraulic cylinder 49 drives the second carriage 42 to move towards the middle, the rack 43 fixedly connected with the second carriage 42 drives the gear 44 to rotate, so that the first carriage 41 synchronously moves towards the middle, the turntable 46 is not coaxially arranged with the cylinder body, but is obliquely upwards arranged near the feeding roller path 7, when the turntable 46 is inserted into two ends of the cylinder body, the cylinder body can be obliquely upwards lifted when being forced to be coaxially arranged with the turntable 46, the cylinder body is driven to be far away from the positioning block 311, and the reserved position is moved for the induction coil 53.

When the two turntables 46 clamp the cylinder, the inside of the cylinder is isolated from the outside air, the outside air cannot enter the cylinder, then the ignition gun 62 ignites, the combustion chamber 61 burns, oxygen in the combustion chamber 61 is consumed in the combustion process, the fan 66 enables the combustion chamber 61 to form a bottom-up airflow, so that the air in the cylinder is also guided to the combustion chamber 61, the heat conducting plate 63 is heated, the hot air which consumes the oxygen is blown from one end of the cylinder to the other end of the cylinder, then enters the combustion chamber 61 from the air inlet pipe, so as to realize cycle damage, the cylinder is preheated while continuously consuming the oxygen, after the oxygen is consumed, the ignition gun 62 automatically extinguishes due to the lack of the oxygen, a thermocouple arranged in the ignition gun 62 detects that the flame is extinguished, and the gas supply pipeline of the combustible gas is automatically closed, and the release of the combustible gas is stopped.

Then, the first motor 47 is started, the rotary tube 45 on the first carriage 41 is driven to rotate through the chain wheel 48 and the chain, the rotary table 46 rotates along with the rotation, the cylinder body also rotates, meanwhile, the second motor 52 is started, the sliding plate 51 is driven to move along the axial direction of the cylinder body through the rotation of the screw rod 54, and the induction coil 53 at the corresponding position can perform induction heating on the cylinder body, so that subsequent heat treatment is completed.

After the heat treatment, the transfer arrangement 3 is started again. And in the same way, the cylinder body processed on the positioning block 311 is transported to the blanking roller path 8, so that the processed cylinder body is conveniently transported to other working procedures.

It will be appreciated by those skilled in the art that the present invention can be carried out in other embodiments without departing from the spirit or essential characteristics thereof. Accordingly, the above disclosed embodiments are illustrative in all respects, and not exclusive. All changes that come within the scope of the invention or equivalents thereto are intended to be embraced therein.

Claims

1. A viscous damper component handling apparatus, characterized in that: the automatic feeding device comprises a frame (1), a base (2), a feeding roller path (7), a transferring and arranging device (3), a positioning and rotating device (4), a heating device (5) and a preheating deoxidizing device (6), wherein the feeding roller path (7) is arranged at the rear end of the transferring and arranging device (3), a discharging roller path (8) is arranged at the front end of the transferring and arranging device (3), the transferring and arranging device (3) comprises a supporting frame (31) and a lifting frame (32), two supporting frames (31) are symmetrically arranged on the base (2), a plurality of positioning blocks (311) are equidistantly arranged on the supporting frame (31), a cylinder body is placed between two adjacent positioning blocks (311), lifting frames (32) which are in sliding connection with the base (2) are arranged between two sides of the supporting frames (31), a plurality of symmetrical lifting blocks (321) are arranged between the two adjacent positioning blocks (311), and when the lifting blocks (321) ascend, the cylinder body above the lifting blocks and the lifting blocks are guided by the inclined planes of the lifting blocks and the inclined planes on the positioning blocks (311) to enter a gap between the next positioning blocks (311); the positioning and rotating device (4) is arranged on the frame (1) and is used for lifting the cylinder body between the positioning block (311) and the positioning block (311) away from the positioning block (311) and sealing two ends of the cylinder body so that the interior of the cylinder body is isolated from the outside atmosphere and the cylinder body is centered and rotated; the heating device (5) heats the cylinder body on the positioning and rotating device (4) through the moving induction coil (53); the preheating deaerating device (6) is used for removing oxygen in the cylinder body and carrying out preheating treatment on the cylinder body.

2. A viscous damper element processing apparatus according to claim 1, wherein: the transfer arrangement device (3) further comprises a first hydraulic cylinder (33) and a sliding seat (34), two rollers (35) are arranged at the bottom of the lifting frame (32), the sliding seat (34) is arranged below the rollers (35), two triangular blocks in tangential contact with the rollers (35) are arranged on the sliding seat (34), the sliding seat (34) is in sliding connection with the base (2) and is fixedly connected with an output shaft of the first hydraulic cylinder (33), sliding rods (36) in sliding connection with the base (2) are arranged at four corners of the bottom of the lifting frame (32), and the lifting blocks (321) and the positioning blocks (311) are of triangular structures.

3. A viscous damper element processing apparatus according to claim 1, wherein: the positioning and rotating device (4) comprises a first sliding frame (41) and a second sliding frame (42), the first sliding frame (41) and the second sliding frame (42) are both in sliding connection with a guide rail (11) on the frame (1), racks (43) are fixedly connected to the tops of the first sliding frame (41) and the second sliding frame (42), gears (44) are meshed between the two racks (43), the racks (43) are in sliding connection with the frame (1), the gears (44) are in rotary connection with the frame (1), a plurality of rotary pipes (45) are respectively and rotatably connected to the first sliding frame (41) and the second sliding frame (42), a conical rotary table (46) is fixedly connected to the rotary table (45), the rotary table (46) is obliquely arranged relative to a cylinder body corresponding to the rotary table, sealing gaskets sealed at two ends of the cylinder body are respectively arranged on the rotary table (46), a first motor (47) is fixedly connected to the output shaft of the first motor (47) and the rotary table (45) is fixedly connected to the second sliding frame (48), the rotary table (45) is fixedly connected to the chain wheel (48) through the chain wheel (48), an output shaft of the second hydraulic cylinder (49) is fixedly connected with the second carriage (42).

4. A viscous damper element processing apparatus according to claim 1, wherein: the heating device (5) comprises a sliding plate (51) and a motor II (52), a plurality of induction coils (53) are fixedly connected to the sliding plate (51), the induction coils (53) are coaxially arranged with the rotary table (46), the motor II (52) is fixedly connected with the rack (1), an output shaft of the motor II is fixedly connected with a screw rod (54), the screw rod (54) is in threaded connection with the sliding plate (51), two sides of the screw rod (54) are respectively provided with an optical axis (55), the optical axes (55) are fixedly connected with the rack (1), and the sliding plate (51) is in sliding connection with the optical axes (55).

5. A viscous damper element processing apparatus according to claim 1, wherein: the preheating deaeration device (6) comprises a combustion chamber (61), the combustion chamber (61) is of a tube body structure with an upper opening and a lower opening, a burning torch (62) and a heat conducting plate (63) are arranged in the combustion chamber (61), the air supply end of the burning torch (62) is connected to a gas tank through a hose, combustible gas is arranged in the gas tank, the burning torch (62) is located below the heat conducting plate (63), an upper cover (64) is arranged at the top of the combustion chamber (61) and a lower cover (65) is arranged at the bottom of the combustion chamber, an air outlet pipe (641) is arranged on the upper cover (64), an air inlet pipe (651) is arranged on the lower cover (65), the air outlet pipe (641) is connected with a rotary pipe (45) on a first carriage (41) through a rotary joint, the air inlet pipe (651) is also connected with a rotary pipe (45) on a second carriage (42) through a rotary joint, and a fan (66) is further arranged below the burning torch (62).