CN204085166U - For the transmission mechanism of cylinda gold metal work-pieces heating - Google Patents

Abstract

The utility model discloses a kind of transmission mechanism for the heating of cylinda gold metal work-pieces, the cylindrical workpiece of length dimension is greater than mainly for diameter dimension, its mechanism is by feeder, charging binding clasp, discharging binding clasp, binding clasp displacement controller, temperature probe, the critical pieces such as workpiece ejecting device are formed, avoid occurring lodging phenomenon because workpiece is clamped device clamping all the time in course of conveying, and pushing back action each workpiece can be made can be heated to normal temperature when heading into next process after discharging, thus established solid foundation for next step processing of product, substantially increase production efficiency and product percent of pass.

Description

For the transmission mechanism of cylinda gold metal work-pieces heating

Technical field

The utility model relates to heated parts transmission technique field, particularly relates to a kind of transmission mechanism for the heating of cylinda gold metal work-pieces.

Background technology

At present, when cylinda gold metal work-pieces diameter dimension being greater than to length dimension heats, because the diameter of eddy-current heating burner hearth is greater than diameter of work, the crank when workpiece movable and the workpiece of previous section is toppled over cause the state that transmission is stagnated, and due to workpiece in conveying be townhouse motion, after unit one is pushed out burner hearth, second workpiece is just in thorax mouth position, here having departed from heated center district makes this workpiece be difficult to be heated to optimum temperature, thus affects the carrying out of next step operation.

Utility model content

The purpose of this utility model is, utilize a kind of transmission mechanism for the heating of cylinda gold metal work-pieces of the controlled principle design of cylinder piston-rod displacement, workpiece is made to be in consistent motion state all the time in processing course of conveying, and make each workpiece reach optimum temperature when coming out of the stove by pushing back action, thus Problems existing in above-mentioned technology is solved.

For realizing above-mentioned purpose of the present utility model, provide following technical scheme:

Design a kind of transmission mechanism for the heating of cylinda gold metal work-pieces, its basic structure is made up of the critical piece such as feeder, charging binding clasp, discharging binding clasp, binding clasp displacement controller, temperature probe, workpiece ejecting device being arranged on induction heater periphery, being connected with binding clasp displacement controller outside the feed inlet and outlet that wherein charging binding clasp and discharging binding clasp are placed in induction heater respectively and doing synchronously to move in the same way, the direction of movement is parallel with the axis of induction heater; Temperature probe is arranged on the top of kick-off arm, to contact surface of the work when kick-off arm is released and measure its heating-up temperature thus send control signal.

Preferably, described charging binding clasp is made up of charging push rod and charging push rod cylinder, and the initial position of its charging push rod is adjustable and release the length that length is at least single workpiece by threaded sleeve.

Preferably, described discharging binding clasp is made up of kick-off arm and kick-off arm cylinder, and the initial position of its kick-off arm is adjustable and release the monodisplacement length that length is the controller connecting rod of binding clasp displacement controller by threaded sleeve.

Preferably, described binding clasp displacement controller is made up of controller cylinder, controller connecting rod and fixed mount, and its controller connecting rod is connected with charging binding clasp and discharging binding clasp respectively and the two can be driven to do synchronously to move in the same way.

Preferably, the monodisplacement length of the controller connecting rod of described binding clasp displacement controller should be from for release unit one in stove static heating location to the distance in induction heater exit.

The course of work of the present utility model is as follows:

First released by kick-off arm, temperature probe withstands the outside of unit one in induction heater, record this workpiece temperature up to standard after send charging signal, now workpiece to be heated is discharged to cause in V-shaped groove by feeder and is fed push rod and withstands, under the drive of binding clasp displacement controller, charging binding clasp promotes this workpiece to induction heater importer to movement, other on heater wire the workpiece of coherent sequence also successively thereupon displacement with equidistant, and be originally in first by the workpiece heated and be pushed to induction heater exit, now the charging push rod of charging binding clasp releases the length of at least one workpiece, kick-off arm reclaims simultaneously and makes the workpiece being in eddy-current heating outlet of still be pushed in discharging transition frame, ejected by workpiece knock-pin and entered next process, above-mentioned workpiece is in induction heater in moving process, discharging binding clasp is synchronous with charging binding clasp under the drive of binding clasp displacement controller to be moved in the same way, the outside that temperature probe on its kick-off arm withstands on above-mentioned workpiece all the time makes it to be kept upright in moving process, being ejected binding clasp displacement controller after discharging transition frame until this workpiece drives charging binding clasp and discharging binding clasp to do to reply displacement, it is made all to get back to original position, now charging push rod is regained to enter to next workpiece and is abdicated space, kick-off arm is released and the workpiece being in induction heater exit is pushed back kick-off arm recovery to heating location simultaneously, again release under processing beat drives afterwards, with temperature probe contact heated parts surface, control signal is sent after confirmation temperature is up to standard, system enters cycling again.

The utility model, owing to have employed said mechanism design, makes workpiece unlikely midway in processed progradation topple over, pushes back action and also make each workpiece be heated to qualified temperature when entering next process, thus reach purpose of design.

Accompanying drawing explanation

Fig. 1 is frock schematic diagram of the present utility model.

Description of reference numerals: 1, feeder; 2, V-shaped groove; 3, charging binding clasp; 31, charging push rod; 32, charging push rod cylinder; 4, binding clasp displacement controller; 41, controller cylinder; 42, controller connecting rod; 43, fixed mount; 5, blow tank; 6, discharging binding clasp; 61, kick-off arm; 62, kick-off arm cylinder; 7, temperature probe; 8, discharging transition frame; 9, workpiece knock-pin; 91, workpiece knock-pin cylinder; 10, induction heater; 11, grate; 12, workpiece.

Detailed description of the invention

The specific embodiments of the transmission mechanism for the heating of cylinda gold metal work-pieces of the present utility model as shown in Figure 1, the critical piece and the duty that are in the transmission mechanism of induction heater 10 periphery are: after receiving charging signal, feeder 1 is transported to single for the workpiece 12 that need heat in V-shaped groove, the workpiece 12 just entering heater wire is promoted certain distance by charging binding clasp 3 under binding clasp displacement controller 4 drives in induction heater 10, also under it drives, do synchronous shift in the same way at the discharging binding clasp 6 of binding clasp displacement controller 4 other end simultaneously, charging push rod 31 during this time displacement on charging binding clasp 3 is in recovery state, and the kick-off arm 61 on discharging binding clasp 6 is in release state and contacts with the front surface of the workpiece 12 coming first all the time, make it in above-mentioned displacement process, keep attitude constant, because of workpiece 12 in induction heater 10 for sort successively, export mobile together with charging binding clasp 3 is under the front and back clamping of discharging binding clasp 6 to induction heater 10, when first is arrived induction heater 10 exit by heated parts 12 and move stopping, now, the charging push rod 31 of charging binding clasp 3 is released, the kick-off arm 61 of discharging binding clasp 6 reclaims, the workpiece 12 heated is pushed into and is headed into blow tank 5 by workpiece knock-pin 9 after in discharging transition frame 8 and enter down one manufacturing procedure, after workpiece knock-pin 9 reclaims, binding clasp displacement controller 4 drives charging binding clasp 3 and discharging binding clasp 6 oppositely to move to original position, the kick-off arm 61 of discharging binding clasp 6 is released the workpiece 12 being in induction heater 10 exit to push back and is reclaimed to the heating location in induction heater 10, charging push rod 31 on the binding clasp of charging simultaneously 3 is recovered as entering of next workpiece and abdicates space, after this, drive the kick-off arm 61 on bottom discharge binding clasp 6 again to release the temperature probe 7 making to be installed on it at processing beat and to enter in induction heater 10 contact first by a side surface of heated parts 12, when its surface temperature reaches standard value, temperature probe exports control signal, transmission mechanism repeats the action in a cycle.

In the transmission mechanism for the heating of cylinda gold metal work-pieces of the present utility model, binding clasp displacement controller 4 is installed on fixed mount 43, be made up of controller cylinder 41 and controller connecting rod 42, its controller cylinder 41 output displacement power, controller connecting rod 42 is connected with charging binding clasp 3 and discharging binding clasp 6, the displacement stroke of described controller connecting rod 42 be in induction heater 10 first by heated parts 12 in the distance exported to induction heater 10 by residing position during static heating; Charging binding clasp 3 is made up of charging push rod 31 and charging push rod cylinder 32, and described charging push rod 31 is by threaded sleeve its initial position adjustable, and it releases the length that stroke equals at least single workpiece; Described discharging binding clasp 6 is made up of kick-off arm 61 and kick-off arm cylinder 62, described kick-off arm 61 is by threaded sleeve its initial position adjustable, and it is released stroke and to equal from the fire door of induction heater 10 to induction heater 10 first by heated parts by the distance of present position during static heating; Workpiece knock-pin 9 ejects workpiece and reclaims action under the driving of workpiece knock-pin cylinder 91, and its length ejected is that workpiece moves required distance from discharging transition frame 8 to blow tank 5; Induction heater 10 is fixed on grate 11; In addition, workpiece 12 described herein is one group and arranges orderly single individuality, so mark Reference numeral no longer one by one.

In sum, the utility model simplicity of design, controlling unit is accurately effective, fundamentally overcome the lodging phenomenon that cylinda gold metal work-pieces that diameter dimension is in the past greater than length dimension occurs in heated transportation, also each workpiece is made to reach when entering next process requirement of heating, thus established solid foundation for next step processing of product, substantially increase production efficiency and product percent of pass.

Claims (5)

1. the transmission mechanism for the heating of cylinda gold metal work-pieces, its basic structure is made up of the critical piece such as feeder, charging binding clasp, discharging binding clasp, binding clasp displacement controller, temperature probe, workpiece ejecting device being arranged on induction heater periphery, it is characterized in that:

Charging binding clasp and discharging binding clasp are placed in respectively and are connected with binding clasp displacement controller outside the charging aperture of induction heater and discharging opening and do synchronously to move in the same way, and the direction of movement is parallel with the axis of induction heater.

2., as claimed in claim 1 for the transmission mechanism of cylinda gold metal work-pieces heating, it is characterized in that:

Described charging binding clasp is made up of charging push rod and charging push rod cylinder, and the initial position of its charging push rod is adjustable and release the length that length is at least single workpiece by threaded sleeve.

3., as claimed in claim 1 for the transmission mechanism of cylinda gold metal work-pieces heating, it is characterized in that:

Described discharging binding clasp is made up of kick-off arm and kick-off arm cylinder, and the initial position of its kick-off arm is adjustable and release the monodisplacement length that length is the controller connecting rod of binding clasp displacement controller by threaded sleeve.

4., as claimed in claim 1 for the transmission mechanism of cylinda gold metal work-pieces heating, it is characterized in that:

Described binding clasp displacement controller is made up of controller cylinder, controller connecting rod and fixed mount, and its controller connecting rod is connected with charging binding clasp and discharging binding clasp respectively and the two can be driven to do synchronously to move in the same way.

5., as claimed in claim 4 for the transmission mechanism of cylinda gold metal work-pieces heating, it is characterized in that:

The monodisplacement length of the controller connecting rod of described binding clasp displacement controller should be from the unit one for releasing in stove static heating location to the distance in induction heater exit.