CN218754786U - Special lifting mechanism for gradient type gravity blanking material placing mechanism of titanium alloy bar - Google Patents

Abstract

The utility model discloses a special elevating system of titanium alloy rod slope formula gravity blanking pendulum material mechanism, including frame and pendulum feed trough case, the inside of frame is equipped with pendulum feed trough case, and the inside symmetry of frame of pendulum feed trough case top installs first sprocket, and the inside symmetry of frame of first sprocket one side installs the second sprocket, and drive sprocket is installed to the inside symmetry of frame of second sprocket one side, installs the balancing weight on the frame outer wall of drive sprocket below, and drive sprocket is installed to the inside symmetry of frame of drive sprocket one side, and rotary driving spare is installed to the inside symmetry of frame of drive sprocket one side. The utility model discloses not only realized special elevating system and carried the automatic convenient promotion formula of titanium alloy rod, made things convenient for multiunit sprocket and chain efficient transmission drive, improved the stationarity of special elevating system operation moreover.

Description

Special lifting mechanism for gradient type gravity blanking material placing mechanism of titanium alloy bar

Technical Field

The utility model relates to a special elevating system technical field specifically is special elevating system of titanium alloy rod slope formula gravity blanking pendulum material mechanism.

Background

The titanium alloy stick is a long and thin type part made with the titanium alloy, but secondary operation is used for building engineering, interior decoration and so on, its advantage lies in that the quality is light, intensity is high, the outward appearance is graceful, extensively be used for modernized construction, full-automatic steel stick induction heating furnace is a round steel stick induction heating complete sets, its effect is that carry out whole or local heating with the round steel stick, later can be used to heat forging, process such as heating punching press and heating rolling, owing to disposed PLC automatic control system in the whole heating process again, make intermediate frequency furnace heating complete automation, heating efficiency and heating quality have been improved greatly, become the mainstream heating equipment of present round steel stick heating, when the use of titanium alloy stick heating furnace, need special elevating system to carry out the promotion formula to the titanium alloy stick.

When the heating furnace is in operation, a gradient type gravity blanking and swinging mechanism is needed to drive the titanium alloy bars, and a special lifting mechanism for the gradient type gravity blanking and swinging mechanism is used for lifting and conveying the titanium alloy bars; 2. the special lifting mechanism is supported by a single sliding support structure mostly during operation, and when the structure is operated, the friction force between structural parts is increased easily to accelerate the abrasion of a transmission part.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a special elevating system of titanium alloy rod slope formula gravity blanking pendulum material mechanism to it is not convenient for carry the automatic convenient promotion formula of titanium alloy rod to provide special elevating system in solving above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: special elevating system of material mechanism is put to titanium alloy rod slope formula gravity blanking, including frame and pendulum feed trough case, the inside of frame is equipped with pendulum feed trough case, the inside symmetry of frame of pendulum feed trough case top installs first sprocket, the second sprocket is installed to the inside symmetry of frame of first sprocket one side, drive sprocket is installed to the inside symmetry of frame of second sprocket one side, install the balancing weight on the frame outer wall of drive sprocket below, drive sprocket is installed to the inside symmetry of frame of drive sprocket one side, the rotatory driving piece is installed to the inside symmetry of frame of drive sprocket one side, the actuating lever is all installed to the output of rotatory driving piece, and the actuating lever all is connected with drive sprocket, drive sprocket keeps away from the one end of actuating lever and all installs the transfer line, and the transfer line all with drive sprocket fixed connection.

Preferably, the surface of first sprocket all is equipped with the main chain, and the bottom and the pendulum groove case of main chain are connected, the top of main chain extends to the surface of balancing weight through drive sprocket.

Preferably, the surface of second sprocket all is equipped with assists the chain, and the bottom of assisting the chain is connected with pendulum silo case, the top of assisting the chain extends to the surface of balancing weight through driving sprocket.

Preferably, all the symmetry installs the left side balladeur train on the lateral wall of pendulum silo case one side, the left side balladeur train is kept away from one side of pendulum silo case and is all installed the left side gyro wheel, all the symmetry installs the right side balladeur train on the lateral wall of pendulum silo case opposite side, the right side balladeur train is kept away from one side of pendulum silo case and is all installed the right side gyro wheel.

Preferably, all install the balladeur train on the lateral wall of balancing weight, all install down the balladeur train on the balancing weight lateral wall of upper carriage below, the upper pulley is all installed to one side that the upper carriage is close to the frame, the lower pulley is all installed to one side that the lower balladeur train is close to the frame.

Preferably, a control panel is installed on the side wall of the rack, and the output end of the control panel is electrically connected with the input end of the rotary driving piece.

Compared with the prior art, the beneficial effects of the utility model are that: the special lifting mechanism not only realizes automatic and convenient lifting type conveying of the special lifting mechanism to the titanium alloy bar, facilitates efficient transmission driving of a plurality of groups of chain wheels and chains, but also improves the running stability of the special lifting mechanism;

(1) The driving rod is driven to rotate by the rotary driving piece, the driving chain wheel is driven to rotate by the driving rod, the main chain is driven by the driving chain wheel to move, the material placing tank is driven by the main chain to move upwards, the driving rod is driven by the driving chain wheel to rotate, the transmission chain wheel is driven by the transmission rod to rotate, the auxiliary chain is driven by the transmission chain wheel to move, the material placing tank is driven by the auxiliary chain to move upwards, the counterweight block moves downwards to support gravity, the titanium alloy bar is conveniently driven to move, the automatic and convenient lifting type conveying of the titanium alloy bar by the special lifting mechanism is realized, the efficient transmission driving of a plurality of groups of chain wheels and chains is facilitated, and the running stability of the special lifting mechanism is improved;

(2) When the material placing groove box moves upwards, the left roller slides on the surface of the rack, the left roller and the left sliding frame slide and support the material placing groove box, the right roller slides on the surface of the rack, and the right roller and the right sliding frame slide and support the material placing groove box, so that reliable sliding support during operation of the special lifting mechanism is realized, and the stability of up-and-down movement of the special lifting mechanism is improved;

(3) When the balancing weight moves downwards, the upper pulley slides on the surface of the rack, the lower pulley slides on the surface of the rack, the upper pulley and the upper rack slide and support the balancing weight, and the lower pulley and the lower rack slide and support the balancing weight, so that reliable sliding support is realized when a special lifting mechanism is used for transmission, and the reliability of structure transmission is improved.

Drawings

FIG. 1 is a schematic view of the front cross-sectional structure of the present invention;

fig. 2 is a schematic side view of the cross-sectional structure of the present invention;

fig. 3 is an enlarged schematic structural view of a point a in fig. 1 according to the present invention;

fig. 4 is an enlarged schematic structural diagram of the position B in fig. 1 according to the present invention.

In the figure: 1. a frame; 2. a material placing groove box; 3. a main chain; 4. first of all a sprocket; 5. a drive sprocket; 6. a balancing weight; 7. auxiliary chains; 8. a second sprocket; 9. a drive sprocket; 10. an upper carriage; 11. a control panel; 12. a transmission rod; 13. a drive rod; 14. a rotary drive member; 15. an upper pulley; 16. a lower pulley; 17. a lower carriage; 18. a left side roller; 19. a left side carriage; 20. a right side carriage; 21. and a right roller.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides an embodiment of: the special lifting mechanism for the gradient type gravity blanking material placing mechanism for the titanium alloy bars comprises a rack 1 and a material placing groove box 2, the material placing groove box 2 is arranged inside the rack 1, a first chain wheel 4 is symmetrically arranged inside the rack 1 above the material placing groove box 2, a second chain wheel 8 is symmetrically arranged inside the rack 1 on one side of the first chain wheel 4, a transmission chain wheel 9 is symmetrically arranged inside the rack 1 on one side of the second chain wheel 8, a counter weight 6 is arranged on the outer wall of the rack 1 below the transmission chain wheel 9, the counter weight 6 is movably connected with the rack 1, a driving chain wheel 5 is symmetrically arranged inside the rack 1 on one side of the transmission chain wheel 9, a rotary driving part 14 is symmetrically arranged inside the rack 1 on one side of the driving chain wheel 5, the rotary driving part 14 plays a role in power driving, driving rods 13 are arranged at the output ends of the rotary driving part 14, the driving rods 13 are all connected with the driving chain wheel 5, a driving rod 12 is arranged at one end of the driving chain wheel 5 far away from the driving rods 13, and the driving rod 12 is all fixedly connected with the transmission chain wheel 9;

the surface of the first chain wheel 4 is provided with a main chain 3, the bottom end of the main chain 3 is connected with the material placing groove box 2, the top end of the main chain 3 extends to the surface of the balancing weight 6 through the driving chain wheel 5, the main chain 3 plays a role of power transmission, the surface of the second chain wheel 8 is provided with an auxiliary chain 7, the bottom end of the auxiliary chain 7 is connected with the material placing groove box 2, and the top end of the auxiliary chain 7 extends to the surface of the balancing weight 6 through the driving chain wheel 9;

when the titanium alloy bar lifting device is used, the rotary driving piece 14 is opened through the operation control panel 11, the driving rod 13 is driven to rotate by the rotary driving piece 14, the driving chain wheel 5 is driven to rotate by the driving chain wheel 5, the main chain 3 is driven to move, the material placing groove box 2 is driven to move upwards by the main chain 3 under the coordination of the first chain wheel 4, the balancing weight 6 moves downwards to support gravity, the driving chain wheel 5 is driven to rotate the driving rod 12, the driving chain wheel 12 is driven to rotate the driving chain wheel 9, the driving chain wheel 9 is driven to move the auxiliary chain 7, the auxiliary chain 7 is driven to move upwards by the auxiliary chain 7 under the coordination of the second chain wheel 8, the balancing weight 6 moves downwards to support gravity, the material placing groove box 2 is driven to automatically move upwards to drive the titanium alloy bar to move, the titanium alloy bar to move and is matched with the gradient type gravity material placing mechanism of the titanium alloy bar for conveying, the titanium alloy bar after gravity completes the lifting movement, the automatic and convenient lifting type conveying of the titanium alloy bar by the special lifting mechanism, the multiple groups of chain wheels and the efficient transmission driving are facilitated, and the running stability of the special lifting mechanism is improved;

the side walls of one side of the material placing groove box 2 are symmetrically provided with left side sliding frames 19, one side of each left side sliding frame 19, which is far away from the material placing groove box 2, is provided with a left side roller 18, the left side roller 18 is connected with the rack 1 in a sliding manner, the side walls of the other side of the material placing groove box 2 are symmetrically provided with right side sliding frames 20, one side of each right side sliding frame 20, which is far away from the material placing groove box 2, is provided with a right side roller 21, and the right side roller 21 is connected with the rack 1 in a sliding manner;

when in use, the left side sliding frame 19 is connected with the material placing tank box 2, the left side roller 18 is connected with the left side sliding frame 19, the right side sliding frame 20 is connected with the material placing tank box 2, the right side roller 21 is connected with the right side sliding frame 20, when the material placing tank box 2 moves upwards, the left side roller 18 slides on the surface of the frame 1, the left roller 18 and the left sliding frame 19 are used for slidably supporting the material placing groove box 2, the right roller 21 slides on the surface of the rack 1, and the right roller 21 and the right sliding frame 20 are used for slidably supporting the material placing groove box 2, so that reliable sliding support during the operation of the special lifting mechanism is realized, and the up-and-down movement stability of the special lifting mechanism is improved;

the lateral wall of the balancing weight 6 is provided with an upper sliding frame 10, the lateral wall of the balancing weight 6 below the upper sliding frame 10 is provided with a lower sliding frame 17, one side of the upper sliding frame 10 close to the rack 1 is provided with an upper pulley 15, the upper pulley 15 is connected with the rack 1 in a sliding manner, one side of the lower sliding frame 17 close to the rack 1 is provided with a lower pulley 16, the lower pulley 16 is connected with the rack 1 in a sliding manner, the lateral wall of the rack 1 is provided with a control panel 11, and the output end of the control panel 11 is electrically connected with the input end of a rotary driving piece 14;

when the lifting mechanism is used, the upper pulley 15 is connected with the upper carriage 10, the lower pulley 16 is connected with the lower carriage 17, when the balancing weight 6 moves downwards, the upper pulley 15 slides on the surface of the rack 1, the lower pulley 16 slides on the surface of the rack 1, the upper pulley 15 and the upper carriage 10 slide and support the balancing weight 6, the lower pulley 16 and the lower carriage 17 slide and support the balancing weight 6, reliable sliding support during transmission of the special lifting mechanism is achieved, and reliability of structural transmission is improved.

When the embodiment of the application is used: an external power supply, firstly, a rotary driving part 14 is opened through an operation control panel 11, a driving rod 13 is driven to rotate by the rotary driving part 14, a driving chain wheel 5 is driven to rotate by the driving rod 13, a main chain 3 is driven to move by the driving chain wheel 5, a material placing groove box 2 is driven to move upwards by the main chain 3 under the coordination of a first chain wheel 4, a balancing weight 6 moves downwards to carry out gravity support, a driving rod 12 is driven to rotate by the driving chain wheel 5, a driving chain wheel 9 is driven to rotate by the driving rod 12, an auxiliary chain 7 is driven to move by the driving chain wheel 9, the material placing groove box 2 is driven to move upwards by the auxiliary chain 7 under the coordination of a second chain wheel 8, the balancing weight 6 moves downwards to carry out gravity support to drive the material placing groove box 2 to automatically move upwards so as to conveniently drive a titanium alloy bar to move, and is mutually matched with a gradient type gravity blanking material placing mechanism for conveying the titanium alloy bar, to facilitate the lifting movement of the titanium alloy bar after the gravity blanking is completed, then the left side sliding frame 19 is connected with the material placing groove box 2, the left side roller 18 is connected with the left side sliding frame 19, the right side sliding frame 20 is connected with the material placing groove box 2, the right side roller 21 is connected with the right side sliding frame 20, when the material placing groove box 2 moves upwards, the left side roller 18 slides on the surface of the frame 1, the left side roller 18 and the left side sliding frame 19 slide and support the material placing groove box 2, the right side roller 21 slides on the surface of the frame 1, the right side roller 21 and the right side sliding frame 20 slide and support the material placing groove box 2, then the upper pulley 15 is connected with the upper bracket 10, the lower pulley 16 is connected with the lower bracket 17, when the counterweight block 6 moves downwards, the upper pulley 15 slides on the surface of the frame 1, the lower pulley 16 slides on the surface of the frame 1, the counterweight block 6 is slidably supported by the upper pulley 15 and the upper carriage 10, and the counterweight block 6 is slidably supported by the lower pulley 16 and the lower carriage 17, so that the special lifting mechanism is used.

Claims (6)

1. Titanium alloy rod slope formula gravity blanking pendulum material special elevating system of mechanism, including frame (1) and pendulum charging chute case (2), its characterized in that: the inside of frame (1) is equipped with pendulum silo case (2), first sprocket (4) is installed to the inside symmetry of frame (1) of pendulum silo case (2) top, second sprocket (8) is installed to the inside symmetry of frame (1) of first sprocket (4) one side, drive sprocket (9) is installed to the inside symmetry of frame (1) of second sprocket (8) one side, install balancing weight (6) on frame (1) outer wall of drive sprocket (9) below, drive sprocket (5) is installed to the inside symmetry of frame (1) of drive sprocket (9) one side, rotatory driving piece (14) are installed to the inside symmetry of frame (1) of drive sprocket (5) one side, actuating lever (13) are all installed to the output of rotatory driving piece (14), and actuating lever (13) all are connected with drive sprocket (5), drive sprocket (5) keep away from the one end of actuating lever (13) and all install transfer line (12), and transfer line (12) all with drive sprocket (9) fixed connection.

2. The special lifting mechanism for the gradient type gravity blanking and material placing mechanism of the titanium alloy bar as claimed in claim 1, wherein: the surface of first sprocket (4) all is equipped with main chain (3), and the bottom of main chain (3) is connected with pendulum silo case (2), the top of main chain (3) extends to the surface of balancing weight (6) through driving sprocket (5).

3. The special lifting mechanism for the gradient type gravity blanking and material placing mechanism of the titanium alloy bar as claimed in claim 1, wherein: the surface of second sprocket (8) all is equipped with and assists chain (7), and the bottom of assisting chain (7) is connected with pendulum silo case (2), the top of assisting chain (7) extends to the surface of balancing weight (6) through drive sprocket (9).

4. The special lifting mechanism for the gradient type gravity blanking and material placing mechanism of the titanium alloy bar as claimed in claim 1, wherein: put on the lateral wall of material groove case (2) one side all the symmetry and install left side balladeur train (19), left side balladeur train (19) are kept away from one side of putting material groove case (2) and are all installed left side gyro wheel (18), all the symmetry is installed right side balladeur train (20) on the lateral wall of putting material groove case (2) opposite side, right side balladeur train (20) are kept away from one side of putting material groove case (2) and are all installed right side gyro wheel (21).

5. The special lifting mechanism for the gradient type gravity blanking and placing mechanism of the titanium alloy bars according to claim 1, characterized in that: all install on the lateral wall of balancing weight (6) balladeur train (10), all install down balladeur train (17) on balancing weight (6) lateral wall of going up balladeur train (10) below, it all installs upper pulley (15) to go up one side that balladeur train (10) are close to frame (1), one side that lower balladeur train (17) are close to frame (1) all installs lower pulley (16).

6. The special lifting mechanism for the gradient type gravity blanking and material placing mechanism of the titanium alloy bar as claimed in claim 1, wherein: install control panel (11) on the lateral wall of frame (1), the output of control panel (11) and the input electric connection of rotary driving piece (14).

Images