CN105800308A - Device capable of making heating core penetrate into aluminum pipe automatically and suitable for ceramic positive temperature coefficient (PTC) assembly - Google Patents

Abstract

The invention discloses a device capable of making a heating core penetrate into an aluminum pipe automatically and suitable for ceramic positive temperature coefficient (PTC) assembly. The device comprises a grabbing mechanism, a heating core pushing mechanism, a heating core guiding mechanism, an aluminum pipe assembly rack and a finished product conveying belt, wherein the grabbing mechanism, the heating core pushing mechanism, the heating core guiding mechanism, the aluminum pipe assembly rack and the finished product conveying belt are installed on a machine frame. The heating core pushing mechanism, the heating core guiding mechanism, the aluminum pipe assembly rack and the finished product conveying belt are sequentially distributed and installed on the machine frame in the working procedure processing direction of the heating core. The grabbing mechanism is installed above the aluminum pipe assembly rack. The heating core guiding mechanism is located between the outlet end of the heating core pushing mechanism and the inlet end of the aluminum pipe assembly rack and used for pressing a film in the aluminum pipe tightly and guiding the heating core when the heating core is threaded into the aluminum pipe. According to the device capable of making the heating core penetrate into the aluminum pipe automatically and suitable for ceramic PTC assembly, the heating core is made to penetrate into the aluminum pipe automatically through a machine, and the device can be applicable to scale production; and compared with manual feeding, the efficiency is high, continuous operation can be achieved, and the use cost is low.

Description

Heat generating core suitable in ceramic PTC assembling wears aluminum pipe device automatically

Technical field

The present invention relates to a kind of feeder, especially related to a kind of heat generating core suitable in ceramic PTC assembling and automatically worn aluminum pipe device, may replace manual operations and realize the automatization of this technology.

Background technology

Ceramic PTC heater is the heater that a kind of High Efficiency Thermal is evenly distributed, and its heat conductivity is good, hot-face temperature uniform, eliminate focus and the cold spot of equipment.There is the advantages such as life-span length, good heat insulating, strong, corrosion-resistant, the diamagnetic field of mechanical performance.Ceramic PTC electrical heating element is a kind of semiconductor thermistor, the resistance temperature change of this pottery relation in positive temperature coefficient, is widely used in household electrical appliances (especially air-conditioning and electric heater) industry.Core component therein is heat generating core and aluminum pipe, and heat generating core is made up of the row's resistor disc in the middle of two panels strip steel band and steel band, and heat generating core is assemblied in aluminum pipe.Owing to technology needs, having the thin film of winding in aluminum pipe, heat generating core needs to pierce in thin film.This assembling at present is all by manually carrying out, and along with the rising of human cost, the demand of machinery operation starts to highlight.

Summary of the invention

In order to solve Problems existing in background technology, the present invention proposes a kind of heat generating core suitable in ceramic PTC assembling and automatically wears aluminum pipe device.

The technical solution used in the present invention is as follows:

The present invention includes rack-mounted material grabbing mechanism, heat generating core delivery device, heat generating core guiding mechanism, aluminum pipe assembly fixture and product conveying belt, heat generating core delivery device, heat generating core guiding mechanism, aluminum pipe assembly fixture and product conveying belt are arranged successively along heat generating core operation process direction and are arranged in frame, and material grabbing mechanism is arranged on above aluminum pipe assembly fixture.

Described aluminum pipe assembly fixture includes processing, along heat generating core operation, a plurality of aluminum pipe assembling track base that direction parallel interval is uniform, and aluminum pipe assembling track base is equipped with aluminum pipe.

Thin film in aluminum pipe, between the port of export and the arrival end of aluminum pipe assembly fixture of heat generating core delivery device, is compressed, and leads when heat generating core is worn aluminum pipe by described heat generating core guiding mechanism.

Described heat generating core guiding mechanism includes heat generating core assembly fixture, heat generating core guiding horizontal cylinder, heat generating core prerotation vane cylinder, heat generating core directive slide track and heat generating core prerotation vane, heat generating core assembly fixture is horizontally fixed in frame, the frame of heat generating core assembly fixture side is fixed with heat generating core guiding horizontal cylinder and heat generating core directive slide track, the take-off lever of heat generating core guiding horizontal cylinder is connected with heat generating core prerotation vane cylinder fixed mount bottom portion side end, is inserted on heat generating core directive slide track bottom heat generating core prerotation vane cylinder fixed mount；Heat generating core assembly fixture has the delivery chute processing direction along heat generating core operation, delivery chute is equipped with heat generating core, the exit of delivery chute is provided with heat generating core prerotation vane cylinder by heat generating core prerotation vane cylinder fixed mount, and heat generating core prerotation vane cylinder is connected to two panels heat generating core prerotation vane.

The clamping jaw structure that outfan is upper and lower folding of described heat generating core prerotation vane cylinder, jaw top and the bottom connect heat generating core prerotation vane respectively, and two panels heat generating core prerotation vane level is installed.

Described material grabbing mechanism includes material grasping bracing frame, material grasping horizontal air cylinder, material grasping frame top board, the vertical cylinder of material grasping and material grasping frame base plate, material grasping bracing frame is fixed in frame, material grasping horizontal air cylinder is perpendicular to heat generating core operation process direction and is horizontally fixed on material grasping bracing frame, the both sides of material grasping bracing frame end face are provided with the material grasping bracing frame slide rail being perpendicular to heat generating core operation process direction, material grasping frame top board is inserted on material grasping bracing frame slide rail and moves along material grasping bracing frame slide rail, and the take-off lever of material grasping horizontal air cylinder is fixing with material grasping frame top board side to be connected；Material grasping frame top board end face is installed with the vertical cylinder of material grasping, material grasping frame top board is connected with material grasping frame base plate, the take-off lever of the vertical cylinder of material grasping is fixing with material grasping frame base plate after material grasping frame top board down to be connected, the corner of material grasping frame plate top surface is fixedly connected with vertically-mounted material grasping sliding axle, material grasping sliding axle upper end activity traverse material grasping frame top board；Material grasping frame base plate bottom surface is fixed with multiple sucker bars that parallel interval is uniform, and sucker bar bottom surface is fixed with a row and processes the sucker in direction along heat generating core operation.

The quantity of described sucker bar is identical with aluminum pipe assembly fixture quantity.

Described heat generating core delivery device includes heat generating core and pushes frame, heat generating core pushes slide rail, Timing Belt, heat generating core jacking block and heat generating core push motor, heat generating core pushes frame and is fixed in frame, heat generating core pushes frame and is provided with the heat generating core propelling movement slide rail processing direction along heat generating core operation, heat generating core pushes the heat generating core propelling movement frame of slide rail side and is provided with the Timing Belt parallel with heat generating core propelling movement slide rail, Timing Belt connects heat generating core and pushes motor, it is inserted into heat generating core bottom heat generating core jacking block push on slide rail and move along heat generating core propelling movement slide rail, heat generating core jacking block one sidepiece is fixing with Timing Belt to be connected.

Described heat generating core jacking block the other side is right against the arrival end of the heat generating core assembly fixture of described heat generating core guiding mechanism.

The invention has the beneficial effects as follows:

The present invention makes heat generating core automatically wear aluminum pipe by machine to be applicable to large-scale production, compare artificial feeding, and efficiency is high, can unremitting operation, use cost is low.

Accompanying drawing explanation

Fig. 1 is the overall structure figure of the present invention.

Fig. 2 is the side view of the present invention.

Fig. 3 is the material grabbing mechanism overall structure figure of the present invention.

Fig. 4 is the material grabbing mechanism side view of the present invention.

Fig. 5 is the heat generating core delivery device overall structure figure of the present invention.

Fig. 6 is the heat generating core delivery device side view of the present invention.

Fig. 7 is the heat generating core delivery mechanism overall structure figure of the present invention.

Fig. 8 is the heat generating core delivery mechanical details overall structure figure of the present invention.

Fig. 9 is the heat generating core graphics of the present invention.

In figure: 1, frame, 2, material grasping bracing frame, 3, material grasping bracing frame slide rail, 4, material grasping horizontal air cylinder, 5, material grasping frame top board, 6, the vertical cylinder of material grasping, 7, material grasping sliding axle, 8, material grasping frame base plate, 9, sucker bar, 10, sucker, 11, aluminum pipe assembly fixture, 12, heat generating core assembly fixture, 13, heat generating core pushes frame, 14, heat generating core pushes slide rail, 15, Timing Belt, 16, heat generating core jacking block, 17, heat generating core pushes motor, 18, product conveying belt, 19, heat generating core, 20, guiding horizontal cylinder, 21, prerotation vane cylinder, 22, heat generating core prerotation vane, 23, aluminum pipe, 24, thin film.

Detailed description of the invention

Below in conjunction with accompanying drawing and instantiation, the present invention is further described:

As depicted in figs. 1 and 2, the present invention includes the material grabbing mechanism, heat generating core delivery device, heat generating core guiding mechanism, aluminum pipe assembly fixture 11 and the product conveying belt 18 that are arranged in frame 1, heat generating core delivery device, heat generating core guiding mechanism, aluminum pipe assembly fixture 11 and product conveying belt 18 are arranged successively along heat generating core operation process direction and are arranged in frame 1, and material grabbing mechanism is arranged on above aluminum pipe assembly fixture 11.

Aluminum pipe assembly fixture 11 includes processing, along heat generating core operation, a plurality of aluminum pipe assembling track base that direction parallel interval is uniform, and aluminum pipe assembling track base is equipped with aluminum pipe.The track base that wherein an aluminum pipe assembling track base processes as operation, has coordinated heat generating core automatically to wear aluminum pipe with heat generating core delivery device, heat generating core guiding mechanism.As depicted in figs. 1 and 2, having three track bases, the track base processed for operation of the leftmost side, the rightmost side is the interim track base placing aluminum pipe, and middle is the track base for other operations.

The heat generating core guiding mechanism of the present invention is between the port of export and the arrival end of aluminum pipe assembly fixture 11 of heat generating core delivery device, thin film in aluminum pipe is compressed, and lead when heat generating core is worn aluminum pipe, the heat generating core of the present invention is as shown in Figure 9, its tip need to penetrate aluminum pipe, aluminum pipe inwall tunica has thin film, and heat generating core tip is nested in thin film by apparatus of the present invention so that thin film is between heat generating core and aluminum pipe.

As shown in FIG. 7 and 8, heat generating core guiding mechanism includes heat generating core assembly fixture 12, heat generating core guiding horizontal cylinder 20, heat generating core prerotation vane cylinder 21, heat generating core directive slide track and heat generating core prerotation vane 22, heat generating core assembly fixture 12 is horizontally fixed in frame 1, the frame 1 of heat generating core assembly fixture 12 side is fixed with heat generating core guiding horizontal cylinder 20 and heat generating core directive slide track, the take-off lever of heat generating core guiding horizontal cylinder 20 is connected with heat generating core prerotation vane cylinder fixed mount bottom portion side end, is inserted on heat generating core directive slide track bottom heat generating core prerotation vane cylinder fixed mount；Heat generating core assembly fixture 12 has the delivery chute processing direction along heat generating core operation, delivery chute is equipped with heat generating core, the exit of delivery chute is provided with heat generating core prerotation vane cylinder 21 by heat generating core prerotation vane cylinder fixed mount, and heat generating core prerotation vane cylinder 21 is connected to two panels heat generating core prerotation vane 22.

The clamping jaw structure that outfan is upper and lower folding of heat generating core prerotation vane cylinder 21, jaw top and the bottom connect heat generating core prerotation vane 22 respectively, two panels heat generating core prerotation vane 22 level is installed, one end of heat generating core prerotation vane 22 aligns with the aluminum pipe mouth on aluminum pipe assembly fixture 11, and the other end aligns with the heat generating core on delivery chute.

As shown in Figure 3 and Figure 4, material grabbing mechanism includes material grasping bracing frame 2, material grasping horizontal air cylinder 4, material grasping frame top board 5, the vertical cylinder 6 of material grasping and material grasping frame base plate 8, material grasping bracing frame 2 is fixed in frame 1, material grasping horizontal air cylinder 4 is perpendicular to heat generating core operation process direction and is horizontally fixed on material grasping bracing frame 2, the both sides of material grasping bracing frame 2 end face are provided with the material grasping bracing frame slide rail 3 being perpendicular to heat generating core operation process direction, material grasping frame top board 5 is inserted on material grasping bracing frame slide rail 3 and moves along material grasping bracing frame slide rail 3, the take-off lever of material grasping horizontal air cylinder 4 is fixing with material grasping frame top board 5 side to be connected, the take-off lever of material grasping horizontal air cylinder 4 promotes and drives material grasping frame top board 5 to move along material grasping bracing frame slide rail 3.

Material grasping frame top board 5 end face is installed with the vertical cylinder 6 of material grasping, material grasping frame top board 5 is connected with material grasping frame base plate 8, the take-off lever of the vertical cylinder 6 of material grasping is fixing with material grasping frame base plate 8 after material grasping frame top board 5 down to be connected, the corner of material grasping frame base plate 8 end face is fixedly connected with vertically-mounted material grasping sliding axle 7, material grasping sliding axle 7 upper end activity traverse material grasping frame top board 5 so that material grasping frame base plate 8 moves up and down with material grasping sliding axle 7 for guiding under the vertical cylinder 6 of material grasping drives；

Material grasping frame base plate 8 bottom surface is fixed with three sucker bars 9 that parallel interval is uniform, and sucker bar 9 processes direction along heat generating core operation, and sucker bar 9 bottom surface is fixed with a row and processes the sucker 10 in direction along heat generating core operation.

nullAs illustrated in Figures 5 and 6，Heat generating core delivery device includes heat generating core and pushes frame 13、Heat generating core pushes slide rail 14、Timing Belt 15、Heat generating core jacking block 16 and heat generating core push motor 17，Heat generating core pushes frame 13 and is fixed in frame 1，Heat generating core pushes frame 13 and is provided with the heat generating core propelling movement slide rail 14 processing direction along heat generating core operation，Heat generating core pushes the heat generating core propelling movement frame 13 of slide rail 14 side and is provided with the Timing Belt 15 parallel with heat generating core propelling movement slide rail 14，Timing Belt 15 connects heat generating core and pushes motor 17，Timing Belt 15 is pushed motor 17 by heat generating core and drives drive，It is inserted into heat generating core bottom heat generating core jacking block 16 push on slide rail 14 and move along heat generating core propelling movement slide rail 14，Heat generating core jacking block 16 1 sidepiece is fixing with Timing Belt 15 to be connected，Heat generating core jacking block 16 the other side is right against the arrival end of the heat generating core assembly fixture 12 of heat generating core guiding mechanism，Drive heat generating core jacking block 16 to push slide rail 14 along heat generating core under Timing Belt 15 moves to move.

Product conveying belt 18 be positioned at heat generating core guiding mechanism just to aluminum pipe assembly fixture 11 operation process aluminum pipe assembling track base side, heat generating core is placed on after automatically wearing aluminum pipe on the aluminum pipe assembling track base that aluminum pipe assembly fixture 11 operation processes, then is placed on product conveying belt 18 by material grabbing mechanism crawl.

Specific embodiment of the invention process is:

As shown in Figure 2, the lower section of material grasping bracing frame 2 is fixed with three aluminum pipe assembling track bases, it is distributed as the first station, the second station and the 3rd station from right to left, first station is used for aluminum pipe feeding machanism feeding operation, second station is used for aluminum pipe thin film poling operation, 3rd station is used for heat generating core poling operation, and the present invention mainly uses the 3rd station to carry out heat generating core poling operation.

Material grasping horizontal air cylinder 4 works and material grabbing mechanism is pushed to low order end, now, three row's suckers and three aluminum pipe assembling track bases below sucker bar 9 are vertically aligned, the vertical cylinder 6 of material grasping works and is pressed on the aluminum pipe 23 on aluminum pipe assembly fixture 11 by sucker 10, and sucker 10 holds after aluminum pipe 23 under the drive of the vertical cylinder 6 of material grasping and moves.Material grabbing mechanism is moved left a station distance by material grasping horizontal air cylinder 4, now the sucker 10 of low order end aligns with middle aluminum pipe assembling track base, the vertical cylinder 6 of material grasping works and is moved down on the second station being disposed below by the aluminum pipe on sucker 10, completes the aluminum pipe of the second station operation and moves again through the vertical cylinder 6 of material grasping horizontal air cylinder 4 and material grasping and be placed on the 3rd station and carry out heat generating core poling operation.

Heat generating core delivery device and heat generating core guiding mechanism are started working, owing to there being the thin film 24 of winding in aluminum pipe 23, for ensureing in the thin film 24 that heat generating core 19 pierces into aluminum pipe 23, the work of heat generating core prerotation vane cylinder 21 drives upper and lower two heat generating core prerotation vanes 22 to close up, heat generating core prerotation vane 22 is put in the thin film 24 of aluminum pipe by the work of heat generating core guiding horizontal cylinder 20, and heat generating core prerotation vane cylinder 21 works and opens and make, by upper and lower two heat generating core prerotation vanes 22, the inwall up and down that the thin film in aluminum pipe is adjacent in aluminum pipe 23 pipe.

The finished product completing the 3rd station is placed on conveyer belt 18 and transfers out, heat generating core pushes motor 17 work and drives Timing Belt 15 to move, the heat generating core jacking block 16 being fixed on Timing Belt 15 moves along the delivery chute in heat generating core assembly fixture 12 to aluminum pipe assembly fixture 11 direction, heat generating core jacking block 16 pushes the heat generating core 19 being placed in delivery chute and moves, until heat generating core 19 all pierces in aluminum pipe 23, now it is enclosed with the thin film 24 of winding two circle half outside heat generating core 19, is aluminum pipe 23 outside thin film 24.Repeat the above steps, can complete high-volume heat generating core and wear the automated job of aluminum pipe.

Thus, the present invention achieves heat generating core by machine and automatically wears the automated job of aluminum pipe, and efficiency is high, can unremitting operation, industrialized production manufacture can be carried out.

Claims (9)

1. the heat generating core being applicable to ceramic PTC assembling wears aluminum pipe device automatically, it is characterised in that:

The present invention includes the material grabbing mechanism, heat generating core delivery device, heat generating core guiding mechanism, aluminum pipe assembly fixture (11) and the product conveying belt (18) that are arranged in frame (1), heat generating core delivery device, heat generating core guiding mechanism, aluminum pipe assembly fixture (11) and product conveying belt (18) are arranged successively along heat generating core operation process direction and are arranged in frame (1), and material grabbing mechanism is arranged on aluminum pipe assembly fixture (11) top.

2. a kind of heat generating core suitable in ceramic PTC assembling according to claim 1 wears aluminum pipe device automatically, it is characterized in that: described aluminum pipe assembly fixture (11) includes processing, along heat generating core operation, a plurality of aluminum pipe assembling track base that direction parallel interval is uniform, and aluminum pipe assembling track base is equipped with aluminum pipe.

3. a kind of heat generating core suitable in ceramic PTC assembling according to claim 1 wears aluminum pipe device automatically, it is characterized in that: described heat generating core guiding mechanism is positioned between the port of export of heat generating core delivery device and the arrival end of aluminum pipe assembly fixture (11), thin film in aluminum pipe is compressed, and leads when heat generating core is worn aluminum pipe.

4. a kind of heat generating core suitable in ceramic PTC assembling according to claim 1 or 3 wears aluminum pipe device automatically, it is characterized in that: described heat generating core guiding mechanism includes heat generating core assembly fixture (12), heat generating core guiding horizontal cylinder (20), heat generating core prerotation vane cylinder (21), heat generating core directive slide track and heat generating core prerotation vane (22), heat generating core assembly fixture (12) is horizontally fixed in frame (1), the frame (1) of heat generating core assembly fixture (12) side is fixed with heat generating core guiding horizontal cylinder (20) and heat generating core directive slide track, the take-off lever of heat generating core guiding horizontal cylinder (20) is connected with heat generating core prerotation vane cylinder fixed mount bottom portion side end, it is inserted on heat generating core directive slide track bottom heat generating core prerotation vane cylinder fixed mount；Heat generating core assembly fixture (12) has the delivery chute processing direction along heat generating core operation, delivery chute is equipped with heat generating core, the exit of delivery chute is provided with heat generating core prerotation vane cylinder (21) by heat generating core prerotation vane cylinder fixed mount, and heat generating core prerotation vane cylinder (21) is connected to two panels heat generating core prerotation vane (22).

5. a kind of heat generating core suitable in ceramic PTC assembling according to claim 4 wears aluminum pipe device automatically, it is characterized in that: the clamping jaw structure that outfan is upper and lower folding of described heat generating core prerotation vane cylinder (21), jaw top and the bottom connect heat generating core prerotation vane (22) respectively, and two panels heat generating core prerotation vane (22) level is installed.

6. a kind of heat generating core suitable in ceramic PTC assembling according to claim 1 wears aluminum pipe device automatically, it is characterized in that: described material grabbing mechanism includes material grasping bracing frame (2), material grasping horizontal air cylinder (4), material grasping frame top board (5), the vertical cylinder of material grasping (6) and material grasping frame base plate (8), material grasping bracing frame (2) is fixed in frame (1), material grasping horizontal air cylinder (4) is perpendicular to heat generating core operation process direction and is horizontally fixed on material grasping bracing frame (2), the both sides of material grasping bracing frame (2) end face are provided with material grasping bracing frame slide rail (3) being perpendicular to heat generating core operation process direction, it is upper and mobile along material grasping bracing frame slide rail (3) that material grasping frame top board (5) is inserted into material grasping bracing frame slide rail (3), the take-off lever of material grasping horizontal air cylinder (4) is fixing with material grasping frame top board (5) side to be connected；

Material grasping frame top board (5) end face is installed with the vertical cylinder of material grasping (6), material grasping frame top board (5) is connected with material grasping frame base plate (8), the take-off lever of the vertical cylinder of material grasping (6) is connected through material grasping frame top board (5) is fixing with material grasping frame base plate (8) afterwards down, the corner of material grasping frame base plate (8) end face is fixedly connected with vertically-mounted material grasping sliding axle (7), material grasping sliding axle (7) upper end activity traverse material grasping frame top board (5)；

Material grasping frame base plate (8) bottom surface is fixed with multiple sucker bars (9) that parallel interval is uniform, and sucker bar (9) bottom surface is fixed with a row and processes the sucker (10) in direction along heat generating core operation.

7. a kind of heat generating core suitable in ceramic PTC assembling according to claim 1 wears aluminum pipe device automatically, it is characterised in that: the quantity of described sucker bar (9) is identical with aluminum pipe assembly fixture (11) quantity.

8. a kind of heat generating core suitable in ceramic PTC assembling according to claim 1 wears aluminum pipe device automatically, it is characterized in that: described heat generating core delivery device includes heat generating core and pushes frame (13), heat generating core propelling movement slide rail (14), Timing Belt (15), heat generating core jacking block (16) and heat generating core propelling movement motor (17)

Heat generating core pushes frame (13) and is fixed in frame (1), heat generating core pushes frame (13) and is provided with heat generating core propelling movement slide rail (14) processing direction along heat generating core operation, heat generating core pushes heat generating core propelling movement frame (13) of slide rail (14) side and is provided with the Timing Belt (15) parallel with heat generating core propelling movement slide rail (14), Timing Belt (15) connects heat generating core and pushes motor (17), it is upper and mobile along heat generating core propelling movement slide rail (14) that heat generating core jacking block (16) bottom is inserted into heat generating core propelling movement slide rail (14), heat generating core jacking block (16) one sidepiece is fixing with Timing Belt (15) to be connected.

9. a kind of heat generating core suitable in ceramic PTC assembling according to claim 8 wears aluminum pipe device automatically, it is characterised in that: described heat generating core jacking block (16) the other side is right against the arrival end of the heat generating core assembly fixture (12) of described heat generating core guiding mechanism.