CN218656400U

CN218656400U - Bimetal forming equipment

Info

Publication number: CN218656400U
Application number: CN202221523258.6U
Authority: CN
Inventors: 谢建宏; 杨洲; 梅浩; 赵旻晟; 曹蒙
Original assignee: Suzhou New Vision Automation Technology Co ltd
Current assignee: Suzhou New Vision Automation Technology Co ltd
Priority date: 2022-06-17
Filing date: 2022-06-17
Publication date: 2023-03-21
Anticipated expiration: 2032-06-17

Abstract

The utility model relates to a bimetal former technical field discloses bimetal former, and it includes the equipment lower frame, equipment lower frame upper end fixed mounting has equipment mechanism part, equipment mechanism part upper end fixed mounting has frame on the equipment, frame upper end fixed mounting has the three-colour pilot lamp on the equipment, equipment mechanism part front end fixed mounting has display, button control panel and 10 cun touch-sensitive screens, and 10 cun touch-sensitive screens are located the display right side, and button control panel is located the display below. The utility model provides the high efficiency of production has reduced the hand labor power, and the security is high, environmental protection more.

Description

Bimetal forming equipment

Technical Field

The utility model relates to a bimetal former technical field especially relates to bimetal former.

Background

With the rapid development of the industrial automation industry, the demand of the automatic sheet metal forming equipment is greatly increased in order to meet the requirements of safe and efficient production of industrial equipment. At present, industrial equipment also has a plurality of molding modes which adopt low manual or automatic degree, the mode not only reduces the production efficiency, but also has lower safety, and then the bimetallic molding equipment is provided.

SUMMERY OF THE UTILITY MODEL

The utility model provides a bimetal former has solved the problem in the background art. In order to achieve the above purpose, the utility model adopts the following technical scheme:

the bimetal forming equipment comprises an equipment lower rack, wherein an equipment mechanism part is fixedly mounted at the upper end of the equipment lower rack, an equipment upper rack is fixedly mounted at the upper end of the equipment mechanism part, a three-color indicator lamp is fixedly mounted at the upper end of the equipment upper rack, a display, a button control panel and a 10-inch touch screen are fixedly mounted at the front end of the equipment mechanism part, the 10-inch touch screen is positioned on the right side of the display, and the button control panel is positioned below the display; equipment lower frame front end fixed mounting has air supply bi-component and master power supply control panel, the air supply bi-component is located master power supply control panel left side, equipment mechanism part internally mounted has bimetallic strip correctional agency, bimetallic strip positive and negative detection machine, bimetallic strip feeding mechanism, bimetallic strip cutting mechanism, bimetallic strip bender mechanism, bimetallic strip shaping Y axle mechanism, bimetallic strip shaping X axle mechanism, electromagnetism valves and manipulator feeding mechanism, bimetallic strip correctional agency left end runs through in equipment mechanism part to extend to equipment mechanism part left side.

Preferably, bimetallic strip feeding mechanism includes bimetallic strip pay-off module and bimetallic strip positive and negative detection light source, bimetallic strip pay-off module rear end fixed mounting has first bimetallic strip to compress tightly the cylinder, fixed mounting has detection sensor and bimetallic strip to lead positive piece on the bimetallic strip pay-off module, bimetallic strip pay-off module upper end, and be located first bimetallic strip and compress tightly cylinder left side position fixed mounting and have a plurality of bimetallic strip correction wheels, it is a plurality of the elasticity adjusting bolt is all installed to bimetallic strip correction wheel rear end, it is a plurality of be provided with the bimetallic strip raw materials between the bimetallic strip correction wheel, and bimetallic strip raw materials right-hand member passes a plurality of bimetallic strip correction wheels, bimetallic strip guide positive piece and detection sensor in proper order to be connected with bimetallic strip pay-off module, bimetallic strip positive and negative detection light source fixed mounting is in the inside bottom of equipment mechanism part to be located bimetallic strip pay-off module rear side, bimetallic strip pay-off module upper end fixed mounting has the bimetallic strip detection camera.

Preferably, the bimetallic strip cutting mechanism comprises a cutting cylinder and a second bimetallic strip pressing cylinder, the cutting cylinder is fixedly installed at the bottom end inside the equipment mechanism part, the output end of the cutting cylinder is fixedly connected with a cutter, and the second bimetallic strip pressing cylinder is fixedly installed at the bottom end inside the equipment mechanism part and is positioned right in front of the cutter; the bimetallic strip bending machine mechanism comprises a bimetallic strip bending servo, the bimetallic strip bending servo is fixedly installed at the bottom end inside the equipment mechanism part and located at the right side position of the cutting cylinder, and a bimetallic strip bending servo output shaft is fixedly connected with a sliding rail through a coupler.

Preferably, bimetallic strip shaping X axle mechanism includes bimetallic strip shaping X axle, bimetallic strip shaping X axle passes through branch fixed mounting in the inside bottom of equipment mechanism part, bimetallic strip shaping X epaxial fixed mounting has bimetallic strip shaping clamping jaw cylinder and bimetallic strip shaping upper and lower cylinder, bimetallic strip shaping rolling axis is installed to bimetallic strip shaping clamping jaw cylinder output, the inside bottom of equipment mechanism part, and be located bimetallic strip shaping X axle below position fixed mounting have bimetallic strip shaping Y axle, bimetallic strip shaping positioning jig is installed to bimetallic strip shaping Y axle upper end, electromagnetic valves and concentrator module are installed to the inside bottom of equipment mechanism part and be located bimetallic strip shaping positioning jig side position.

Preferably, the lower end of the lower frame of the equipment is fixedly provided with a foot cup and a 60-Freund horse wheel.

Preferably, the manipulator taking mechanism comprises a four-axis manipulator, a bimetallic strip forming size detection camera, an OK material box and an NG material box, the four-axis manipulator, the bimetallic strip forming size detection camera, the OK material box and the NG material box are fixedly mounted at the bottom end inside the equipment mechanism part, a bimetallic strip taking clamping jaw cylinder is fixedly mounted at the right end of the four-axis manipulator, the OK material box and the NG material box are located under the bimetallic strip taking clamping jaw cylinder, and a bimetallic strip forming size detection light source is fixedly mounted at the upper end of the bimetallic strip forming size detection camera.

Preferably, a bimetallic strip forming die is fixedly mounted at the bottom end inside the equipment mechanism part, a product is fixedly mounted at the upper end of the bimetallic strip forming die, and bimetallic strip forming pressing cylinders are fixedly mounted at the rear end of the bimetallic strip forming die at equal intervals.

Preferably, the manufacturing material of the upper frame of the equipment is 40 × 40 european standard aluminum profile, and the manufacturing material of the upper frame of the equipment is 60 × 60 square steel.

The utility model has the advantages that:

1) The yield, the quality, the precision, the efficiency, the safety and the service life are improved;

2) Energy consumption, raw materials, working procedures and manpower are saved;

3) The processing, operation, control, use and maintenance are simple and convenient;

4) Energy conservation and emission reduction, environmental pollution treatment and life health guarantee;

5) The emergence of useful properties; the utility model discloses adopted unloading, automatic correction and automatic molding's mode in the automation for traditional bimetal shaping mode, improved the efficiency of production on the whole, reduced hand labor power. The utility model discloses automatic mechanism has improved the operational safety among the technical scheme. To the automation trade, the utility model discloses technical scheme provides automatic molding's scheme for the sheetmetal shaping.

Drawings

Fig. 1 is a schematic structural view of the bimetal forming apparatus provided by the present invention.

Fig. 2 is a partial structural plan view of the mechanism part in the bimetal forming apparatus provided by the present invention.

Fig. 3 is a schematic structural view of a bimetallic strip feeding mechanism in the bimetallic forming device of the present invention.

Fig. 4 is a schematic structural diagram of the bimetallic strip cutting mechanism and the bimetallic strip bending machine mechanism in the bimetallic forming device provided by the present invention.

Fig. 5 is a schematic structural diagram of a bimetallic strip forming X-axis mechanism in the bimetallic forming device provided by the present invention.

Fig. 6 is a schematic view of a partial structure of a double-metal-sheet forming Y-axis mechanism in the double-metal forming apparatus of the present invention.

Fig. 7 is the utility model provides a manipulator feeding agencies's among bimetal former block diagram.

Fig. 8 is a schematic structural diagram of a bimetallic strip forming die in a bimetallic forming device provided by the present invention.

The reference numbers in the figures: 01 upper frame of equipment, 02 display, 03 mechanism part of equipment, 04 lower frame of equipment, 05 air source duplex piece, 06 three-color indicator light, 0710 inch touch screen, 08 total power control panel, 09 foot cup, 10 bimetallic strip correcting mechanism, 11 bimetallic strip front and back side detector, 12 bimetallic strip feeding mechanism, 13 bimetallic strip cutting mechanism, 14 bimetallic strip bending mechanism, 15 bimetallic strip forming Y-axis mechanism, 16 bimetallic strip forming X-axis mechanism, 17 electromagnetic valve set, 18 manipulator material taking mechanism, 19 bimetallic strip raw material, 20 bimetallic strip correcting wheel, 21 elasticity adjusting bolt, 22 bimetallic strip guiding block, 23 bimetallic strip front and back side detecting light source, 24 bimetallic strip front and back side detecting camera, 25 detecting sensor, 26 first bimetallic strip pressing cylinder, 27 bimetallic strip feeding module, 28 cutting cylinder, 29 cutter, 30 second bimetallic strip pressing cylinder, 31 bimetallic strip bending servo, 32, 33 slide rail, 34 bimetallic strip forming positioning fixture, 35 bimetallic strip forming Y-axis, 36 strip forming X-axis, 37 strip forming cylinder, 37 cutter, 30 second bimetallic strip pressing cylinder, 31 bimetallic strip pressing servo cylinder, 31 bimetallic strip bending servo, 48 NG clamping jaw forming cylinder, 48 strip pressing cylinder, 48 strip forming module, 48 strip pressing servo-type detecting module, 48 strip pressing module, and the size of bimetallic strip pressing module.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1 to 8, the bimetal forming device comprises a device lower frame 04, a device mechanism part 03 is fixedly mounted at the upper end of the device lower frame 04, a device upper frame 01 is fixedly mounted at the upper end of the device mechanism part 03, a three-color indicator lamp 06 is fixedly mounted at the upper end of the device upper frame 01, a display 02, a button control panel and a 10-inch touch screen 07 are fixedly mounted at the front end of the device mechanism part 03, the 10-inch touch screen 07 is positioned on the right side of the display 02, and the button control panel is positioned below the display 02; the front end of the lower rack 04 of the equipment is fixedly provided with an air source duplex part 05 and a main power control panel 08, the air source duplex part 05 is positioned on the left side of the main power control panel 08, a bimetallic strip correcting mechanism 10 is arranged inside a mechanism part 03 of the equipment, a positive and negative detector 11 of a bimetallic strip, a bimetallic strip feeding mechanism 12, a bimetallic strip cutting mechanism 13, a bimetallic strip bending mechanism 14, a bimetallic strip forming Y-axis mechanism 15, a bimetallic strip forming X-axis mechanism 16, an electromagnetic valve group 17 and a manipulator material taking mechanism 18, and the left end of the bimetallic strip correcting mechanism 10 penetrates through the mechanism part 03 of the equipment and extends to the left side of the mechanism part 03 of the equipment.

In this embodiment, the bimetallic strip feeding mechanism 12 includes a bimetallic strip feeding module 27 and a bimetallic strip front and back detection light source 23, a first and a second bimetallic strip pressing cylinder 6 are fixedly installed at the rear end of the bimetallic strip feeding module 27, a detection sensor 25 and a bimetallic strip guide block 22 are fixedly installed on the bimetallic strip feeding module 27, the upper end of the bimetallic strip feeding module 27 is fixedly installed at the left side of the first and second bimetallic strip pressing cylinder 6, a plurality of bimetallic strip correcting wheels 20 are fixedly installed at the rear ends of the bimetallic strip correcting wheels 20, a tension adjusting bolt 21 is installed at the rear end of each bimetallic strip correcting wheel 20, a bimetallic strip raw material 19 is arranged between the bimetallic strip correcting wheels 20, the right end of the bimetallic strip raw material 19 sequentially penetrates through the bimetallic strip correcting wheels 20, the bimetallic strip guide block 22 and the detection sensor 25 and is connected with the bimetallic strip feeding module 27, the bimetallic strip front and back detection light source 23 is fixedly installed at the inner bottom end of the equipment mechanism part 03 and is located at the rear side of the bimetallic strip feeding module 27, and the front and back detection camera 24 is fixedly installed at the upper end of the bimetallic strip feeding module 27.

The bimetallic strip cutting mechanism 13 comprises a cutting cylinder 28 and a second bimetallic strip pressing cylinder 30, the cutting cylinder 28 is fixedly installed at the bottom end inside the equipment mechanism part 03, the output end of the cutting cylinder 28 is fixedly connected with a cutting knife 29, and the second bimetallic strip pressing cylinder 30 is fixedly installed at the bottom end inside the equipment mechanism part 03 and is located right in front of the cutting knife 29; the bimetallic strip bending machine mechanism 14 comprises a bimetallic strip bending servo 31, the bimetallic strip bending servo 31 is fixedly installed at the bottom end inside the equipment mechanism part 03 and located at the right side position of the cutting cylinder 28, and an output shaft of the bimetallic strip bending servo 31 is fixedly connected with a sliding rail 33 through a coupler 32. The bimetallic strip forming X-axis mechanism 16 comprises a bimetallic strip forming X-axis 36, the bimetallic strip forming X-axis 36 is fixedly installed at the bottom end inside the equipment mechanism part 03 through a support rod, a bimetallic strip forming clamping jaw cylinder 37 and a bimetallic strip forming upper and lower cylinder 38 are fixedly installed on the bimetallic strip forming X-axis 36, a bimetallic strip forming rolling shaft 47 is installed at the output end of the bimetallic strip forming clamping jaw cylinder 37, the bottom end inside the equipment mechanism part 03 is located and is located on the bimetallic strip forming X-axis 36

Below position fixed mounting has bimetallic strip shaping Y axle 35, and bimetallic strip shaping positioning jig 34 is installed to bimetallic strip shaping Y axle 35 upper end, and solenoid valve 17 and concentrator module 39 are installed to the inside bottom of equipment mechanism part 03 and be located bimetallic strip shaping positioning jig 34 side end position.

The lower end of the lower frame 04 of the equipment is fixedly provided with a foot cup 09 and a 60-horse wheel.

The manipulator material taking mechanism 18 comprises a four-shaft manipulator 40, a bimetallic strip forming size detection camera 42, an OK material box 48 and an NG material box 49, wherein the four-shaft manipulator 40, the bimetallic strip forming size detection camera 42, the OK material box 48 and the NG material box 49 are all fixedly arranged at the bottom end inside the equipment mechanism part 03, a bimetallic strip material taking clamping jaw cylinder 43 is fixedly arranged at the right end of the four-shaft manipulator 40, the OK material box 48 and the NG material box 49 are located right below the bimetallic strip material taking clamping jaw cylinder 43, and a bimetallic strip forming size detection light source 41 is fixedly arranged at the upper end of the bimetallic strip forming size detection camera 42.

The inside bottom fixed mounting of equipment mechanism part 03 has bimetallic strip forming die 45, and bimetallic strip forming die 45 upper end fixed mounting has product 46, and bimetallic strip forming die 45 rear end equidistance fixed mounting has bimetallic strip shaping to compress tightly cylinder 44.

The manufacturing material of the upper frame 01 of the equipment is 40 × 40 European standard aluminum profile, and the manufacturing material of the upper frame 01 of the equipment is 60 × 60 square steel.

The working principle is as follows: fig. 2 shows the principle of a bimetallic strip mechanism, namely, bimetallic strip feeding is carried out by the bimetallic strip feeding mechanism 12 shown in fig. 3 to obtain the length of a product to be formed, and then the bimetallic strip feeding flows to the bimetallic strip cutting mechanism 13 shown in fig. 4 and the bimetallic strip bending machine mechanism 14 to obtain a bent and cut part; then the bimetallic strip taking mechanism in the figure 7 operates to grab parts and place the parts on the bimetallic strip forming mechanism in the figure 5 to go upward for final forming; then the bimetallic strip taking mechanism shown in fig. 7 operates again to grab the formed parts and take pictures to identify whether the formed parts meet the requirements or not, qualified parts are placed into the OK material box 48, and unqualified parts are placed into the NG material box 49.

Fig. 3 bimetallic strip feed mechanism 12: the bimetallic strip raw material 19 passes through a bimetallic strip correcting wheel 20 and a correcting module matched with a tightness adjusting bolt 21 and then passes through a bimetallic strip correcting block 22, a detection sensor 25 and a first bimetallic strip pressing cylinder 6, and a front and back detection camera 24 of the bimetallic strip identifies whether the direction of a penetrating part is correct.

Fig. 4 illustrates the bimetal cutting mechanism 13 and the bimetal bending machine mechanism 14: the bimetallic strip raw material 19 passes through the bimetallic strip feeding mechanism 12 shown in fig. 3 and then passes through the cutter 29, and the bimetallic strip raw material 19 is pressed by the second bimetallic strip pressing cylinder 30; the first and second bimetallic strip pressing cylinders 6 act to stretch out and press the bimetallic strip raw material 19, the second bimetallic strip pressing cylinder 30 loosens the bimetallic strip raw material 19, then the bimetallic strip feeding module 27 acts to convey the length of the manufactured product, which needs to be bent, to the length required by bending, and the bimetallic strip bending servo 31 acts to complete the bending process; the second bimetallic strip is then compressed by the compression cylinder 30 and the severing cylinder 28 is actuated to sever the bimetallic strip.

Fig. 7 bi-metallic strip take off mechanism: the four-axis manipulator 40 drives the bimetallic strip taking clamping jaw cylinder 43 to move to the bimetallic strip cutting position, and after the bimetallic strip taking clamping jaw cylinder 43 acts to clamp the bimetallic strip, the four-axis manipulator 40 continues to act to place the bimetallic strip on a bimetallic strip forming die 45 block in a bimetallic strip forming die 45 shown in the figure 8; then the bimetallic strip forming and pressing cylinder 44 acts to press the bimetallic strip, the bimetallic strip material taking clamping jaw cylinder 43 is loosened, and the four-shaft mechanical arm 40 moves to a safe position to wait.

Fig. 5 bimetal forming mechanism: the movement of the bimetallic strip forming X-axis 36 is moved to the position above the corresponding bimetallic strip forming die 45, then the bimetallic strip forming upper and lower cylinders 38 extend out, and the bimetallic strip forming clamping jaw cylinder 37 is closed; then the bimetallic strip forming Y-axis 35 acts, the bimetallic strip which is well pressed in advance is firstly contacted with the bimetallic strip forming rolling shaft 47, and then the bimetallic strip is slowly rolled and formed along the bimetallic strip forming die 45; then the four-axis manipulator 40 drives the bimetallic strip taking clamping jaw cylinder 43 to move to clamp the formed part, then the part is moved to the position above the bimetallic strip forming size detection camera 42 to detect and judge the size of the formed product, then the qualified part is placed into an OK material box 48, and the unqualified part is placed into an NG material box 49.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise. The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. Bimetal former, including equipment lower rack (04), its characterized in that, equipment mechanism part (03) is fixed mounting to equipment lower rack (04) upper end, equipment mechanism part (03) upper end fixed mounting has frame (01) on the equipment, frame (01) upper end fixed mounting has three-colour pilot lamp (06) on the equipment, equipment mechanism part (03) front end fixed mounting has display (02), button control panel and 10 cun touch-sensitive screen (07), and 10 cun touch-sensitive screen (07) are located display (02) right side, and button control panel is located display (02) below;

frame (04) front end fixed mounting has air supply dual union piece (05) and total power supply control panel (08) under the equipment, air supply dual union piece (05) are located total power supply control panel (08) left side, equipment mechanism part (03) internally mounted has bimetallic strip correctional agency (10), bimetallic strip positive and negative detection machine (11), bimetallic strip feeding mechanism (12), bimetallic strip cutting mechanism (13), bimetallic strip bender mechanism (14), bimetallic strip shaping Y axle mechanism (15), bimetallic strip shaping X axle mechanism (16), electromagnetism valves (17) and manipulator feeding agencies (18), bimetallic strip correctional agency (10) left end runs through in equipment mechanism part (03) to extend to equipment mechanism part (03) left side.

2. The bimetal forming equipment of claim 1, characterized in that, bimetal feeding mechanism (12) include bimetal pay-off module (27) and bimetal positive and negative detection light source (23), bimetal pay-off module (27) rear end fixed mounting has first bimetal to compress tightly cylinder (26), fixed mounting has detection sensor (25) and bimetal to lead positive piece (22) on bimetal pay-off module (27), bimetal pay-off module (27) upper end, and is located first bimetal and compresses tightly cylinder (26) left side position fixed mounting and has a plurality of bimetal correction wheel (20), and is a plurality of the elasticity adjusting bolt (21) is all installed to bimetal correction wheel (20) rear end, and is a plurality of be provided with bimetal raw materials (19) between bimetal correction wheel (20), and bimetal raw materials (19) pass a plurality of bimetal correction wheel (20) in proper order, bimetal guide positive piece (22) and detection sensor (25) to be connected with bimetal pay-off module (27), positive and negative detection light source (23) are installed in fixed equipment fixed mounting portion (03) inside bimetal feeding mechanism and are located bimetal detection camera module (27) rear end (24).

3. The bimetal forming apparatus of claim 1, wherein the bimetal cutting mechanism (13) comprises a cutting cylinder (28) and a second bimetal pressing cylinder (30), the cutting cylinder (28) is fixedly installed at the bottom end inside the apparatus mechanism portion (03), the output end of the cutting cylinder (28) is fixedly connected with a cutting knife (29), and the second bimetal pressing cylinder (30) is fixedly installed at the bottom end inside the apparatus mechanism portion (03) and is located right in front of the cutting knife (29); bimetallic strip bender mechanism (14) are including bimetallic strip servo (31) of bending, bimetallic strip servo (31) of bending fixed mounting is in the inside bottom of equipment mechanism part (03), and is located and cuts off cylinder (28) right side position, bimetallic strip servo (31) output shaft of bending passes through shaft coupling (32) fixedly connected with slide rail (33).

4. The bimetal forming apparatus of claim 1, wherein the bimetal forming X-axis mechanism (16) includes a bimetal forming X-axis (36), the bimetal forming X-axis (36) is fixedly installed at the inner bottom end of the apparatus mechanism portion (03) through a support rod, the bimetal forming X-axis (36) is fixedly installed with a bimetal forming clamping jaw cylinder (37) and a bimetal forming upper and lower cylinder (38), the bimetal forming rolling shaft (47) is installed at the output end of the bimetal forming clamping jaw cylinder (37), the inner bottom end of the apparatus mechanism portion (03) is located at the lower position of the bimetal forming X-axis (36) and is fixedly installed with a bimetal forming Y-axis (35), the bimetal forming positioning jig (34) is installed at the upper end of the bimetal forming Y-axis (35), the inner bottom end of the apparatus mechanism portion (03) is located at the side end position of the bimetal forming positioning jig (34) and is installed with an electromagnetic valve group (17) and a hub module (39).

5. The bimetal forming apparatus according to claim 1, wherein the lower end of the apparatus lower frame (04) is fixedly provided with a foot cup (09) and a 60-horse wheel.

6. The bimetal forming apparatus according to claim 1, wherein the manipulator taking mechanism (18) comprises a four-axis manipulator (40), a bimetal forming size detection camera (42), an OK material box (48) and an NG material box (49), the four-axis manipulator (40), the bimetal forming size detection camera (42), the OK material box (48) and the NG material box (49) are all fixedly mounted at the bottom end inside the apparatus mechanism part (03), a bimetal taking clamping jaw cylinder (43) is fixedly mounted at the right end of the four-axis manipulator (40), the OK material box (48) and the NG material box (49) are located under the bimetal taking clamping jaw cylinder (43), and a bimetal forming size detection light source (41) is fixedly mounted at the upper end of the bimetal forming size detection camera (42).

7. The bimetal forming apparatus of claim 1, wherein the bottom end of the inside of the apparatus mechanism part (03) is fixedly provided with a bimetal forming die (45), the upper end of the bimetal forming die (45) is fixedly provided with a product (46), and the rear end of the bimetal forming die (45) is fixedly provided with a bimetal forming pressing cylinder (44) at equal intervals.

8. Bimetal forming apparatus according to claim 1, characterized in that the material of which the upper apparatus frame (01) is made is 40 x 40 ohm standard aluminium profile and the material of which the upper apparatus frame (01) is 60 x 60 square steel.