CN112620413A - Machining mechanism of plate condenser - Google Patents

Abstract

The invention discloses a processing mechanism of a plate-type condenser, which belongs to the field of condenser processing and comprises a fixed pedestal, wherein a rotating column is installed at the top end of the fixed pedestal, the rotating column is rotatably connected with the top surface of the fixed pedestal, a driven wheel is sleeved outside the rotating column, a transposition motor is fixedly installed on one side of the driven wheel, a driving wheel is installed at the output end of the transposition motor, the driving wheel is connected with the driven wheel through a belt, a twisting table is installed at the top end of the fixed pedestal, the bottom end of the twisting table is connected with the side wall of the rotating column through four supports, and an air machine is installed at the bottom. The invention has higher bending efficiency on the fins of the plate-type condenser.

Description

Machining mechanism of plate condenser

Technical Field

The invention relates to a processing mechanism of a plate type condenser.

Background

With the development of industrial technology and the development of modern energy technology, a plate cooler is a novel efficient heat exchanger formed by stacking a series of metal sheets with certain corrugated shapes. Thin rectangular channels are formed between the various plates and heat exchange is carried out through the half plates. Compared with the conventional shell-and-tube heat exchanger, the heat transfer coefficient of the heat exchanger is much higher under the condition of the same flow resistance and pump power, and the heat exchanger tends to replace the shell-and-tube heat exchanger in an applicable range. The plate type heat exchanger mainly comprises two types of frames (detachable type) and brazing type, and the plate type mainly comprises a herringbone corrugated plate, a horizontal straight corrugated plate and a tumor-shaped plate. The plate-type condenser is integrally plate-shaped, fins are formed on the edge of the plate-type condenser in the machining process, the fins need to be bent by pressure, subsequent machining operation is facilitated, and the bending efficiency of a general bending mechanism is low.

Disclosure of Invention

The invention aims to provide a processing mechanism of a plate type condenser, aiming at the defects of the prior art, when the device is used, a cut plate is placed on a twisting table, then an air machine extracts air in a rubber ring, the plate type condenser is connected with the twisting table into a whole, then a lifting motor drives a lifting table to fall down through a take-up reel, two striking plates can impact downwards alternately when two torsion discs rotate, so that the edge of a fin of the plate type condenser is stamped and bent, burrs and flashes at the edge of the fin at the edge of the plate type condenser are tamped in the stamping process, a transposition motor drives a rotating column to rotate by one hundred eighty degrees through a belt, the other edge of the plate type condenser is stamped and bent, and the function of automatically tamping the burrs and the flashes is realized in the stamping process.

In order to solve the above problems, the present invention provides the following technical solutions: a processing mechanism of a plate-type condenser comprises a fixed pedestal, a rotary column is installed at the top end of the fixed pedestal, the rotary column is rotatably connected with the top surface of the fixed pedestal, a driven wheel is sleeved on the outer side of the middle of the rotary column, a transposition motor is arranged on one side of the driven wheel, the transposition motor is fixedly installed relative to the ground, a driving wheel is installed at the output end of the transposition motor, the driving wheel and the driven wheel are connected through a belt sleeve, a twisting table is installed at the top end of the fixed pedestal, four corners at the bottom end of the twisting table are connected with the side wall of the rotary column through four supports, an air machine is installed at the bottom end of the twisting table, an air hole is formed in the top end of the twisting table, a rubber ring is installed on the inner side of the air hole, the output end of the air machine passes through a pipeline and the rubber, the relative both ends in the inboard of conveyer belt are installed the driving roller respectively, and every driving roller is installed on the output of locking axle bed, driving roller and locking axle bed swivelling joint, locking axle bed fixed mounting, and conveying motor is installed to one side of one of them locking axle bed, and conveying motor's output passes the locking axle bed to be connected with the driving roller that corresponds.

In one of them embodiment, one side top of material loading subassembly is provided with and moves the year subassembly, it includes two hoist and mount guide rails to move the year subassembly, hoist and mount guide rail independent fixed mounting respectively, install the hoist and mount slider on every hoist and mount guide rail, hoist and mount slider and hoist guide rail sliding connection, common fixed mounting has the objective table on two hoist and mount sliders, the protruding extension platen that is equipped with in one side of objective table, it is parallel with ground to extend the platen, the top of extending the platen is installed and is got the material cylinder, it installs the flitch to get the output of material cylinder, it is located the below that extends the platen to get the flitch, the bottom of getting the flitch is provided with a plurality of and gets the material sucking disc, install the air machine on.

In one embodiment, a screw rod is arranged between the two hoisting guide rails, a nut block matched with the screw rod is arranged on one side of the object stage, the screw rod is installed on the output end of a servo motor, the servo motor is fixedly installed, and the screw rod is parallel to the conveying direction of the conveying belt.

In one of them embodiment, the subassembly of bending is installed to the top of turn-round table, the subassembly of bending includes the elevating platform, two lift axle beds are installed to the top of elevating platform, the inboard interlude of lift axle bed has the connection round bar, the relative both ends of connecting the round bar respectively with two lift axle bed swivelling joint, two ends of connecting the round bar respectively fixed mounting have the torque plate, the bottom of elevating platform is provided with two vertical poles, the cover is equipped with the square cover on every vertical pole, square cover and vertical pole sliding connection, one side of square cover is provided with the plane axle bed, the pushing ram is installed to one side of plane axle bed, the one end and the plane axle bed of pushing ram are articulated, another end of every pushing ram is articulated with the lateral wall edge of the torque plate that corresponds, be provided with the extension rod that alternates in the pushing ram inboard on the lateral wall of pushing ram, one side fixed mounting of every square cover has the bending arm, the striking.

In one embodiment, the connecting round rod is sleeved with a driven gear, the driven gear is fixedly connected with the connecting round rod, the lifting platform is fixedly provided with a bending motor, the bending motor is located on one side of the driven gear, the output end of the bending motor is provided with a driving gear, and the driving gear is meshed with the driven gear.

In one embodiment, two marker post sleeves are arranged on the lifting platform, a lifting rod is inserted into the inner side of each marker post sleeve, the lifting rod is connected with the marker post sleeves in a sliding mode, the lifting rod is fixedly installed relative to the ground, a lifting motor is fixedly installed at the top end of one lifting rod, a take-up reel is installed at the output end of the lifting motor, a pull rope is led out of the take-up reel, and the bottom end of the pull rope is connected with the top surface of the lifting platform.

In one of them embodiment, the one side that the material loading subassembly was kept away from to the solid fixed pedestal is installed and is loaded the subassembly, it includes step-by-step platform to load the subassembly, vertical board is installed on the top of step-by-step platform, vertical board and step-by-step platform mutually perpendicular, one side of vertical board is provided with a plurality of and loads the slot, the bottom plate is installed to the bottom of step-by-step platform, bottom plate fixed mounting, two guide arms are installed on the top of bottom plate, two guide sleeve barrels are installed on the top of every guide arm, the top of every guide sleeve barrel and the bottom surface fixed connection of step-by-step platform, the guide arm alternates in the corresponding inboard of guide sleeve barrel, guide arm and guide sleeve.

In one of them embodiment, the extrusion guide rail is installed on the top of bottom plate, the extrusion guide rail is perpendicular with the direction of transfer of conveyer belt, install the extrusion slider on the extrusion guide rail, extrusion slider and extrusion guide rail sliding connection, the top fixed mounting of extrusion slider has three hornblocks in bottom, the bottom of step-by-step platform is provided with three hornblocks in top, three hornblocks in bottom and three hornblocks in top laminate each other, the bottom fixed mounting of bottom plate has step motor, the extrusion lead screw is installed to step motor's output, the cover is equipped with the extrusion nut piece on the extrusion lead screw, the linking arm is extended to one side of extrusion nut piece, the end of linking arm and the lateral wall fixed connection of three horn.

The invention has the beneficial effects that:

one of the two torsion plates is driven by a lifting motor to fall down through a take-up reel, two striking plates can impact downwards alternately when the two torsion plates rotate, the edge of a fin of the plate condenser is stamped and bent, burrs and flashes at the edge of the fin of the plate condenser are tamped by the stamping process, a transposition motor drives a rotating column to rotate by one hundred eighty degrees through a belt, the edge of the other fin at the edge of the plate condenser is also stamped and bent, the function of automatically tamping the burrs and the flashes is realized in the stamping process, and the bending efficiency is high.

And secondly, the servo motor drives the object carrying table to operate through the lead screw, the object carrying table can reach the conveying assembly and twist the station above the object carrying table, then the object carrying table can also convey one side of the loading assembly, the material taking cylinder drives the material taking plate to fall down, the material taking sucker can suck the plate type condensers, the automatic feeding function is realized, each plate type condenser can be correspondingly inserted into one loading slot, the bottom triangular block is pushed forward once, the stepping table is lifted once, and the automatic discharging function is realized.

Drawings

Fig. 1 is a schematic front view of a processing mechanism of a plate condenser.

Fig. 2 is a schematic side view of a processing mechanism of the plate condenser.

Fig. 3 is a schematic sectional view of a processing mechanism of the plate condenser.

Fig. 4 is a schematic view of a machining mechanism fixing pedestal of the plate condenser.

Fig. 5 is a schematic view of a machining mechanism bending assembly of the plate condenser.

Fig. 6 is a schematic diagram of a second view angle of the bending assembly of the processing mechanism of the plate condenser.

Fig. 7 is a schematic view of a transfer unit of a processing mechanism of a plate condenser.

Fig. 8 is a schematic view of a feed assembly of a processing mechanism of a plate condenser.

Fig. 9 is a schematic view of a processing mechanism loading assembly of the plate condenser.

Description of reference numerals:

1-fixed pedestal, 2-twist table, 201-bracket, 202-air hole, 203-rubber ring, 204-air machine, 3-rotating column, 301-driven wheel, 302-belt, 303-driving wheel, 304-transposition motor, 4-bending component, 401-lifting platform, 402-lifting shaft seat, 403-vertical rod, 404-torsion plate, 405-extension rod, 406-pushing rod, 407-square sleeve, 408-plane shaft seat, 409-bending arm, 410-striking plate, 411-connecting round rod, 412-driven gear, 413-driving gear, 414-bending motor, 415-lifting rod, 416-standard rod sleeve, 417-lifting motor, 418-take-up reel, 419-pull rope, 5-shifting component, 501-hoisting guide rail, 502-hoisting slide block, 503-objective table, 504-extension table plate, 505-air machine, 506-material taking cylinder, 507-material taking plate, 508-material taking sucker, 509-screw rod, 510-servo motor, 6-material loading assembly, 601-conveyor belt, 602-locking shaft seat, 603-driving roller, 604-conveying motor, 7-loading assembly, 701-stepping table, 702-vertical plate, 703-loading slot, 704-bottom plate, 705-guide sleeve, 706-guide rod, 707-extrusion guide rail, 708-extrusion slide block, 709-bottom triangular block, 710-top triangular block, 711-stepping motor, 712-extrusion nut block, 713-connecting arm and 714-extrusion screw rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1 to 9, a processing mechanism of a plate condenser includes a fixed pedestal 1, a rotating column 3 is installed at the top end of the fixed pedestal 1, the rotating column 3 is rotatably connected with the top surface of the fixed pedestal 1, a driven wheel 301 is sleeved outside the middle portion of the rotating column 3, a transposition motor 304 is arranged on one side of the driven wheel 301, the transposition motor is fixedly installed relative to the ground, a driving wheel 303 is installed at the output end of the transposition motor 304, the driving wheel 303 and the driven wheel 301 are connected through a belt 302 in a sleeved manner, a twisting table 2 is installed at the top end of the fixed pedestal 1, four corners at the bottom end of the twisting table 2 are connected with the side wall of the rotating column 3 through four brackets 201, an air machine 204 is installed at the bottom end of the twisting table 2, an air hole 202 is formed at the top end of the twisting table 2, a rubber ring 203 is installed on, the pipelines at the output end of the air machine 204 are arranged at the inner side of the torsion table 2, one side of the torsion table 2 is provided with a feeding assembly 6, the feeding assembly 6 comprises a conveyor belt 601, two opposite ends of the inner side of the conveyor belt 601 are respectively provided with a transmission roller 603, each transmission roller 603 is arranged at the output end of a locking shaft seat 602, the transmission rollers 603 and the locking shaft seats 602 are rotatably connected, the locking shaft seats 602 are fixedly arranged, for example, fixedly arranged relative to the ground, one side of one of the locking shaft seats 602 is provided with a transmission motor 604, the output end of the transmission motor 604 penetrates through the locking shaft seat 602 to be connected with the corresponding transmission roller 603, the plate condenser to be processed is placed on the conveyor belt 601, the transmission motor 604 drives the conveyor belt 601 and the plate condenser to advance through the transmission rollers 603, when the plate condenser is placed on the torsion table 2 by the transfer assembly 5, the air machine, the plate condenser is connected with the torsion table 2 into a whole, and when the transposition motor 304 drives the rotary column 3 to rotate through the belt 302, the plate condenser and the torsion table 2 are changed in angle.

The material loading device comprises a loading assembly 6, a transferring assembly 5 is arranged above one side of the loading assembly 6, the transferring assembly 5 comprises two hoisting guide rails 501, the hoisting guide rails 501 are respectively and independently and fixedly installed, for example, the hoisting guide rails are fixedly installed relative to the ground, each hoisting guide rail 501 is provided with a hoisting slide block 502, the hoisting slide blocks 502 are in sliding connection with the hoisting guide rails 501, an object stage 503 is jointly and fixedly installed on the two hoisting slide blocks 502, one side of the object stage 503 is convexly provided with an extension bedplate 504 which is parallel to the ground, the top end of the extension bedplate 504 is provided with a material taking cylinder 506, the output end of the material taking cylinder 506 is provided with a material taking plate 507, the material taking plate is located below the extension bedplate, the bottom end of the material taking plate 507 is provided with a plurality of material taking suckers 508, the.

Be provided with lead screw 509 between two hoist and mount guide rails 501, and one side of objective table 503 is provided with the nut piece that matches with lead screw 509, lead screw 509 installs on servo motor 510's output, servo motor 510 fixed mounting, for example, relative ground fixed mounting, servo motor 510 drives objective table 503 through lead screw 509 and slides, when objective table 503 slides to material loading subassembly 6 top, get flitch 507 and fall and get a plate condenser, utilize the sucking disc to adsorb the upper surface plane of plate condenser promptly, in order to snatch the plate condenser. When the object stage 503 slides to the upper part of the twisting table 2, the plate condenser is lost, so that the fins of the plate condenser are positioned at the outer side of the twisting table, and the function of automatic feeding is realized. The screw rod is parallel to the conveying direction of the conveying belt.

A bending component 4 is arranged above the twisting table 2, the bending component 4 comprises a lifting table 401, two lifting shaft seats 402 are arranged at the top end of the lifting table 401, a connecting round rod 411 is inserted into the inner side of each lifting shaft seat 402, the two opposite ends of the connecting round rod 411 are respectively connected with the two lifting shaft seats 402 in a rotating manner, two ends of the connecting round rod 411 are respectively fixedly provided with a torsion plate 404, the bottom end of the lifting table 401 is provided with two vertical rods 403, each vertical rod 403 is sleeved with a square sleeve 407, the square sleeve 407 is connected with the vertical rod 403 in a sliding manner, one side of the square sleeve 407 is provided with a plane shaft seat 408, one side of the plane shaft seat 408 is provided with a pushing rod 406, one end of the pushing rod 406 is hinged with the plane shaft seat 408, the other end of each pushing rod 406 is hinged with the edge of the corresponding side wall of the torsion plate 404, an extension rod 405 inserted into the inner side of, one side of each square sleeve 407 is fixedly provided with a bending arm 409, the bottom end of the bending arm 409 is provided with a striking plate 410, when the torsion disc 404 rotates, the pushing rod 406 can alternately push the striking plate 410 to be punched and bent downwards, so that fins arranged on the outer side of the torsion disc in a tilting mode are bent, after one fin edge of the plate type condenser is punched and bent, the plate type condenser is rotated to another angle by the twisting table 2, and the fin edge on the other side is punched and bent by the bending component.

Connect the cover to be equipped with driven gear 412 on the round bar 411, driven gear 412 with connect round bar 411 fixed connection, fixed mounting has bending motor 414 on the elevating platform 401, bending motor is located one side of driven gear, bending motor 414's output installs the driving gear 413, driving gear 413 and driven gear 412 intermeshing, bending motor 414 passes through the driving gear 413 and drives driven gear 412 rotatory, connect round bar 411 and torsion dish 404 and driven gear 412 synchronous revolution, bending motor 414 indirectly provides rotatory power for torsion dish 404.

Two marker post sleeves 416 are arranged on the lifting platform 401, a lifting rod 415 is inserted into the inner side of each marker post sleeve 416, the lifting rod 415 is in sliding connection with the marker post sleeves 416, the lifting rod 415 is fixedly installed relative to the ground, a lifting motor 417 is fixedly installed at the top end of one lifting rod 415, a take-up reel 418 is installed at the output end of the lifting motor 417, a pull rope 419 is led out of the take-up reel 418, the bottom end of the pull rope 419 is connected with the top surface of the lifting platform 401, the lifting motor 417 drives the take-up reel 418 to rotate, and the take-up reel 418 drives the lifting platform 401 to ascend or descend through the pull rope.

A loading assembly 7 is arranged on one side of the fixed pedestal 1 far away from the feeding assembly 6, the loading assembly 7 comprises a stepping table 701, a vertical plate 702 is arranged at the top end of the stepping table 701, the vertical plate 702 and the stepping table 701 are perpendicular to each other, a plurality of loading slots 703 are arranged on one side of the vertical plate 702, the plurality of loading slots face the twisting table, the bottom end of the stepping table 701 is provided with a bottom plate 704, the bottom plate 704 is fixedly arranged, for example, the condenser is fixedly installed relative to the ground, two guide rods 706 are installed at the top end of the bottom plate 704, a guide sleeve 705 is installed at the top end of each guide rod 706, the top end of each guide sleeve 705 is fixedly connected with the bottom surface of the stepping table 701, the guide rods 706 are inserted into the corresponding guide sleeves 705, the guide rods 706 are slidably connected with the guide sleeves 705, each loading slot 703 is used for inserting a corresponding plate condenser, for example, a plate condenser after press bending is inserted, the vertical plate 702 and the stepping table 701 are raised and lowered by the guide sleeve 705.

Extrusion guide rail 707 is installed on the top of bottom plate 704, the extrusion guide rail is perpendicular with the direction of transfer of conveyer belt, install extrusion slider 708 on the extrusion guide rail 707, extrusion slider 708 and extrusion guide rail 707 sliding connection, extrusion slider 708's top fixed mounting has three hornblocks in the bottom 709, the bottom of step-by-step platform 701 is provided with three hornblocks in the top 710, three hornblocks in the bottom 709 and three hornblocks in the top 710 laminate each other, for example, three hornblocks in the bottom are the three hornblocks in the right angle with three hornblocks in the top, the inclined plane of three hornblocks in the bottom and the inclined plane of three hornblocks in the top. For example, the bottom acute angle portion of the top triangular block is missing, thereby constituting a trapezoidal shape. For another example, the top triangular block is a trapezoidal block, and the inclined surface of the top triangular block and the inclined surface of the bottom triangular block are mutually supported and attached in a sliding manner. The bottom end of the bottom plate 704 is fixedly provided with a stepping motor 711, the output end of the stepping motor 711 is provided with an extrusion screw 714, the extrusion screw 714 is sleeved with an extrusion nut block 712, a connecting arm 713 extends out of one side of the extrusion nut block 712, the end of the connecting arm 713 is fixedly connected with the side wall of the bottom triangular block 709, the stepping motor 711 drives the extrusion sliding block 708 to move through the extrusion screw 714, the bottom triangular block 709 and the extrusion sliding block 708 slide synchronously, then the bottom triangular block 709 can guide the top triangular block 710 to move downwards, the stepping motor 711 indirectly drives the vertical plate 702 to slide downwards step by step, and each loading slot 703 can reach a new loading station. When the position needs to be restored, the bottom triangular block can be used for supporting the top triangular block to move upwards in an inclined mode.

When the plate type condenser is used, a plate type condenser to be processed is placed on the conveyor belt 601, the conveyor motor 604 drives the conveyor belt 601 and the plate type condenser to advance through the driving roller 603, when the object stage 503 slides to the upper part of the feeding assembly 6, the material taking plate 507 falls down to take a plate type condenser, when the object stage 503 slides to the upper part of the twisting table 2, the plate type condenser is lost, the automatic feeding function is realized, when the plate type condenser is placed on the twisting table 2, the air machine 204 takes out the air in the rubber ring 203, the plate type condenser is connected with the twisting table 2 into a whole, when the transposition motor 304 drives the rotating column 3 to rotate through the belt 302, the angle of the plate type condenser and the twisting table 2 is also changed, when the torsion disc 404 rotates, the pushing rod 406 can alternately push the striking plate 410 to be punched and bent downwards, after the edge of one wing piece of the plate type condenser is punched and bent, the twisting table 2 rotates to another angle to punch and bend the edge of another fin, the bending motor 414 drives the driven gear 412 to rotate through the driving gear 413, the connecting rod 411 and the torsion disc 404 rotate synchronously with the driven gear 412, the bending motor 414 indirectly provides rotating power for the torsion disc 404, the lifting motor 417 drives the take-up reel 418 to rotate, the take-up reel 418 drives the lifting platform 401 to ascend or descend through the pull rope 419, for example, each loading slot 703 is correspondingly inserted into a plate type condenser, for example, the plate type condenser is taken down from the twisting platform through a mechanical arm and the side without the fin is inserted into the loading slot. Then the vertical plate 702 and the stepping table 701 are lifted and lowered through the guide sleeve 705, the stepping motor 711 drives the extrusion slide block 708 to move through the extrusion screw 714, the bottom triangular block 709 and the extrusion slide block 708 slide synchronously, then the bottom triangular block 709 pushes the top triangular block 710 to move upwards, the stepping motor 711 indirectly drives the vertical plate 702 to advance upwards step by step, and the next loading slot 703 reaches a new loading station.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims (8)

1. The utility model provides a processing agency of plate condenser which characterized in that: comprises a fixed pedestal (1), a rotary column (3) is installed at the top end of the fixed pedestal (1), the rotary column (3) is rotatably connected with the top surface of the fixed pedestal (1), a driven wheel (301) is sleeved outside the middle part of the rotary column (3), a transposition motor (304) is arranged on one side of the driven wheel (301), the transposition motor is fixedly installed relative to the ground, a driving wheel (303) is installed at the output end of the transposition motor (304), the driving wheel (303) is connected with the driven wheel (301) in a sleeved mode through a belt (302), a twisting table (2) is installed at the top end of the fixed pedestal (1), four corners at the bottom end of the twisting table (2) are connected with the side wall of the rotary column (3) through four brackets (201), an air machine (204) is installed at the bottom end of the twisting table (2), an air hole (202) is formed at the top end of the twisting table (2, the output end of an air machine (204) passes through a pipeline and a rubber ring (203), the pipeline of the output end of the air machine (204) is arranged on the inner side of a twisting table (2), a feeding assembly (6) is arranged on one side of the twisting table (2), the feeding assembly (6) comprises a conveyor belt (601), driving rollers (603) are respectively installed at two opposite ends of the inner side of the conveyor belt (601), each driving roller (603) is installed at the output end of a locking shaft seat (602), the driving rollers (603) are rotatably connected with the locking shaft seats (602), the locking shaft seats (602) are fixedly installed, a conveying motor (604) is installed on one side of one locking shaft seat (602), and the output end of the conveying motor (604) penetrates through the locking shaft seats (602) to be connected with the corresponding driving rollers (603).

2. The processing mechanism of the plate condenser as claimed in claim 1, wherein: one side top of material loading subassembly (6) is provided with moves and carries subassembly (5), it includes two hoist and mount guide rail (501) to move and carry subassembly (5), hoist and mount guide rail (501) independent fixed mounting respectively, install hoist and mount slider (502) on every hoist and mount guide rail (501), hoist and mount slider (502) and hoist and mount guide rail (501) sliding connection, common fixed mounting has objective table (503) on two hoist and mount slider (502), the protruding platen (504) that is equipped with in one side of objective table (503), the extension platen is parallel with ground, it gets material cylinder (506) to install on the top of extension platen (504), it gets flitch (507) to install the output of getting material cylinder (506), it is located the below of extension platen to get the flitch, the bottom of getting flitch (507) is provided with a plurality of and gets material sucking disc (508), install air machine (505) on the lateral wall of objective table (503), the output of air machine (505).

3. The processing mechanism of the plate condenser as claimed in claim 2, wherein: be provided with lead screw (509) between two hoist and mount guide rails (501), and one side of objective table (503) is provided with the nut piece with lead screw (509) assorted, and lead screw (509) are installed on servo motor (510)'s output, and servo motor (510) fixed mounting, the lead screw is parallel with the direction of transfer of conveyer belt.

4. The processing mechanism of the plate condenser as claimed in claim 3, wherein: a bending component (4) is arranged above the twisting table (2), the bending component (4) comprises a lifting table (401), two lifting shaft seats (402) are arranged at the top end of the lifting table (401), a connecting round rod (411) is inserted into the inner side of each lifting shaft seat (402), two opposite ends of the connecting round rod (411) are respectively and rotatably connected with the two lifting shaft seats (402), two ends of the connecting round rod (411) are respectively and fixedly provided with a torsion plate (404), two vertical rods (403) are arranged at the bottom end of the lifting table (401), a square sleeve (407) is sleeved on each vertical rod (403), the square sleeve (407) is slidably connected with the vertical rods (403), a plane shaft seat (408) is arranged on one side of the square sleeve (407), a pushing rod (406) is arranged on one side of the plane shaft seat (408), one end of the pushing rod (406) is hinged with the plane (408), the other end of each pushing rod (406) is hinged with the corresponding side wall edge of the torsion plate (404), an extension rod (405) inserted into the inner side of the push rod (406) is arranged on the side wall of the push rod (406), a bending arm (409) is fixedly mounted on one side of each square sleeve (407), and a striking plate (410) is mounted at the bottom end of each bending arm (409).

5. The processing mechanism of the plate condenser as claimed in claim 4, wherein: the connecting round rod (411) is sleeved with a driven gear (412), the driven gear (412) is fixedly connected with the connecting round rod (411), a bending motor (414) is fixedly mounted on the lifting platform (401), the bending motor is located on one side of the driven gear, a driving gear (413) is mounted at the output end of the bending motor (414), and the driving gear (413) and the driven gear (412) are meshed with each other.

6. The processing mechanism of the plate condenser as claimed in claim 5, wherein: be provided with two mark pole covers (416) on elevating platform (401), lifter (415) have been alternate to the inboard of every mark pole cover (416), lifter (415) and mark pole cover (416) sliding connection, lifter (415) ground fixed mounting relatively, the top fixed mounting of one of them lifter (415) has lift motor (417), take-up reel (418) are installed to the output of lift motor (417), stay cord (419) are drawn forth in take-up reel (418), the bottom of stay cord (419) and the top surface of elevating platform (401) are connected.

7. The processing mechanism of the plate condenser as claimed in claim 6, wherein: one side of fixed pedestal (1) keeping away from material loading subassembly (6) is installed and is loaded subassembly (7), it includes step-by-step platform (701) to load subassembly (7), vertical board (702) is installed on the top of step-by-step platform (701), vertical board (702) and step-by-step platform (701) mutually perpendicular, one side of vertical board (702) is provided with a plurality of and loads slot (703), a plurality of loading slot orientation twists reverse the platform, bottom plate (704) are installed to the bottom of step-by-step platform (701), bottom plate (704) fixed mounting, two guide arms (706) are installed to the top of bottom plate (704), two guide sleeve barrels (705) are installed to the top of every guide arm (706), the top of every guide sleeve barrel (705) and the bottom surface fixed connection of step-by-step platform (701), guide arm (706) alternate in the inboard of corresponding guide sleeve barrel (705), guide arm (706) and guide sleeve barrel (705) sliding connection, every loading.

8. The processing mechanism of the plate condenser as claimed in claim 7, wherein: extrusion guide rail (707) are installed on the top of bottom plate (704), the extrusion guide rail is perpendicular with the direction of transfer of conveyer belt, install extrusion slider (708) on extrusion guide rail (707), extrusion slider (708) and extrusion guide rail (707) sliding connection, the top fixed mounting of extrusion slider (708) has three hornblocks in bottom (709), the bottom of step-by-step platform (701) is provided with three hornblocks in top (710), three hornblocks in bottom (709) and three hornblocks in top (710) laminate each other, the bottom fixed mounting of bottom plate (704) has step motor (711), extrusion lead screw (714) is installed to the output of step motor (711), the cover is equipped with extrusion nut piece (712) on extrusion lead screw (714), linking arm (713) extends to one side of extrusion nut piece (712), the end of linking arm (713) and the lateral wall fixed connection of three hornblocks in bottom (709).

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