CN213944362U - Blanking mechanism for aluminum pipe extrusion - Google Patents

Abstract

The utility model relates to a blanking mechanism for aluminum pipe extrusion, which belongs to the field of aluminum processing and comprises a frame, wherein the frame comprises a cooling box with an upper end open, a support leg is fixedly arranged at the bottom of the cooling box, a plurality of mutually parallel conveying rollers are arranged above the cooling box, the upper ends of the conveying rollers are positioned on the same horizontal plane to form a conveying surface, and a plurality of fans are arranged in the cooling box; the left end of cooler bin is fixed and is provided with unloader, and unloader is including fixed the support that sets up on the cooler bin, fixedly on the support be provided with first mounting panel and second mounting panel, is provided with first deflector roll between first mounting panel and the second mounting panel, and the inboard of first mounting panel still is provided with the second deflector roll, and the inboard of second mounting panel still is provided with the third deflector roll, and the third deflector roll rotationally sets up in the vertical setting of second mounting panel and third deflector roll. The utility model discloses can cool off the aluminum pipe when carrying out the transport to the aluminum pipe to can avoid artifical transport to the damage that the aluminum pipe caused.

Description

Blanking mechanism for aluminum pipe extrusion

Technical Field

The utility model relates to an aluminum processing field, in particular to an unloading mechanism for aluminum pipe extrusion.

Background

The aluminum pipe is generally formed by extrusion, firstly, the aluminum pipe is softened to a certain degree, then, the softened aluminum pipe is sent to an extruder to be extruded, and then, the aluminum pipe is obtained by cooling.

SUMMERY OF THE UTILITY MODEL

On the basis, a blanking mechanism for aluminum pipe extrusion is needed to be provided, and the blanking mechanism comprises a rack, wherein the rack comprises a cooling box with an opening at the upper end, a support leg is fixedly arranged at the bottom of the cooling box, a plurality of mutually parallel conveying rollers are arranged above the cooling box, the upper ends of the conveying rollers are positioned on the same horizontal plane to form a conveying surface, and a plurality of fans are arranged in the cooling box; the left end of cooler bin is fixed with unloader, unloader is including fixed support that sets up on the cooler bin, fixed first mounting panel and the second mounting panel that is provided with relative setting and is parallel to each other on the support, be provided with first deflector roll between first mounting panel and the second mounting panel, first deflector roll is parallel the conveying roller sets up just the upper end parallel and level of first deflector roll the transport face sets up, the inboard of first mounting panel still is provided with the second deflector roll, the second deflector roll rotationally set up in first mounting panel just the vertical setting of second deflector roll, the inboard of second mounting panel still is provided with the third deflector roll, the third deflector roll rotationally set up in the second mounting panel just the vertical setting of third deflector roll.

The utility model is used for the butt joint extruder uses for carry out the cooling to the extruder when carrying the aluminum pipe of extruding the aluminum pipe extruder.

The utility model discloses during the use, at first, the position has been adjusted the utility model discloses a position for the lower extreme parallel and level of the aluminum pipe that the extruder was extruded carries the face setting, and make the aluminum pipe that the extruder was extruded can pass through between first mounting panel and the second mounting panel, at this moment, the aluminum pipe that the extruder was extruded can remove along the extrusion direction of extruder under the support of first deflector roll and conveying roller, thereby can realize the utility model discloses to the transport of aluminum pipe, wherein, the wind direction of the fan in the cooler bin up for the aluminum pipe to carrying out the transport on the face cools off, and the fan setting is in the cooler bin, and the opening of cooler bin sets up, therefore the air-out of fan can be concentrated to the cooler bin, further increases the cooling effect of fan to the aluminum pipe, wherein, can set up the air intake in the bottom of the lateral wall of cooler bin for the air inlet of cooler bin. Therefore, the utility model discloses can cool off the aluminum pipe when carrying out the transport to the aluminum pipe to can avoid the damage that artifical transport caused the aluminum pipe.

Further, the both ends of first deflector roll rotationally set up in respectively first mounting panel and second mounting panel, the left end of first deflector roll extends first mounting panel sets up, just first deflector roll extends the part of first mounting panel is fixed and is provided with first bevel gear, still be provided with a driving motor on the support, a driving motor's output shaft corresponds first bevel gear is provided with the second bevel gear, the second bevel gear with first bevel gear intermeshing sets up.

The first driving motor is in driving connection with the first guide roller and used for driving the first guide roller to rotate, the linear speed of the surface of the first guide roller is the same as the extrusion speed of the aluminum pipe, the first guide roller can play a role in assisting in pulling the aluminum pipe, and the problem that the extrusion speed of the extruder is affected due to the fact that the extruded aluminum pipe is too long and too heavy can be avoided.

Further, the upper end and the lower extreme of first mounting panel all are provided with and run through the first slide opening of first mounting panel, the axis of first slide opening is perpendicular first mounting panel sets up, the outside of first mounting panel is parallel first mounting panel is provided with first push pedal, first push pedal corresponds first slide opening is provided with first inserted bar, first inserted bar is inserted and is located in the first slide opening and with first slide opening slidable ground cooperation sets up, the both ends of second deflector roll rotationally set up respectively in first inserted bar.

Further, the upper end and the lower extreme of second mounting panel all are provided with and run through the second draw runner of second mounting panel, the axis of second draw runner is perpendicular the second mounting panel sets up, the outside of second mounting panel is parallel the second mounting panel is provided with the second push pedal, the second push pedal corresponds the second draw runner is provided with the second inserted bar, the second inserted bar is inserted and is located in the second draw runner and with second draw runner slidable ground cooperation sets up, the both ends of third deflector roll rotationally set up respectively in the second inserted bar.

Wherein, first push pedal and second push pedal are used for promoting second deflector roll and second deflector roll respectively and remove along the axial direction of first deflector roll, thereby can adjust the interval of second deflector roll and third deflector roll support, and then can make second deflector roll and third deflector roll can press from both sides the aluminium pole of extruding in the centre, consequently second deflector roll and third deflector roll homoenergetic play the impetus to the aluminum pipe under second driving motor and third driving motor's drive, can further avoid extruding the aluminum pipe overlength, overweight and influence the extruder and extrude the aluminum pipe, and can make the utility model discloses can be applicable to the unloading of the aluminum pipe of different diameters.

Further, the upper end of second deflector roll extends first inserted bar sets up, the second deflector roll extends the part of first inserted bar is fixed and is provided with first belt pulley, the fixed second driving motor that is provided with in outside of first push pedal, second driving motor's output shaft corresponds first belt pulley is provided with the second belt pulley, first belt pulley and second belt pulley pass through first driving belt drive and connect, first mounting panel corresponds first driving belt is provided with the confession the first via hole that first belt passed.

Further, the upper end of third deflector roll extends the setting of second inserted bar, the third deflector roll extends the fixed third belt pulley that is provided with in part of second inserted bar, the fixed third driving motor that is provided with in outside of second push pedal, third driving motor's output shaft corresponds the third belt pulley is provided with the fourth belt pulley, third belt pulley and fourth belt pulley pass through second driving belt drive and connect, the second mounting panel corresponds second driving belt is provided with the confession the second via hole that the second belt passed.

The second driving motor and the third driving motor are used for driving the second guide roller and the third guide roller to rotate at the same rotating speed through the first transmission belt and the second transmission belt, and therefore the conveying effect of the second guide roller and the third guide roller on the aluminum pipe is achieved.

Further, still be provided with first drive actuating cylinder and second in the frame and drive actuating cylinder, first drive actuating cylinder and second drive actuating cylinder respectively with first push pedal and second push pedal drive connection are used for promoting first push pedal and second push pedal are along the axis direction reciprocating motion of first deflector roll.

The first driving cylinder and the second driving cylinder are used for driving the first push plate and the second push plate to reciprocate along the axial direction of the first guide roller respectively.

Further, the stabilizer blade including fixed set up in the first stabilizer blade and the cover of cooler bin are located the cylindric second stabilizer blade that is of first stabilizer blade, the surface of first stabilizer blade is provided with first regulation screw thread, the inboard of second stabilizer blade corresponds first regulation screw thread be provided with first regulation screw thread assorted second regulation screw thread, still the cover on the first stabilizer blade be equipped with first regulation screw thread assorted lock nut, lock nut is located the top of second stabilizer blade.

Wherein, can adjust the relative position between second stabilizer blade and the first through rotating the second stabilizer blade to can adjust the height of stabilizer blade, and then can adjust the height of first deflector roll and transport face, make the lower extreme of the aluminum pipe of first deflector roll and transport face parallel and level extruder extrusion, can be so that the utility model discloses can be applicable to the extruder of different models, increase the utility model discloses an application scope.

Furthermore, the front end of the opening of the cooling box is provided with a third mounting plate, the rear end of the opening of the cooling box corresponds to the third mounting plate and is provided with a fourth mounting plate, the conveying rollers are rotatably arranged between the third mounting plate and the fourth mounting plate, and the two ends of the conveying rollers are respectively rotatably arranged on the third mounting plate and the fourth mounting plate.

Wherein, each conveying roller can be through chain drive structure mutual drive connection to make each conveying roller linkage, the drive through the fourth drive motor that sets up on the cooler bin can make each conveying roller synchronous rotation, realizes the transport to the aluminum pipe.

The principle and effect of the present invention will be further explained below with reference to the above technical solutions and the accompanying drawings:

the utility model discloses in, the wind direction of the fan in the cooler bin up for the aluminum pipe to carrying on the transport face cools off, and the fan setting is in the cooler bin, and the opening of cooler bin sets up, and consequently the air-out of fan can be concentrated to the cooler bin, further increases the cooling effect of fan to the aluminum pipe, wherein, can set up the air intake in the bottom of the lateral wall of cooler bin, is used for the air inlet of cooler bin. Therefore, the utility model discloses can cool off the aluminum pipe when carrying out the transport to the aluminum pipe to can avoid the damage that artifical transport caused the aluminum pipe.

Drawings

Fig. 1 is a schematic structural diagram of a blanking mechanism for aluminum pipe extrusion according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a cooling box according to an embodiment of the present invention;

fig. 3 is a schematic structural view of the blanking device according to the embodiment of the present invention.

Description of reference numerals:

1-cooling box, 11-third mounting plate, 12-conveying roller, 13-fan, 21-first leg, 22-second leg, 23-lock nut, 31-first mounting plate, 32-second mounting plate, 33-first guide roller, 331-first bevel gear, 34-second guide roller, 341-first belt pulley, 35-third guide roller, 351-third belt pulley, 361-first drive belt, 362-second drive belt, 371-second drive motor, 3711-second belt pulley, 372-third drive motor, 3721-fourth belt pulley, 381-first push plate, 3811-first plunger, 382-second push plate, 3821-second plunger, 4-first drive motor, 41-second bevel gear.

Detailed Description

To facilitate understanding of those skilled in the art, the present invention will be described in further detail with reference to the accompanying drawings and examples:

as shown in fig. 1-3, a blanking mechanism for aluminum pipe extrusion comprises a frame, wherein the frame comprises a cooling box 1 with an opening at the upper end, a support leg is fixedly arranged at the bottom of the cooling box 1, a plurality of mutually parallel conveying rollers 12 are arranged above the cooling box 1, the upper ends of the conveying rollers 12 are positioned on the same horizontal plane to form a conveying surface, and a plurality of fans 13 are arranged in the cooling box 1; the left end of cooler bin 1 is fixed with unloader, unloader is including fixed support that sets up on cooler bin 1, fixed first mounting panel 31 and the second mounting panel 32 that sets up relatively and be parallel to each other that is provided with on the support, be provided with first deflector roll 33 between first mounting panel 31 and the second mounting panel 32, first deflector roll 33 is parallel conveying roller 12 sets up just the upper end parallel and level of first deflector roll 33 the transport surface sets up, the inboard of first mounting panel 31 still is provided with second deflector roll 34, second deflector roll 34 rotationally set up in first mounting panel 31 just the vertical setting of second deflector roll 34, the inboard of second mounting panel 32 still is provided with third deflector roll 35, third deflector roll 35 rotationally set up in second mounting panel 32 just the vertical setting of third deflector roll 35.

The utility model is used for the butt joint extruder uses for carry out the cooling to the extruder when carrying the aluminum pipe of extruding the aluminum pipe extruder.

When the utility model is used, the position of the utility model is firstly adjusted, so that the lower end of the aluminum pipe extruded by the extruder is arranged in parallel with the conveying surface, and allows the aluminum pipe extruded from the extruder to pass between the first mounting plate 31 and the second mounting plate 32, at which time, the aluminum pipe extruded by the extruder can move along the extruding direction of the extruder under the support of the first guide roller 33 and the conveying roller 12, so that the conveying of the aluminum pipe by the utility model can be realized, wherein the fan 13 in the cooling box 1 is upward in the wind direction and is used for cooling the aluminum pipe conveyed on the conveying surface, the fan 13 is arranged in the cooling box 1, the opening of the cooling box 1 is upward, therefore, the cooling box 1 can concentrate the outlet air of the fan 13, further increase the cooling effect of the fan 13 on the aluminum tubes, wherein, the bottom of the side wall of the cooling box 1 can be provided with an air inlet for the air inlet of the cooling box 1. Therefore, the utility model discloses can cool off the aluminum pipe when carrying out the transport to the aluminum pipe to can avoid the damage that artifical transport caused the aluminum pipe.

Wherein an embodiment, the both ends of first deflector roll 33 rotationally set up respectively in first mounting panel 31 and second mounting panel 32, the left end of first deflector roll 33 extends first mounting panel 31 sets up, just first deflector roll 33 extends the fixed first bevel gear 331 that is provided with of part of first mounting panel 31, still be provided with a driving motor 4 on the support, the output shaft of a driving motor 4 corresponds first bevel gear 331 is provided with second bevel gear 41, second bevel gear 41 with first bevel gear 331 intermeshing sets up.

The first driving motor 4 is in driving connection with the first guide roller 33 and is used for driving the first guide roller 33 to rotate, and meanwhile, the linear velocity of the surface of the first guide roller 33 is the same as the extrusion velocity of the aluminum pipe, so that the first guide roller 33 can play a role in assisting in pulling the aluminum pipe, and the influence on the extrusion of the aluminum pipe by the extruder due to the fact that the extruded aluminum pipe is too long and too heavy can be avoided.

One of them embodiment, the upper end and the lower extreme of first mounting panel 31 all are provided with and run through the first slide opening of first mounting panel 31, the axis of first slide opening is perpendicular first mounting panel 31 sets up, the outside of first mounting panel 31 is parallel first mounting panel 31 is provided with first push pedal 381, first push pedal 381 corresponds first slide opening is provided with first inserted bar 3811, first inserted bar 3811 insert locate in the first slide opening and with first slide opening slidable ground cooperation sets up, the both ends of second deflector roll 34 rotationally set up respectively in first inserted bar 3811.

One of them embodiment, the upper end and the lower extreme of second mounting panel 32 all are provided with and run through the second draw hole of second mounting panel 32, the axis of second draw hole is perpendicular the second mounting panel 32 sets up, the outside of second mounting panel 32 is parallel the second mounting panel 32 is provided with second push pedal 382, second push pedal 382 corresponds the second draw hole is provided with second inserted bar 3821, second inserted bar 3821 insert locate in the second draw hole and with second draw hole slidable ground cooperation sets up, the both ends of third deflector roll 35 rotationally set up respectively in second inserted bar 3821.

Wherein, first push pedal 381 and second push pedal 382 are used for promoting second deflector roll 34 and second deflector roll 34 respectively and remove along the axial direction of first deflector roll 33, thereby can adjust the interval of second deflector roll 34 and third deflector roll 35 support, and then can make second deflector roll 34 and third deflector roll 35 can press from both sides the aluminium pole of extruding in the centre, consequently second deflector roll 34 and third deflector roll 35 homoenergetic play the impetus under the drive of second driving motor 371 and third driving motor 372, can further avoid because of extruding the aluminium pipe overlength, overweight and influence the extruder and extrude the aluminium pipe, and can make the utility model discloses can be applicable to the unloading of the aluminium pipe of different diameters.

One of them embodiment, the upper end of second deflector roll 34 extends first inserted bar 3811 sets up, second deflector roll 34 extends first inserted bar 3811's part is fixed and is provided with first belt pulley 341, the fixed second driving motor 371 that is provided with in outside of first push pedal 381, the output shaft of second driving motor 371 corresponds first belt pulley 341 is provided with second belt pulley 3711, first belt pulley 341 and second belt pulley 3711 pass through first driving belt 361 drive connection, first mounting panel 31 corresponds first driving belt 361 is provided with the confession first via hole that first belt passed.

In one embodiment, the upper end of the third guide roller 35 extends out of the second plug pin 3821, the third guide roller 35 extends out of the portion of the second plug pin 3821, which is fixedly provided with the third pulley 351, the outside of the second push plate 382 is fixedly provided with the third driving motor 372, the output shaft of the third driving motor 372 corresponds to the third pulley 351 is provided with the fourth pulley 3721, the third pulley 351 and the fourth pulley 3721 are in driving connection through the second transmission belt 362, and the second mounting plate 32 corresponds to the second transmission belt 362 and is provided with a second via hole for the second belt to pass through.

The second drive motor 371 and the third drive motor 372 are used for driving the second guide roller 34 and the third guide roller 35 to rotate at the same rotation speed through the first transmission belt 361 and the second transmission belt 362, so that the conveying function of the second guide roller 34 and the third guide roller 35 on the aluminum pipes is realized.

In one embodiment, the rack is further provided with a first driving cylinder and a second driving cylinder, which are respectively in driving connection with the first push plate 381 and the second push plate 382 to push the first push plate 381 and the second push plate 382 to reciprocate along the axial direction of the first guide roller 33.

Wherein, the first driving cylinder and the second driving cylinder are used to respectively drive the first push plate 381 and the second push plate 382 to reciprocate along the axial direction of the first guide roller 33.

One of them kind of embodiment, the stabilizer blade including fixed set up in first stabilizer blade 21 and the cover of cooler bin 1 are located first stabilizer blade 21 be cylindric second stabilizer blade 22, the surface of first stabilizer blade 21 is provided with first regulation screw thread, the inboard of second stabilizer blade 22 corresponds first regulation screw thread be provided with first regulation screw thread assorted second regulation screw thread, still the cover be equipped with on the first stabilizer blade 21 with first regulation screw thread assorted lock nut 23, lock nut 23 is located the top of second stabilizer blade 22.

Wherein, can adjust the relative position between second stabilizer blade 22 and the first through rotating second stabilizer blade 22 to can adjust the height of stabilizer blade, and then can adjust the height of first deflector roll 33 and transport face, make the lower extreme of the aluminium pipe of first deflector roll 33 and transport face parallel and level extruder extrusion, can be so that the utility model discloses can be applicable to the extruder of different models, increase the utility model discloses an application scope.

In one embodiment, a third mounting plate 11 is arranged at the front end of the opening of the cooling box 1, a fourth mounting plate is arranged at the rear end of the opening of the cooling box 1 corresponding to the third mounting plate 11, the conveying rollers 12 are rotatably arranged between the third mounting plate 11 and the fourth mounting plate, and two ends of the conveying rollers 12 are respectively rotatably arranged on the third mounting plate 11 and the fourth mounting plate.

Wherein, each conveying roller 12 can be through chain drive structure mutual drive connection to make each conveying roller 12 linkage, can make each conveying roller 12 synchronous revolution through the drive of the fourth driving motor who sets up on cooler bin 1, realize the transport to the aluminum pipe.

The above examples only represent some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (9)

1. The blanking mechanism for aluminum pipe extrusion is characterized by comprising a rack, wherein the rack comprises a cooling box with an opening at the upper end, supporting legs are fixedly arranged at the bottom of the cooling box, a plurality of conveying rollers which are parallel to each other are arranged above the cooling box, the upper ends of the conveying rollers are positioned on the same horizontal plane to form a conveying surface, and a plurality of fans are arranged in the cooling box; the left end of cooler bin is fixed with unloader, unloader is including fixed support that sets up on the cooler bin, fixed first mounting panel and the second mounting panel that is provided with relative setting and is parallel to each other on the support, be provided with first deflector roll between first mounting panel and the second mounting panel, first deflector roll is parallel the conveying roller sets up just the upper end parallel and level of first deflector roll the transport face sets up, the inboard of first mounting panel still is provided with the second deflector roll, the second deflector roll rotationally set up in first mounting panel just the vertical setting of second deflector roll, the inboard of second mounting panel still is provided with the third deflector roll, the third deflector roll rotationally set up in the second mounting panel just the vertical setting of third deflector roll.

2. The blanking mechanism for aluminum pipe extrusion as recited in claim 1, wherein two ends of the first guide roller are respectively rotatably disposed on the first mounting plate and the second mounting plate, the left end of the first guide roller extends out of the first mounting plate, a first bevel gear is fixedly disposed on a portion of the first guide roller extending out of the first mounting plate, a first driving motor is further disposed on the support, an output shaft of the first driving motor corresponds to the first bevel gear, a second bevel gear is disposed on the first bevel gear, and the second bevel gear is meshed with the first bevel gear.

3. The blanking mechanism for aluminum pipe extrusion as recited in claim 2, wherein the upper end and the lower end of the first mounting plate are both provided with a first sliding hole penetrating through the first mounting plate, the axis of the first sliding hole is perpendicular to the first mounting plate, the outer side of the first mounting plate is parallel to the first mounting plate and is provided with a first push plate, the first push plate is provided with a first insertion rod corresponding to the first sliding hole, the first insertion rod is inserted into the first sliding hole and slidably matched with the first sliding hole, and two ends of the second guide roller are respectively and rotatably arranged on the first insertion rod.

4. The blanking mechanism for aluminum pipe extrusion as recited in claim 3, wherein the upper end of the second guide roller extends out of the first insertion rod, a first belt pulley is fixedly disposed on a portion of the second guide roller extending out of the first insertion rod, a second driving motor is fixedly disposed on the outer side of the first push plate, a second belt pulley is disposed on an output shaft of the second driving motor corresponding to the first belt pulley, the first belt pulley and the second belt pulley are in driving connection through a first transmission belt, and the first mounting plate is provided with a first via hole for the first transmission belt to pass through corresponding to the first transmission belt.

5. The blanking mechanism for aluminum pipe extrusion as recited in claim 4, wherein the upper end and the lower end of the second mounting plate are both provided with a second sliding hole penetrating through the second mounting plate, the axis of the second sliding hole is perpendicular to the second mounting plate, the outer side of the second mounting plate is parallel to the second mounting plate, a second push plate is arranged on the second mounting plate, a second insertion rod is arranged on the second push plate corresponding to the second sliding hole, the second insertion rod is inserted into the second sliding hole and slidably matched with the second sliding hole, and two ends of the third guide roller are respectively and rotatably arranged on the second insertion rod.

6. The blanking mechanism for aluminum pipe extrusion as recited in claim 5, wherein the upper end of the third guide roller extends out of the second insertion rod, a third belt pulley is fixedly disposed on a portion of the third guide roller extending out of the second insertion rod, a third driving motor is fixedly disposed on the outer side of the second push plate, a fourth belt pulley is disposed on an output shaft of the third driving motor corresponding to the third belt pulley, the third belt pulley and the fourth belt pulley are in driving connection through a second transmission belt, and the second mounting plate is provided with a second through hole for the second transmission belt to pass through corresponding to the second transmission belt.

7. The blanking mechanism for aluminum pipe extrusion as recited in claim 6, wherein the frame is further provided with a first driving cylinder and a second driving cylinder, the first driving cylinder and the second driving cylinder are respectively in driving connection with the first pushing plate and the second pushing plate for pushing the first pushing plate and the second pushing plate to reciprocate along the axial direction of the first guide roller.

8. The blanking mechanism for aluminum pipe extrusion as recited in claim 7, wherein the support legs include a first support leg fixedly disposed on the cooling box and a second support leg in a cylindrical shape sleeved on the first support leg, a first adjusting thread is disposed on a surface of the first support leg, a second adjusting thread matched with the first adjusting thread is disposed on an inner side of the second support leg corresponding to the first adjusting thread, a locking nut matched with the first adjusting thread is further sleeved on the first support leg, and the locking nut is disposed above the second support leg.

9. The blanking mechanism for aluminum pipe extrusion as recited in claim 1, wherein a third mounting plate is provided at a front end of the opening of the cooling box, a fourth mounting plate is provided at a rear end of the opening of the cooling box corresponding to the third mounting plate, the feed roller is rotatably provided between the third mounting plate and the fourth mounting plate, and both ends of the feed roller are rotatably provided at the third mounting plate and the fourth mounting plate, respectively.

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