CN214732324U - Automatic tracking correction plate conveying machine for door plate - Google Patents

Abstract

The invention discloses an automatic tracking, correcting and plate feeding machine for door plates, which relates to the technical field of plate furniture production and processing equipment and comprises a roller conveying line, a rack, a correcting and pushing mechanism and an automatic lifting and pressing wheel mechanism, wherein the correcting and pushing mechanism and the automatic lifting and pressing wheel mechanism are respectively arranged on the inner side of the rack and are positioned right above the roller conveying line, the correcting and pushing mechanism and the automatic lifting and pressing wheel mechanism are respectively arranged on two sides of the rack, which are perpendicular to the plate feeding direction, and the mechanisms are mutually connected and matched to realize automatic tracking of door plates, fast squaring and neat and stable pushing of the door plates into an edge banding machine. The problem of door plant in the past bulky, weight is heavy, the workman is difficult for the operation, and skew when advancing the bag sealer is solved, guaranteed the banding quality of plate greatly, greatly reduced the disqualification rate of banding, it is more reliable than artifical board of putting, more raise the efficiency, have degree of automation height, safe efficient advantage.

Description

Automatic tracking correction plate conveying machine for door plate

Technical Field

The invention relates to the technical field of plate type furniture production and processing equipment, in particular to a plate conveying machine capable of automatically tracking and correcting a door plate.

Background

At present in the automatic line of bag sealer for plate furniture production, when the door plant got into the bag sealer automatically, there was not one set of reliable mechanism can replace the artifical operation of sending the door plant in the bag sealer in the past, send the door plant in the bag sealer in the manual work and must lean on keeping off the door plant banding face and bag sealer and send into the conveyer belt after tight, and the door plant banding face with lean on keeping off can not break away from, because the door plant is bulky, the weight is heavy, so the workman is difficult to the operation, the disposable processing qualification rate is low, and working labor intensity is big.

From this plate is carried to the mode that many bag sealer automatic lines were adopted oblique cylinder more in the market, makes the door plant lean on by keeping off to add the pinch roller at the bag sealer entry, through the automatic bag sealer that gets into of this kind of mode auxiliary door plant, this kind advances the board mode and can satisfy the automatic board banding that advances of most plates, but can only regard as auxiliary assembly, most work still needs the manual work to accomplish, workman's intensity of labour is not effectively reduced.

Disclosure of Invention

The invention aims to solve the technical problems that the labor intensity of workers is high, and the door plate is easy to deflect when entering the edge bonding machine.

In order to solve the technical problems, the invention provides an automatic door plate tracking, correcting and plate conveying machine which comprises a roller conveying line and a rack stretching over the roller conveying line, wherein a correcting material pushing mechanism and an automatic lifting pressing wheel mechanism which are positioned over the roller conveying line are respectively arranged on the inner side of the rack;

the automatic lifting pinch roller mechanism comprises a lifting slide rail mounting frame arranged on a rack, wherein vertical slide rail sliding block assemblies IV are arranged on two sides of the lifting slide rail mounting frame along the plate feeding direction, a horizontal lifting connecting rod is connected between the two slide rail sliding block assemblies IV, a lead screw lifter and a lifter mounting seat for mounting the lead screw lifter are respectively arranged at the upper end of the lifting slide rail mounting frame, a lifter connecting shaft is connected between the lead screw lifters, a lifting servo motor is arranged at one end of the lifter connecting shaft, and a cylinder mounting plate and a pressing cylinder arranged on the cylinder mounting plate are arranged at the lower end of the lead screw lifter;

the lower end of the lower pressing cylinder is fixedly provided with an elastic pressing wheel set mounting frame along the horizontal direction, the elastic pressing wheel set mounting frame is also fixed with the lower end of another lower pressing cylinder, the lower end of the elastic pressing wheel set mounting frame is fixedly provided with an elastic pressing wheel mounting plate in parallel, and a plurality of elastic wheels are fixed at the lower end of the elastic pressing wheel mounting plate along the length room;

the correcting and pushing mechanism comprises a mechanism mounting frame and a mechanism

The flexible wheel leaning mechanism is arranged at one end, away from the automatic lifting pressing wheel mechanism, of the mechanism mounting frame and comprises a mechanism fixing plate arranged along the plate feeding direction, a sliding rail and sliding block assembly I for linear sliding along the direction perpendicular to the plate feeding direction is connected between the mechanism fixing plate and the mechanism mounting frame, a flexible thrust cylinder and a wheel blocking fixing plate are arranged below two sides of the structure fixing plate along the length direction of the structure fixing plate, and a plurality of wheel blocking assemblies are arranged at the lower end of the wheel blocking fixing plate along the length direction of the structure fixing plate;

the push plate mechanism is arranged on one side, close to the plate inlet, of the mechanism mounting frame and comprises a push plate and a turnover cylinder, the push plate is arranged along the sliding direction of the flexible idler wheel mechanism, the turnover cylinder is used for driving the push plate to rotate, the push plate is arranged to rotate by taking the length direction of the push plate as a rotating shaft, a hinged support is connected between the upper end of the push plate and the mechanism mounting frame, a fisheye joint is connected between the hinged support and the turnover cylinder, and a cylinder fixing seat for mounting the turnover cylinder is further fixed on the mechanism mounting frame;

the correcting transmission mechanism is arranged on the upper side of the mechanism mounting frame and comprises a transmission mechanism mounting plate which is connected to the structure mounting frame in a relative sliding mode along the sliding direction of the flexible idler wheel mechanism, a sliding rail block assembly II for linear sliding of the transmission mechanism mounting plate and the structure mounting frame is connected between the transmission mechanism mounting plate and the structure mounting frame, the upper end of the transmission mechanism mounting plate is respectively provided with a correcting servo motor and a correcting speed reducer, the output end of the correcting speed reducer is connected with a driving synchronous wheel, one end, close to the flexible idler wheel mechanism, of the structure mounting frame is provided with a driven synchronous wheel matched with the driving synchronous wheel, a correcting synchronous belt is connected between the driving synchronous wheel and the driven synchronous wheel, and the transmission mechanism mounting plate is further provided with a wrap angle tension wheel which is in contact with the correcting synchronous belt;

send board drive mechanism, it is connected in the top of mechanism's mounting bracket along advancing the relative slip of board direction, include that it sets up in the slide rail sliding block subassembly three of mechanism's mounting bracket top along self glide direction, slide rail sliding block subassembly three is provided with two along flexible depended wheel mechanism glide direction, it is connected with the hold-in range fixing base to slide on the slide rail sliding block subassembly three, be fixed with the board hold-in range that send that sets up along the advancing board direction on the hold-in range fixing base, the both ends of sending the board hold-in range are provided with driving synchronous pulley and driven synchronous pulley respectively, the frame still is provided with the synchronous pulley mount pad that supplies the installation of driven synchronous pulley by one side of driven synchronous pulley, coaxial coupling has the transmission shaft between two driving synchronous pulleys, wherein the driving synchronous pulley of one side has connected gradually and has sent the board speed reducer and sent board servo motor.

The technical scheme of the invention is further defined as follows:

furthermore, the elastic wheels are symmetrically arranged into two groups along the width direction of the elastic pinch roller mounting plate, and the elastic wheels in the same group are arranged at equal intervals along the length direction of the elastic pinch roller mounting plate.

According to the automatic door plate tracking and correcting plate conveying machine, the elastic wheel is obliquely arranged at the lower end of the elastic pressing wheel mounting plate.

According to the automatic door plate tracking and correcting plate conveying machine, the hinge bases are provided with the plurality of the hinge bases at equal intervals along the length direction of the push plate.

The door plate automatic tracking correction plate conveying machine is characterized in that two turnover cylinders are arranged, and the turnover cylinders are symmetrically arranged at two ends of the push plate along the length direction of the push plate.

According to the door plate automatic tracking correction plate conveying machine, two synchronous belt fixing seats are arranged on the corresponding plate conveying synchronous belt at intervals along the linear direction of the sliding rail sliding block component III.

The invention has the beneficial effects that:

according to the invention, the door plate enters the entrance of the equipment, the rapid automatic tracking of the equipment is realized through electrical control, the rapid positioning of the equipment is realized through the correction of the pushing mechanism, and the flexible wheel leaning mechanism achieves certain flexibility by adjusting the air inlet pressure of the flexible thrust cylinder of the flexible wheel leaning mechanism. The automatic lifting pressing wheel mechanism is flexible to press the door plate downwards through the elastic wheel, so that the door plate is more stable in the transportation process; the door plate is received from a push plate mechanism of the correcting and pushing mechanism to enter the edge bonding machine, and the process is used for performing rule, square and calibration on the door plate; the invention mainly solves the problem that the plate is deflected when entering the edge bonding machine, and the edge bonding of the plate has high efficiency and high quality due to the functions of specification and calibration.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of a calibration pushing mechanism according to the present invention;

FIG. 3 is a schematic structural view of a flexible wheel following mechanism according to the present invention;

FIG. 4 is a schematic structural diagram of a push plate mechanism according to the present invention;

FIG. 5 is a schematic structural diagram of the correcting transmission mechanism according to the present invention;

FIG. 6 is a schematic structural view of a plate feeding transmission mechanism according to the present invention;

FIG. 7 is a schematic structural diagram of the automatic lifting pinch roller mechanism of the present invention.

Wherein: 100. a roller conveyor line; 200. a frame; 300. correcting the material pushing mechanism; 301. a mechanism mounting frame; 302. a flexible idler mechanism; 302001, mechanism fixing plate; 302002, sliding block assembly I; 302003, flexible thrust cylinder; 302004, catch wheel fixing plate; 302005, catch wheel assembly; 303. a push plate mechanism; 303001, cylinder fixing seat; 303002, turning over the cylinder; 303003, fisheye joints; 303004, hinge base; 303005, a push plate; 304. a correction transmission mechanism; 304001, a transmission mechanism mounting plate; 304002, a sliding block component II of the sliding rail; 304003, a correction speed reducer; 304004, correcting the servo motor; 304005, wrapping the corner tension wheel; 304006, a driving synchronizing wheel; 304007, driven synchronizing wheel; 304008, correcting a synchronous belt; 305. a plate feeding transmission mechanism; 305001, a third slide rail and slide block component; 305002, a synchronous belt fixing seat; 305003, a plate conveying synchronous belt; 305004, driving synchronous pulley; 305005, driven synchronous pulley; 305006, a synchronous pulley mounting seat; 305007, a drive shaft; 305008, a plate conveying speed reducer; 305009, a plate feeding servo motor; 400. the automatic lifting pinch roller mechanism; 401. a lifting slide rail mounting rack; 402. a sliding block component of the sliding rail is IV; 403. a screw rod lifter; 404. an elevator mount; 405. a lifting servo motor; 406. a lifter connecting shaft; 407. a lifting connecting rod; 408. a cylinder mounting plate; 409. pressing down the air cylinder; 410. an elastic pinch roller set mounting frame; 411. an elastic pinch roller mounting plate; 412. an elastic wheel.

Detailed Description

The automatic door sheet tracking and correcting plate conveying machine provided by the embodiment has a structure as shown in fig. 1, and includes a roller conveying line 100 and a rack 200 crossing over the roller conveying line 100, and is characterized in that: the inner side of the rack 200 is respectively provided with a correcting pushing mechanism 300 and an automatic lifting pressing wheel mechanism 400 which are positioned right above the roller conveying line 100, and the correcting pushing mechanism 300 and the automatic lifting pressing wheel mechanism 400 are respectively arranged on two sides of the rack 200 which are perpendicular to the plate conveying direction.

As shown in fig. 2, the correcting and pushing mechanism 300 includes a mechanism mounting frame 301, a flexible wheel-leaning mechanism 302, a push plate 303005 mechanism 303, a correcting transmission mechanism 304 and a plate-feeding transmission mechanism 305, the flexible wheel-leaning mechanism 302 is arranged at one end of the mechanism mounting frame 301 departing from the automatic lifting and lowering pinch roller mechanism 400, the push plate 303005 mechanism 303 is arranged at one side of the mechanism mounting frame 301 close to the plate-feeding position, the correcting transmission mechanism 304 is arranged at the upper side of the mechanism mounting frame 301, and the plate-feeding transmission mechanism 305 is connected above the mechanism mounting frame 301 along the plate-feeding direction in a relatively sliding manner.

As shown in fig. 3, the flexible wheel-leaning mechanism 302 includes a mechanism fixing plate 302001 disposed along the plate feeding direction, a sliding rail slider assembly 302002 is connected between the mechanism fixing plate 302001 and the mechanism mounting bracket 301 for allowing itself to slide linearly along the direction perpendicular to the plate feeding direction, the structure fixing plate is provided with a flexible thrust cylinder 302003 and a catch wheel fixing plate 302004 along the lower sides of both sides of the length direction, and the lower end of the catch wheel fixing plate 302004 is provided with a plurality of catch wheel assemblies 302005 along the length direction.

As shown in fig. 4, the push plate 303005 mechanism 303 includes push plate 303005 and the upset cylinder 303002 that is used for driving push plate 303005 pivoted that set up along flexible depended wheel mechanism 302 glide direction, push plate 303005 sets up to rotate as the axis of rotation with self length direction, be connected with free bearing 303004 between the upper end of push plate 303005 and the mechanism mounting bracket 301, be connected with fisheye joint 303003 between free bearing 303004 and the upset cylinder 303002, mechanism mounting bracket 301 is still fixed with the cylinder fixing base 303001 that supplies the installation of upset cylinder 303002, free bearing 303004 is provided with a plurality of along the equidistant interval of length direction of push plate 303005, upset cylinder 303002 sets up to two, and the symmetry sets up in the both ends of push plate 303005 along self length direction.

As shown in fig. 4 to 5, the correction transmission mechanism 304 includes a transmission mechanism mounting plate 304001 relatively slidably connected to the structural mounting frame along the sliding direction of the flexible wheel supporting mechanism 302, a sliding rail slider assembly two 304002 for linear sliding is connected between the transmission mechanism mounting plate 304001 and the structural mounting frame, a correction servo motor 304004 and a correction speed reducer 304003 are respectively installed at the upper end of the transmission mechanism mounting plate 304001, an output end of the correction speed reducer 304003 is connected with a driving synchronizing wheel 304006, a driven synchronizing wheel 304007 matched with the driving synchronizing wheel 304006 is arranged at one end of the structural mounting frame near the flexible wheel supporting mechanism 302, a correction timing belt 304008 is connected between the driving synchronizing wheel 304006 and the driven synchronizing wheel 304007, and a wrap angle tension wheel 304005 abutted to the correction timing belt 304008 is further arranged on the transmission mechanism mounting plate 304001.

As shown in fig. 6, the plate feeding transmission mechanism 305 includes three sliding rail slider assemblies 305001 disposed above the mechanism mounting frame 301 along the self-sliding direction, two sliding rail slider assemblies 305001 are disposed along the sliding direction of the flexible wheel guiding mechanism 302, a synchronous belt fixing seat 305002 is slidably connected to the three sliding rail slider assemblies 305001, a plate feeding synchronous belt 305003 disposed along the plate feeding direction is fixed to the synchronous belt fixing seat 305002, a driving synchronous pulley 305004 and a driven synchronous pulley 305005 are respectively disposed at two ends of the plate feeding synchronous belt 305003, a synchronous pulley mounting seat 305006 for mounting the driven synchronous pulley 305005 is further disposed at one side of the frame 200 close to the driven synchronous pulley 305005, and a transmission shaft 305007 is coaxially connected between the two driving synchronous pulleys 305004, the driving synchronous pulley 305004 on one side is sequentially connected with a plate feeding speed reducer 305008 and a plate feeding servo motor 305009, and two synchronous belt fixing seats 305002 are arranged on the corresponding plate feeding synchronous belts 305003 at intervals along the linear direction of the sliding rail slider assembly three 305001.

As shown in fig. 7, the automatic lifting pinch roller mechanism 400 includes a lifting slide rail mounting rack 401 installed on the frame 200, two sides of the lifting slide rail mounting rack 401 along the plate feeding direction are both provided with vertical slide rail slider assembly four 402, a horizontal lifting connecting rod 407 is connected between the two slide rail slider assembly four 402, the upper end of the lifting slide rail mounting rack 401 is respectively provided with a screw rod lifter 403 and a lifter mounting seat 404 for installing the screw rod lifter 403, a lifter connecting shaft 406 is connected between the screw rod lifter 403, one end of the lifter connecting shaft 406 is provided with a lifting servo motor 405, and the lower end of the screw rod lifter 403 is provided with a cylinder mounting plate 408 and a pressing cylinder 409 installed on the cylinder mounting plate 408.

The lower extreme of air cylinder 409 pushes down is fixed with along horizontally elasticity pinch roller group mounting bracket 410, elasticity pinch roller group mounting bracket 410 is also fixed with another lower extreme of pushing down air cylinder 409 simultaneously, the lower extreme parallel of elasticity pinch roller group mounting bracket 410 is fixed with elasticity pinch roller mounting panel 411, the lower extreme of elasticity pinch roller mounting panel 411 is fixed with a plurality of elastic wheel 412 along self length room, elastic wheel 412 sets up to two sets ofly along the width direction symmetry of elasticity pinch roller mounting panel 411, and establish along the equidistant interval of length direction of elasticity pinch roller mounting panel 411 with the elastic wheel 412 in a set of, the slope of elastic wheel 412 sets up in the lower extreme of elasticity pinch roller mounting panel 411.

The door plate is transported to an inlet of the equipment from the production line, and the position of the door plate is detected through a sensor at the inlet (the sensor is detected by a conventional means and is not described in detail); when the door panel continues to move forward and the door panel just leaves the position of the push plate 303005 mechanism 303, the overturning cylinder 303002 pushes out to rotate the push plate 303005 by 90 degrees, so that the lower edge of the push plate 303005 is lower than the height of the upper surface of the panel, the panel feeding transmission mechanism 305 drives the push plate 303005 to move forward, and the correcting and pushing mechanism 300 is driven by the correcting transmission mechanism 304 to push the door panel to be aligned and corrected.

The automatic lifting pressing wheel mechanism 400 presses the door plate close to one side of the edge bonding machine, so that the door plate is prevented from deviating and is guaranteed to enter the edge bonding machine smoothly; when the door plate enters the edge bonding machine, the push plate 303005 mechanism 303 and the correction pushing mechanism 300 retract rapidly to engage the next door plate, and the above process is repeated.

When the door plate enters the entrance of the equipment, the door plate is automatically and quickly tracked under the electrical control, the material pushing mechanism 300 is corrected to realize the quick positioning, and the flexible wheel leaning mechanism 302 achieves certain flexibility by adjusting the air inlet pressure of the flexible thrust cylinder 302003. The automatic lifting pressing wheel mechanism 400 is flexible to press the door plate through the elastic wheel 412, so that the door plate is more stable in the transportation process; the door plate is received by the push plate 303005 mechanism 303 of the correcting and pushing mechanism 300, and enters the edge bonding machine, and the process is used for performing regular and square adjustment on the door plate; the invention mainly solves the problem that the plate is deflected when entering the edge bonding machine, and the edge bonding of the plate has high efficiency and high quality due to the functions of specification and calibration, thereby improving the product competitiveness of enterprises.

In addition to the above embodiments, the present invention may have other embodiments. All technical solutions formed by adopting equivalent substitutions or equivalent transformations fall within the protection scope of the claims of the present invention.

Claims (6)

1. The utility model provides a door plant automatic tracking correction plate feeder, includes cylinder transfer chain (100) and strides frame (200) directly over cylinder transfer chain (100), its characterized in that: the inner side of the rack (200) is respectively provided with a correcting pushing mechanism (300) and an automatic lifting pressing wheel mechanism (400) which are positioned right above the roller conveying line (100), and the correcting pushing mechanism (300) and the automatic lifting pressing wheel mechanism (400) are respectively arranged on two sides of the rack (200) which are vertical to the plate feeding direction;

the automatic lifting pressing wheel mechanism (400) comprises a lifting slide rail mounting frame (401) arranged on a rack (200), two sides of the lifting slide rail mounting frame (401) along the plate feeding direction are respectively provided with a vertical slide rail sliding block assembly four (402), a horizontal lifting connecting rod (407) is connected between the two slide rail sliding block assemblies four (402), the upper end of the lifting slide rail mounting frame (401) is respectively provided with a screw rod lifter (403) and a lifter mounting seat (404) for mounting the screw rod lifter (403), a lifter connecting shaft (406) is connected between the screw rod lifters (403), one end of the lifter connecting shaft (406) is provided with a lifting servo motor (405), and the lower end of the screw rod lifter (403) is provided with a cylinder mounting plate (408) and a pressing cylinder (409) arranged on the cylinder mounting plate (408);

an elastic pinch roller set mounting frame (410) which is horizontal along the lower end of the lower pressing cylinder (409) is fixed at the lower end of the lower pressing cylinder (409), the elastic pinch roller set mounting frame (410) is also fixed at the lower end of the other lower pressing cylinder (409), an elastic pinch roller mounting plate (411) is fixed at the lower end of the elastic pinch roller set mounting frame (410) in parallel, and a plurality of elastic wheels (412) are fixed at the lower end of the elastic pinch roller mounting plate (411) along the length room of the elastic pinch roller mounting plate;

the correcting and pushing mechanism (300) comprises a mechanism mounting frame (301) and further comprises

The flexible wheel leaning mechanism (302) is arranged at one end, away from the automatic lifting pinch roller mechanism (400), of the mechanism mounting frame (301), and comprises a mechanism fixing plate (302001) arranged along the plate feeding direction, a sliding rail slider assembly I (302002) for linear sliding along the direction perpendicular to the plate feeding direction is connected between the mechanism fixing plate (302001) and the mechanism mounting frame (301), a flexible thrust cylinder (302003) and a catch wheel fixing plate (302004) are arranged below two sides of the structure fixing plate along the length direction, and a plurality of catch wheel assemblies (302005) are arranged at the lower end of the catch wheel fixing plate (302004) along the length direction;

the push plate (303005) mechanism (303) is arranged on one side, close to the plate inlet, of the mechanism mounting frame (301), and comprises a push plate (303005) arranged along the sliding direction of the flexible wheel leaning mechanism (302) and a turnover cylinder (303002) used for driving the push plate (303005) to rotate, the push plate (303005) is arranged to rotate by taking the length direction of the push plate as a rotating shaft, a hinged support (303004) is connected between the upper end of the push plate (303005) and the mechanism mounting frame (301), a fish eye joint (303003) is connected between the hinged support (303004) and the turnover cylinder (303002), and a cylinder fixing seat (303001) for installing the turnover cylinder (303002) is further fixed on the mechanism mounting frame (301);

the correcting transmission mechanism (304) is arranged on the upper side of the mechanism mounting frame (301) and comprises a transmission mechanism mounting plate (304001) which is connected to the structure mounting frame in a relative sliding mode along the sliding direction of the flexible idler wheel mechanism (302), a sliding rail sliding block assembly II (304002) for linear sliding of the transmission mechanism mounting plate II is connected between the transmission mechanism mounting plate (304001) and the structure mounting frame, the upper end of the transmission mechanism mounting plate (304001) is respectively provided with a correcting servo motor (304004) and a correcting speed reducer (304003), the output end of the correcting speed reducer (304003) is connected with a driving synchronous wheel (304006), one end of the structure mounting frame close to the flexible idler wheel mechanism (302) is provided with a driven synchronous wheel (304007) matched with the driving synchronous wheel (304006), a correcting synchronous belt (304008) is connected between the driving synchronous wheel (304006) and the driven synchronous wheel (304007), and an included angle tension wheel 304005) which is abutted to the correcting synchronous belt (304008) is further arranged on the transmission mechanism mounting plate (304001);

a plate feeding transmission mechanism (305) which is connected above a mechanism mounting frame (301) in a relative sliding manner along a plate feeding direction and comprises a third sliding rail sliding block component (305001) arranged above the mechanism mounting frame (301) along the self sliding direction, two third sliding rail sliding block components (305001) are arranged along the sliding direction of a flexible wheel leaning mechanism (302), a synchronous belt fixing seat (305002) is connected on the third sliding rail sliding block component (305001) in a sliding manner, a plate feeding synchronous belt (305003) arranged along the plate feeding direction is fixed on the synchronous belt fixing seat (305002), a driving synchronous belt wheel (305004) and a driven synchronous belt wheel (305005) are respectively arranged at two ends of a plate feeding synchronous belt (305003), a synchronous belt wheel mounting seat (305006) for mounting the driven synchronous belt wheel (305005) is further arranged at one side of a rack (200) close to the driven synchronous belt wheel (305005), and a transmission shaft (305007) is coaxially connected between the two driving synchronous belt wheels (305004), the driving synchronous belt wheel (305004) on one side is sequentially connected with a plate conveying speed reducer (305008) and a plate conveying servo motor (305009).

2. The automatic door plate tracking and correcting plate conveying machine according to claim 1, wherein: the elastic wheels (412) are symmetrically arranged into two groups along the width direction of the elastic pinch roller mounting plate (411), and the elastic wheels (412) in the same group are arranged at equal intervals along the length direction of the elastic pinch roller mounting plate (411).

3. The automatic door plate tracking and correcting plate conveying machine as claimed in claim 2, wherein: the elastic wheel (412) is obliquely arranged at the lower end of the elastic pressing wheel mounting plate (411).

4. The automatic door plate tracking and correcting plate conveying machine according to claim 1, wherein: the hinge seats (303004) are arranged at intervals along the length direction of the push plate (303005).

5. The automatic door plate tracking and correcting plate conveying machine according to claim 1, wherein: the number of the turnover cylinders (303002) is two, and the turnover cylinders are symmetrically arranged at two ends of the push plate (303005) along the length direction of the push plate.

6. The automatic door plate tracking and correcting plate conveying machine according to claim 1, wherein: the synchronous belt fixing seats (305002) are arranged in two at intervals on the corresponding plate conveying synchronous belts (305003) along the linear direction of the sliding block assembly III (305001).

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