CN110759158A - Paper collection unit device for digital ink jet printer - Google Patents

Abstract

The invention discloses a paper collecting unit device for a digital ink jet printer, which comprises two fixed plates, wherein placing cavities are formed in the two fixed plates, lifting devices are arranged in the two placing cavities, first connecting plates are fixed on the two lifting devices, a bearing plate is jointly fixed between the two first connecting plates, a groove is formed in the bearing plate, a dislocation device is arranged in the groove, four bearing rods are arranged on the dislocation device, a placing plate is jointly fixed at the upper ends of the four bearing rods, and a cavity is formed in the placing plate. The invention achieves the purpose of quickly arranging the printed materials, ensures that the materials fall on the placing plate according to the arrangement sequence, and ensures that the materials are alternately and separately placed, thereby facilitating the quick binding of workers, increasing the working efficiency, and simultaneously, when the pile is changed, the printed materials can be received and the printed paper can be conveyed, thereby avoiding the situation that the printed paper is too high in pile.

Description

Paper collection unit device for digital ink jet printer

Technical Field

The invention relates to the technical field of digital ink-jet printing, in particular to a paper collecting unit device for a digital ink-jet printer.

Background

The digital ink-jet printer is a non-contact ink-jet printing high-tech digital printing equipment, so it can be used for printing colour photo on the surface of wood plate, glass, crystal, metal plate, floor tile, ceramic chip, optical disk, acrylic, organic glass, EVA.KT plate, leather, silica gel, plastic cement, PVC, cloth, adhesive sticker and stone material, etc. and its digital ink-jet printing technology is quick in printing speed, convenient in operation and extensive in application field

Usually, once print out many this materials according to the order, the page number of every this material is more, and after the paper after printing fell on placing the board, the staff all need classify to the paper, classify every book, later bind again, but because the material quantity of printing at every turn is more, places the material on the board and piles up more, separates every this material, increases staff intensity of labour, reduces the efficiency of processing man-hour, so need improve.

Disclosure of Invention

The invention aims to realize collection of printed paper and convenience for subsequent binding, and provides a paper collecting unit device for a digital ink-jet printer.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a digital inkjet printer is with receiving paper unit device, includes two fixed plates, all be equipped with in two fixed plates and place the chamber, two are placed the intracavity and all are equipped with elevating gear, all are fixed with first connecting plate on two elevating gear, are fixed with the loading board between two first connecting plates jointly, be equipped with the recess on the loading board, be equipped with the dislocation device in the recess, be equipped with four carrier bars on the dislocation device, the upper end of four carrier bars is fixed with jointly and places the board, it is equipped with the cavity in the board to place, be equipped with in the cavity and trade the heap device.

Preferably, elevating gear includes that fixed rotation connects the first rotation pole on the relative lateral wall in the treatment chamber, and lower extreme one side of one of them fixed plate is fixed with first inverter motor, first inverter motor's output shaft runs through the fixed plate and extends to the treatment chamber, first inverter motor's output shaft end is fixed on one of them first rotation pole, all is fixed with the gear on two first rotation poles, connects through the chain between two gears, the one end of first connecting plate is fixed with the limiting plate, be equipped with the spacing groove on the limiting plate, all be equipped with the spout on the relative lateral wall of spacing inslot, sliding connection has the third slider in the spout, the third slider is fixed on the chain, all is equipped with the second opening on two fixed plates, and two first connecting plates run through the second opening and extend to one side of fixed plate.

Preferably, the dislocation device comprises two third slide rails arranged at the bottom in the groove, two fourth slide blocks are arranged on the two third slide rails, the lower ends of the four bearing rods are respectively fixed at the upper ends of the fourth slide blocks, a second connecting plate is jointly fixed between the two bearing rods on the same side, a positioning plate is fixed on the side wall of one end in the groove, a second variable frequency motor is fixed on the side wall of one end of the positioning plate, the tail end of an output shaft of the second variable frequency motor penetrates through the positioning plate and extends to one side of the positioning plate, an eccentric wheel is fixed at the tail end of the output shaft of the second variable frequency motor, the eccentric wheel is rotationally connected with a push-pull rod, one end of the push-pull rod is rotationally connected with a push-pull plate, the push-pull plate is connected to the positioning plate in a sliding mode, two fixing rods are fixed to one end of the push-pull plate, and one ends of the two fixing rods are fixed to the second connecting plate together.

Preferably, the pile changing device comprises a driving motor fixed at the bottom in the cavity, a second rotating rod is fixed at the tail end of an output shaft of the driving motor, one end of the second rotating rod is rotatably connected to the side wall of the other end in the cavity, the opposite side wall in the cavity is rotatably connected with another second rotating rod together, the two second rotating rods are fixedly provided with driving wheels together, the two driving wheels on the same side are in a group, the two driving wheels in the same group are in transmission connection with a conveying belt together, the placing plate is provided with two first openings, the upper part of the conveyor belt penetrates through the first openings and extends to the upper end of the placing plate, guide rails are fixed on the opposite sides of the two fixing plates, first sliders are fixed on the guide rails, a moving plate is fixed between the two first sliders, and a plurality of placing rods are fixed at one end of the moving plate at equal intervals.

Preferably, the detection device comprises support plates fixed on two fixing plates, a vertical plate is fixed on the side wall of one end of each support plate, an installation block is rotatably connected to one side of the lower end of each vertical plate, a detection wheel is fixed to one side of the lower end of each installation block, a detection plate is fixed to one side of the upper end of each installation block, and a sensor is installed on each detection plate.

Preferably, two first slide rails are fixed on opposite sides of the two fixing plates, the first slide rails are provided with second slide blocks, and one ends of the four second slide blocks are fixed on the bearing plate.

Preferably, the material receiving plates are jointly fixed on one side of the lower ends of the two fixing plates.

Preferably, the length of the placing plate is longer than that of the placing rod.

Compared with the prior art, the invention has the beneficial effects that:

1. through the matching between the lifting device and the placing plate, the purpose of controlling the height of the placing plate along with the increase of the number of the paper sheets is achieved, so that the printed materials are uniformly placed on the placing plate according to the arrangement sequence, the situations of disordered sequential placing and paper sheet blockage are reduced, and the later-stage binding of workers is facilitated;

2. through the matching between the moving plate and the pile changing device, materials can be continuously received during pile changing, and meanwhile, the printed materials are guaranteed to be collected during pile changing, so that the situation that the labor intensity of workers is increased or the printing speed is reduced due to the fact that the materials fall off or the printing needs to be suspended during material collecting is prevented, and the printing cost is reduced;

3. through the matching between the adjusting device and the connecting plate, the aim of forming dislocation after printing of each material is achieved, and workers can quickly classify each material, so that each material can be quickly bound, the working efficiency of the workers is greatly improved, and the labor intensity of the workers is reduced;

in conclusion, the purpose of quickly arranging the printed materials is achieved, the materials are guaranteed to fall onto the placing plate according to the arrangement sequence, the materials are placed in a staggered and classified mode, workers can conveniently and quickly bind the materials, the working efficiency is improved, meanwhile, when piles are replaced, the printed materials can be received, meanwhile, the printed papers can be conveyed, and the situation that the printed papers are too high in stacking is avoided.

Drawings

Fig. 1 is a top view of a delivery unit device for a digital inkjet printer according to the present invention;

FIG. 2 is a schematic diagram of the structure of the processing chamber of a delivery unit device for a digital inkjet printer according to the present invention;

FIG. 3 is a schematic view of the structure of a gear and a chain of a delivery unit device for a digital inkjet printer according to the present invention

FIG. 4 is a schematic structural diagram of a positioning plate of a delivery unit device for a digital inkjet printer according to the present invention;

FIG. 5 is a side view of a delivery unit assembly for a digital inkjet printer according to the present invention;

FIG. 6 is a schematic structural diagram of a placement board of a delivery unit device for a digital inkjet printer according to the present invention;

FIG. 7 is a schematic diagram of an external structure of a placement board of a delivery unit device for a digital inkjet printer according to the present invention;

fig. 8 is a schematic structural diagram of a delivery unit device sensor for a digital inkjet printer according to the present invention.

In the figure: the device comprises a fixing plate 1, a guide rail 2, a first sliding block 3, a placing rod 4, a moving plate 5, a first variable frequency motor 6, a first connecting plate 7, a first sliding rail 8, a mounting plate 9, a bearing plate 10, a second sliding block 11, a first rotating rod 12, a chain 13, a bearing rod 14, a push-pull rod 15, a placing plate 16, an eccentric wheel 17, a first opening 18, a conveying belt 19, a third sliding block 20, a sliding chute 21, a gear 22, a material receiving plate 23, a second rotating rod 24, a second connecting plate 25, a fourth sliding block 26, a driving wheel 27, a second variable frequency motor 28, a third sliding rail 29, a positioning plate 30, a push-pull plate 31, a limiting plate 32, a driving motor 33, a sensor 34, a detection plate 35, a vertical plate 36, a detection.

Detailed Description

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

Referring to fig. 1-8, a paper receiving unit device for a digital inkjet printer comprises two fixing plates 1, wherein a placing cavity is arranged in each of the two fixing plates 1, a lifting device is arranged in each of the two placing cavities, a first connecting plate 7 is fixed on each of the two lifting devices, a bearing plate 10 is fixed between the two first connecting plates 7, the first connecting plate 7 controls the bearing plate 10 to lift, the position of the bearing plate 10 is slowly adjusted along with the increase of the number of paper sheets, two first slide rails 8 are fixed on opposite sides in each of the two fixing plates 1, a second slide block 11 is installed on each first slide rail 8, one end of each of four second slide blocks 11 is fixed on the bearing plate 10, the second slide blocks 11 facilitate the lifting of the bearing plate 10, a groove is arranged on the bearing plate 10, a dislocation device is arranged in the groove, four bearing rods 14 are arranged on the dislocation device, a placing plate 16 is fixed on, place and be equipped with the cavity in the board 16, carrier bar 14 supports placing board 16, adjusts simultaneously and places board 16 and remove about, is equipped with in the cavity and trades the heap device, and lower extreme one side of two fixed plates 1 is fixed with material collecting plate 23 jointly, and the material of placing board 16 removes material collecting plate 23 at last, later makes things convenient for the staff to carry out subsequent step, reduces staff intensity of labour.

Referring to fig. 2 and 3, the lifting device includes first rotating rods 12 fixedly and rotatably connected to opposite side walls in the treatment chamber, a first variable frequency motor 6 is fixed to one side of the lower end of one of the fixing plates 1, an output shaft of the first variable frequency motor 6 penetrates through the fixing plate 1 and extends into the treatment chamber, the tail end of the output shaft of the first variable frequency motor 6 is fixed to one of the first rotating rods 12, the first variable frequency motor 6 controls the rotating speed of the first rotating rod 12, gears 22 are fixed to both the first rotating rods 12, the two gears 22 are connected through a chain 13, the first rotating rod 12 drives the gear 22 to rotate out, thereby driving the chain 13 to move, and controlling the position of the chain 13 to move, a limiting plate 32 is fixed to one end of the first connecting plate 7, the chain 13 drives the limiting plate 32 to move, thereby controlling the position of the first connecting plate 7, and, all be equipped with spout 21 on the relative lateral wall of spacing inslot, sliding connection has third slider 20 in spout 21, third slider 20 slides in the spacing inslot, thereby change limiting plate 32 and rise or descend, and can not make first connecting plate 7 remove to other directions, third slider 20 is fixed on chain 13, chain 13 drives third slider 20 and removes, all be equipped with the second opening on two fixed plates 1, two first connecting plate 7 run through the second opening and extend to one side of fixed plate 1, along with the increase of paper quantity, the first connecting plate 7 of chain 13 control and the height of placing board 16, make the paper after having printed according to arrange that the order is even to fall on placing board 16, avoid the condition emergence of paper arrangement disorder.

Referring to fig. 4 and 5, the dislocation device includes two third slide rails 29 installed at the bottom in the groove, two fourth slide blocks 26 are installed on the two third slide rails 29, the fourth slide blocks 26 can move left and right on the third slide rails 29, the lower ends of the four carrying rods 14 are respectively fixed at the upper ends of the fourth slide blocks 26, the carrying rods 14 move to drive the placing plate 16 to move left and right, dislocation is formed between the whole materials according to the position of paper, a second connecting plate 25 is jointly fixed between the two carrying rods 14 on the same side, a positioning plate 30 is fixed on the side wall at one end in the groove, a second variable frequency motor 28 is fixed on the side wall at one end of the positioning plate 30, the tail end of the output shaft of the second variable frequency motor 28 penetrates through the positioning plate 30 and extends to one side of the positioning plate 30, an eccentric wheel 17 is fixed on the tail end of the output shaft of the second variable frequency, the eccentric wheel 17 is rotatably connected with a push-pull rod 15, the eccentric wheel 17 drives the push-pull rod 15 to move when rotating, the position of the push-pull rod 15 is controlled, one end of the push-pull rod 15 is rotatably connected with a push-pull plate 31, the push-pull plate 31 drives the position of the push-pull plate 31 to move when moving, the push-pull plate 31 is slidably connected on the positioning plate 30, the push-pull plate 31 is convenient to move, one end of the push-pull plate 31 is fixedly provided with two fixing rods, one end of the two fixing rods is commonly fixed on the second connecting plate 25, the push-pull plate 31 drives the two fixing rods to move when moving so as to control the second connecting plate 25 to move left and right, so as to push the placing plate 16 to move, so that dislocation is formed between every whole material, and when the system detects that the whole material is printed and completely falls on the placing plate 16, the, the placing plate 16 is restored to the original position, and the previously printed material and the present material are dislocated again, thereby facilitating binding by the worker.

Referring to fig. 4-6, the pile changing device includes a driving motor 33 fixed at the bottom of the cavity, a second rotating rod 24 is fixed at the end of the output shaft of the driving motor 33, and one end of the second rotating rod 24 is rotatably connected to the other end side wall of the cavity, another second rotating rod 24 is rotatably connected to the opposite side wall of the cavity, the driving motor 33 drives the second rotating rod 24 to rotate, the second rotating rod 24 drives the driving wheel 27 to rotate, the two second rotating rods 24 are jointly fixed with the driving wheel 27, the two driving wheels 27 on the same side are a group, the two driving wheels 27 in the same group are jointly connected with the conveying belt 19 in a transmission manner, the driving wheel 27 drives the conveying belt 19 to rotate, the conveying belt 19 thereby drives the printed material to move, the placing plate 16 is provided with two first openings 18, the upper portion of the conveying belt 19 penetrates through the first opening 18 and extends, the opposite sides of two fixed plates 1 all are fixed with guide rail 2, be fixed with first slider 3 on the guide rail 2, be fixed with movable plate 5 between two first sliders 3 jointly, the first slider 3 of guide rail 2 control removes, thereby control movable plate 5 removes, when needs trade the heap, the material falls on placing pole 4, the one end of movable plate 5 is equidistant to be fixed with a plurality of poles 4 of placing, the length of placing board 16 is longer than the length of placing pole 4, when placing board 16 rebound, the paper of placing on the pole 4 can fall on placing board 16, later continue to collect.

Referring to fig. 2 and 8, the detecting device comprises a supporting plate 38 fixed between two fixing plates 1, a vertical plate 36 is fixed on the side wall of one end of the supporting plate 38, a mounting block is rotatably connected to one side of the lower end of the vertical plate 36, a detecting wheel 37 is fixed on one side of the lower end of the mounting block, the detecting wheel 37 presses on the paper, when the paper stack becomes thick, the angle of the detecting wheel 37 is changed, so that the angle of the mounting block is changed, the mounting block drives the detecting plate 35 to rotate, the detecting plate 35 drives the sensor 34 to move, the sensor 34 is connected with the control system of the first variable frequency motor 6, when the sensor 34 shakes, the first variable frequency motor 6 starts to work, the detecting plate 35 is fixed on one side of the upper end of the mounting block, the sensor 34 is installed on the detecting plate 35, when the paper moves to the placing plate 16, the detecting wheel 37 presses on the paper, when the height of the paper changes, the detection wheel 37 can swing, the detection wheel 37 drives the detection plate 35 to swing, the detection plate 35 on the detection wheel 37 swings and triggers the sensor 34 to send a signal to the first variable frequency motor 6, so that the adjustment is started, the detection wheel 37 monitors the height of the paper in real time, when the height of the paper changes, the detection wheel can send a signal to the first variable frequency motor 6, and the first variable frequency motor 6 rotates to drive the loading plate 10 to ascend and descend to achieve the purpose of automatically adjusting the height of the thickness of the paper pile.

In the invention, when in use, printed paper falls on the placing plate 16, the detection wheel 37 is pressed on the paper, the paper stack becomes thicker along with the increase of the thickness of the paper stack, when the height of the paper stack changes, the detection plate 35 on the detection wheel 37 swings and the sensor 34 triggers to send a signal to the first variable frequency motor 6 so as to start adjustment, the detection wheel 37 carries out real-time monitoring on the height of the paper, when the height of the paper changes, the signal is sent to the first variable frequency motor 6, the first variable frequency motor 6 drives the connected first rotating rod 12 to rotate, the first rotating rod 12 drives the gear 22 to rotate, the gear 22 drives the chain 13 to rotate, when the chain 13 rotates, the third sliding block 20 is driven to move downwards, the third sliding block 20 moves to drive the limiting plate 32 to move, the limiting plate 32 drives the first connecting plate 7 to move downwards and move to a proper position, the first variable frequency motor 6 controls the rotation angle of the gear 22, thereby controlling the moving position of the chain 13, thereby controlling the moving height of the bearing plate 10, the detecting system can detect the amount of paper, and judge the thickness of the paper on the placing plate 16, then the system controls the first variable frequency motor 6 to control the moving position of the chain 13, when the detecting system detects that a material is printed and is completely conveyed onto the placing plate 16, at this time, the second variable frequency motor 28 drives the eccentric wheel 17 to rotate, at this time, the eccentric wheel 17 drives the push-pull plate 31 to move, the push-pull plate 31 can drive the fixed rod to move, the fixed rod drives the second connecting plate 25 to move, the second connecting plate 25 drives the bearing rod 14 to move, the bearing rod 14 drives the placing plate 16 to move to one side, the placing plate 16 drives the previously printed material to move to one side, so that the whole material after and the previously printed material form dislocation, and the separation by workers is convenient during binding, when the whole material is printed again, the second variable frequency motor 28 drives the eccentric wheel 17 to rotate, the eccentric wheel 17 drives the push-pull rod 15 to move towards the other side, the fixed rod drives the second connecting plate 25 to move again, so that the bearing rod 14 moves, the placing plate 16 moves to the original taste, the printed material and the previous material are dislocated again, when more paper is on the placing plate 16, the two guide rails 2 drive the first sliding block 3 to move, the first sliding block 3 drives the moving plate 5 to move, the moving plate 5 drives the placing rod 4 to move to the position of the previous placing plate 16, the printed material falls on the placing rod 4, the control system controls the first variable frequency motor 6 to rotate the whole chain 13, the third sliding block 20 drives the limiting plate 32 to move, the limiting plate 32 drives the first connecting plate 7 to move to the position equal to the material receiving plate 23, and the driving motor 33 is started to drive one of the second rotating rods 24 to rotate, second dwang 24 drives the drive wheel 27 and rotates, thereby drive conveyer belt 19 and rotate, because the upper portion of conveyer belt 19 runs through first opening 18 and extends to the upper end of placing board 16, two conveyer belts 19 drive the paper that has printed and move to receiving board 23, later first inverter motor 6 continues to drive chain 13 and rotates, drive first connecting plate 7 and move, first connecting plate 7 drives loading board 10 and moves, because the length of placing board 16 is longer than the length of placing pole 4, when placing board 16 rebound, the paper that falls on placing pole 4 can fall on placing board 16, guide rail 2 drives movable plate 5 and moves backward simultaneously, make the paper after printing fall on placing board 16 completely, later make the paper after printing continue to fall on placing board 16.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. A delivery unit device for a digital inkjet printer, comprising two fixed plates (1), characterized in that: all be equipped with in two fixed plates (1) and place the chamber, two are placed the intracavity and all are equipped with elevating gear, all are fixed with first connecting plate (7) on two elevating gear, are fixed with loading board (10) jointly between two first connecting plate (7), be equipped with the recess on loading board (10), be equipped with the dislocation device in the recess, be equipped with four carrier bars (14) on the dislocation device, the upper end of four carrier bars (14) is fixed with jointly and places board (16), it is equipped with the cavity in board (16) to place, be equipped with in the cavity and trade the heap device, be equipped with detection device jointly between two fixed plates (1).

2. The delivery unit device of claim 1, wherein the lifting device comprises first rotating rods (12) connected to opposite side walls of the processing chamber in a fixed and rotatable manner, one side of the lower end of one of the fixed plates (1) is fixed with a first variable frequency motor (6), an output shaft of the first variable frequency motor (6) penetrates through the fixed plates (1) and extends into the processing chamber, the tail end of the output shaft of the first variable frequency motor (6) is fixed on one of the first rotating rods (12), gears (22) are fixed on both the first rotating rods (12), the two gears (22) are connected through a chain (13), a limiting plate (32) is fixed at one end of the first connecting plate (7), a limiting groove is formed in the limiting plate (32), and sliding grooves (21) are formed in opposite side walls of the limiting groove, sliding connection has third slider (20) in spout (21), third slider (20) are fixed on chain (13), all are equipped with the second opening on two fixed plates (1), and two first connecting plate (7) run through the second opening and extend to one side of fixed plate (1).

3. The delivery unit device of claim 1, wherein the dislocation device comprises two third slide rails (29) installed at the bottom of the groove, two fourth slide blocks (26) are installed on each of the two third slide rails (29), the lower ends of the four carrying rods (14) are respectively fixed at the upper ends of the fourth slide blocks (26), a second connecting plate (25) is jointly fixed between the two carrying rods (14) on the same side, a positioning plate (30) is fixed on the side wall of one end in the groove, a second variable frequency motor (28) is fixed on the side wall of one end of the positioning plate (30), the tail end of the output shaft of the second variable frequency motor (28) penetrates through the positioning plate (30) and extends to one side of the positioning plate (30), an eccentric wheel (17) is fixed at the tail end of the output shaft of the second variable frequency motor (28), and a push-pull rod (15) is rotatably connected to the eccentric wheel (17), one end of the push-pull rod (15) is rotatably connected with a push-pull plate (31), the push-pull plate (31) is connected to the positioning plate (30) in a sliding mode, two fixing rods are fixed to one end of the push-pull plate (31), and one ends of the two fixing rods are fixed to the second connecting plate (25) together.

4. The delivery unit device of claim 1, wherein the pile changing device comprises a driving motor (33) fixed at the bottom of the cavity, a second rotating rod (24) is fixed at the end of the output shaft of the driving motor (33), one end of the second rotating rod (24) is rotatably connected to the other end side wall of the cavity, another second rotating rod (24) is rotatably connected to the opposite side wall of the cavity, driving wheels (27) are fixed on the two second rotating rods (24) together, the two driving wheels (27) on the same side are in one group, the two driving wheels (27) in the same group are in transmission connection with the conveying belt (19), two first openings (18) are arranged on the placing plate (16), the upper part of the conveying belt (19) penetrates through the first openings (18) and extends to the upper end of the placing plate (16), the relative one side of two fixed plates (1) all is fixed with guide rail (2), be fixed with first slider (3) on guide rail (2), be fixed with movable plate (5) between two first slider (3) jointly, the one end of movable plate (5) is equidistant to be fixed with a plurality of poles (4) of placing.

5. The delivery unit device of claim 1, wherein two first slide rails (8) are fixed on opposite sides of the two fixed plates (1), the first slide rails (8) are provided with second slide blocks (11), and one ends of the four second slide blocks (11) are fixed on the bearing plate (10).

6. The delivery unit device of claim 1, wherein the two fixed plates (1) are fixed with a material receiving plate (23) at one side of the lower ends thereof.

7. The delivery unit device of claim 4, wherein the length of the placement plate (16) is longer than the length of the placement rod (4).

8. The delivery unit device of claim 1, wherein the detecting device comprises a supporting plate (38) fixed on two fixing plates (1), a vertical plate (36) is fixed on a side wall of one end of the supporting plate (38), a mounting block is rotatably connected to one side of the lower end of the vertical plate (36), a detecting wheel (37) is fixed to one side of the lower end of the mounting block, a detecting plate (35) is fixed to one side of the upper end of the mounting block, and a sensor (34) is mounted on the detecting plate (35).

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