CN220495553U - OK machine stacks tablet aircraft nose - Google Patents

Abstract

The utility model relates to an OK machine card stacking machine head, which comprises a machine head seat, wherein the machine head seat consists of a first installation part and a second installation part; the first installation part is provided with a tablet feeding light-control PCB board; the front surface of the second installation part is provided with a card receiving seat lifting motor, a positioning magnetic control PCB bracket and the back surface is also provided with a machine head box; the output shaft of the card receiving seat lifting motor is sleeved with a machine head concave wheel; five cards of positioning magnetic control PCB boards are clamped on the positioning magnetic control PCB board bracket; the lower part of the machine head box is clamped with a positioning magnetic control PCB; the card receiving seat is slidably connected outside one side of the machine head box, which is close to the first installation part, and is movably connected with the machine head concave wheel through the machine head deflector rod; the card feeding light-control PCB, the card receiving seat lifting motor, the five card positioning magnetic control PCB and the positioning magnetic control PCB are electrically connected with a control system of the OK machine. The utility model can randomly adjust and convert 1 card, 5 cards or 7 cards, thereby realizing different playing methods on one OK machine and greatly reducing the use cost of the OK machine.

Description

OK machine stacks tablet aircraft nose

Technical Field

The utility model belongs to the technical field of entertainment OK machines, and particularly relates to a card stacking machine head of an OK machine.

Background

The OK machine is an entertainment chess and card game product which is developed based on the three-layer machine of the domestic full-automatic mahjong machine and is suitable for turkish people. At present, the OK machine has two game playing methods on the Turkish market, wherein one game playing method is a game playing method for stacking 5 OK cards, and the other game playing method is a game playing method for stacking 7 OK cards. However, the current OK machine type on the Turkey market can only play games with 5 OK cards, cannot play games with 7 OK cards, or can only play games with 7 OK cards and 5 OK cards, and cannot realize the functions of stacking 5 OK cards and 7 OK cards on the same OK machine. The fundamental reason that the conversion of 5 cards or 7 cards cannot be realized is that the structure of the card stacking machine head is designed to be defective, and the existing OK machine card stacking machine head cannot be used for randomly adjusting 1 card, 5 cards or 7 cards according to the OK card playing method, so that the OK machine playing method is single, and the use cost of the OK machine is increased.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the folding head of the OK machine, which can randomly adjust and convert 1 card, 5 cards or 7 cards, thereby realizing different playing methods on one OK machine and greatly reducing the use cost of the OK machine.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the OK machine card stacking machine head comprises a machine head seat, wherein the machine head seat consists of a first installation part and a second installation part, and the second installation part is positioned at one side of the first installation part;

the upper end of the first installation part is provided with a card feeding light-control PCB board for monitoring the number of stacked cards; the front surface of the second installation part is provided with a card receiving seat lifting motor, a positioning magnetic control PCB bracket positioned beside the card receiving seat lifting motor, and the back surface of the second installation part is also provided with a machine head box;

an output shaft of the card receiving seat lifting motor extends out of the back of the second installation part, and a machine head concave wheel is sleeved on the output shaft; five-card positioning magnetic control PCB with one end extending out of the back of the second installation part are clamped on the positioning magnetic control PCB bracket;

the lower part of the machine head box is clamped with a positioning magnetic control PCB, and two ends of the positioning magnetic control PCB are respectively positioned at the inner side and the outer side of the machine head box; the card receiving seat is slidably connected to the outside of one side of the machine head box, which is close to the first installation part, and is movably connected with the machine head concave wheel through the machine head deflector rod;

the card feeding light-operated PCB, the card receiving seat lifting motor, the five-card positioning magnetic control PCB and the positioning magnetic control PCB are electrically connected with a control system of the OK machine.

In the above-mentioned card stacking machine head of the OK machine, the second installation part is provided with a motor connection frame, and the fixing part of the lifting motor of the card receiving seat is fixedly connected with the motor connection frame;

a motor shaft hole is formed in the motor connecting frame, and an output shaft of the card receiving seat lifting motor extends out of the back surface of the second installation part through the motor shaft hole;

the side of the motor connecting frame is provided with a magnetic control bracket mounting hole, five-card positioning magnetic control PCB slot and a machine head deflector rod fixing hole respectively; the magnetic control bracket mounting hole is positioned between the five-card positioning magnetic control PCB slot and the motor connecting frame, and the machine head deflector rod fixing hole is positioned above the magnetic control bracket mounting hole.

The positioning magnetic control PCB bracket comprises a fixing part and a clamping part, wherein an included angle is formed at the joint of the fixing part and the clamping part;

the fixing part is provided with a magnetic control bracket fixing hole corresponding to the magnetic control bracket mounting hole;

five-card positioning magnetic control PCB clamping grooves corresponding to the five-card positioning magnetic control PCB slots are formed in the outer sides of the clamping parts, and a PCB fixing table is arranged in each five-card positioning magnetic control PCB clamping groove;

one end of the five-card positioning magnetic control PCB is clamped in the five-card positioning magnetic control PCB clamping groove and fixed on the PCB fixing table, and the other end of the five-card positioning magnetic control PCB extends out of the back of the second installation part through the five-card positioning magnetic control PCB slot.

In the above-mentioned OK machine card stacking machine head, a positioning magnetic control PCB card slot is provided at the bottom of the inner cavity of the machine head box, and a card slot hole connected with the positioning magnetic control PCB card slot is provided at the back; the positioning magnetic control PCB is clamped in the positioning magnetic control PCB clamping groove through one end of the clamping groove hole, and the other end of the positioning magnetic control PCB extends out of the back of the machine head box.

According to the OK machine card stacking machine head, the card receiving seat mounting part is arranged on one side of the machine head box, the card receiving seat mounting part is provided with the sliding hole, and the card receiving seat can be slidably connected in the sliding hole.

The card receiving seat comprises a sliding shaft, a sliding plate, a sliding groove and a card receiving plate; the sliding shaft and the sliding plate are respectively connected with the bottom of the card receiving plate, the sliding groove is formed in the front end of the sliding plate, a gap is reserved between the sliding plate and the sliding shaft, and the sliding plate is positioned on the front side of the sliding shaft;

the sliding shaft is slidably sleeved in the sliding hole, the top of the card receiving plate is used for receiving an OK card transmitted by the OK machine conveying mechanism, and the sliding groove is movably connected with the machine head deflector rod.

In the above-mentioned OK machine card stacking machine head, one section of the machine head deflector rod is arc-shaped, and the other section is strip-shaped; a toggle bearing is arranged at one end head of the arc, a positioning bearing is arranged in the middle of one end of the long strip, and a toggle rod positioning hole is formed in the end head;

the stirring bearing and the positioning bearing are arranged on the same side of the machine head stirring rod and are respectively connected with the sliding groove and the machine head concave wheel in a sliding manner; the positioning holes of the shifting rod are arranged corresponding to the fixing holes of the shifting rod of the machine head, so that the shifting rod of the machine head can be conveniently fixed and positioned.

In the above-mentioned OK machine card stacking machine head, the center of the concave wheel of the machine head is provided with a motor output shaft connection part, and the outer circle is provided with a first positioning magnet, a second positioning magnet and a third positioning magnet at unequal intervals;

the motor output shaft is characterized in that a limiting lug is sleeved on the outer wall of the motor output shaft connecting part, a baffle plate is arranged around the limiting lug in a surrounding mode, a positioning bearing sliding groove is formed between the limiting lug and the baffle plate, and the positioning bearing can slide in the positioning bearing sliding groove;

the limiting convex blocks are provided with first limiting convex points, second limiting convex points and third limiting convex points; the height of the first limit bump is higher than that of the second limit bump, and the height of the second limit bump is higher than that of the third limit bump.

In the above-mentioned one kind of OK machine stacks the tablet aircraft nose, the said five tablet positions the both ends of the magnetic control PCB board to be equipped with five tablet positions Hall and five tablet magnetic control PCB board sockets separately;

the five-card positioning Hall and the five-card magnetic control PCB socket are respectively arranged on opposite sides of the five-card positioning magnetic control PCB, one end of the five-card magnetic control PCB socket is also provided with five-card magnetic control PCB fixing holes, and the five-card positioning magnetic control PCB is fixedly connected to the PCB fixing table through the five-card magnetic control PCB fixing holes;

the five-card magnetic control PCB socket is exposed out of the front face of the second installation part and is electrically connected with a control system of the OK machine through a wire arrangement plug;

the five-card positioning Hall is exposed out of the back of the second mounting part and can generate induction with the first positioning magnet on the concave wheel of the machine head, so that the card receiving seat stops at the height position for receiving five OK cards.

In the above-mentioned OK machine card stacking machine head, the top part of the positioning magnetic control PCB board is provided with a first positioning hall and a second positioning hall, and one end of the positioning magnetic control PCB board is also provided with a magnetic control PCB board socket; the magnetic control PCB socket is electrically connected with a control system of the OK machine through a flat cable plug;

the second positioning Hall is used for generating induction with the second positioning magnet, so that the card receiving seat stops at the height position for receiving one OK card; the second positioning Hall and the third positioning magnet generate induction, so that the card receiving seat descends to the height position for receiving seven OK cards.

The utility model has the technical effects and advantages that:

1. the utility model provides an OK machine card stacking machine head, which is characterized in that a machine head seat, a card receiving seat lifting motor, a machine head concave wheel, a machine head box, five-card positioning magnetic control PCB (printed Circuit Board) and a positioning magnetic control PCB, a card receiving seat and a machine head deflector rod are combined, a limit bump and a positioning magnet are arranged on the machine head concave wheel, when a first limit bump on the machine head concave wheel is propped against a positioning bearing of the machine head deflector rod, a second positioning magnet and a second positioning Hall on the positioning magnetic control PCB produce induction, and the OK machine controls the card receiving seat lifting motor to stop rotating, so that the card receiving seat is positioned at the height position for receiving 1 OK card; when the second limiting convex point on the concave wheel of the machine head is propped against the positioning bearing of the machine head deflector rod, the first positioning magnet and the positioning Hall on the five-card positioning magnetic control PCB board generate induction, and the OK machine controls the card receiving seat lifting motor to stop rotating, so that the card receiving seat is positioned at the height position for receiving five OK cards; when the third limiting protruding point on the concave wheel of the machine head is propped against the positioning bearing of the machine head deflector rod, the third positioning magnet and the second positioning Hall on the positioning magnetic control PCB board generate induction, the OK machine controls the card receiving seat lifting motor to stop rotating, so that the card receiving seat is positioned at the height position for receiving 7 OK cards, the OK machine can randomly adjust and convert 1 card, 5 cards or 7 cards, different playing methods can be realized on one OK machine, and the use cost of the OK machine is greatly reduced.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the headstock of the present utility model;

FIG. 3 is a schematic illustration of the structure of the present utility model with the headstock removed;

FIG. 4 is a schematic view of the structure of the nose box of the present utility model;

FIG. 5 is a schematic view of the structure of the nose concave wheel of the present utility model;

FIG. 6 is a schematic view of the structure of the nose lever of the present utility model;

fig. 7 is a schematic structural view of a card receiving seat according to the present utility model;

FIG. 8 is a schematic diagram of the structure of the positioning magnetron PCB bracket of the utility model;

FIG. 9 is a schematic diagram of the structure of the positioning magnetron PCB of the utility model;

fig. 10 is a schematic structural view of a five-card positioning magnetic control PCB board of the present utility model.

Reference numerals:

1. a headstock; 11. a first mounting portion; 12. a second mounting portion; 121. a motor connecting frame; 122. a motor shaft hole; 123. a magnetic control bracket mounting hole; 124. five cards position the magnetic control PCB board slot; 125. a machine head deflector rod fixing hole;

2. a card-feeding light-control PCB board;

3. a card receiving seat lifting motor;

4. a machine head concave wheel; 41. a motor output shaft connecting part; 42 first positioning magnets; 43. a second positioning magnet; 44. a third positioning magnet; 45. a limit bump; 451. the first limit protruding points; 452. the second limit protruding points; 453. a third limit bump; 46. a partition plate; 47. positioning a bearing sliding groove;

5. a head box; 51. positioning a magnetic control PCB clamping groove; 52. a slot hole; 53. a card receiving seat mounting part; 54. a sliding hole;

6. positioning a magnetic control PCB bracket; 61. a fixing part; 611. a magnetic control bracket fixing hole; 62. a clamping part; 621. five cards position the magnetic control PCB board clamping groove; 622. a PCB fixing table;

7. positioning a magnetic control PCB board by five cards; 71. positioning Hall for five cards; 72. five-card magnetic control PCB socket; 73. five-card magnetic control PCB fixing holes;

8. positioning a magnetic control PCB; 81. a first positioning Hall; 82. a second positioning Hall; 83. magnetic control PCB board socket;

9. a card receiving seat; 91. a sliding shaft; 92. a sliding plate; 93. a card receiving plate; 94. a sliding groove;

10. a machine head deflector rod; 101. stirring the bearing; 102. positioning a bearing; 103. and a deflector rod positioning hole.

Detailed Description

The utility model is described in further detail below with reference to examples given in the accompanying drawings.

Referring to fig. 1 to 10, the card stacking head of the OK machine provided by the application can stack 5 OK cards or 7 OK cards, and can realize the functions of stacking 5 OK cards and 7 OK cards on the same OK machine. The card stacking machine head comprises a machine head seat 1, a card feeding light-operated PCB 2, a card receiving seat lifting motor 3, a machine head concave wheel 4, a machine head box 5, a positioning magnetic control PCB bracket 6, five card positioning magnetic control PCBs 7, a positioning magnetic control PCB 8, a card receiving seat 9 and a machine head deflector rod 10.

When the card stacking machine head is specifically implemented, referring to fig. 1 and 2, in order to achieve a better card stacking effect, the card stacking machine head can adapt to different card stacking numbers, the machine head seat 1 adopted in the application is composed of a first installation portion 11 and a second installation portion 12, and the second installation portion 12 is fixedly connected to one side of the first installation portion 11.

Further, referring to fig. 2, the second mounting portion 12 is provided with a motor connection frame 121 for mounting the card receiving seat lifting motor 3, and screw holes are formed in four corners of the motor connection frame 121 for mounting the card receiving seat lifting motor 3 conveniently, and the card receiving seat lifting motor 3 is fixedly connected to the motor connection frame 121 through screws.

Further, as shown in fig. 2, a motor shaft hole 122 is formed in the motor connecting frame 121, and after the card receiving seat lifting motor 3 is fixed, an output shaft of the card receiving seat lifting motor extends out of the back surface of the second mounting portion 12 through the motor shaft hole 122.

Further, referring to fig. 2, a magnetic control bracket mounting hole 123, a five-card positioning magnetic control PCB slot 124 and a machine head deflector rod fixing hole 125 are respectively provided at the side of the motor connecting frame 121. The magnetic control bracket mounting hole 123 is positioned between the five-card positioning magnetic control PCB slot 124 and the motor connecting frame 121, and the machine head deflector rod fixing hole 125 is positioned above the magnetic control bracket mounting hole 123.

In specific implementation, referring to fig. 1, in order to monitor the number of stacked cards more accurately, the card feeding light-operated PCB board 2 is disposed at the upper end of the first mounting portion 11, and the card feeding light-operated PCB board 2 is electrically connected with the control system of the OK machine, so that the number of stacked cards is sent to the control system in real time for statistics.

In specific implementation, referring to fig. 1, the card receiving seat lifting motor 3 is fixedly connected to the front surface of the second mounting portion 12, and is electrically connected to the control system of the OK machine, and fixing holes corresponding to the threaded holes on the four corners of the motor connecting frame 121 are respectively formed on the four corners of the fixing portion, and are fixedly connected to the motor connecting frame 121 through the fixing holes.

In specific implementation, referring to fig. 1, the nose concave wheel 4 is sleeved on the output shaft of the card receiving seat lifting motor 3, and when the card receiving seat lifting motor 3 works, the nose concave wheel 4 is driven to rotate.

In specific implementation, referring to fig. 8, the positioning magnetic control PCB support 6 is located beside the card receiving seat lifting motor 3, and for convenience in installation, the positioning magnetic control PCB support 6 includes a fixing portion 61 and a clamping portion 62, where the fixing portion 61 and the clamping portion 62 form a 90 ° included angle.

Further, as shown in fig. 4, the fixing portion 61 is provided with a magnetic control bracket fixing hole 611 corresponding to the magnetic control bracket mounting hole 123, and when the magnetic control PCB board bracket 6 is fixed, a bolt sequentially passes through the magnetic control bracket fixing hole 611 and the magnetic control bracket mounting hole 123 and is fixedly connected to the headstock 1.

Further, as shown in fig. 8, the outer side of the clamping portion 62 is provided with five-card positioning magnetic control PCB clamping grooves 621 corresponding to the five-card positioning magnetic control PCB slots 124, and a PCB fixing table 622 is provided in the five-card positioning magnetic control PCB clamping grooves 621.

In specific implementation, referring to fig. 1, one end of the five-card positioning magnetic control PCB 7 is clamped in the five-card positioning magnetic control PCB clamping groove 621 and is fixed on the PCB fixing table 622, and the other end extends out of the back of the second mounting portion 12 through the five-card positioning magnetic control PCB slot 124.

Further, as shown in fig. 10, two ends of the five-card positioning magnetic control PCB 7 are respectively provided with five-card positioning hall 71 and five-card magnetic control PCB socket 72; the five-card positioning Hall 71 and the five-card magnetic control PCB socket 72 are respectively arranged on opposite sides of the five-card positioning magnetic control PCB 7; five-card magnetic control PCB fixing holes 73 are further formed in one end of the five-card magnetic control PCB socket 72, and the five-card positioning magnetic control PCB 7 is fixedly connected to the PCB fixing table 622 through the five-card magnetic control PCB fixing holes 73.

Further, the five-card magnetic control PCB socket 72 is exposed on the front surface of the second mounting portion 12 and is electrically connected with the control system of the OK machine through a flat cable plug;

the five-card positioning hall 71 is exposed at the back of the second mounting portion 12, and can generate induction with the first positioning magnet 42 on the machine head concave wheel 4, when the machine head concave wheel 4 drives the first positioning magnet 42 to rotate within the induction range of the five-card positioning hall 71, the card receiving seat lifting motor 3 stops working, so that the card receiving seat 9 stops at the height position for receiving the five OK cards.

In particular, referring to fig. 1, the head box 5 is fixedly connected to the back of the second mounting portion 12. Referring to fig. 4, a positioning magnetic control PCB card slot 51 is provided at the bottom of the inner cavity of the machine head box 5, and a card slot 52 communicating with the positioning magnetic control PCB card slot 51 is provided at the back.

Further, one end of the positioning magnetic control PCB 8 is clamped in the positioning magnetic control PCB clamping groove 51 through the clamping groove hole 52, and the other end extends out of the back of the machine head box 5.

In the specific implementation, as shown in fig. 9, a first positioning hall 81 and a second positioning hall 82 are arranged at the top part of the positioning magnetic control PCB 8, and a magnetic control PCB socket 83 is further arranged at one end of the positioning magnetic control PCB; the magnetic control PCB socket 83 is electrically connected with the control system of the OK machine through a flat cable plug.

In specific implementation, the second positioning hall 82 is used for generating induction with the second positioning magnet 43, and when the machine head concave wheel 4 drives the second positioning magnet 43 to rotate within the induction range of the second positioning hall 82, the card receiving seat lifting motor 3 stops working, so that the card receiving seat 9 stops at the height position for receiving an OK card.

In specific implementation, the second positioning hall 82 and the third positioning magnet 44 generate induction, and when the machine head concave wheel 4 drives the third positioning magnet 44 to rotate within the induction range of the second positioning hall 82, the card receiving seat lifting motor 3 stops working, so that the card receiving seat 9 descends to the height for receiving seven OK cards.

In specific implementation, as shown in fig. 1 and 4, a card receiving seat mounting portion 53 is disposed outside a side of the head box 5 near the first mounting portion 11, and a sliding hole 54 is formed in the card receiving seat mounting portion 53.

Further, referring to fig. 7, the card receiving seat 9 includes a sliding shaft 91, a sliding plate 92, a sliding groove 94 and a card receiving plate 93; the sliding shaft 91 and the sliding plate 92 are respectively connected with the bottom of the card receiving plate 93, the sliding groove 94 is arranged at the front end of the sliding plate 92, a gap is reserved between the sliding plate 92 and the sliding shaft 91, and the sliding plate 92 is positioned at the front side of the sliding shaft 91.

In specific implementation, the sliding shaft 91 is slidably sleeved in the sliding hole 54, the top of the card receiving plate 93 is used for receiving an OK card transmitted by the OK machine conveying mechanism, and the sliding groove 94 is movably connected with the machine head deflector rod 10.

In the specific implementation, referring to fig. 3, two ends of the nose deflector rod 10 are respectively movably connected with the card receiving seat 9 and the nose concave wheel 4.

Further, referring to fig. 6, one section of the hand piece driving lever 10 is arc-shaped, and the other section is strip-shaped; the end head of the arc-shaped end is provided with a toggle bearing 101, the middle part of one end of the strip is provided with a positioning bearing 102, and the end head of the strip is provided with a toggle rod positioning hole 103.

Further, the toggle bearing 101 and the positioning bearing 102 are both disposed on the same side of the handpiece lever 10. The toggle bearing 101 and the positioning bearing 102 on the nose deflector rod 10 are respectively connected with the sliding groove 94 and the nose concave wheel 4 in a sliding way. The deflector rod positioning hole 103 is arranged corresponding to the handpiece deflector rod fixing hole 125, and the handpiece deflector rod 10 is positioned on the headstock 1 by passing through the deflector rod positioning hole 103 and the handpiece deflector rod fixing hole 125 through bolts or rivets, so that the handpiece deflector rod 10 is positioned conveniently.

In specific implementation, as shown in fig. 3 and 5, a motor output shaft connection part 41 is arranged at the center of the machine head concave wheel 4, and a first positioning magnet 42, a second positioning magnet 43 and a third positioning magnet 44 are arranged on the outer circle at unequal intervals.

Further, referring to fig. 3 and 5, a limiting bump 45 is sleeved on the outer wall of the motor output shaft connection portion 41, a partition 46 is annularly disposed around the limiting bump 45, a positioning bearing sliding groove 47 is formed between the limiting bump 45 and the partition 46, and the positioning bearing 102 can slide in the positioning bearing sliding groove 47.

Further, as shown in fig. 5, the limit bump 45 is provided with a first limit bump 451, a second limit bump 452 and a third limit bump 453; the height of the first spacing bump 451 is higher than the height of the second spacing bump 452, and the height of the second spacing bump 452 is higher than the height of the third spacing bump 453.

In the embodiment, a combined design of a headstock 1, a card receiving seat lifting motor 3, a machine head concave wheel 4, a machine head box 5, a five-card positioning magnetic control PCB 7, a positioning magnetic control PCB 8, a card receiving seat 9 and a machine head deflector rod 10 is adopted, and a limit lug 45 and a positioning magnet are arranged on the machine head concave wheel 4; when the machine head concave wheel 4 is driven to rotate by the card receiving seat lifting motor 3 during operation, when the first limit protruding point 451 on the machine head concave wheel 4 is propped against the positioning bearing 102 of the machine head deflector rod 10, at the moment, the second positioning magnet 43 rotates to the induction range of the second positioning Hall 82 and generates induction with the second positioning Hall 82 on the positioning magnetic control PCB 8, and the OK machine controls the card receiving seat lifting motor 3 to stop rotating so that the card receiving seat 9 stops at the height position for receiving one OK card; when the second limit protruding point 452 on the machine head concave wheel 4 is propped against the positioning bearing 102 of the machine head deflector rod 10, at the moment, the first positioning magnet 42 rotates to the induction range of the positioning Hall 71 and generates induction with the positioning Hall 71 on the five-card positioning magnetic control PCB 7, and the OK machine controls the card receiving seat lifting motor 3 to stop rotating, so that the card receiving seat 9 stops at the height position for receiving five OK cards; when the third limit protruding point 453 on the machine head concave wheel 4 is propped against the positioning bearing 102 of the machine head deflector rod 10, at the moment, the third positioning magnet 44 rotates to the induction range of the second positioning Hall 82 and generates induction with the second positioning Hall 82 on the positioning magnetic control PCB 8, the OK machine controls the card receiving seat lifting motor 3 to stop rotating, so that the card receiving seat 9 is at the height for receiving seven OK cards, and therefore, the OK machine can randomly adjust and convert 1 card, 5 cards or 7 cards, different playing methods can be realized on one OK machine, and the use cost of the OK machine is greatly reduced.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that modifications and improvements could be made by those skilled in the art without departing from the inventive concept, which falls within the scope of the present utility model.

Claims (10)

1. The utility model provides a OK machine stacks tablet aircraft nose which characterized in that: the device comprises a headstock (1), wherein the headstock (1) consists of a first installation part (11) and a second installation part (12), and the second installation part (12) is positioned on one side of the first installation part (11);

the upper end of the first installation part (11) is provided with a card feeding light-control PCB (2) for monitoring the number of stacked cards; the front surface of the second installation part (12) is provided with a card receiving seat lifting motor (3), a positioning magnetic control PCB bracket (6) positioned beside the card receiving seat lifting motor (3), and the back surface is also provided with a machine head box (5);

an output shaft of the card receiving seat lifting motor (3) extends out of the back of the second installation part (12), and a machine head concave wheel (4) is sleeved on the output shaft; five-card positioning magnetic control PCB (7) with one end extending out of the back of the second installation part (12) are clamped on the positioning magnetic control PCB bracket (6);

the lower part of the machine head box (5) is clamped with a positioning magnetic control PCB (8), and two ends of the positioning magnetic control PCB (8) are respectively positioned at the inner side and the outer side of the machine head box (5); the card receiving seat (9) is slidably connected to the outside of one side, close to the first installation part (11), of the machine head box (5), and the card receiving seat (9) is movably connected with the machine head concave wheel (4) through the machine head deflector rod (10);

the card feeding light-control PCB (2), the card receiving seat lifting motor (3), the five-card positioning magnetic control PCB (7) and the positioning magnetic control PCB (8) are electrically connected with a control system of the OK machine.

2. An OK machine head as claimed in claim 1, characterized in that: a motor connecting frame (121) is arranged on the second mounting part (12), and the fixed part of the card receiving seat lifting motor (3) is fixedly connected with the motor connecting frame (121);

a motor shaft hole (122) is formed in the motor connecting frame (121), and an output shaft of the card receiving seat lifting motor (3) extends out of the back surface of the second installation part (12) through the motor shaft hole (122);

a magnetic control bracket mounting hole (123), a 5-card positioning magnetic control PCB slot (124) and a machine head deflector rod fixing hole (125) are respectively formed at the side of the motor connecting frame (121); the magnetic control bracket mounting hole (123) is positioned between the five-card positioning magnetic control PCB slot (124) and the motor connecting frame (121), and the machine head deflector rod fixing hole (125) is positioned above the magnetic control bracket mounting hole (123).

3. An OK machine head as claimed in claim 2, characterized in that: the positioning magnetic control PCB bracket (6) comprises a fixing part (61) and a clamping part (62), wherein an included angle of 90 degrees is formed at the joint of the fixing part (61) and the clamping part (62);

the fixing part (61) is provided with a magnetic control bracket fixing hole (611) corresponding to the magnetic control bracket mounting hole (123);

five-card positioning magnetic control PCB clamping grooves (621) corresponding to the five-card positioning magnetic control PCB slots (124) are formed in the outer side of the clamping part (62), and a PCB fixing table (622) is arranged in each five-card positioning magnetic control PCB clamping groove (621);

one end of the five-card positioning magnetic control PCB (7) is clamped in the five-card positioning magnetic control PCB clamping groove (621), and is fixed on the PCB fixing table (622), and the other end of the five-card positioning magnetic control PCB extends out of the back of the second mounting part (12) through the five-card positioning magnetic control PCB slot (124).

4. An OK machine head as claimed in claim 3, characterized in that: the bottom of the inner cavity of the machine head box (5) is provided with a positioning magnetic control PCB clamping groove (51), and the back of the machine head box is provided with a clamping groove hole (52) communicated with the positioning magnetic control PCB clamping groove (51); one end of the positioning magnetic control PCB (8) is clamped in the positioning magnetic control PCB clamping groove (51) through the clamping groove hole (52), and the other end of the positioning magnetic control PCB extends out of the back of the machine head box (5).

5. The OK machine head as claimed in claim 4, wherein: one side of the machine head box (5) is provided with a card receiving seat mounting part (53), the card receiving seat mounting part (53) is provided with a sliding hole (54), and the card receiving seat (9) is slidably connected in the sliding hole (54).

6. The OK machine head as claimed in claim 5, wherein: the card receiving seat (9) comprises a sliding shaft (91), a sliding plate (92), a sliding groove (94) and a card receiving plate (93); the sliding shaft (91) and the sliding plate (92) are respectively connected with the bottom of the card receiving plate (93), the sliding groove (94) is formed in the front end of the sliding plate (92), a gap is reserved between the sliding plate (92) and the sliding shaft (91), and the sliding plate (92) is positioned at the front side of the sliding shaft (91);

the sliding shaft (91) is slidably sleeved in the sliding hole (54), the top of the card receiving plate (93) is used for receiving an OK card transmitted by the OK machine conveying mechanism, and the sliding groove (94) is movably connected with the machine head deflector rod (10).

7. The OK machine head as claimed in claim 6, wherein: one section of the machine head deflector rod (10) is arc-shaped, and the other section is strip-shaped; a toggle bearing (101) is arranged at one end head of the arc shape, a positioning bearing (102) is arranged in the middle of one end of the long strip shape, and a toggle rod positioning hole (103) is formed in the end head;

the stirring bearing (101) and the positioning bearing (102) are arranged on the same side of the machine head stirring rod (10) and are respectively connected with the sliding groove (94) and the machine head concave wheel (4) in a sliding way; the deflector rod positioning holes (103) are arranged corresponding to the machine head deflector rod fixing holes (125), so that the machine head deflector rod (10) can be conveniently fixed and positioned.

8. The OK machine head as claimed in claim 7, wherein: a motor output shaft connecting part (41) is arranged at the center of the machine head concave wheel (4), and a first positioning magnet (42), a second positioning magnet (43) and a third positioning magnet (44) are arranged on the outer circle at unequal intervals;

a limiting lug (45) is sleeved on the outer wall of the motor output shaft connecting part (41), a partition plate (46) is arranged around the limiting lug (45), a positioning bearing sliding groove (47) is formed between the limiting lug (45) and the partition plate (46), and the positioning bearing (102) can slide in the positioning bearing sliding groove (47);

the limiting convex blocks (45) are provided with first limiting convex points (451), second limiting convex points (452) and third limiting convex points (453); the height of the first limit bump (451) is higher than that of the second limit bump (452), and the height of the second limit bump (452) is higher than that of the third limit bump (453).

9. The OK machine head as claimed in claim 8, wherein: five-card positioning Hall (71) and five-card magnetic control PCB sockets (72) are respectively arranged at two ends of the five-card positioning magnetic control PCB (7);

the five-card positioning Hall (71) and the five-card magnetic control PCB socket (72) are respectively arranged on opposite sides of the five-card positioning magnetic control PCB (7), one end provided with the five-card magnetic control PCB socket (72) is also provided with five-card magnetic control PCB fixing holes (73), and the five-card positioning magnetic control PCB (7) is fixedly connected to the PCB fixing table (622) through the five-card magnetic control PCB fixing holes (73);

the five-card magnetic control PCB socket (72) is exposed out of the front face of the second installation part (12) and is electrically connected with a control system of the OK machine through a flat cable plug;

the five-card positioning Hall (71) is exposed out of the back of the second installation part (12) and can generate induction with the first positioning magnet (42) on the machine head concave wheel (4), so that the card receiving seat (9) is stopped at the height position for receiving five OK cards.

10. The OK machine head as claimed in claim 8, wherein: the top part of the positioning magnetic control PCB (8) is provided with a first positioning Hall (81) and a second positioning Hall (82), and one end of the positioning magnetic control PCB is also provided with a magnetic control PCB socket (83); the magnetic control PCB socket (83) is electrically connected with a control system of the OK machine through a flat cable plug;

the second positioning Hall (82) is used for generating induction with the second positioning magnet (43) so that the card receiving seat (9) stops at the height position for receiving an OK card; the second positioning Hall (82) and the third positioning magnet (44) generate induction, so that the card receiving seat (9) descends to the height for receiving seven OK cards.