CN209811459U

CN209811459U - Built-in plate turning device of laser code carving machine

Info

Publication number: CN209811459U
Application number: CN201920115218.XU
Authority: CN
Inventors: 胡晶; 郑怡秋
Original assignee: Suzhou Jinsilk Fang Precision Equipment Co Ltd
Current assignee: Suzhou Jinsilk Fang Precision Equipment Co Ltd
Priority date: 2019-01-23
Filing date: 2019-01-23
Publication date: 2019-12-20
Anticipated expiration: 2029-01-23

Abstract

The utility model discloses a built-in reprint device of sign indicating number machine is carved to laser, including transmission device and reprint mechanism, transmission device sets up to the setting of two sets of and symmetry and realizes the input and the output process of work piece respectively in reprint mechanism's front and back side, reprint mechanism includes returning face plate, rotation axis and actuating mechanism, the returning face plate includes two sets of and symmetry setting, and the perpendicular fixed connection of one end of rotation axis is on the central plate body lateral surface of returning face plate, and the other end is rotated by the actuating mechanism drive, and then it is rotatory to drive the returning face plate, treats the both sides edge difference chucking of the work piece of upset on the returning face plate of both sides. The built-in plate turning device of the laser code printer adopts a three-section modular structure design, the middle section is rotary, the rotation precision is guaranteed through mechanical limitation, secondary positioning can be avoided after plate turning, the engraving precision is guaranteed, the production efficiency is improved, and the practicability is high.

Description

Built-in plate turning device of laser code carving machine

The technical field is as follows:

the utility model relates to a built-in reprint device of sign indicating number machine is carved to laser relates to laser and carves sign indicating number machine equipment technical field.

Background art:

at present in the course of the work of swashing the ink recorder, some PCB boards need carry out positive and negative two-sided sculpture, the PCB board is after having carved the one side, through built-in reprinting mechanism, make the board rotatory 180 degrees, carve the reverse side again, and the built-in reprinting mechanism of swashing the ink recorder on the market at present only realizes the reprinting function, also can not directly carve after just rotating 180 degrees, need transport the PCB board to the sculpture station could realize carving, need the secondary location this moment, therefore reduce sculpture efficiency in the great degree, and the sculpture precision also can receive the influence, then influence sculpture product quality.

The utility model has the following contents:

the utility model discloses the technical problem that will solve is: the built-in copying device of the laser code printer is simple in structure, convenient to operate and use and capable of effectively improving the engraving efficiency and accuracy.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme: the utility model provides a built-in reprint device of sign indicating number machine is carved to laser, includes transport mechanism and reprint mechanism, transport mechanism sets up to the setting of two sets of and symmetry and realizes the input and the output process of work piece respectively in the front and back side of reprint mechanism, reprint mechanism includes returning face plate, rotation axis and actuating mechanism, the returning face plate includes two sets of and symmetry setting, and the perpendicular fixed connection of one end of rotation axis is on the central plate body lateral surface of returning face plate, and the other end is rotated by the actuating mechanism drive, then drives the returning face plate rotation, treats the both sides edge chucking respectively on the returning face plate of both sides of the work piece of upset.

Preferably, the turnover plate comprises a rotary base plate, an upper clamping plate and a lower clamping plate, the rotary shaft is provided with two rotary shafts which respectively correspond to the corresponding turnover plates, the upper clamping plate and the lower clamping plate are arranged in parallel up and down and are arranged on the same side of the rotary base plate, the edge of a workpiece is arranged in a clamping gap between the upper clamping plate and the lower clamping plate, the end part of the rotary shaft is vertically connected to a central plate body on the other side of the rotary base plate, two groups of jacking cylinder groups are arranged on the rotary base plate, symmetrically arranged on two sides of the rotary shaft and arranged on a panel on the other side of the rotary shaft and respectively comprise a first jacking cylinder group and a second jacking cylinder group, the first jacking cylinder group comprises a first cylinder, a first connecting plate and a first movable seat, the first jacking cylinder is positioned on the left side of the rotary base plate, and a first square opening for the first connecting plate to pass through is, one end of the first connecting plate penetrates through the first square opening and is connected with the upper clamping plate, the other end of the first connecting plate is connected with the first movable seat, the first movable seat is positioned on the other side of the rotating base plate, the first cylinder is fixed on the rotating base plate and is positioned below the first movable seat, the piston rod end of the first cylinder is vertically arranged upwards, the piston rod end of the first cylinder is connected with the first movable seat, the second jacking cylinder group comprises a second cylinder, a second connecting plate and a second movable seat, the second jacking cylinder group is positioned on the right side of the rotating base plate, a second square opening for the second connecting plate to penetrate through is formed in the rotating base plate corresponding to the second jacking cylinder group, one end of the second connecting plate penetrates through the second square opening and is connected with the lower clamping plate, the other end of the second jacking cylinder is connected with the second movable seat, the second movable seat is positioned on the other side of the rotating base, the piston rod end of the second cylinder is arranged downwards vertically, and the piston rod end of the second cylinder is connected with the second movable seat.

Preferably, the driving mechanism comprises a first driving motor, a transmission rod, a first synchronizing wheel, a second synchronizing wheel, a third synchronizing wheel, an idler wheel and a synchronous belt, a fixed seat plate is arranged on the outer side of the rotating base plate, the first driving motor is arranged below the fixed seat plate on one side, the first synchronizing wheel is installed at the rotating shaft end of the first driving motor, the transmission rod is arranged right below the turnover plate and is perpendicular to the plane where the rotating base plate is located, two ends of the transmission rod respectively vertically penetrate through the fixed seat plates on two sides and freely rotate relative to the fixed seat plates, the idler wheels are installed on the rod bodies on two sides of the transmission rod, the second synchronizing wheel is installed at the end part of the rod body on one side close to the first driving motor, the idler wheel corresponding to the position of the second synchronizing wheel is located on the rod body on the inner side of the transmission rod, the rotating shafts on two sides respectively vertically, the third synchronizing wheel is positioned right above the idle wheel, the head of the rotating shaft is vertically connected and fixed with the central plate body of the rotating substrate, and the first synchronizing wheel and the second synchronizing wheel as well as the idle wheel and the third synchronizing wheel are connected through synchronous belt transmission.

Preferably, the upper clamping plate and the lower clamping plate are both provided with an annular conveying belt, a gap for the edge of the workpiece to pass through and convey in is formed between the upper annular conveying belt and the lower annular conveying belt, and the annular conveying belts are driven by a second driving motor to operate in an annular conveying mode.

Preferably, the rotating base plate is provided with a limiting mechanism, the limiting mechanism comprises a first limiting block, a second limiting block and a movable stop block, the first limiting block and the second limiting block are fixed on the upper portion of the inner side plate surface of the fixed base plate and symmetrically arranged on two sides of the rotating shaft, the movable stop block is fixed on the outer side plate surface of the rotating base plate, when the rotating base plate is in a forward horizontal state, the movable stop block is located below the first limiting block and contacts with the first limiting block to abut against, and when the rotating base plate is in a reverse horizontal state, the movable stop block is located below the second limiting block and contacts with the second limiting block to abut against.

Preferably, the first limiting block and the second limiting block are provided with buffers.

Preferably, the movable stop block is provided with a positioning groove, two limiting cylinders are arranged between the fixed seat plate and the rotary base plate, the limiting cylinders are arranged on two sides of the rotary shaft in a corresponding mode, a positioning pin is arranged at the end portion of a piston rod of each limiting cylinder, and when the rotary base plate is in a forward or reverse horizontal state respectively, the positioning pin corresponds to the positioning groove.

Preferably, the transmission mechanism comprises a second driving motor, an end fixing plate, an end transmission rod and an end annular transmission belt, the two end fixing plates are respectively arranged corresponding to the rotating substrates, two ends of the end transmission rod respectively penetrate through the end fixing plates on the two sides and rotate freely, the third driving motor drives the end transmission rod to rotate, the end annular transmission belt is located on the inner side of the end fixing plate, a transmission inlet and a transmission outlet correspond to the inlet and the outlet of the annular transmission belt, and the end transmission rod drives the end annular transmission belt to operate.

Compared with the prior art, the utility model discloses an useful part is: the built-in plate turning device of the laser code printer is simple in overall structure, convenient to install, manufacture, operate and use, capable of guaranteeing rotation precision through mechanical limitation and avoiding secondary positioning after plate turning, guaranteeing engraving precision and improving production efficiency, capable of achieving single-sided or double-sided conditions, high in flexibility and high in practicability.

Description of the drawings:

the present invention will be further explained with reference to the accompanying drawings:

FIG. 1 is a schematic view of an axial measurement structure of the present invention during installation;

FIG. 2 is an enlarged schematic view of the structure at K in FIG. 1;

fig. 3 is a partially enlarged schematic view of the jacking cylinder block of the present invention without the seat plate.

The specific implementation mode is as follows:

the technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention:

as shown in fig. 1 to 3, the built-in plate-turning device of a laser coding machine comprises a transmission mechanism and a plate-turning mechanism, wherein the plate-turning mechanism comprises two sets of symmetrically arranged turning plates, one end of each of the rotating shafts 1 is vertically and fixedly connected to the outer side surface of the central plate body of the turning plate, the other end of each of the rotating shafts is driven to rotate by the driving mechanism so as to drive the turning plates to rotate, the two side edges of a workpiece to be turned are respectively clamped on the turning plates on the two sides, in this embodiment, in order to improve the structural stability, the turning efficiency and the turning precision, the turning plates comprise a rotating base plate 2, an upper clamping plate 3 and a lower clamping plate 4, the rotating shafts are provided with two turning plates which respectively correspond to the corresponding turning plates, the upper clamping plate and the lower clamping plate are vertically arranged in parallel and are arranged on the same side of the rotating base plate, the edges of the workpiece are arranged in a clamping gap between, the end part of the rotating shaft is vertically connected to the central plate body at the other side of the rotating base plate, two groups of jacking cylinder groups are arranged on the rotating base plate, are symmetrically arranged at two sides of the rotating shaft and are arranged on the panel at the other side of the rotating shaft, and respectively comprise a first jacking cylinder group and a second jacking cylinder group, the first jacking cylinder group comprises a first cylinder 5, a first connecting plate (not shown in the figure) and a first movable seat 7, the first jacking cylinder group 5 is positioned at the left side of the rotating base plate, the rotating base plate corresponding to the first jacking cylinder group is provided with a first square opening 8 for the first connecting plate to pass through, one end of the first connecting plate passes through the first square opening and is connected with an upper clamping plate, the other end of the first jacking cylinder group is connected with the first movable seat, the first movable seat is positioned at the other side of the rotating base plate, and, the piston rod end of the first cylinder is vertically arranged upwards and connected with the first movable seat, the second jacking cylinder group comprises a second cylinder 9, a second connecting plate (not shown in the figure) and a second movable seat 11, the second jacking cylinder group is positioned on the right side of the rotating base plate, a second square opening 12 for the second connecting plate to pass through is formed in the rotating base plate corresponding to the second jacking cylinder group, one end of the second connecting plate penetrates through the second square opening and is connected with the lower clamping plate, the other end of the second connecting plate is connected with the second movable seat, the second movable seat is positioned on the other side of the rotating base plate, the second cylinder is fixed on the rotating base plate and is positioned above the second movable seat, the piston rod end of the second cylinder is vertically arranged downwards and connected with the second movable seat, and the first cylinder and the second cylinder respectively drive the first movable seat and the second movable seat to move upwards and downwards to drive the first connecting plate, The second connecting plate moves up and down to further drive the upper clamping plate and the lower clamping plate to relatively rotate the substrate to move up and down, and then the edge of the workpiece arranged in the clamping gap is clamped and fixed, in order to improve the stability, two sides of the rotating substrate can be provided with a sliding seat mechanism 33 for supporting the end parts of the upper clamping plate and the lower clamping plate, the stability of the up-and-down movement of the upper clamping plate and the lower clamping plate is effectively improved through the sliding seat mechanism, and in the process that the rotating shaft drives the rotating substrate to rotate, the workpiece is simultaneously driven to do the turning motion, so that the 180-degree rotation process of the PCB is realized, in order to facilitate the transmission and operation of the PCB between the upper clamping plate and the lower clamping plate, the upper clamping plate and the lower clamping plate are both provided with annular transmission belts 13, a gap for the edge of the workpiece to pass through and transmit in the annular transmission belts is arranged between the annular transmission belts 13 at the, in this embodiment, can fix the drive roller at annular transmission band both ends at the both ends of last pinch-off blades or pinch-off blades down, and the second driving motor can be fixed on the fixed plate body of outside, can be connected the drive roller transmission of upper and lower portion annular transmission band tip through hold-in range and synchronizing wheel mechanism or gear mechanism to only need can realize the annular transmission operation of the annular transmission band of the upper and lower part of unilateral through a second driving motor.

In this embodiment, to improve the driving stability, further, the driving mechanism includes a first driving motor 15, a transmission rod 16, a first synchronous wheel 17, a second synchronous wheel 18, a third synchronous wheel 19, an idler wheel 20 and a synchronous belt 21, a fixed seat plate 22 is disposed outside the rotating substrate, the first driving motor is disposed below the fixed seat plate on one side, the first synchronous wheel is mounted at a rotating shaft end of the first driving motor, the transmission rod is disposed right below the turnover plate and perpendicular to a plane where the rotating substrate is located, two ends of the transmission rod respectively vertically penetrate through the fixed seat plates on two sides and freely rotate relative to the fixed seat plates, the transmission rod and the fixed seat plate are supported and driven by a bearing, the idler wheels are mounted on two side rod bodies of the transmission rod, the second synchronous wheel is mounted at an end of one side rod body close to the first driving motor, and the idler wheel corresponding to the position of the transmission rod body is located on an inner side rod body, the rotation axis of both sides passes corresponding fixed bedplate upper portion plate body respectively perpendicularly, and likewise, it is fixed also to support through the bearing between rotation axis and the fixed bedplate to improve rotation axis pivoted stability, rotation axis afterbody installation third synchronizing wheel, the third synchronizing wheel is located the idler directly over, and the head of rotation axis is connected fixedly with the central plate body of rotating base plate is perpendicular, all be connected through synchronous belt drive between first synchronizing wheel and the second synchronizing wheel, between idler and the third synchronizing wheel, through the rotation axis synchronous rotation of first driving motor's drive both sides, drive rotating base plate and PCB board and rotate together then.

In order to improve the positioning precision, the rotating base plate is provided with a limiting mechanism, the limiting mechanism comprises a first limiting block 23, a second limiting block 24 and a movable stop block 25, the first limiting block and the second limiting block are fixed on the upper part of the inner side plate surface of the fixed seat plate and are symmetrically arranged on two sides of the rotating shaft, the movable stop block is fixed on the outer side plate surface of the rotating base plate, when the rotating base plate is in a forward horizontal state, the movable stop block is positioned below the first limiting block and is in contact with the first limiting block to abut against, and when the rotating base plate is in a reverse horizontal state, the movable stop block is positioned below the second limiting block and is in contact with the second limiting block to abut against, so as to further improve the buffering effect after overturning, the first limiting block and the second limiting block are provided with a buffer 26, therefore, when the movable stop block on the rotating base plate rotates to a limit position, and is in contact with, the buffer damping effect is effectively achieved, the structural stability is improved, in order to further improve the limiting precision and the positioning stability, the positioning groove 27 is formed in the movable stop block, the two limiting cylinders 28 are arranged between the fixed seat plate and the rotating base plate, the limiting cylinders are arranged on two sides of the rotating shaft, the piston rod end portions of the limiting cylinders are provided with positioning pins, and when the rotating base plate is in a forward horizontal state or a reverse horizontal state respectively, the positioning pins correspond to the positioning groove in position, so that after the movable stop block is in contact with the first limiting block and the second limiting block and stops, the positioning pins stretch into the positioning groove through the stretching of the piston rods of the limiting cylinders, and the stability of the rotating base plate after positioning is improved.

The conveying mechanisms are arranged into two groups and are symmetrically arranged at the front side and the rear side of the plate turning mechanism and respectively realize the input and output processes of workpieces, in the embodiment, the conveying mechanisms comprise a third driving motor 29, an end fixing plate 30, an end transmission rod 31 and an end annular conveying belt 32, the end fixing plates are arranged into two blocks and respectively correspond to the rotating base plates, two ends of the end transmission rod respectively penetrate through the end fixing plates at the two sides and freely rotate, the third driving motor drives the end transmission rod to rotate, the end annular conveying belt is positioned at the inner side of the end fixing plate, a transmission inlet and a transmission outlet correspond to the inlet and the outlet of the annular conveying belt, the end transmission rod drives the conveying operation, therefore, the end transmission rod is driven to rotate by the third driving motor, the annular conveying belt at the end is driven to operate by a synchronous belt, two side edges, and then, the conveying process of the workpieces is realized, and the input and output processes of the workpieces are respectively realized by the transmission mechanisms at the front end and the rear end.

Therefore, in the practical application process, the PCB is placed on the end part annular conveying belt at the front end part, the PCB is conveyed to the annular conveying belt at the middle part by the end part annular conveying belt, the second driving motor drives the annular conveying belt to run, then the PCB is driven to the middle engraving station by the upper and lower annular conveying belts, the running of the annular conveying belt is stopped, then the upper clamping plate and the lower clamping plate are driven by the first air cylinder and the second air cylinder to run up and down oppositely to clamp the edge of the PCB body, then the external engraving machine is started to realize the front engraving process, when the other side needs to be engraved by plate turning, the first driving motor is started to drive the transmission rod and the rotating shafts at the two sides to rotate, so that the rotating substrate, the upper clamping plate and the lower clamping plate are driven to rotate together, the PCB is further driven to rotate by 180 degrees together, and the plate turning process is realized, and after the reprint, because first stopper or second stopper lean on the contact with activity dog, and spacing cylinder can further spacing and location to activity dog, therefore can effectively guarantee the positioning accuracy of the PCB after the upset, the location need not adjust again, the precision is high and effectively improve production efficiency, and after the another side sculpture of PCB finishes, can loosen upper clamp plate and lower clamp plate, then transmit PCB to the tip conveyer belt at rear portion and spread through the annular transmission band, thereby realize the whole reprint sculpture process of PCB board.

Above-mentioned laser ink recorder's built-in reprint device overall structure is simple, installation preparation and operation convenient to use, and the overall device adopts syllogic modular structure design, and the interlude is rotatory, and is spacing through machinery, guarantees the rotation precision, can avoid the secondary location after the reprint, has guaranteed sculpture precision and has improved production efficiency, but also can realize single face or two-sided two kinds of circumstances, and the flexibility is higher, and the practicality is high.

It is to be emphasized that: the above embodiments are only preferred embodiments of the present invention, and are not intended to limit the present invention in any form, and any simple modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims

1. The utility model provides a built-in reprint device of laser coding machine which characterized in that: including transmission device and reprint mechanism, transmission device sets up to the side and realize the input and the output process of work piece respectively around reprint mechanism for two sets of and symmetrical setting, reprint mechanism includes returning face plate, rotation axis and actuating mechanism, the returning face plate includes two sets of and symmetrical setting, and the perpendicular fixed connection of one end of rotation axis is on the central plate body lateral surface of returning face plate, and the other end is rotated by actuating mechanism drive, then drives the returning face plate rotation, treats the both sides edge chucking respectively of the work piece of upset on the returning face plate of both sides.

2. The built-in copying device of the laser coding machine according to claim 1, characterized in that: the turnover plate comprises a rotary base plate, an upper clamping plate and a lower clamping plate, the rotary shaft is provided with two rotating shafts which respectively correspond to the corresponding turnover plates, the upper clamping plate and the lower clamping plate are arranged in parallel from top to bottom and are arranged at the same side of the rotary base plate, the edge of a workpiece is arranged in a clamping gap between the upper clamping plate and the lower clamping plate, the end part of the rotary shaft is vertically connected onto a central plate body at the other side of the rotary base plate, two groups of jacking cylinder groups are arranged on the rotary base plate, symmetrically arranged at two sides of the rotary shaft and arranged on a panel at the other side of the rotary shaft, the first jacking cylinder groups and the second jacking cylinder groups are respectively arranged on the two sides of the rotary shaft and comprise a first cylinder, a first connecting plate and a first movable seat, the first jacking cylinder groups are positioned at the left side of the rotary base plate, and first square openings for the first, one end of the first connecting plate penetrates through the first square opening and is connected with the upper clamping plate, the other end of the first connecting plate is connected with the first movable seat, the first movable seat is positioned on the other side of the rotating base plate, the first cylinder is fixed on the rotating base plate and is positioned below the first movable seat, the piston rod end of the first cylinder is vertically arranged upwards, the piston rod end of the first cylinder is connected with the first movable seat, the second jacking cylinder group comprises a second cylinder, a second connecting plate and a second movable seat, the second jacking cylinder group is positioned on the right side of the rotating base plate, a second square opening for the second connecting plate to penetrate through is formed in the rotating base plate corresponding to the second jacking cylinder group, one end of the second connecting plate penetrates through the second square opening and is connected with the lower clamping plate, the other end of the second jacking cylinder is connected with the second movable seat, the second movable seat is positioned on the other side of the rotating base, the piston rod end of the second cylinder is arranged downwards vertically, and the piston rod end of the second cylinder is connected with the second movable seat.

3. The built-in copying device of the laser coding machine as claimed in claim 2, wherein: the driving mechanism comprises a first driving motor, a transmission rod, a first synchronizing wheel, a second synchronizing wheel, a third synchronizing wheel, an idler wheel and a synchronous belt, a fixed seat plate is arranged on the outer side of the rotating base plate, the first driving motor is arranged below the fixed seat plate on one side, the first synchronizing wheel is installed at the rotating shaft end of the first driving motor, the transmission rod is arranged under the turnover plate and is perpendicular to the plane where the rotating base plate is located, two ends of the transmission rod respectively vertically penetrate through the fixed seat plates on two sides and freely rotate relative to the fixed seat plates, the idler wheels are installed on the rod bodies on two sides of the transmission rod, the second synchronizing wheel is installed at the end part of the rod body on one side close to the first driving motor, the idler wheel corresponding to the position of the second synchronizing wheel is located on the rod body on the inner side of the transmission rod, the rotating shafts on two sides respectively vertically penetrate through the upper plate bodies of the corresponding fixed, the head of rotation axis is connected fixedly with the central plate body of rotatory base plate is perpendicular, all connect through synchronous belt drive between first synchronizing wheel and the second synchronizing wheel, between idler and the third synchronizing wheel.

4. The built-in copying device of the laser coding machine as claimed in claim 2, wherein: the upper clamping plate and the lower clamping plate are respectively provided with an annular conveying belt, a gap for the edge of a workpiece to penetrate through and convey in the annular conveying belts is formed between the upper and lower annular conveying belts, and the annular conveying belts are driven by a second driving motor to perform annular conveying operation.

5. The built-in copying device of a laser coding machine according to claim 3, wherein: be equipped with stop gear on the rotatory base plate, stop gear includes first stopper, second stopper and activity dog, first stopper, second stopper are fixed on the inboard face upper portion of fixed bedplate, and the setting of symmetry is in the both sides of rotation axis, the activity dog is fixed in on the outside face of rotatory base plate, and when rotatory base plate was in forward horizontality, the activity dog was located first stopper below and supported with first stopper contact, and when rotatory base plate was in reverse horizontality, the activity dog was located second stopper below and supported with the contact of second stopper.

6. The built-in copying device of the laser coding machine as claimed in claim 5, wherein: and the first limiting block and the second limiting block are provided with buffers.

7. The built-in copying device of the laser coding machine as claimed in claim 5, wherein: the movable check block is provided with a positioning groove, two limiting cylinders are arranged between the fixed seat plate and the rotary base plate and are arranged on two sides of the rotary shaft in a corresponding mode, a positioning pin is arranged at the end portion of a piston rod of each limiting cylinder, and when the rotary base plate is in a forward or reverse horizontal state respectively, the positioning pins correspond to the positioning groove.

8. The built-in copying device of the laser coding machine as claimed in claim 5, wherein: the transmission mechanism comprises a second driving motor, an end fixing plate, end transmission rods and end annular transmission belts, the two end fixing plates are respectively arranged to correspond to the rotary substrates, two ends of each end transmission rod penetrate through the end fixing plates on the two sides and rotate freely, the third driving motor drives the end transmission rods to rotate, the end annular transmission belts are located on the inner sides of the end fixing plates, transmission inlets and transmission outlets correspond to inlets and outlets of the annular transmission belts, and the end transmission rods drive the transmission mechanisms to operate.