CN218286821U - Multifunctional two-wheeled vehicle intelligent instrument production jig - Google Patents

Abstract

The utility model relates to a multifunctional two-wheeled vehicle intelligent instrument production jig, including fixed rack, telescoping cylinder drive module and pressfitting module, be equipped with a plurality of stations on the fixed rack, be equipped with electrical connection point on each station, the pressfitting module is connected with the flexible end of telescoping cylinder, and towards the station setting, the pressfitting module can be along the flexible direction of telescoping cylinder relative or deviate from the station motion, telescoping cylinder drive module with the telescoping cylinder transmission is connected; the multi-channel conversion device is characterized in that a multi-channel conversion interface is arranged in the fixed rack, a main interface of the multi-channel conversion interface is used for being connected with an upper computer, and a plurality of sub-interfaces of the multi-channel conversion interface are connected with electrical connection points of a plurality of stations in a one-to-one correspondence mode. The utility model discloses well a plurality of stations can carry out the automatic crimping of panel of intelligent instrument, can realize the burning record and the decompression of intelligent instrument system mainboard again, have saved equipment cost and artifical people originally, and have improved production efficiency.

Description

Multifunctional two-wheeled vehicle intelligent instrument production jig

Technical Field

The utility model relates to a vehicle manufacturing technical field, concretely relates to multi-functional two wheeler smart instrument production tool.

Background

Because the full liquid crystal intelligent instrument of two wheeler uses the scene in the open air, the full liquid crystal intelligent instrument product of two wheeler has waterproof special requirement, because of waterproof design product inner structure is more complicated, for satisfying the use quality of intelligent instrument product, the production assembly process needs of intelligent instrument panel optimize. The traditional panel production and assembly process is characterized in that a panel gum handle is torn off and then directly adhered to a panel frame assembly, and then the adhering part of the panel is lightly pressed by fingers to be adhered with a panel frame and then is completely sealed. Because of waterproof reason product inner structure is more numerous and diverse, if the panel pastes the effect and can not reach the requirement, intelligent instrument receives ambient temperature's change in the use, the hidden stress of product inner assembly structure can slowly release, when stress is greater than the dynamics of pasting of panel, the panel can separate with the face frame, form the gap between obvious panel and the face frame, influence the waterproof requirement of product, the panel production assembly process of the full liquid crystal intelligent instrument of firm two wheeler has production quality hidden danger.

Meanwhile, the installation of an operating system in an intelligent instrument is always the most important link in the production and manufacturing process of embedded electronic products, the traditional method is that firstly a system is mirrored on an electronic product, and a computer is connected with the electronic product for refreshing, so that the method has very low efficiency; after the SYSTEM mirror image is finished, the electronic product consumes a period of starting time when being powered on and started for the first time, specifically, a SYSTEM partition is formatted, a decompression recovery packet, a DATA partition is formatted, and the SYSTEM is restarted. The traditional embedded electronic product is low in flashing efficiency, the system is started after flashing is completed, a process of decompressing and recovering a package is also adopted, the time of the process depends on the size and complexity of an installation package, the time of one minute to three minutes is generally occupied, the decompressed package occupies the production operation time and the production resources of the post-process, and the production efficiency is greatly influenced.

In view of this, it is necessary to design a device capable of combining multiple processes to improve the production efficiency of the production line.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the technical problem who exists among the prior art, provide a multi-functional two wheeler intelligent instrument production tool, its a plurality of stations can carry out the automatic crimping of panel of intelligent instrument, can realize burning record and the decompression of intelligent instrument system mainboard again, saved equipment cost and artifical cost, and improved production efficiency.

The utility model provides an above-mentioned technical problem's technical scheme as follows:

a multifunctional two-wheeled vehicle intelligent instrument production jig comprises a fixed rack, a telescopic cylinder driving module and a pressing module, wherein a plurality of stations are arranged on the fixed rack, an electrical connection point is arranged on each station, the pressing module is connected with a telescopic end of the telescopic cylinder and arranged towards the stations, the pressing module can move relative to or away from the stations along the telescopic direction of the telescopic cylinder, and the telescopic cylinder driving module is in transmission connection with the telescopic cylinder; the multi-channel conversion device is characterized in that a multi-channel conversion interface is arranged in the fixed rack, a main interface of the multi-channel conversion interface is used for being connected with an upper computer, and a plurality of sub-interfaces of the multi-channel conversion interface are connected with electrical connection points of a plurality of stations in a one-to-one correspondence mode.

On the basis of the technical scheme, the utility model discloses can also do following improvement.

Preferably, a power supply input port and a power supply conversion module are arranged on the fixed rack, a primary side of the power supply conversion module is connected with the power supply input port, and a secondary side of the power supply conversion module is connected with the telescopic cylinder driving module and the power supply input end of the electrical connection point.

Preferably, the telescopic cylinder driving module comprises a starting switch, a time relay, an electromagnetic valve and a pressure regulating valve, a control coil of the time relay and the starting switch are connected in series to the secondary side of the power conversion module to form a first loop, a time-delay disconnection contact of the time relay and a control coil of the electromagnetic valve are connected in series to the secondary side of the power conversion module to form a second loop, and a normally closed channel of the electromagnetic valve and the pressure regulating valve are connected in series in the control loop of the telescopic cylinder.

Preferably, the telescopic cylinder is a hydraulic cylinder, and a control loop of the telescopic cylinder is a hydraulic oil pipeline.

Preferably, the telescopic cylinder is an air cylinder, and a control loop of the telescopic cylinder is an air path communicated with a compressed air source through an air pipe.

Preferably, the telescopic cylinder driving module comprises two starting switches, wherein one starting switch is connected in series in the first loop, the other starting switch is connected in series in the second loop, and the two starting switches are respectively arranged on two sides of the fixed rack.

Preferably, the fixed rack is further provided with an emergency stop switch, and the emergency stop switch is connected in series with a secondary side high-voltage end of the power conversion module.

Preferably, a power switch is further arranged in the fixed rack, the power switch is connected in series between the power input port and the primary side of the power conversion module, and the power switch is an all-pole off switch.

Preferably, the fixed rack is further provided with a plurality of burning/decompressing switches, the plurality of burning/decompressing switches are arranged in a one-to-one correspondence with the plurality of branch interfaces of the multi-path conversion interface, and the burning/decompressing switches are connected in series with the trigger pins of the branch interfaces of the multi-path conversion interface; when the on-off state of the burning/decompressing conversion switch is switched, the level of the trigger pin of the sub-interface of the corresponding multi-path conversion interface is switched.

Preferably, an ammeter is further arranged on the fixed rack and is connected in series with a power supply pin of a branch interface of the multi-way conversion interface.

The beneficial effects of the utility model are that: the utility model provides a tool, the intelligent instrument system mainboard that will treat the operation is to the electrical connection point installation back on the station, pushes down through telescoping cylinder drive pressfitting module, can be connected system mainboard and electrical connection point reliably and fix a position, and the program that starts the host computer burns/decompresses the program and can accomplish burning record and decompression of system mainboard in batches, can effectively solve the operation latency problem after the first power-on of embedded electronic product brush machine completion back. When needing to carry out the instrument panel crimping, through setting up adjustable pressfitting module to the pressing force degree and the press time of panel to telescoping cylinder drive module, reach and compare in the more accurate panel of manual operation and paste the effect, product quality has been promoted, the operating efficiency has been improved, the manual operation intensity has been reduced, and merge a plurality of stations to a tool on, can effectively reduce the turnover of product, occupation of production resource, reduce operation personnel's input, equipment cost and cost of labor have been saved.

Drawings

Fig. 1 is a schematic view of the front view structure of the present invention;

fig. 2 is a schematic view of the back view structure of the present invention;

FIG. 3 is a control schematic diagram of the telescopic cylinder of the present invention;

FIG. 4 is a schematic view of the internal structure of the present invention;

FIG. 5 is a wiring diagram of the upper computer and the jig of the present invention;

FIG. 6 is a wiring diagram of the jig and the single board system of the present invention;

FIG. 7 is a schematic diagram of the change-over switch for recording/decompressing of the present invention switching to the flashing mode;

FIG. 8 is a schematic diagram illustrating the recording/decompressing switch of the present invention switching to the decompressing mode;

fig. 9 shows the decompression progress diagram displayed on the display screen.

In the drawings, the reference numbers indicate the following list of parts:

1. fixed rack, 2, telescoping cylinder, 3, pressfitting module, 4, station, 5, power input port, 6, power conversion module, 7, display screen, 8, product tray, 9, compression leg, 10, buffer spring, SB1 SB2, starting switch, SB3, scram switch, KT, time relay, YV, solenoid valve, TV, air-vent valve, K1, switch, K2, burn record/decompress change over switch, A, ampere meter.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1, 2 and 5, the embodiment provides a multifunctional two-wheeled vehicle intelligent instrument production jig, which comprises a fixed rack 1, a telescopic cylinder 2, a telescopic cylinder driving module and a pressing module 3, wherein a plurality of stations 4 are arranged on the fixed rack 1, an electrical connection point is arranged on each station 4, the pressing module 3 is connected with a telescopic end of the telescopic cylinder 2 and is arranged towards the station 4, the pressing module 3 can move along the telescopic direction of the telescopic cylinder 2 relatively or away from the station 4, and the telescopic cylinder driving module is in transmission connection with the telescopic cylinder 2; a multi-channel conversion interface is arranged in the fixed rack 1, a main interface of the multi-channel conversion interface is used for being connected with an upper computer, and a plurality of sub-interfaces of the multi-channel conversion interface are connected with electrical connection points of a plurality of stations 4 in a one-to-one correspondence mode. The multiplexing interface of this embodiment can adopt one to seven data transmission HUB interfaces for data transmission, and it has a main interface and a plurality of minute interfaces, and the main interface is used for carrying out communication connection with the host computer, and a plurality of minute interfaces can be connected to on every electrical connection point on station 4 through USB data line one-to-one.

In the jig provided by the embodiment, the fixed rack 1 provides structural support for the whole jig, and the telescopic cylinder driving module can control the action of the telescopic cylinder 2 and is used for driving the telescopic cylinder 2 to perform telescopic movement with preset force and time; a piston rod of the telescopic cylinder 2 pushes the pressing module 3 to press down or move up, so that the pressing module 3 compresses or releases the workpiece; the electrical connection point on each station 4 is in communication connection with the upper computer through a multi-path conversion interface, so that the program burning and decompression functions of the intelligent instrument system main board are achieved under the control of the upper computer. During the use, will treat the intelligent instrument system mainboard of operation and aim at the electrical connection point installation back on the station 4, push down through 2 drive pressfitting modules 3 of telescoping cylinder, can be connected the system mainboard reliably with electrical connection point and fix a position, start the program burning record/decompress the program of host computer and can accomplish the burning record and decompress of system mainboard in batches. When needing to carry out instrument panel crimping, through setting up adjustable pressfitting module 3 pressing strength and the time of pressing down to the telescoping cylinder drive module, reach and compare in the more accurate panel of manual operation and paste the effect, promoted product quality, improved the operating efficiency, reduced manual operation intensity, and merge a plurality of stations 4 on a tool, saved equipment cost and cost of labor.

On the basis of the above technical solution, the present embodiment may be further modified as follows.

In this embodiment, as shown in fig. 2 and 4, a power input port 5 and a power conversion module 6 are disposed on the fixed gantry 1, a primary side of the power conversion module 6 is connected to the power input port 5, and a secondary side of the power conversion module 6 is connected to the telescopic cylinder driving module and the power input end of the electrical connection point. The power input port 5 introduces an external power into the primary side of the power conversion module 6, and outputs the converted power, for example, a voltage of DC +12V and/or DC +5V, through the secondary side of the power conversion module 6 after passing through the power conversion function of the power conversion module 6, so as to supply power to subsequent electric components.

As shown in the schematic diagram of fig. 3, the telescopic cylinder driving module includes a start switch SB1, a time relay KT, a solenoid valve YV and a pressure regulating valve TV, a control coil of the time relay KT and the start switch SB1 are connected in series to the secondary side of the power conversion module 6 to form a first loop, a delay disconnection contact of the time relay KT and a control coil of the solenoid valve YV are connected in series to the secondary side of the power conversion module 6 to form a second loop, and a normally closed channel of the solenoid valve YV and the pressure regulating valve TV are connected in series in the control loop of the telescopic cylinder 2.

When the starting switch SB1 is pressed, the first loop is switched on, the control coil of the time relay KT is electrified, the delay disconnection contact of the time relay KT is in a closed state, the second loop is electrified, the control coil of the electromagnetic valve YV is electrified, and the normally closed channel is switched on, so that the control loop of the telescopic cylinder 2 is switched on, and the telescopic cylinder 2 is driven to act. The control loop of the telescopic cylinder 2 is provided with a pressure regulating valve TV for regulating the stroke of the telescopic cylinder 2, so that the pressing force of the pressing module 3 on the processed workpiece is controlled. Time relay KT's time is adjustable for adjust the pressfitting time of pressfitting module 3 to the work piece that is processed, thereby guarantee the validity of processing.

According to the use requirement, the telescopic cylinder 2 can use a hydraulic cylinder or an air cylinder. If the telescopic cylinder 2 adopts a hydraulic cylinder, a control loop of the telescopic cylinder 2 is a hydraulic oil pipeline. If the telescopic cylinder 2 adopts a cylinder, a control loop of the telescopic cylinder 2 is a gas circuit communicated with a compressed gas source through a gas pipe. Because the use scene of this embodiment carries out the pressfitting to the system mainboard of intelligent instrument or the panel of intelligent instrument, consequently needs less pressure, as preferred scheme, this embodiment adopts the cylinder as telescoping cylinder 2, thereby provides the power supply for the cylinder through the external compressed air source that connects of trachea, adjusts the atmospheric pressure in the trachea through the air-vent valve TV to the stroke of regulation cylinder. And the electromagnetic valve YV is matched with a control loop of the air cylinder and can adopt a two-position five-way pneumatic electromagnetic valve YV.

In this embodiment, as shown in fig. 1, the telescopic cylinder driving module includes two starting switches SB1/SB2, wherein one starting switch SB1 is connected in series in the first circuit, the other starting switch SB2 is connected in series in the second circuit, and the two starting switches SB1/SB2 are respectively disposed at two sides of the fixed gantry 1. When the operation, press two starting switch SB1 SB2 back first return circuits and second return circuit simultaneously through the left and right sides both hands and all be able to electric the operation, the piston rod of cylinder descends, prevents slow-witted and prevent that operating personnel's hand from receiving the injury.

In this embodiment, as shown in fig. 1 and 3, an emergency stop switch SB3 is further disposed on the fixed gantry 1, and the emergency stop switch SB3 is connected in series to the secondary side high-voltage terminal of the power conversion module 6. When emergency shutdown is needed in the operation process, the emergency stop switch SB3 is pressed, the first loop and the second loop lose power, the cylinder moves upwards, the workpiece is released, and an emergency treatment method is provided for operators.

In this embodiment, a power switch K1 is further disposed in the fixed rack 1, the power switch K1 is connected in series between the power input port 5 and the primary side of the power conversion module 6, and the power switch K1 is an all-pole off switch. Switch K1 is as master switch, controls the power break-make of whole tool, and when equipment need not the operation, turn off switch K1 and can shut down to save equipment energy consumption avoids unexpected electric shock risk.

In this embodiment, as shown in fig. 6 to 8, in order to switch the burning/decompressing functions of the system motherboard, a plurality of burning/decompressing switches K2 are further disposed on the fixed rack 1, the plurality of burning/decompressing switches K2 are disposed in one-to-one correspondence with a plurality of taps of the multi-tap interface, and each burning/decompressing switch K2 is correspondingly connected in series to a trigger pin of the tap of the multi-tap interface; when the on-off state of the recording/decompressing conversion switch K2 is switched, the level of the trigger pin of the sub-interface of the corresponding multi-path conversion interface is switched. For example, as shown in fig. 7 to 8, when the recording/decompressing switch K2 is closed, the trigger pin level of the sub-interface of the multi-channel switch interface is pulled down, and at this time, the recording/refreshing mode is set; after the procedure of the burn-in machine is completed, when the burn-in/decompression change-over switch K2 is pressed down to be disconnected, the trigger pin of the sub-interface of the multi-path conversion interface is at a high level, and then the multi-path conversion interface is converted into a decompression mode to decompress the burnt compressed packet.

In order to monitor the current condition of each tap in the decompression process, as shown in fig. 1 and 8, a plurality of current meters a are further arranged on the fixed rack 1, and each current meter a is connected in series with the power supply pins of the tap of the multi-way conversion interface in a one-to-one correspondence manner, so that the current change in the operation process is displayed in real time.

In order to achieve a better display effect, as shown in fig. 1, a display screen 7 can be further arranged on the fixed rack 1 and is in communication connection with an upper computer through the display screen 7, as shown in fig. 9, the display screen 7 can display the working state of the jig in progress, such as 8230, current values measured by each ammeter a can be further displayed in a centralized manner through the display screen 7, so that real-time parameters of each station 4 can be compared, and safety precautions and the like in the working process can be further displayed through the display screen 7.

As a further extension, when the jig is used for pressing the intelligent instrument panel, rigid intelligent instrument product trays 8 which are not easy to deform can be arranged on the fixed rack 1 corresponding to the stations 4, and the intelligent instrument product trays 8 can play a role of preventing the screen from being crushed in the process of supporting and placing the intelligent instrument product; still go to the one side of panel on pressfitting module 3 and set up the flexible profile modeling structure of detachable (not shown in the figure) to the radian of adaptation panel, when making pressfitting module 3 carry out the pressfitting to the panel and paste, the surface form of the panel of laminating more strengthens the firmness of panel laminating, and the in-process soft material of pressfitting contacts with the panel, makes the balanced just fish tail screen of atress everywhere of panel.

When this tool is used for carrying out the burning record/decompress operation of intelligent instrument system mainboard, as shown in fig. 1, can set up detachable compression leg 9 towards the one side of panel on pressfitting module 3, when pressfitting module 3 pushed down, a plurality of compression legs 9 pushed down, with system's mainboard firmly ground joint on the probe of electrical connection point, when reinforcing electrical connection reliability, reserved heat dissipation space for system's mainboard top, protected system's mainboard. In order to buffer the connection between the system main board and the electrical connection point in the electrical connection process, a buffer spring 10 can be arranged on the fixed rack 1 corresponding to each station 4, the intelligent instrument product tray 8 is arranged on the spring, a plurality of stations 4 are arranged on the intelligent instrument product tray 8 and used for placing the system main board, and each sub-interface of the HUB interface is dispersedly arranged on the intelligent instrument product tray 8 through a USB data line. When pressfitting module 3 pushes down and is connected the tapping hole of system mainboard and HUB interface, buffer spring 10 provides the buffering for intelligent instrument product tray 8, produces the crushing deformation to system mainboard or the probe that divides the interface when preventing the crimping.

When the jig is used, when program burning and decompression processes need to be completed, a computer for flashing is prepared as an upper computer, software for flashing is opened after the upper computer is started, a program for flashing is selected, and a main port of a HUB interface is connected to the computer for flashing; putting a system mainboard of a machine to be brushed into a system mainboard tray, adjusting a cylinder to a required pressing stroke and the movement speed of a cylinder piston rod, adjusting an air pressure adjusting valve (a pressure adjusting valve TV) to required pressing air pressure, pressing a starting switch SB1/SB2 by two hands, working the cylinder at the moment, pushing the piston rod of a pneumatic cylinder to move downwards, so that a pressing module 3 arranged at the lower end of the piston rod is contacted with the system mainboard of the machine to be brushed and moves downwards at the same time, stopping only after triggering a limit switch (the triggering limit switch can not be set, and the stroke of the cylinder is preset by setting a telescopic cylinder driving module), and at the moment, the system mainboard is pressed down to be connected with a probe and is connected to a tap port of a HUB interface; turning on a power switch K1, adjusting each burning/decompressing switch to a burning and refreshing mode, refreshing all system mainboards at the same time, and displaying the refreshing progress of each system mainboard on a refreshing computer; after the system mainboard is refreshed, each burning/decompressing switch is switched to a decompressing mode, the system mainboard enters a decompressing state at the moment, the display screen 7 displays the decompressing progress in real time, each ammeter A can display the current change condition in the decompressing working process of the system mainboard, and operating personnel can conveniently monitor the decompressing state of each system mainboard; decompress and finish back accessible display screen 7 and show and get into the power on state, can switch over the change over switch this moment to the state of brushing the machine, press scram switch SB3, the piston rod of cylinder goes upward, takes out the system mainboard that has brushed the machine and decompressed and accomplish, continues next round of operation.

When the panel is pasted when needs carry out, the HUB interface does not connect the host computer, the intelligent instrument panel that will treat the operation corresponds intelligent instrument and places on corresponding station 4, both hands press two starting switch SB1 SB2, the cylinder is down, pressfitting module 3 corresponds the crimping on each intelligent instrument with the panel, when crimping time reaches time relay KT's time of predetermineeing, the cylinder goes upward, the panel is opened in the release, the operator can take out the intelligent instrument of pasting the completion this moment, put the new intelligent instrument of treating processing, carry out next round of operation.

The tool that this embodiment provided, after will treating the intelligent instrument system mainboard of operation and aim at the electrical connection point installation on the station 4, drive pressfitting module 3 through telescoping cylinder 2 and push down, can be connected system mainboard and electrical connection point reliably and fix a position, start the program of host computer and burn record/decompress the program and can accomplish burning record and decompression of system mainboard in batches. When needing to carry out the instrument panel crimping, through setting up pressing force degree and the press time of 3 counter plates of adjustable pressfitting module to telescoping cylinder drive module, reach and compare in the more accurate panel of manual operation and paste the effect, promoted product quality, improved the operating efficiency, reduced manual operation intensity, and merge a plurality of stations 4 on a tool, saved equipment cost and cost of labor.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The multifunctional two-wheeled vehicle intelligent instrument production jig is characterized by comprising a fixed rack (1), a telescopic cylinder (2), a telescopic cylinder driving module and a pressing module (3), wherein a plurality of stations (4) are arranged on the fixed rack (1), an electrical connection point is arranged on each station (4), the pressing module (3) is connected with the telescopic end of the telescopic cylinder (2) and arranged towards the stations (4), the pressing module (3) can move relatively or deviates from the stations (4) along the telescopic direction of the telescopic cylinder (2), and the telescopic cylinder driving module is in transmission connection with the telescopic cylinder (2); the multi-channel conversion device is characterized in that a multi-channel conversion interface is arranged in the fixed rack (1), a main interface of the multi-channel conversion interface is used for being connected with an upper computer, and a plurality of sub-interfaces of the multi-channel conversion interface are connected with electrical connection points of a plurality of stations (4) in a one-to-one correspondence mode.

2. The jig for producing the multifunctional two-wheeled vehicle intelligent instrument is characterized in that a power supply input port (5) and a power supply conversion module (6) are arranged on the fixed rack (1), the primary side of the power supply conversion module (6) is connected with the power supply input port (5), and the secondary side of the power supply conversion module (6) is connected with the telescopic cylinder driving module and the power supply input end of the electrical connection point.

3. The production jig for the multifunctional two-wheeled vehicle intelligent instrument is characterized in that the telescopic cylinder driving module comprises a starting switch (SB 1), a time relay (KT), a solenoid valve (YV) and a pressure regulating valve (TV), a control coil of the time relay (KT) and a secondary side of the starting switch (SB 1) are connected in series to form a first loop, a delay disconnection contact of the time relay (KT) and a control coil of the solenoid valve (YV) are connected in series to form a second loop, a secondary side of the power conversion module (6) are connected in series to form a second loop, and a normally closed channel of the solenoid valve (YV) and the pressure regulating valve (TV) are connected in series in the control loop of the telescopic cylinder (2).

4. The production jig for the multifunctional intelligent instrument of the two-wheeled vehicle as claimed in claim 3, wherein the telescopic cylinder (2) is a hydraulic cylinder, and a control loop of the telescopic cylinder (2) is a hydraulic oil pipeline.

5. The production jig for the multifunctional intelligent instrument of the two-wheeled vehicle as claimed in claim 3, wherein the telescopic cylinder (2) is an air cylinder, and a control loop of the telescopic cylinder (2) is an air passage communicated with a compressed air source through an air pipe.

6. A multifunctional two-wheeled vehicle intelligent instrument production jig according to any one of claims 3-5, characterized in that the telescopic cylinder driving module comprises two starting switches (SB 1/SB 2), wherein one starting switch (SB 1) is connected in series in a first loop, the other starting switch (SB 2) is connected in series in a second loop, and the two starting switches (SB 1/SB 2) are respectively arranged at two sides of the fixed rack (1).

7. The jig for producing the multifunctional two-wheeled vehicle intelligent instrument is characterized in that an emergency stop switch (SB 3) is further arranged on the fixed rack (1), and the emergency stop switch (SB 3) is connected to a secondary side high-voltage end of the power conversion module (6) in series.

8. The jig for producing the multifunctional intelligent instrument of the two-wheeled vehicle as claimed in claim 2, wherein a power switch (K1) is further arranged in the fixed rack (1), the power switch (K1) is connected in series between the power input port (5) and the primary side of the power conversion module (6), and the power switch (K1) is an all-pole disconnecting switch.

9. The jig for producing the multifunctional two-wheeled vehicle intelligent instrument is characterized in that a plurality of burning/decompressing switches (K2) are further arranged on the fixed rack (1), the burning/decompressing switches (K2) are arranged in a one-to-one correspondence to a plurality of branch interfaces of the multi-path conversion interface, and the burning/decompressing switches (K2) are connected in series to trigger pins of the branch interfaces of the multi-path conversion interface; when the on-off state of the burning/decompressing conversion switch (K2) is switched, the level of the trigger pin of the sub-interface of the corresponding multi-path conversion interface is switched.

10. The production jig for the multifunctional intelligent instrument of the two-wheeled vehicle as claimed in claim 1, wherein an ammeter (A) is further arranged on the fixed rack (1), and the ammeter (A) is connected in series with a power supply pin of a branch interface of the multi-way conversion interface.

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