CN112781847B

CN112781847B - Keyboard all-in-one function detection machine

Info

Publication number: CN112781847B
Application number: CN202011557416.5A
Authority: CN
Inventors: 朱家; 张良平; 罗钊鸿
Original assignee: Dongguan Primax Electronic & Telecommunication Products Ltd
Current assignee: Dongguan Primax Electronic & Telecommunication Products Ltd
Priority date: 2020-12-25
Filing date: 2020-12-25
Publication date: 2023-05-23
Anticipated expiration: 2040-12-25
Also published as: CN112781847A

Abstract

The invention discloses a keyboard all-in-one function detection machine which comprises a machine base, a first Y-axis linear module, a second Y-axis linear module, a first loading platform, a second loading platform, a portal frame, an X-axis linear module, a Z-axis lifting frame and a first function detection device and a second function detection device, wherein the first Y-axis linear module and the second Y-axis linear module are arranged on the machine base; the first function detection mechanism comprises a first support, a plurality of first Y-axis moving seats arranged at the lower end of the first support, a first Y-axis driving mechanism arranged at the upper end of the first support, a first guide rod arranged on the first Y-axis moving seats through a first spring and a first sensor measuring head fixed at the lower end of the first guide rod.

Description

Keyboard all-in-one function detection machine

Technical field:

the invention relates to the technical field of keyboard detection, in particular to a keyboard all-in-one function detection machine.

The background technology is as follows:

along with the continuous improvement of life, computers become indispensable office equipment, keyboards are indispensable parts of computers, computer keyboards are one of peripheral devices of the computers, the computer keyboards are developed from typewriter keyboards, characters can be input through the keyboards, and the operation of the computers can be controlled.

At present, in the keyboard production process, the quality detection of keyboard finished products must be carried out before delivery, wherein the performance detection of keyboard keys is usually carried out manually through manpower, the manual hand-held small detection tool detects the keys which need to be detected on each keyboard, the working effect is not improved, the detected performance results cannot be unified in a standard, and the different detection results are caused by manual personal reasons or different technical capacities of individuals to the working types, so that the time and labor are wasted, the detection cost is high, the working efficiency is low, and the production requirements cannot be met.

In view of this, the present inventors have proposed the following means.

The invention comprises the following steps:

the invention aims to overcome the defects of the prior art and provides a keyboard all-in-one function detector.

In order to solve the technical problems, the invention adopts the following technical scheme: the keyboard all-in-one function detection machine comprises a machine base, a first Y-axis linear module and a second Y-axis linear module which are arranged on the machine base and are distributed in parallel, a first carrier which is arranged on the first Y-axis linear module and is driven by the first Y-axis linear module to move in the Y-axis direction and is used for simultaneously positioning two keyboard products, a second carrier which is arranged on the second Y-axis linear module and is driven by the second Y-axis linear module to move in the Y-axis direction and is used for simultaneously positioning two keyboard products, a portal frame which is arranged on the machine base, an X-axis linear module which is arranged on the portal frame, a Z-axis lifting module which is arranged on the X-axis linear module and is driven by the X-axis linear module to move in the X-axis direction, a Z-axis lifting frame which is arranged on the Z-axis lifting module and is driven by the Z-axis lifting module to move in the Z-axis direction, a first carrier which is arranged at the lower end of the Z-axis lifting frame and is used for simultaneously positioning two keyboard products on the first carrier or two keyboard products positioned on the second carrier, and a second function detection device which is used for detecting multiple functions, the first function detection device comprises a first function detection mechanism and a second function detection mechanism which are symmetrically arranged at the lower end of the Z-axis lifting frame, the second function detection device comprises a third function detection mechanism and a fourth function detection mechanism which are symmetrically arranged at the lower end of the Z-axis lifting frame, and the first function detection mechanism, the second function detection mechanism, the third function detection mechanism and the fourth function detection mechanism have the same structure and are distributed in a shape of Chinese character 'tian'; the first function detection mechanism comprises a first support arranged at the lower end of the Z-axis lifting frame, a plurality of first Y-axis moving seats movably arranged at the lower end of the first support, a first Y-axis driving mechanism arranged at the upper end of the first support and used for driving the first Y-axis moving seats to move along the Y-axis direction, a first guide rod arranged on the first Y-axis moving seats in a floatable mode through a first spring, and a first sensor measuring head fixed at the lower end of the first guide rod and used for touching keys.

In the above technical solution, the first Y-axis moving seat is provided with a first through guide hole along an upper end thereof, and an opening slot communicating with the first guide hole is formed on a side surface of the first Y-axis moving seat; the upper end of the first guide rod penetrates through the first guide hole and extends out of the upper end face of the first Y-axis moving seat, the upper end part of the first guide rod is exposed in the open slot, the upper end part of the first guide rod penetrates through a cross rod which abuts against the lower slot wall of the open slot, the first spring is arranged in the open slot, the upper end part of the first guide rod penetrates through the first spring, the cross rod abuts against the lower end of the first spring, and the first spring contacts with the upper slot wall of the open slot, so that the first guide rod is ejected downwards by the elastic force of the first spring.

In the above technical solution, the number of the first Y-axis moving seat and the number of the first sensor measuring heads are six, and the first Y-axis moving seat and the first sensor measuring heads are distributed in parallel; the number of the second Y-axis movable seat and the second sensor measuring head in the second function detection mechanism is six, and the second Y-axis movable seat and the second sensor measuring head are distributed in parallel; the number of the third Y-axis movable seat and the third sensor measuring head in the third function detection mechanism is six, and the six are distributed in parallel; the number of the fourth Y-axis movable seat and the fourth sensor measuring head in the fourth function detection mechanism is six, and the four movable seats and the four sensor measuring heads are distributed in parallel.

Furthermore, in the above technical scheme, six first guide rails are arranged on the first support, a first sliding block is arranged on the side face of the upper end of the first Y-axis moving seat, and the first sliding block is installed on the first guide rails.

Furthermore, in the above technical scheme, the first Y-axis driving mechanism includes a first belt pulley and a second belt pulley which are mounted on two sides of the first bracket and are rotatable, a first belt connected between the first belt pulley and the second belt pulley, and a first stepping motor mounted on the upper end of the first bracket and used for driving the first belt pulley to rotate, a first clamping piece and a second clamping piece are arranged at the upper end of the first Y-axis moving seat, and the first belt is clamped and fixed by the first clamping piece and the second clamping piece, so that the first belt and the first Y-axis moving seat are linked.

Furthermore, in the above technical scheme, the first sensor probe includes a first force transducer fixed at the lower end of the first guide rod and a feeler lever installed at the lower end of the first force transducer.

Furthermore, in the above technical scheme, the first Y-axis linear module, the second Y-axis linear module, the X-axis linear module and the Z-axis lifting module all adopt stepping motor screw rod assemblies.

In the above technical solution, the Z-axis lifting frame includes a vertical plate, a first mounting plate fixed to the lower end of the vertical plate, a second mounting plate and a third mounting plate positioned on both sides of the first mounting plate, two first connecting plates mounted between the vertical plate and the first mounting plate and the second mounting plate to fix the vertical plate, the first mounting plate and the second mounting plate together, and two second connecting plates mounted between the vertical plate and the first mounting plate and the third mounting plate to fix the vertical plate, the first connecting plates mounted on the upper ends of the first function detecting mechanism, the second function detecting mechanism, the third function detecting mechanism and the fourth function detecting mechanism to fix the first function detecting mechanism, the second function detecting mechanism, the third function detecting mechanism and the fourth function detecting mechanism together, and the second mounting plate mounted on the upper ends of the first function detecting mechanism and the third function detecting mechanism to fix the first function detecting mechanism and the third function detecting mechanism together; the third mounting plate is mounted on the upper ends of the second function detecting mechanism and the fourth function detecting mechanism so as to fix the second function detecting mechanism and the fourth function detecting mechanism together.

By adopting the technical scheme, compared with the prior art, the invention has the following beneficial effects: the first function detection mechanism, the second function detection mechanism, the third function detection mechanism and the fourth function detection mechanism are identical in structure, distributed in a Chinese character 'tian' shape, share the same Z-axis lifting frame, synchronously detect two keyboard products positioned on the first carrier or two keyboard products positioned on the second carrier, and can realize one-time detection of a plurality of keys according to the characteristics of a keyboard matrix, realize the testing of key hand feeling, light keys, heavy keys and other functions of the keyboard, realize the detection of a plurality of functions, have extremely high working efficiency, ensure that the detected performance results can be unified in one standard, and ensure the detection quality and accuracy of each key in the keyboard. In addition, the four function detection mechanisms have the same structure, namely, only one function detection mechanism is needed to be manufactured to meet the installation requirements of a plurality of function detection mechanisms, and the four function detection mechanisms are simple in manufacturing cost, simple in structure and convenient to repair and maintain; in addition, a first sensor measuring head in the first function detection mechanism can float relative to a first Y-axis movable seat through a first spring, so that the Z-axis lifting frame is driven to descend by different strokes through a Z-axis lifting module to control the force of the first sensor measuring head to press down to a keyboard key, key pressing stroke data are collected, data are subjected to deep analysis, and functions such as key hand feeling, light keys and heavy keys of the keyboard are tested.

Description of the drawings:

FIG. 1 is a perspective view of the present invention;

FIG. 2 is an assembly view of the first function detecting device, the second function detecting device and the Z-axis lifting frame in the present invention;

FIG. 3 is a perspective view of a first function detecting structure according to the present invention;

fig. 4 is an assembly view of the first Y-axis moving base, the first guide bar, and the first sensor probe according to the present invention.

The specific embodiment is as follows:

the invention will be further described with reference to specific examples and figures.

Referring to fig. 1 to 4, a keyboard multiple-in-one function inspection machine comprises a machine base 1, a first Y-axis linear module 2 and a second Y-axis linear module 3 mounted on the machine base 1 and arranged in parallel, a first stage 21 mounted on the first Y-axis linear module 2 and driven by the first Y-axis linear module 2 to move in the Y-axis direction and for simultaneously positioning two keyboard products, a second stage 31 mounted on the second Y-axis linear module 3 and driven by the second Y-axis linear module 3 to move in the Y-axis direction and for simultaneously positioning two keyboard products, a gantry 11 mounted on the machine base 1, an X-axis linear module 12 mounted on the gantry 11, a Z-axis lifting module 13 mounted on the X-axis linear module 12 and driven by the Z-axis lifting module 13 to move in the Z-axis direction, a second stage 500 mounted on the Z-axis lifting module 4 and for simultaneously positioning the first stage 21 or the second function inspection device for detecting multiple functions of the two keyboard products 500, the first function detecting device 500 comprises a first function detecting mechanism 5 and a second function detecting mechanism 6 symmetrically arranged at the lower end of the Z-axis lifting frame 4, the second function detecting device 700 comprises a third function detecting mechanism 7 and a fourth function detecting mechanism 8 symmetrically arranged at the lower end of the Z-axis lifting frame 4, the first function detecting mechanism 5, the second function detecting mechanism 6, the third function detecting mechanism 7 and the fourth function detecting mechanism 8 have the same structure, and distributed in a shape of Chinese character 'tian'; the first function detecting mechanism 5 includes a first bracket 51 mounted at the lower end of the Z-axis lifting frame 4, a plurality of first Y-axis moving bases 52 movably mounted at the lower end of the first bracket 51, a first Y-axis driving mechanism 53 mounted at the upper end of the first bracket 51 and used for driving the first Y-axis moving bases 52 to move along the Y-axis direction, a first guide rod 55 floatably mounted on the first Y-axis moving bases 52 through a first spring 54, and a first sensor probe 56 fixed at the lower end of the first guide rod 55 and used for touching keys. The first function detection mechanism 5, the second function detection mechanism 6, the third function detection mechanism 7 and the fourth function detection mechanism 8 are identical in structure, distributed in a Chinese character 'tian' shape, share the same Z-axis lifting frame 4, synchronously detect two keyboard products positioned on the first carrying platform 21 or two keyboard products positioned on the second carrying platform 31, and can realize one-time detection of a plurality of keys according to the characteristics of a keyboard matrix, realize the testing of the hand feeling of keys, the functions of light keys, heavy keys and the like of the keyboard, realize the detection of a plurality of functions, have extremely high working efficiency, ensure that the detected performance results can be unified in one standard, and ensure the detection quality and the precision of each key in the keyboard. In addition, the four function detection mechanisms have the same structure, namely, only one function detection mechanism is needed to be manufactured to meet the installation requirements of a plurality of function detection mechanisms, and the four function detection mechanisms are simple in manufacturing cost, simple in structure and convenient to repair and maintain; in addition, the first sensor probe 56 in the first function detection mechanism 5 can float relative to the first Y-axis moving seat 52 through the first spring 54, so that the Z-axis lifting frame 4 is driven to descend by different strokes through the Z-axis lifting module 13 to control the force of the first sensor probe 56 pressing down to the keyboard key, so that the key pressing stroke data is collected, the data is subjected to deep analysis, and the functions of keyboard key hand feeling, light keys, heavy keys and the like are tested.

The first Y-axis moving seat 52 is provided with a first through guide hole 521 along the upper end thereof, and an opening slot 522 communicating with the first guide hole 521 is provided on one side of the first Y-axis moving seat 52; the upper end of the first guide rod 55 is inserted into the first guide hole 521 and extends out of the upper end surface of the first Y-axis moving seat 52, the upper end portion of the first guide rod 55 is exposed in the open slot 522, the upper end portion of the first guide rod 55 is inserted with a cross rod 523, the cross rod 523 abuts against the lower slot wall of the open slot 522, the first spring 54 is mounted in the open slot 522, the upper end portion of the first guide rod 55 passes through the first spring 54, the cross rod 523 abuts against the lower end of the first spring 54, and the first spring 54 contacts with the upper slot wall of the open slot 522, so that the first guide rod 55 is pushed out downwards by the elastic force of the first spring 54.

The number of the first Y-axis moving seat 52 and the first sensor measuring head 56 is six, and the first Y-axis moving seat and the first sensor measuring head 56 are distributed in parallel; the number of the second Y-axis moving seats 61 and the second sensor measuring heads 62 in the second function detecting mechanism 6 is six, and the second Y-axis moving seats and the second sensor measuring heads are distributed in parallel; the number of the third Y-axis moving seats 71 and the third sensor measuring heads 72 in the third function detecting mechanism 7 is six, and the third Y-axis moving seats and the third sensor measuring heads are distributed in parallel; the number of the fourth Y-axis moving seats 81 and the fourth sensor measuring heads 82 in the fourth function detecting mechanism 8 is six, and the four are distributed in parallel. That is, the invention can simultaneously press and detect 24 keys during operation, and has extremely high working efficiency.

Six first guide rails 511 are arranged on the first support 51, a first sliding block 524 is arranged on the side surface of the upper end of the first Y-axis moving seat 52, the first sliding block 524 is installed on the first guide rails 511, the first Y-axis moving seat 52 is ensured to be stably installed on the first support 51, and the first Y-axis moving seat can stably slide on the first support 51.

The first Y-axis driving mechanism 53 includes a first belt pulley 531 and a second belt pulley 532 rotatably mounted on both sides of the first bracket 51, a first belt 533 connected between the first belt pulley 531 and the second belt pulley 532, and a first stepping motor 534 mounted on the upper end of the first bracket 51 and used for driving the first belt pulley 531 to rotate, and a first clamping piece 525 and a second clamping piece 526 are disposed on the upper end of the first Y-axis moving seat 52, and the first clamping piece 525 and the second clamping piece 526 clamp and fix the first belt 533, so that the first belt 533 is interlocked with the first Y-axis moving seat 52. The first Y-axis driving mechanism 53 is simple in structure, low in cost and stable in operation.

The first sensor probe 56 includes a first force sensor 561 fixed on the lower end of the first guide rod 55, and a feeler lever 562 mounted on the lower end of the first force sensor 561, where the feeler lever 562 is used to contact with a key to detect the pressing stroke of the key, and the first force sensor 561 detects the pressing force. The lower end of the first guide rod 55 and the first load cell 561 may be mounted in a screw manner.

The first Y-axis linear module 2, the second Y-axis linear module 3, the X-axis linear module 12 and the Z-axis lifting module 13 all adopt stepping motor screw rod assemblies, and the operation is stable and the operation precision is high.

The Z-axis lifting frame 4 comprises a vertical plate 41, a first mounting plate 42 fixed at the lower end of the vertical plate 41, a second mounting plate 43 and a third mounting plate 44 positioned at two sides of the first mounting plate 42, a first connecting plate 45 arranged between the vertical plate 41 and the first mounting plate 42 and the second mounting plate 43 to fix the vertical plate 41, the first mounting plate 42 and the second mounting plate 43 together, and a second connecting plate 46 arranged between the vertical plate 41 and the first mounting plate 42 and the third mounting plate 44 to fix the vertical plate 41, the first mounting plate 42 and the third mounting plate 44 together, wherein the first connecting plate 45 is arranged at the upper ends of the first function detecting mechanism 5, the second function detecting mechanism 6 and the third function detecting mechanism 7 and the fourth function detecting mechanism 8 to fix the first function detecting mechanism 5, the second function detecting mechanism 6 and the third function detecting mechanism 7 and the fourth function detecting mechanism 8 together, and the second mounting plate 43 is arranged at the upper ends of the first function detecting mechanism 5 and the third function detecting mechanism 7 to fix the first function detecting mechanism 5 and the third function detecting mechanism 7 together; the third mounting plate 44 is mounted on the upper ends of the second function detecting mechanism 6 and the fourth function detecting mechanism 8 to fix the second function detecting mechanism 6 and the fourth function detecting mechanism 8 together.

In summary, the first function detecting mechanism 5, the second function detecting mechanism 6, the third function detecting mechanism 7 and the fourth function detecting mechanism 8 in the invention have the same structure, are distributed in a Chinese character 'tian' shape, share the same Z-axis lifting frame 4, and synchronously detect two keyboard products positioned on the first carrying platform 21 or two keyboard products positioned on the second carrying platform 31, so that a plurality of keys can be detected at one time according to the characteristics of a keyboard matrix, the hand feeling of the keys of the keyboard, the testing of the functions of the light keys, the heavy keys and the like are realized, the detection of a plurality of functions is realized, the working efficiency is extremely high, the detected performance results can be unified within a standard, and the detection quality and the accuracy of each key in the keyboard are ensured. In addition, the four function detection mechanisms have the same structure, namely, only one function detection mechanism is needed to be manufactured to meet the installation requirements of a plurality of function detection mechanisms, and the four function detection mechanisms are simple in manufacturing cost, simple in structure and convenient to repair and maintain; in addition, the first sensor probe 56 in the first function detection mechanism 5 can float relative to the first Y-axis moving seat 52 through the first spring 54, so that the Z-axis lifting frame 4 is driven to descend by different strokes through the Z-axis lifting module 13 to control the force of the first sensor probe 56 pressing down to the keyboard key, so that the key pressing stroke data is collected, the data is subjected to deep analysis, and the functions of keyboard key hand feeling, light keys, heavy keys and the like are tested.

It is understood that the foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, but rather is to be accorded the full scope of all such modifications and equivalent structures, features and principles as set forth herein.

Claims

1. The utility model provides a keyboard all-in-one function detects machine which characterized in that: the device comprises a base (1), a first Y-axis linear module (2) and a second Y-axis linear module (3) which are arranged on the base (1) and distributed in parallel, a first carrier (21) which is arranged on the first Y-axis linear module (2) and is driven by the first Y-axis linear module (2) to move in the Y-axis direction and is used for simultaneously positioning two keyboard products, a second carrier (31) which is arranged on the second Y-axis linear module (3) and is driven by the second Y-axis linear module (3) to move in the Y-axis direction and is used for simultaneously positioning two keyboard products, a portal frame (11) which is arranged on the base (1), an X-axis linear module (12) which is arranged on the portal frame (11), a Z-axis lifting module (13) which is arranged on the X-axis linear module (12) and is driven by the X-axis linear module (12) to move in the X-axis direction, a Z-axis lifting module (13) which is arranged on the Z-axis lifting module (13) and is driven by the Z-axis lifting module (13) to move in the Z-axis direction, a detection device (4) which is arranged on the Z-axis lifting module (4) and is used for simultaneously positioning the two keyboard products, and a detection device (700) which detects the two or more than one of the second carrier (500) can be positioned at the same time, the first function detection device (500) comprises a first function detection mechanism (5) and a second function detection mechanism (6) which are symmetrically arranged at the lower end of the Z-axis lifting frame (4), the second function detection device (700) comprises a third function detection mechanism (7) and a fourth function detection mechanism (8) which are symmetrically arranged at the lower end of the Z-axis lifting frame (4), and the first function detection mechanism (5), the second function detection mechanism (6), the third function detection mechanism (7) and the fourth function detection mechanism (8) have the same structure and are distributed in a shape of Chinese character 'tian'; the first function detection mechanism (5) comprises a first bracket (51) arranged at the lower end of the Z-axis lifting frame (4), a plurality of first Y-axis movable seats (52) movably arranged at the lower end of the first bracket (51), a first Y-axis driving mechanism (53) arranged at the upper end of the first bracket (51) and used for driving the first Y-axis movable seat (52) to move along the Y-axis direction, a first guide rod (55) arranged on the first Y-axis movable seat (52) in a floatable manner through a first spring (54) and a first sensor measuring head (56) fixed at the lower end of the first guide rod (55) and used for touching keys;

the first Y-axis movable seat (52) is provided with a first through guide hole (521) downwards along the upper end of the first Y-axis movable seat, and one side surface of the first Y-axis movable seat (52) is provided with an open slot (522) communicated with the first guide hole (521); the upper end of the first guide rod (55) penetrates through the first guide hole (521) and extends out of the upper end face of the first Y-axis moving seat (52), the upper end portion of the first guide rod (55) is exposed in the open groove (522), the upper end portion of the first guide rod (55) penetrates through a cross rod (523), the cross rod (523) abuts against the lower groove wall of the open groove (522), the first spring (54) is arranged in the open groove (522), the upper end portion of the first guide rod (55) penetrates through the first spring (54), the cross rod (523) abuts against the lower end of the first spring (54), and the first spring (54) contacts with the upper groove wall of the open groove (522) so that the first guide rod (55) is ejected downwards under the elasticity of the first spring (54).

2. The keyboard all-in-one function detector according to claim 1, wherein: the number of the first Y-axis movable seats (52) and the number of the first sensor measuring heads (56) are six, and the six first Y-axis movable seats and the six first sensor measuring heads are distributed in parallel; the number of the second Y-axis movable seats (61) and the second sensor measuring heads (62) in the second function detection mechanism (6) is six, and the second Y-axis movable seats and the second sensor measuring heads are distributed in parallel; the number of the third Y-axis movable seat (71) and the third sensor measuring head (72) in the third function detection mechanism (7) is six, and the six are distributed in parallel; the number of the fourth Y-axis movable seat (81) and the fourth sensor measuring head (82) in the fourth function detection mechanism (8) is six, and the four movable seats are distributed in parallel.

3. The keyboard all-in-one function detector according to claim 2, wherein: six first guide rails (511) are arranged on the first support (51), a first sliding block (524) is arranged on the side face of the upper end of the first Y-axis moving seat (52), and the first sliding block (524) is arranged on the first guide rails (511).

4. The keyboard all-in-one function detector according to claim 1, wherein: the first Y-axis driving mechanism (53) comprises a first belt pulley (531) and a second belt pulley (532) which are arranged on two sides of the first bracket (51) and can rotate, a first belt (533) connected between the first belt pulley (531) and the second belt pulley (532) and a first stepping motor (534) arranged at the upper end of the first bracket (51) and used for driving the first belt pulley (531) to rotate, a first clamping piece (525) and a second clamping piece (526) are arranged at the upper end of the first Y-axis moving seat (52), and the first belt (533) and the second clamping piece (526) are clamped and fixed to enable the first belt (533) to be in linkage with the first Y-axis moving seat (52).

5. The keyboard all-in-one function detector according to claim 4, wherein: the first sensor measuring head (56) comprises a first force transducer (561) fixed at the lower end of the first guide rod (55) and a feeler lever (562) arranged at the lower end of the first force transducer (561).

6. The keyboard all-in-one function detector according to claim 2, wherein: the first Y-axis linear module (2), the second Y-axis linear module (3), the X-axis linear module (12) and the Z-axis lifting module (13) all adopt stepping motor screw rod assemblies.

7. The keyboard all-in-one function detector according to claim 2, wherein: the Z-axis lifting frame (4) comprises a vertical plate (41), a first mounting plate (42) fixed at the lower end of the vertical plate (41), a second mounting plate (43) and a third mounting plate (44) positioned at two sides of the first mounting plate (42), two first connecting plates (45) arranged between the vertical plate (41) and the first mounting plate (42) and the second mounting plate (43) so as to fix the vertical plate (41), the first mounting plate (42) and the second mounting plate (43) together, two second connecting plates (46) arranged between the vertical plate (41) and the first mounting plate (42) and the third mounting plate (44) so as to fix the vertical plate (41), the first mounting plate (42) and the third mounting plate (44) together, the first connecting plates (45) are arranged at the upper ends of the first function detecting mechanism (5), the second function detecting mechanism (6) and the third function detecting mechanism (7) and the fourth function detecting mechanism (8) so as to fix the first function detecting mechanism (5), the second function detecting mechanism (6) and the third function detecting mechanism (7) and the third function detecting mechanism (8) together, to fix the first function detecting means (5) and the third function detecting means (7) together; the third mounting plate (44) is mounted on the upper ends of the second function detecting mechanism (6) and the fourth function detecting mechanism (8) so as to fix the second function detecting mechanism (6) and the fourth function detecting mechanism (8) together.