CN116567422A - Can be directly applied to intelligent production line situation testing arrangement after repacking - Google Patents

Abstract

The invention relates to the technical field of production line condition testing, in particular to an intelligent production line condition testing device capable of being directly applied to refitting. The invention provides the intelligent production line condition testing device which can improve the testing accuracy, avoid test omission and is convenient to install quickly through connection detection and visual auxiliary monitoring, and can be directly applied to refitted intelligent production line condition testing devices. The utility model provides a but direct application is intelligent production line situation testing arrangement after repacking, includes software test assembly and support column etc. software test assembly upper and lower two parts all are connected with two spinal branch daggers of bilateral symmetry. According to the intelligent production line monitoring device, the first connecting rod or the second connecting rod is pulled according to the direction to be monitored, so that the camera can be adjusted in the corresponding direction, the software testing assembly is assisted to monitor the modified intelligent production line, and meanwhile, the mounting plate is pushed forwards, so that the mounting piece and the pressing piece are matched to be capable of connecting and mounting production lines with different specifications.

Description

Can be directly applied to intelligent production line situation testing arrangement after repacking

Technical Field

The invention relates to the technical field of production line condition testing, in particular to an intelligent production line condition testing device capable of being directly applied to refitting.

Background

When the factory is operating on a production line, the factory can carry out modification adjustment on the production line according to the self requirement, and in order to ensure that the modified production line can intelligently work normally, the production line needs to be tested by a tester through a testing device.

A production line monitoring system and a production line monitoring method of patent publication No. CN103885370B, comprising: a tester for detecting products on a production line; a connection detection sensor for detecting whether the product is connected with the tester; the device is connected with a connection detection sensor, can control a control device for keeping a product at a first preset position, can automatically detect whether the product is connected to a tester or not, and avoid product omission, but the device is used for carrying out connection detection on a software system through manual wire insertion in the test process, and then carrying out test detection through the detection sensor.

Therefore, the intelligent production line condition testing device capable of being directly applied to refitted is developed at present to solve the problems, the testing accuracy is improved through the on-line detection and the vision auxiliary monitoring, the test omission is avoided, and meanwhile, the intelligent production line condition testing device is convenient to install.

Disclosure of Invention

In order to overcome the defect that the single testing mode of the conventional device lacks comprehensiveness, the testing system causes problems in testing after abnormality occurs, meanwhile, installation adaptation is needed when the device is installed, the installation difficulty is increased, and the installation efficiency is reduced.

The technical proposal is as follows: the utility model provides a but direct application is in intelligent production line situation testing arrangement after repacking, including software test assembly, the support column, the wrapping post, test plug, monitoring mechanism and installation mechanism, software test assembly upper and lower two parts all are connected with bilateral symmetry's two support columns that are used for placing the support, software test assembly upper left portion inside rotation is connected with the wrapping post, the winding has three to be used for switching on the test plug of connecting the production line on the wrapping post, be equipped with on the software test assembly and be used for carrying out visual monitoring's monitoring mechanism to the production line operating condition, be equipped with the installation mechanism of the production line of the different specifications of the adaptation of being convenient for on the software test assembly.

As the preference, monitoring facilities is including protective cover, first connecting rod, first setting element, second connecting rod, mount pad and camera, software test assembly top slidingtype is connected with two protective covers of bilateral symmetry, software test assembly right part upside rotation is connected with first connecting rod, software test assembly right part upside is connected with the first setting element that is used for carrying out the locking location to first connecting rod, first connecting rod left part rotation is connected with the second connecting rod, software test assembly left part upside is connected with the second setting element that is used for carrying out the locking location to the second connecting rod, second connecting rod top intermediate position is connected with the mount pad, rotation is connected with the camera that is used for carrying out visual monitoring to the production line on the mount pad.

As the preference, the installation mechanism is including mounting panel, first carriage, installed part and compress tightly the piece, and software testing subassembly inboard slidingtype is connected with the mounting panel, all is connected with first carriage on four angles of mounting panel front side, all is connected with the installed part that is used for carrying out the connection installation on the first carriage, and the equal screw thread in installed part lower part is connected with the compress tightly the piece that is used for carrying out the centre gripping installation.

The wire storage mechanism comprises a guide piece, a first sliding rod, a third connecting rod, a second sliding rod, ratchets, torsion springs, a mounting frame, ratchets and spiral springs, wherein the front side of the left upper part of the software testing component is connected with two guide pieces which are bilaterally symmetrical, the first sliding rod is connected between the guide pieces in a sliding mode, the third connecting rod is connected with the left upper part of the first sliding rod in a rotating mode, the left upper part of the software testing component is connected with the second sliding rod in a sliding mode, the left part of the second sliding rod is connected with the third connecting rod in a rotating mode, the front side of the left upper part of the software testing component is connected with the mounting frame, the lower side of the left lower part of the mounting frame is connected with the ratchets, the front side and the rear side of the ratchet are connected with the two torsion springs which are bilaterally symmetrical, the torsion springs are wound on the mounting frame, the ratchet is connected with the front side of the column in a rotating mode, the ratchet wheel is meshed with the front side of the ratchet, the spiral springs are connected with the winding frame, and the spiral springs are wound on the mounting frame.

Preferably, the device further comprises a storage mechanism, the storage mechanism comprises a connecting piece, a connecting frame, a second sliding frame, a first spring, a second spring and a pressing frame, wherein the connecting piece is connected to the lower side of one part of the protective cover, which is close to each other, the connecting frame is connected to the front part of the software testing assembly in a sliding mode, the second sliding frame is connected to the bottom of the connecting frame, the first spring is connected between the second sliding frame and the software testing assembly, the pressing frame used for limiting the mounting plate is connected to the middle position of the front part of the software testing assembly in a sliding mode, the pressing frame is connected with the second sliding frame in a sliding mode, and two symmetrical second springs are connected between the mounting plate and the software testing assembly and are wound on the software testing assembly.

Preferably, the test plug shielding device further comprises a protection mechanism, wherein the protection mechanism comprises a fixing piece and a protection piece, the fixing piece is connected to the left side of the upper portion of the software test assembly, and the protection piece used for shielding and protecting the test plug is connected to the fixing piece in a rotating mode.

Preferably, the locking mechanism comprises a fixed column and a locking piece, wherein the top in the left protective cover is connected with the fixed column, and the top in the right protective cover is connected with the locking piece which is used for being clamped with the fixed column.

Preferably, the protective covers are respectively connected with a handle in a rotary mode.

The beneficial effects of the invention are as follows: 1. according to the invention, the first connecting rod or the second connecting rod is pulled according to the direction to be monitored, so that the camera can be adjusted in the corresponding direction, the software testing assembly is assisted to monitor the modified intelligent production line, the software testing assembly is prevented from missing the test, meanwhile, a tester can intuitively judge the working state of the modified intelligent production line, and the testing accuracy is improved.

2. According to the invention, the mounting plate is pushed forward, so that the mounting piece and the pressing piece are matched to carry out connection mounting on production lines with different specifications, meanwhile, the mounting difficulty can be reduced due to the efficiency of clamping mounting, and the mounting efficiency and suitability of the software testing assembly are improved.

3. According to the invention, the first sliding rod is pushed by the protective cover, so that the third connecting rod drives the second sliding rod to slide rightwards, the ratchet teeth and the ratchet wheel are meshed with each other, positioning assistance is carried out when a test plug is pulled out by a tester, and meanwhile, after the test is finished, the ratchet wheel is disengaged from the ratchet wheel along with the ratchet teeth, and the ratchet wheel can rapidly wind the test plug under the action of the spiral spring.

4. According to the invention, the connecting frame slides downwards by pulling the protective cover open, so that the second sliding frame drives the pressing frames to slide and contract towards one side close to each other, the mounting plate is unlocked, the mounting plate can automatically slide forwards, and the mounting plate is convenient for test personnel to mount.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic view of a partially cut-away perspective structure of the present invention.

Fig. 4 is a schematic perspective view of the monitoring mechanism of the present invention.

Fig. 5 is a schematic perspective view of the mounting mechanism of the present invention.

Fig. 6 is a schematic structural diagram of the wire storing mechanism of the present invention.

Fig. 7 is a schematic view of a partially cut-away perspective structure of the thread storing mechanism of the present invention.

Fig. 8 is a schematic perspective view of a housing mechanism according to the present invention.

Fig. 9 is a schematic perspective view of a protection mechanism of the present invention.

Fig. 10 is a schematic perspective view of a locking mechanism according to the present invention.

FIG. 11 is a schematic perspective view of a part of the monitor mechanism in the unfolded state.

Fig. 12 is a schematic view showing the mounting state of the mounting mechanism of the present invention.

Fig. 13 is a schematic view of a part of a perspective structure of a housing mechanism of the present invention.

Reference numerals illustrate: the software test assembly, 2_support post, 3_spool, 4_test plug, 5_monitor, 51_guard, 52_first link, 53_first positioner, 54_second positioner, 55_second link, 56_mount, 57_camera, 6_mount, 61_mount, 62_first slide, 63_mount, 64_hold down, 7_wire store, 71_guide, 72_first slide, 73_third link, 74_second slide, 75_ratchet, 76_torsion spring, 77_mount, 78_ratchet, 79_wrap, 8_receive, 81_connector, 82_link, 83_second slide, 84_first spring, 85_second spring, 86_hold down, 9_guard, 91_mount, 92_guard, 10_lock, 101_secure, 102_lock.

Detailed Description

The following description is of the preferred embodiments of the invention, and is not intended to limit the scope of the invention.

The utility model provides a but direct application is in intelligent production line condition testing arrangement after repacking, as shown in fig. 1-3, including software test assembly 1, support column 2, wrapping post 3, test plug 4, monitoring mechanism 5 and installation mechanism 6, software test assembly 1 upper and lower two parts all are connected with bilateral symmetry's two support columns 2, support column 2 is used for placing the support, software test assembly 1 upper left portion inside rotation is connected with wrapping post 3, the winding is last to be rolled up three test plug 4, test plug 4 is used for switching on and connects the production line, be equipped with monitoring mechanism 5 on the software test assembly 1, be equipped with installation mechanism 6 on the software test assembly 1.

It should be noted that, when the intelligent production line after the repacking carries out normal production operation, in order to test this production line and can adapt to normal operation, can use this device to connect with the intelligent production line after the repacking, thereby carry out test treatment to the intelligent production line after the repacking, in the in-process of test, put through with the intelligent production line after the repacking through pulling test plug 4, afterwards, test the intelligent production line after the repacking by software test assembly 1, the in-process carries out visual monitoring to the intelligent production line production state after the repacking through monitoring mechanism 5, avoid the test to appear missing, the accuracy of reinforcing test, simultaneously when the production line of different specifications is in the face carries out the installation of plugging into, can use installation mechanism 6 to carry out the adaptation installation, the reduction installation degree of difficulty.

As shown in fig. 1, fig. 2, fig. 4 and fig. 11, the monitoring mechanism 5 includes a protective cover 51, a first connecting rod 52, a first positioning piece 53, a second positioning piece 54, a second connecting rod 55, an installation seat 56 and a camera 57, two protective covers 51 which are bilaterally symmetrical are slidingly connected to the top of the software testing assembly 1, a handle which is convenient for a tester to pull open is rotationally connected to the protective cover 51, a first connecting rod 52 is rotationally connected to the upper right side of the software testing assembly 1, a first positioning piece 53 is connected to the upper right side of the software testing assembly 1, the first positioning piece 53 is used for locking and positioning the first connecting rod 52, the first positioning piece 53 is of a two-point positioning structure, the first positioning piece 53 can be connected with the front right side of the first connecting rod 52 in a clamping manner, the left side of the first connecting rod 52 is rotationally connected with the second connecting rod 55, the upper left side of the software testing assembly 1 is connected with the second positioning piece 54, the second positioning piece 54 is used for locking and positioning the second connecting rod 55, the second positioning piece 54 is of a three-point positioning structure, the second positioning piece 54 can be used for locking and positioning the second connecting rod 55 is connected with the front side of the second connecting rod 55, and the camera 57 is used for manufacturing the camera 57.

It should be noted that, when testing the intelligent production line after the repacking, in order to further assist software testing component 1 test the intelligent production line after the repacking, pull the protective cover 51 to one side that is kept away from each other through the handle, make camera 57 no longer receive covering and stop, afterwards, according to the position pulling first connecting rod 52 or second connecting rod 55 that needs the monitoring, if the position that needs the monitoring is the left side, directly upwards rotate second connecting rod 55, and fix a position second connecting rod 55 under the effect of second setting element 54, make second connecting rod 55 can keep stable, afterwards rotate camera 57 to monitor the intelligent production line left side after the repacking, if the position that needs the monitoring is the right side, thereby make first connecting rod 52 upwards rotate, carry out the locking location to first connecting rod 52 through first setting element 53, keep the stability of first connecting rod 52, afterwards, control second connecting rod 55 rotates and drives camera 57 and carries out position adjustment, make camera 57 can be to the intelligent production line after the repacking right side, in conclusion, the position that need the monitoring rod is rotated and is left side to monitor the intelligent production line after the repacking, thereby the intelligent testing component is improved, the intelligent testing component is avoided the intelligent testing 1 to need the position of monitoring to monitor the intelligent production line after the position is moved, and the intelligent testing component is improved, the accurate testing component is avoided to the condition that the intelligent testing software is detected to the corresponding to the intelligent production line after the monitoring is detected to the position 1.

As shown in fig. 1, 5 and 12, the mounting mechanism 6 includes a mounting plate 61, a first sliding frame 62, a mounting member 63 and a pressing member 64, the inner side of the software testing assembly 1 is slidably connected with the mounting plate 61, the front four corners of the mounting plate 61 are slidably connected with the first sliding frame 62, the first sliding frame 62 is connected with the mounting member 63, the mounting member 63 is used for connection mounting, the lower portion of the mounting member 63 is threadably connected with the pressing member 64, and the pressing member 64 is used for clamping mounting.

It should be noted that, when testing the intelligent production line after the repacking, in order to make software testing subassembly 1 install fixedly fast, can promote mounting panel 61 forward, thereby make first carriage 62 drive mounting 63 forward motion, afterwards carry out the joint with the position that needs to install mounting 63, rotate next and compress tightly piece 64, make compressing tightly piece 64 all upward movement, thereby carry out the centre gripping installation, accomplish the installation fixedly to software testing subassembly 1, in sum, through promoting mounting panel 61 forward, make mounting 63 and compressing tightly piece 64 cooperation can be to the production line of different specifications be connected the installation, the efficiency of centre gripping installation can reduce the installation degree of difficulty simultaneously, improve the installation effectiveness and the suitability of software testing subassembly 1.

As shown in fig. 1, 6 and 7, the wire storage mechanism 7 further comprises a wire storage mechanism 7, the wire storage mechanism 7 comprises a guide piece 71, a first sliding rod 72, a third connecting rod 73, a second sliding rod 74, ratchets 75, torsion springs 76, a mounting frame 77, a ratchet 78 and a scroll spring 79, the front side of the left upper part of the software testing component 1 is connected with two guide pieces 71 which are symmetrical left and right, the first sliding rod 72 is connected between the guide pieces 71 in a sliding manner, the first sliding rod 72 is guided by the guide pieces 71, the protective cover 51 can limit the first sliding rod 72, the left upper part of the software testing component 1 is rotatably connected with the third connecting rod 73, the third connecting rod 73 is rotatably connected with the left part of the first sliding rod 72, the left part of the second sliding rod 74 is rotatably connected with the third connecting rod 73, the front side of the left upper part of the software testing component 1 is connected with the mounting frame 77, the left lower side of the mounting frame 77 is rotatably connected with the ratchets 75, the front and rear side of the ratchet 75 is rotatably connected with the mounting frame 77, the ratchet 78 is rotatably connected with the ratchet 78, the ratchet 78 is rotatably connected with the inner side of the ratchet frame 78, and the ratchet 78 is rotatably connected with the ratchet 78, and the scroll spring 78 is rotatably connected with the inner side of the ratchet frame 78.

It should be noted that, as the left protective cover 51 slides to the left to be opened, at this time, the left protective cover 51 no longer limits the first sliding rod 72, in the initial state, the torsion spring 76 is in a stressed deformation state, as the first sliding rod 72 no longer is limited, the ratchet 75 rotates to the right under the action of the torsion spring 76, thereby pulling the second sliding rod 74 to slide to the right, further enabling the third connecting rod 73 to rotate counterclockwise, at this time, the first sliding rod 72 slides to the left, and it should be noted that, as the ratchet 75 rotates to the right, at this time, the ratchet 75 is meshed with the ratchet 78, when the test plug 4 is pulled out to the left by the test person, the ratchet 78 rotates slowly under the limit of the ratchet 75, thereby facilitating the test plug 4 to be pulled by the test person and adjusting the pull-out length, at this time, the winding post 3 drives the ratchet 78 to rotate, at this time, along with the ratchet 78, when the test plug 4 needs to be retracted and reset, the spiral spring 79 is stressed and deformed, the first sliding rod 72 is pulled to slide rightwards along with the rightward sliding reset of the left protective cover 51, so that the third connecting rod 73 rotates clockwise and resets, the second sliding rod 74 is pulled to slide leftwards and reset, the ratchet 75 rotates leftwards and resets, the torsion springs 76 are all restored to the stressed deformation state, at the moment, the ratchet 78 is not locked, the winding post 3 is driven to rotate and reset by the ratchet 78 under the action of the spiral spring 79, the test plug 4 is retracted and reset, in sum, the first sliding rod 72 is pushed by the protective cover 51, the third connecting rod 73 drives the second sliding rod 74 to slide rightwards, so that the ratchet 75 and the ratchet 78 are meshed with each other, positioning assistance is performed when a test person pulls out the test plug 4, and simultaneously after the test is finished, the ratchet 75 is disengaged from the ratchet 78, the ratchet 78 can rapidly wind up the test plug 4 under the action of the wrap spring 79.

As shown in fig. 1, 8 and 13, the device further comprises a storage mechanism 8, the storage mechanism 8 comprises a connecting piece 81, a connecting frame 82, a second sliding frame 83, a first spring 84, a second spring 85 and a pressing frame 86, the lower sides of the parts, close to each other, of the protective covers 51 are respectively connected with the connecting piece 81, the front parts of the software testing components 1 are slidably connected with the connecting frame 82, the connecting piece 81 can push the connecting frame 82 in a squeezing mode, the bottom of the connecting frame 82 is connected with the second sliding frame 83, a first spring 84 is connected between the second sliding frame 83 and the software testing components 1, the front middle positions of the software testing components 1 are slidably connected with the pressing frames 86 which are bilaterally symmetrical, the pressing frames 86 are slidably connected with the second sliding frames 83, the pressing frames 86 are used for limiting the mounting plates 61, and two bilaterally symmetrical second springs 85 are connected between the mounting plates 61 and the software testing components 1.

It should be noted that, along with the protection cover 51 all to the one side slip expansion that keeps away from each other, can drive the connecting piece 81 and all move to one side that keeps away from each other, thereby extrude the link 82, make the link 82 slide down, along with link 82 slide down, can drive second carriage 83 slide down, thereby make first spring 84 atress tensile, along with second carriage 83 slide down, can drive down carriage 86 all to the one side slip shrink that is close to each other, and then no longer extrude mounting panel 61, under the initial condition, second spring 85 all is in the atress compression state, at this moment under the effect of second spring 85, mounting panel 61 can slide forward, and then be convenient for test personnel install the operation, after the test, along with the protection cover 51 all to one side slip reset that is close to each other, at this moment link 82 no longer receives the extrusion, under the effect of first spring 84, second carriage 83 drives the link 82 upward slide reset, thereby make down carriage 86 all slide expansion to one side slip expansion that keeps away from each other, and push down the mounting panel through the inclined plane on the carriage 86 and push down to push down 61, and then carry out compression state under the effect of second spring 85, make mounting panel 61 can slide forward to slide down to the mounting panel 61, and then make the test personnel to carry out the test operation to slide down, and then carry out the test panel to carry out the test operation to be convenient for the side.

As shown in fig. 1, 2 and 9, the device further comprises a protection mechanism 9, the protection mechanism 9 comprises a fixing piece 91 and a protection piece 92, the fixing piece 91 is connected to the left side of the upper portion of the software testing component 1, the protection piece 92 is rotatably connected to the fixing piece 91, and the protection piece 92 is used for shielding and protecting the test plug 4.

It should be noted that, in order to avoid the damage of the test plug 4 in the daily state, the test plug 4 may be protected by the protection member 92, and when the test plug 4 needs to be pulled out, the protection member 92 is directly turned upwards, and then the test plug 4 is pulled out.

As shown in fig. 6 and 10, the locking mechanism 10 is further included, the locking mechanism 10 includes a fixing column 101 and a locking piece 102, the top in the left protective cover 51 is connected with the fixing column 101, the top in the right protective cover 51 is connected with the locking piece 102, and the locking piece 102 is used for being clamped with the fixing column 101.

It should be noted that, in order to avoid accidental sliding and opening of the protective cover 51, the protective cover 51 may be locked and fixed by the locking member 102 and the fixing post 101, and when the protective cover 51 needs to be unfolded, only a tester needs to pull the protective cover 51 with force to unfold.

While the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made therein without departing from the spirit and scope of the invention as defined in the following claims. Accordingly, the detailed description of the disclosed embodiments is to be taken only by way of illustration and not by way of limitation, and the scope of protection is defined by the content of the claims.

Claims (8)

1. The utility model provides a but direct application is in intelligent production line situation testing arrangement after repacking, including software test assembly (1), support column (2), wrapping post (3) and test plug (4), software test assembly (1) upper and lower two parts all are connected with two support columns (2) that are used for placing the support, software test assembly (1) upper left portion inside rotation is connected with wrapping post (3), the winding has three test plug (4) that are used for the switch-on connection production line on wrapping post (3), a serial communication port, including monitoring mechanism (5) and installation mechanism (6), be equipped with on software test assembly (1) and be used for carrying out visual monitoring's monitoring mechanism (5) to production line operating condition, be equipped with on software test assembly (1) installation mechanism (6) of the production line of the different specifications of adaptation of being convenient for.

2. The intelligent production line condition testing device after modification according to claim 1, wherein the monitoring mechanism (5) comprises a protective cover (51), a first connecting rod (52), a first positioning piece (53), a second positioning piece (54), a second connecting rod (55), a mounting seat (56) and a camera (57), the top of the software testing component (1) is connected with two protective covers (51) which are bilaterally symmetrical in a sliding mode, the upper side of the right part of the software testing component (1) is rotationally connected with the first connecting rod (52), the upper side of the right part of the software testing component (1) is connected with a first positioning piece (53) which is used for locking and positioning the first connecting rod (52), the left part of the first connecting rod (52) is rotationally connected with the second positioning piece (54) which is used for locking and positioning the second connecting rod (55), the middle position of the top of the second connecting rod (55) is connected with the mounting seat (56), and the upper side of the top of the mounting seat (56) is rotationally connected with the camera (57) which is used for monitoring the production line.

3. The intelligent production line condition testing device capable of being directly applied to modification according to claim 2, wherein the mounting mechanism (6) comprises a mounting plate (61), a first sliding frame (62), a mounting piece (63) and a pressing piece (64), the mounting plate (61) is connected to the inner side of the software testing assembly (1) in a sliding mode, the first sliding frames (62) are connected to four corners of the front side of the mounting plate (61) in a sliding mode, the mounting pieces (63) used for connection and mounting are connected to the first sliding frames (62), and the pressing piece (64) used for clamping and mounting are connected to the lower portion of the mounting piece (63) in a threaded mode.

4. The intelligent production line condition testing device capable of being directly applied to modification according to claim 3, further comprising a wire storage mechanism (7), wherein the wire storage mechanism (7) comprises a guide piece (71), a first sliding rod (72), a third connecting rod (73), a second sliding rod (74), a ratchet (75), a torsion spring (76), a mounting frame (77), a ratchet (78) and a spiral spring (79), two guide pieces (71) which are symmetrical left and right are connected to the front side of the left upper part of the software testing component (1), a first sliding rod (72) is connected between the guide pieces (71) in a sliding mode, a third connecting rod (73) is connected to the left upper part of the software testing component (1) in a rotating mode, a second sliding rod (74) is connected to the left upper part of the software testing component (1) in a sliding mode, a mounting frame (77) is connected to the front side of the left upper part of the software testing component (1), a torsion spring (77) is connected to the front side of the software testing component (1) in a rotating mode, the left upper part of the software testing component (1) is connected to the left upper part of the front side of the software testing component (1) in a rotating mode, and the torsion spring (76) is connected to the front side of the front part of the software testing component (76) is connected to the front side of the front part (77) in a rotating mode, the inside rotation of installing frame (77) is connected with ratchet (78), and ratchet (78) are connected with wrapping post (3) front side, intermesh between ratchet (78) and ratchet (75), are connected with scroll spring (79) between ratchet (78) and installing frame (77), and scroll spring (79) winds on installing frame (77).

5. The intelligent production line condition testing device capable of being directly applied to refitted according to claim 4, further comprising a containing mechanism (8), wherein the containing mechanism (8) comprises a connecting piece (81), a connecting frame (82), a second sliding frame (83), a first spring (84), a second spring (85) and a pressing frame (86), the lower sides of the parts, which are close to each other, of the protective covers (51) are respectively connected with the connecting piece (81), the front part of the software testing component (1) is connected with the connecting frame (82) in a sliding mode, the bottom of the connecting frame (82) is connected with the second sliding frame (83), a first spring (84) is connected between the second sliding frame (83) and the software testing component (1), the middle position of the front part of the software testing component (1) is connected with a pressing frame (86) which is in bilateral symmetry and is used for limiting the mounting plate (61), the pressing frame (86) is connected with the second sliding frame (83), two bilateral symmetry second springs (85) are connected between the mounting plate (61) and the software testing component (1), and the software testing component (85) is wound on the software testing component.

6. The intelligent production line condition testing device capable of being directly applied to modification according to claim 5, further comprising a protection mechanism (9), wherein the protection mechanism (9) comprises a fixing piece (91) and a protection piece (92), the fixing piece (91) is connected to the left side of the upper portion of the software testing component (1), and the protection piece (92) for shielding and protecting the testing plug (4) is rotatably connected to the fixing piece (91).

7. The intelligent production line condition testing device capable of being directly applied to refitting according to claim 6, further comprising a locking mechanism (10), wherein the locking mechanism (10) comprises a fixed column (101) and a locking piece (102), the top of the left protective cover (51) is connected with the fixed column (101), and the top of the right protective cover (51) is connected with the locking piece (102) which is used for being clamped with the fixed column (101).

8. The intelligent production line condition testing device capable of being directly applied to modification according to claim 2, wherein the protective cover (51) is rotatably connected with a handle.