CN115479844A

CN115479844A - Intensity detection equipment and detection method for mobile phone data line production

Info

Publication number: CN115479844A
Application number: CN202211174924.4A
Authority: CN
Inventors: 邓小明; 李敏兰; 孟凡斌
Original assignee: Leiyang Haoxin Electronic Co ltd
Current assignee: Leiyang Haoxin Electronic Co ltd
Priority date: 2022-09-26
Filing date: 2022-09-26
Publication date: 2022-12-16

Abstract

The invention relates to the technical field of data line production and detection, in particular to intensity detection equipment and a detection method for mobile phone data line production, and the intensity detection equipment comprises a conveying frame, a conveying belt, a material placing limiting frame, lateral fixing supports, sealing plates, a temperature control detection outer box body, a vision camera and a self-adaptive automatic feeding and discharging cylinder, wherein the conveying belt is arranged in the conveying frame; the invention has the advantages of high automation degree, less manual operation, good detection effect and high intelligent degree.

Description

Intensity detection equipment and detection method for mobile phone data line production

Technical Field

The invention relates to detection equipment and a detection method, in particular to intensity detection equipment and a detection method for mobile phone data line production, and belongs to the technical field of data line production detection.

Background

The data line is used for connecting a mobile device and a computer to achieve the purpose of data transmission or communication, and is a popular point that the data line is a path tool for connecting the computer and the mobile device to transmit files such as videos, bells, pictures and the like.

The invention provides an intensity detection device for mobile phone data line production in Chinese invention patent with application number CN202210507236.9, which simplifies the operation steps of the device by arranging an adjusting component and a placing roller, facilitates the disassembly and replacement of data lines, effectively improves the working efficiency of the device, solves the problems that the data lines are not convenient to replace during detection and are relatively complicated to operate in the prior art, ensures that the data lines are always in a tensioning state during movement by arranging an elastic part, a sliding block, a first rotating rod and a second rotating rod, ensures the detection quality of the device, solves the problems that the data lines are easy to misplace and the detection quality of the device is influenced during the detection of the data lines in the prior art, ensures the effect of the data lines by arranging a limiting roller, a telescopic spring, a winding roller and a sliding connecting plate, avoids the crossing and winding of the data lines during the winding, meets the use requirements of the prior art, and solves the problems that the winding effect of the data lines is easy to wind together and the crossing and the winding effect of the device is seriously influenced during the winding of the data lines in the prior art.

However, although the above-mentioned comparison file has effectively solved and has not been convenient for change the data line, the dislocation appears in the data line easily, to the easy alternately technical problem who twines together when the data line rolling, but whole automation and intelligent degree are all not enough, still have great promotion space, and some check out test set that degree of automation is higher is difficult to detect under different temperature conditions again when satisfying degree of automation.

The present invention has been made in view of this situation.

Disclosure of Invention

The invention aims to solve the problems and provide strength detection equipment and a detection method for production of a mobile phone data line, the size of the data line is identified through a vision camera, so that a squeezing plate of an adaptive clamping assembly can be clamped and fixed when the data line moves to be under an adaptive automatic feeding and discharging cylinder to complete feeding, the automation degree is higher, the data line enters each space in a temperature control detection outer box body along with the rotation of the adaptive automatic feeding and discharging cylinder, the separation effect of a separation plate is matched with a refrigerator to enable each part of an inner cavity of the temperature control detection outer box body to form different temperature environments, the data line is clamped and stretched through an inflatable pressure adjusting detection assembly, the strength detection of the data line is completed through the pressure display in a bidirectional cylinder and the fracture phenomenon shot by a camera, the automation degree is high, the manual operation is less, the detection effect is good, and the intelligence degree is high.

The invention achieves the purpose through the following technical scheme, and the strength detection equipment and the detection method for the production of the mobile phone data line comprise a conveying frame, a conveying belt, a material placing limit frame, two lateral fixing supports, sealing plates, a temperature control detection outer box body, a vision camera and a self-adaptive automatic feeding and discharging cylinder, wherein the conveying belt is installed in the conveying frame, the material placing limit frame is welded on one side of the top of the conveying frame, the two lateral fixing supports are respectively welded on two sides of the top of the conveying frame, the sealing plates are welded on the top of the lateral fixing supports, the temperature control detection outer box body is arranged between the two sealing plates, the vision camera is fixedly arranged on the outer wall of the sealing plate on one side, the vision box body faces the conveying belt, the self-adaptive automatic feeding and discharging cylinder is located in the temperature control detection outer box body, one side of the self-adaptive automatic feeding and discharging cylinder is connected with the sealing plate on one side through a rotating shaft, and the other end of the self-adaptive automatic feeding and discharging cylinder is connected with a rotating deflection motor output shaft on the sealing plate on the other side.

Furthermore, the side wall of the conveying frame is welded with a connecting rod, a lifting ejector rod is fixed on the side wall of the conveying frame through the connecting rod, an ejector plate is arranged at the top telescopic end of the lifting ejector rod, the connecting rod, the lifting ejector rod and the ejector plate are located between the upper layer and the lower layer of the conveying belt, the ejector plate is lifted by extending out of the lifting ejector rod, and therefore a data line is sent to a material placing groove in the self-adaptive automatic feeding and discharging column.

Further, the outer side of the automatic unloading cylinder of going up of self-adaptation formula has evenly seted up with annular array's mode and has put the silo, put the bilateral symmetry of silo and seted up side direction installation spout, two all be provided with self-adaptation centre gripping subassembly in the side direction installation spout, the automatic unloading cylinder of going up of self-adaptation formula put the bottom of silo still seted up the air vent, the bottom of putting the silo is fixed with the air-receiving pipe, the air-receiving pipe with the air vent is linked together, and the common extrusion of self-adaptation centre gripping subassembly through both sides is fixed the data line, and the air-receiving pipe then can detect the air access of the pump bloated in the housing with the control by temperature change, then discharges from the air vent for the air can be followed the data line bottom and continuously discharged, makes the temperature more even, and then guarantees to detect the structural accuracy.

Further, self-adaptation centre gripping subassembly includes two-way lead screw, sliding seat, driving motor, extrusion telescopic link and stripper plate, driving motor is fixed to be set up the one end of side direction installation spout, the sliding seat slides and sets up in the side direction installation spout, two-way lead screw with driving motor's output shaft is connected, all install on the both sides screw thread of two-way lead screw the sliding seat, extrusion telescopic link fixed mounting is in on the lateral wall of sliding seat, the stripper plate welding is in the flexible of extrusion telescopic link is served, smooth material chute has been seted up on the stripper plate, and the two-way lead screw of open control through driving motor rotates to carry out mobility control to unable pivoted sliding seat, drive extrusion telescopic link and stripper plate and remove, utilize stretching out of both sides stripper plate to fix the data line tip that is located in the middle.

Further, the inner wall welding of control by temperature change detection outer container body has the division board, the division board with the outer wall of the automatic unloading cylinder of going up of self-adaptation formula coincide, the feed inlet has been seted up to the bottom of control by temperature change detection outer container body, fixed mounting has temperature monitor, pump, refrigerator, camera and inflatable pressure adjustment determine module on the inner wall of control by temperature change detection outer container body, and the flexible pipe of installation is served in giving vent to anger of pump for connect the trachea, to the intraductal air-blowing that connects, make the cold air can be followed the data line bottom and continuously discharged, make the temperature more even, and then guarantee to detect the structural accuracy, refrigerator and temperature monitor then are used for temperature control, make the data line can carry out intensity detection under the temperature condition of difference.

Furthermore, inflatable pressure adjustment detection subassembly includes external pressure display's two-way cylinder, removes seat, electric telescopic handle and electronic tong, two-way cylinder is fixed to be set up on the inner wall of outer box of temperature control detection, it installs to remove the seat the flexible of two-way cylinder is served, electric telescopic handle sets up remove on the lateral wall of seat, electronic tong with electric telescopic handle's flexible end is connected, carries out the centre gripping through electric tong to the data line, then increases through two-way cylinder's atmospheric pressure and applies pressure, observes through the camera whether the data line splits when applying pressure to realize the intensity detection of data line.

A method for detecting the production strength of a mobile phone data line comprises the following steps:

1. debugging equipment, namely placing a single data line between the two discharging limiting frames to enable the single data line to enter the conveying belt and then enter the self-adaptive automatic feeding and discharging column, testing at each temperature in the temperature control detection outer box, temporarily not placing other data lines, observing whether each part normally operates or not through detection of the single data line, and continuously adding the data line for detection after determining that the parts are normal;

2. the adding of the data line is controlled according to the time of one circle of circulation of the single data line, so that the feeding can be rapidly and accurately carried out when the material placing groove which is hollow in the self-adaptive automatic feeding and discharging cylinder is positioned at the bottom;

3. the data line feeding device comprises a data line feeding device, a vision camera, a central controller, a lifting ejector rod and a self-adaptive automatic feeding and discharging cylinder, wherein the vision camera identifies the size of the data line when the data line is located on a conveying belt and keeps moving at a constant speed, then the central controller adjusts the position of the self-adaptive clamping assembly, so that the extrusion plates of the self-adaptive clamping assembly are located at two ends of the data line, then the lifting ejector rod extends out when the data line moves to a position right below the self-adaptive automatic feeding and discharging cylinder, the ejector plate is lifted, the data line is sent to a material placing groove in the self-adaptive automatic feeding and discharging cylinder, and meanwhile, the self-adaptive clamping assembly clamps and fixes the data line to complete feeding;

4. and detecting a data line, wherein after the data line enters a material placing groove in the self-adaptive automatic feeding and discharging cylinder, the data line enters each space in the temperature control detection outer box along with the rotation of the self-adaptive automatic feeding and discharging cylinder, the separation effect of the separation plate is matched with the refrigerator, so that each part of the inner cavity of the temperature control detection outer box forms different temperature environments, the data line is clamped and stretched by the inflatable pressure adjusting and detecting assembly, and the strength detection of the data line is completed through the pressure display in the bidirectional cylinder and the fracture phenomenon shot by the camera.

The invention has the technical effects and advantages that: according to the invention, the size of the data line is identified through the vision camera, so that the extrusion plate of the self-adaptive clamping assembly can be clamped and fixed when the data line moves to a position right below the self-adaptive automatic feeding and discharging cylinder, feeding is completed, and the automation degree is higher.

The data line enters each space in the temperature control detection outer box body along with the rotation of the self-adaptive automatic feeding and discharging cylinder, the separation effect of the separation plate is matched with the refrigerator, so that different temperature environments are formed in each part of the inner cavity of the temperature control detection outer box body, the data line is clamped and stretched through the inflatable pressure adjusting detection assembly, the strength detection of the data line is completed through the pressure display in the bidirectional cylinder and the fracture phenomenon shot by the camera, the automation degree is high, the manual operation is few, the detection effect is good, and the intelligence degree is high.

Drawings

FIG. 1 is a schematic diagram of the external structure of the present invention from the right side;

FIG. 2 is a schematic diagram of the external structure of the present invention from a left side view;

FIG. 3 is a sectional view showing the internal structure of the conveyor belt according to the present invention;

FIG. 4 is a schematic structural diagram of a self-adaptive automatic loading and unloading cylinder according to the present invention;

FIG. 5 is a schematic diagram of the adaptive clamping assembly of the present invention;

FIG. 6 is a schematic view of the internal structure of the temperature control detection outer box body in the present invention;

FIG. 7 is a schematic structural view of the temperature control detection outer box of the present invention under the side angle;

FIG. 8 is a schematic view of the inflatable pressure regulation detection assembly of the present invention;

FIG. 9 is a flow chart of the detection method of the present invention;

in the figure: 1. a conveying frame; 2. a conveyor belt; 201. a connecting rod; 202. lifting the ejector rod; 203. a material ejecting plate; 3. a material discharging limit frame; 4. a lateral fixing bracket; 5. sealing plates; 6. a temperature control detection outer box body; 601. a partition plate; 602. a feed inlet; 603. a temperature detector; 604. an inflator pump; 605. a refrigerator; 7. a vision camera; 8. a self-adaptive automatic feeding and discharging cylinder; 801. a rotary displacement motor; 802. a material placing groove; 803. laterally installing a sliding chute; 804. a gas receiving pipe; 805. a vent hole; 9. a self-adaptive clamping assembly; 901. a bidirectional lead screw; 902. a sliding seat; 903. a drive motor; 904. extruding the telescopic rod; 905. a pressing plate; 906. a chute for sliding material; 10. an inflatable pressure regulation detection assembly; 1001. a bidirectional cylinder; 1002. a movable seat; 1003. an electric telescopic rod; 1004. electric clamping hands.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Please refer to fig. 1-9.

Example 1

The utility model provides a cell-phone is intensity detection equipment and detection method for data line production, including conveying frame 1, the conveyer belt 2, blowing spacing frame 3, side direction fixed bolster 4, closing plate 5, control by temperature change detection outer box 6, vision camera 7 and self-adaptation formula automatic feeding and discharging cylinder 8, conveyer belt 2 is installed in conveying frame 1, blowing spacing frame 3 welds in conveying frame 1's top one side, the quantity of side direction fixed bolster 4 is two, two side direction fixed bolsters 4 weld respectively in conveying frame 1's top both sides, closing plate 5 welds the top at side direction fixed bolster 4, control by temperature change detection outer box 6 sets up between two closing plate 5, vision camera 7 is fixed to be set up on the closing plate 5 outer wall of one side, and vision camera 7 is towards conveyer belt 2, self-adaptation formula feeding and discharging automatic cylinder 8 is located control by temperature change detection box 6, one side of feeding and discharging self-adaptation formula automatic feeding and discharging cylinder 8 is connected with the closing plate 5 of one side through the pivot, the other end of self-adaptation formula automatic cylinder 8 is connected with the rotatory motor output shaft that shifts on the closing plate 5 of opposite side.

In the invention, the data line is conveyed by the conveyer belt 2, the position of the data line is prevented from being excessively deviated by the arrangement of the discharging limit frame 3, when the data line is positioned on the conveyer belt 2 and keeps moving at a constant speed, the vision camera 7 identifies the size of the data line, then the position of the self-adaptive clamping component 9 is adjusted by the central controller, so that the extrusion plates 905 of the self-adaptive clamping component 9 are positioned at two ends of the data line, then when the data line moves to be under the self-adaptive automatic feeding and discharging cylinder 8, the lifting ejector rod 202 extends out to lift the ejector plate 203, so that the data line is sent to the material placing groove 802 in the self-adaptive automatic feeding and discharging cylinder 8, meanwhile, the self-adaptive clamping assembly 9 clamps and fixes the data line, the loading is completed, the data line enters the material placing groove 802 in the self-adaptive automatic feeding and discharging cylinder 8, the data line enters each space in the outer temperature control detection box 6 along with the rotation of the self-adaptive automatic feeding and discharging cylinder 8, the separation effect of the separation plate 601 is matched with the refrigerator 605, different temperature environments are formed in each part of the inner cavity of the outer temperature control detection box 6, the data line is clamped and stretched through the inflatable pressure adjusting detection assembly 10, the strength detection of the data line is completed through the fracture phenomena of pressure display and camera shooting in the bidirectional cylinder 1001, the degree of automation is high, the manual operation is few, the detection effect is good, and the degree of intelligence is high.

The welding has connecting rod 201 on conveying frame 1's the lateral wall, and lift ejector pin 202 passes through connecting rod 201 to be fixed on conveying frame 1's lateral wall, and the flexible end in top of lift ejector pin 202 is provided with ejector plate 203, and connecting rod 201, lift ejector pin 202 and ejector plate 203 all lie in the upper and lower two-layer of conveyer belt 2 between, stretch out through lift ejector pin 202, rise ejector plate 203 to in putting the material groove 802 in the automatic unloading cylinder 8 of unloading of self-adaptation formula is sent to the data line.

Example 2

This embodiment has been brought into effect to the inner structure of the outer box 6 of automatic unloading cylinder 8 and the control by temperature change detection of self-adaptation formula on the basis of embodiment 1, the outer side of automatic unloading cylinder 8 of going up of self-adaptation formula has evenly seted up with annular array's mode and has put silo 802, the bilateral symmetry of putting silo 802 has seted up side direction installation spout 803, all be provided with self-adaptation centre gripping subassembly 9 in two side direction installation spouts 803, air vent 805 has still been seted up to the bottom of putting silo 802 of automatic unloading cylinder 8 of self-adaptation formula, the bottom of putting silo 802 is fixed with trachea 804, trachea 804 is linked together with air vent 805, it fixes the data line to extrude jointly through the self-adaptation centre gripping subassembly 9 of both sides, trachea 804 then can insert the air that inflation pump 604 bloated in the control by temperature change detection outer box 6, then discharge from air vent 805, make the air can continuously discharge from the data line bottom, make the temperature more even, and then guarantee to detect the structure degree of accuracy.

Self-adaptation centre gripping subassembly 9 includes two-way lead screw 901, sliding seat 902, driving motor 903, extrusion telescopic link 904 and stripper plate 905, driving motor 903 is fixed to be set up the one end at side direction installation spout 803, sliding seat 902 slides and sets up in side direction installation spout 803, two-way lead screw 901 is connected with driving motor 903's output shaft, all install sliding seat 902 on two-way lead screw 901's the both sides screw thread, extrusion telescopic link 904 fixed mounting is on the lateral wall of sliding seat 902, stripper plate 905 welds on the flexible end of extrusion telescopic link 904, smooth material chute 906 has been seted up on stripper plate 905, open control two-way lead screw 901 through driving motor 903 rotates, thereby carry out mobile control to unable pivoted sliding seat 902, drive extrusion telescopic link 904 and stripper plate 905 and remove, utilize stretching out of both sides stripper plate 905 to fix the data line tip that is located in the middle.

The inner wall welding that the control by temperature change detected outer box 6 has division board 601, division board 601 coincide with the automatic outer wall of going up unloading cylinder 8 of self-adaptation formula, feed inlet 602 has been seted up to the bottom that the control by temperature change detected outer box 6, fixed mounting has temperature detector 603 on the inner wall that the control by temperature change detected outer box 6, inflator pump 604, refrigerator 605, camera and inflatable pressure adjustment determine module 10, the flexible pipe of installation on the end of giving vent to anger of inflator pump 604, be used for connecting gas-receiving pipe 804, to blowing in the gas-receiving pipe 804, make the cold air can continuously discharge bottom the data line, make the temperature more even, and then guarantee to detect the structural accuracy, refrigerator 605 and temperature detector 603 then are used for temperature control, make the data line can carry out intensity detection under the temperature condition of difference.

Inflatable pressure adjustment detection subassembly 10 includes external pressure display's two-way cylinder 1001, remove seat 1002, electric telescopic handle 1003 and electric tong 1004, two-way cylinder 1001 is fixed to be set up on the inner wall that the outer box 6 was detected in the control by temperature change, it installs on the flexible end of two-way cylinder 1001 to remove seat 1002, electric telescopic handle 1003 sets up on the lateral wall that removes seat 1002, electric tong 1004 is connected with electric telescopic handle 1003's flexible end, carry out the centre gripping to the data line through electric tong 1004, then increase through two-way cylinder 1001's atmospheric pressure and apply pressure, observe through the camera when applying pressure whether the data line splits, thereby realize the intensity detection of data line.

The method for detecting the strength for producing the mobile phone data line comprises the following steps:

1. debugging equipment, namely placing a single data line between two discharging limiting frames 3, enabling the single data line to enter a conveying belt 2, then entering a self-adaptive automatic feeding and discharging cylinder 8, testing at various temperatures in a temperature control detection outer box 6, temporarily not placing other data lines, observing whether the operation of each part is normal or not through the detection of the single data line, and determining to continuously add the data line for detection after the normal operation is determined;

2. adding data lines, wherein the rotating speed of a rotary displacement motor 801 is directly related to the rotating speed of the self-adaptive automatic feeding and discharging cylinder 8, so that the time for a single data line to pass through each part of the temperature control detection outer box 6 is different, and the adding of the data lines is controlled according to the time for one cycle of circulation of the single data line, so that feeding can be rapidly and accurately carried out when the material containing groove 802 in the self-adaptive automatic feeding and discharging cylinder 8 is positioned at the bottom;

3. the data line feeding method comprises the steps that when the data line is located on a conveying belt 2 and keeps moving at a constant speed, the vision camera 7 identifies the size of the data line, then the position of a self-adaptive clamping assembly 9 is adjusted through a central controller, extrusion plates 905 of the self-adaptive clamping assembly 9 are located at two ends of the data line, then when the data line moves to the position under a self-adaptive automatic feeding and discharging cylinder 8, a lifting ejector rod 202 extends out to lift an ejector plate 203, so that the data line is sent to a material placing groove 802 in the self-adaptive automatic feeding and discharging cylinder 8, and meanwhile the self-adaptive clamping assembly 9 clamps and fixes the data line to complete feeding;

4. data line detects, after the data line got into the material groove 802 of putting in the automatic unloading cylinder 8 of going up of self-adaptation formula, each space in the outer box 6 of temperature control detection is got into along with the automatic unloading cylinder 8 rotation of going up of self-adaptation formula, the separation effect cooperation refrigerator 605 of division board 601 for each part of the inner chamber of outer box 6 of temperature control detection forms different temperature environment, carry out the centre gripping through inflatable pressure adjustment detecting element 10 to the data line and stretch, the rupture phenomenon through pressure display in the two-way cylinder 1001 and camera shooting accomplishes the intensity detection of data line.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it is to be understood that all embodiments may be combined as appropriate by one of ordinary skill in the art to form other embodiments as will be apparent to those of skill in the art from the description herein.

Claims

1. The utility model provides a production of cell-phone data line is with intensity check out test set which characterized in that: the automatic feeding and discharging device comprises a conveying frame (1), a conveying belt (2), a discharging limiting frame (3), lateral fixing supports (4), sealing plates (5), a temperature control detection outer box body (6), a vision camera (7) and a self-adaptive automatic feeding and discharging cylinder body (8), wherein the conveying belt (2) is installed in the conveying frame (1), the discharging limiting frame (3) is welded on one side of the top of the conveying frame (1), the number of the lateral fixing supports (4) is two, the two lateral fixing supports (4) are respectively welded on two sides of the top of the conveying frame (1), the sealing plates (5) are welded on the top of the lateral fixing supports (4), and the temperature control detection outer box body (6) is arranged between the two sealing plates (5);

visual camera (7) are fixed to be set up in one side on closing plate (5) outer wall, just visual camera (7) orientation conveyer belt (2), unloading cylinder (8) are located in the automatic unloading cylinder (8) of self-adaptation formula are detected in outer box (6) to the control by temperature change, one side of unloading cylinder (8) is gone up through pivot and one side in the automatic of self-adaptation formula closing plate (5) are connected, the other end and the opposite side of unloading cylinder (8) are gone up in the automatic of self-adaptation formula rotatory motor (801) output shaft that shifts on closing plate (5) are connected.

2. The strength detection device for mobile phone data line production according to claim 1, wherein: the conveying frame is characterized in that a connecting rod (201) is welded on the side wall of the conveying frame (1), a lifting ejector rod (202) is fixed onto the side wall of the conveying frame (1) through the connecting rod (201), an ejector plate (203) is arranged at the top telescopic end of the lifting ejector rod (202), and the connecting rod (201), the lifting ejector rod (202) and the ejector plate (203) are located between the upper layer and the lower layer of the conveying belt (2).

3. The strength detection device for mobile phone data line production according to claim 1, characterized in that: the outer side of the self-adaptive automatic feeding and discharging cylinder (8) is uniformly provided with a material placing groove (802) in an annular array mode, two lateral mounting sliding grooves (803) are symmetrically formed in two sides of the material placing groove (802), and self-adaptive clamping assemblies (9) are arranged in the lateral mounting sliding grooves (803).

4. The strength detection device for mobile phone data line production according to claim 3, wherein: the bottom of the material placing groove (802) of the self-adaptive automatic feeding and discharging column body (8) is further provided with a vent hole (805), the bottom of the material placing groove (802) is fixedly provided with an air receiving pipe (804), and the air receiving pipe (804) is communicated with the vent hole (805).

5. The strength detection device for mobile phone data line production according to claim 4, wherein: self-adaptation centre gripping subassembly (9) are including two-way lead screw (901), sliding seat (902), driving motor (903), extrusion telescopic link (904) and stripper plate (905), driving motor (903) is fixed to be set up the one end of side direction installation spout (803), sliding seat (902) slide to be set up in side direction installation spout (803), two-way lead screw (901) with the output shaft of driving motor (903) is connected, all install on the both sides screw thread of two-way lead screw (901) sliding seat (902), extrusion telescopic link (904) fixed mounting be in on the lateral wall of sliding seat (902), stripper plate (905) welding is in on the flexible end of extrusion telescopic link (904), material chute (906) has been seted up on stripper plate (905).

6. The strength detection device for mobile phone data line production according to claim 1, wherein: the inner wall welding of control by temperature change detection outer box body (6) has division board (601), division board (601) with the outer wall of automatic unloading cylinder (8) of going up of self-adaptation formula coincide, feed inlet (602) have been seted up to the bottom of control by temperature change detection outer box body (6), fixed mounting has temperature detector (603), pump (604), refrigerator (605), camera and inflatable pressure adjustment detection subassembly (10) on the inner wall of control by temperature change detection outer box body (6).

7. The strength detection device for mobile phone data line production according to claim 6, wherein: the inflatable pressure regulation detection assembly (10) comprises a bidirectional cylinder (1001) externally connected with a pressure display, a movable seat (1002), an electric telescopic rod (1003) and an electric clamping hand (1004), wherein the bidirectional cylinder (1001) is fixedly arranged on the inner wall of the temperature control detection outer box body (6), the movable seat (1002) is arranged on the telescopic end of the bidirectional cylinder (1001), the electric telescopic rod (1003) is arranged on the side wall of the movable seat (1002), and the electric clamping hand (1004) is connected with the telescopic end of the electric telescopic rod (1003).

8. The method for detecting the strength of the production of the mobile phone data line according to any one of claims 1 to 7, comprising the following steps:

1. equipment debugging, namely placing a single data line between two discharging limiting frames (3) to enable the single data line to enter the conveying belt (2), then enter the self-adaptive automatic feeding and discharging cylinder (8), testing at each temperature in the temperature control detection outer box body (6), temporarily not placing other data lines, observing whether each part operates normally or not through detection of the single data line, and determining to continuously add the data line for detection after the normal operation;

2. adding data lines, wherein the rotating speed of the rotary displacement motor (801) is directly related to the rotating speed of the self-adaptive automatic feeding and discharging cylinder (8), so that the time for a single data line to pass through each part of the temperature control detection outer box body (6) is different, and the adding of the data lines is controlled according to the time for one cycle of circulation of the single data line, so that the feeding can be rapidly and accurately carried out when the material placing groove (802) which is hollow in the self-adaptive automatic feeding and discharging cylinder (8) is positioned at the bottom;

3. the method comprises the steps that data line feeding is carried out, when the data line is located on a conveying belt (2) and keeps moving at a constant speed, the size of the data line is identified by a vision camera (7), then the position of a self-adaptive clamping assembly (9) is adjusted through a central controller, so that extrusion plates (905) of the self-adaptive clamping assembly (9) are located at two ends of the data line, then when the data line moves to the position under a self-adaptive automatic loading and unloading cylinder (8), a lifting ejector rod (202) extends out to lift a material jacking plate (203), so that the data line is sent to a material placing groove (802) in the self-adaptive automatic loading and unloading cylinder (8), and meanwhile, the self-adaptive clamping assembly (9) clamps and fixes the data line to complete feeding;

4. and (2) detecting a data line, wherein after the data line enters a material placing groove (802) in the self-adaptive automatic feeding and discharging cylinder (8), the data line enters each space in the outer temperature control detection box (6) along with the rotation of the self-adaptive automatic feeding and discharging cylinder (8), the separation effect of the separation plate (601) is matched with a refrigerator (605), so that each part of an inner cavity of the outer temperature control detection box (6) forms different temperature environments, the data line is clamped and stretched by the inflatable pressure adjusting detection component (10), and the strength detection of the data line is completed by pressure display in the bidirectional cylinder (1001) and the fracture phenomenon shot by the camera.