CN116973091B - Fish wire wheel test equipment and test method thereof - Google Patents

Abstract

The application provides a fishing line reel test device and a test method thereof, wherein the fishing line reel test device comprises a paying-off device, a fishing line reel fixing device, a rocker arm rotating device and a computer; the paying-off device comprises a first motor and a paying-off disc, and the paying-off disc is connected with the output end of the first motor and used for paying off; the fishing line wheel fixing device comprises a first cradle head, a fixing rod and a shifting block assembly, wherein the first cradle head is used for adjusting the position and the angle of the fishing line wheel, and the shifting block assembly is used for shifting a line blocking device of the fishing line wheel; the rocker arm rotating device comprises a second cradle head, a second motor and a clamping block, wherein the second cradle head is used for adjusting the position and the angle of the clamping block, and the second motor is used for rotating the clamping block to realize the coiling or uncoiling of the rotating rocker arm; the computer is connected with the first motor and the second motor, is used for controlling the first motor and the second motor, and calculates test data. The application has the beneficial effects that: the quality testing method of the fishing line reel product is provided, and the accuracy of the quality testing of the fishing line reel is improved.

Description

Fish wire wheel test equipment and test method thereof

Technical Field

The application belongs to the field of fishing, and particularly relates to a fishing line reel test device.

Background

The line reel is an important component in fishing equipment and serves to store and release the fishing line. During fishing, the fishing reel can provide auxiliary force and control, so that a fisher can better cope with the pulling force and the rapid movement of the fish. The fishing line wheel is generally composed of components such as a wheel disc, a bearing, a dragging system and a wire coil, and the structural design key of the fishing line wheel is to ensure the stable operation of the wheel disc and the dragging system and the stable wire collection and smooth release of the wire coil. At present, a test device and a test method for winding and unwinding of a fishing line reel are often judged by adopting sensory experience, and generally, a manufacturer repeatedly uses the fishing line reel for testing, wherein the test contents comprise a durability test of a force unloading system, a durability test of a line blocking device, a stability test of the force unloading system, a stability test of a recovered fishing line, a durability test of a guide ring and the like, and obviously, the sensory experience is difficult to accurately evaluate, so that the quality of the fishing line reel which finally flows into the market is uneven, and a certain yield cannot be ensured.

Disclosure of Invention

In view of the above, the present application is directed to a fishing reel testing apparatus and a testing method thereof, so as to provide a testing method for quality of a fishing reel product and improve accuracy of quality testing of the fishing reel.

In order to achieve the above purpose, the technical scheme of the application is realized as follows:

a fishing line reel test device comprises a line winding device paying-off device, a fishing line reel fixing device, a rocker arm rotating device and a computer; the paying-off device of the take-up device comprises a first motor and a pay-off disc of the take-up disc, and the pay-off disc of the take-up disc is connected with the output end of the first motor and used for paying off; the fishing line reel fixing device comprises a first cradle head, a fixing rod and a shifting block assembly, wherein the fixing rod is arranged on the first cradle head, the first cradle head is used for adjusting the position and the angle of the fishing line reel, the shifting block assembly is arranged on the first cradle head, and the shifting block assembly is used for shifting a line blocking device of the fishing line reel; the rocker arm rotating device comprises a second cradle head, a second motor and a clamping block, wherein the second motor is arranged on the second cradle head, the clamping block is connected with the second motor, the clamping block clamps a rocker arm of the fish wire wheel, the second cradle head is used for adjusting the position and the angle of the clamping block, and the second motor is used for rotating the clamping block to realize the winding or unwinding of the rotating rocker arm; the computer is connected with the first motor and the second motor, is used for controlling the first motor and the second motor, and calculates test data.

Further, the first cradle head comprises a first horizontal guide rail platform, a first vertical guide rail platform and a turntable; the first vertical guide rail platform is arranged on the first horizontal guide rail platform to realize horizontal translation; the turntable is arranged on the first vertical guide rail platform to realize vertical translation.

Further, the fixing rod is arranged on the turntable, and the fishing line reel is arranged on the fixing rod; the poking block assembly comprises an air cylinder, a poking block and a fixing plate, wherein the fixing plate is connected with the first vertical guide rail platform, the air cylinder is fixedly connected with the fixing plate, the poking block is connected with the output end of the air cylinder and is used for poking a line blocking device of the fish line wheel.

Further, the second cradle head comprises a second horizontal guide rail platform and a second vertical guide rail platform, and the second horizontal guide rail platform is arranged on the second vertical guide rail platform; the second motor is arranged on the second horizontal guide rail platform and is used for adjusting the position of the clamping block rotating shaft; the clamping block comprises a rotating block and a pressing block, the rotating block is connected with the second motor, and the pressing block is connected with the rotating block through a screw and is used for clamping the rocker arm; the rotation axis of the rotation block is aligned with the rotation axis of the fishing line reel rocker arm and is used for rotating the rocker arm to realize line winding or line unwinding.

Further, the test contents of the test method for the fishing line reel comprise a durability test of a force unloading system, a durability test of a line stopper, a stability test of the force unloading system, a stability test of recovered fishing lines and a durability test of a guide ring; the stability test of the recovered fishing line is provided with a sensor which is connected with a computer, and the sensor is arranged on the fishing line wheel rocker arm and used for monitoring the stress condition of the rocker arm.

Further, the durability test of the force unloading system comprises the following steps:

s1, fixing a fishing line reel: the fishing line wheel is fixed on the fixed rod, the clamping block clamps the rocker arm, and the fishing line is connected with the pay-off disc turntable;

s2, paying off and recording paying off times c and paying off force n: the computer controls the first motor to rotate the pay-off disc turntable to pay off, the pay-off length is a, and the pay-off force n and the pay-off times c of the first motor are recorded by the computer;

s3, pre-tightening and winding: the computer controls the first motor to enter a braking state so as to apply a pretightening force p to the fish wire, and controls the second motor to rotate so as to rotate the rocker arm to take up the fish wire, wherein the take-up length is a;

s4, judging c: the computer judges whether the paying-off times c is larger than or equal to a set value, if so, the computer goes to S6, otherwise, the computer goes to S5;

s5, judging n: the computer judges whether the paying-off force n is larger than or equal to a set value;

if the paying-off force n is greater than or equal to the set value, standing the test device for t time, and returning to S2;

if the paying-off force n is smaller than the set value, turning to S6;

s6, stopping the test: stopping the durability test of the force unloading system;

and (5) evaluating the stability of the unloading system according to the paying-off times c.

Further, the wire stopper durability test includes the steps of:

t1, fixing a fishing line reel: the fishing line wheel is fixed on the fixed rod, the line stopper is opened, the line stopper faces upwards, the clamping block clamps the rocker arm, and the shifting block assembly contacts with the line stopper;

and T2, winding and recording unlocking force x and rotation times c: the computer controls the second motor to rotate the rocker arm for theta-degree wire collection, the wire blocking device is closed under the blocking action of the shifting block assembly during the wire blocking process, and the computer records the unlocking force x and the rotation times c of the second motor during the wire blocking process;

t3, judging c: the computer judges whether the rotation times c is larger than or equal to a set value, if so, the computer turns to T6, and if not, the computer turns to T4;

t4, judging x: the computer judges whether the unlocking force x is larger than or equal to a set value;

if the unlocking force x is greater than or equal to the set value, returning to T2;

if the unlocking force x is smaller than the set value, the computer records the times m continuously smaller than the set value, and rotates T5;

t5, judging m: if the number m of the unlocking force which is not continuously up to the set value is larger than or equal to the set value, turning to T6, and if the number m is smaller than the set value, turning back to T2;

t6, testing the durability of the stop line device;

and evaluating the stability of the force unloading system according to the rotation times c.

Further, the stability test of the recovered fishing line comprises the following steps:

b1, fixing a fishing line reel and installing a sensor: the fishing line wheel is fixed on the fixed rod, the clamping block clamps the rocker arm, the fishing line is connected with the paying-off disc turntable, and the sensor is arranged on the fishing line wheel rocker arm;

b2, pre-tightening the fishing line: the computer controls the first motor to enter a braking state so as to apply a pretightening force p to the fish wire;

and B3, winding and drawing a winding force curve and recording winding times B: the computer controls the second motor to rotate the rocker arm to take up, the take-up length is a, and a take-up force curve graph and the take-up times b of the second motor in the process are drawn;

b4, judging B: the computer judges whether the wire winding times B is larger than or equal to a set value, if so, the computer goes to B5, and if so, the computer goes back to B3;

b5, stopping the stability test of the force unloading system;

and evaluating the stability of the recovered fishing line according to the line winding force curve graph.

Further, the stability test of the force unloading system comprises the following steps:

a1, fixing a fishing line reel: the fishing line wheel is fixed on the fixed rod, the clamping block clamps the rocker arm, and the fishing line is connected with the pay-off disc turntable;

a2, paying off, recording paying off times c and drawing a paying-off force curve: the computer controls the first motor to rotate the pay-off disc turntable to pay off, the pay-off length is a, the computer records the pay-off times c during the period, and a pay-off force graph in the process is drawn;

a3, pre-tightening and winding: the computer controls the first motor to enter a braking state so as to apply a pretightening force p to the fish wire, controls the second motor to rotate so as to rotate the rotary rocker arm to rotate for recovering the fish wire, and the winding length is a and stands for t time;

a4, judging c: the computer judges whether the paying-off times are larger than or equal to a set value, if so, the paying-off times are switched to A5, and if not, the paying-off times are switched back to A2;

a5, stopping the stability test of the force unloading system;

and evaluating the stability of the recovered fish line according to the paying-off force curve graph.

Further, the guide ring durability test comprises the following steps:

c1, replacing a fishing rod and fixing a fishing line reel: the fixing rod is replaced by a fishing rod, the fishing line wheel is fixed on the fishing rod, the clamping block clamps the rocker arm, and the fishing line passes through the guide ring on the fishing rod and is connected with the paying-off reel turntable;

and C2, paying off and recording paying off times C: the computer controls the first motor to rotate the pay-off disc turntable to pay off, the pay-off length is a, and the computer records the pay-off times c;

and C3, judging C: the computer judges whether the paying-off times C is larger than or equal to a set value, if so, the paying-off times C is switched to C5, and if not, the paying-off times C is switched to C4;

and C4, pre-tightening and winding: the computer controls the first motor to enter a braking state so as to apply a pretightening force p to the fish wire, controls the second motor to rotate so as to rotate the rocker arm to take up, the take-up length is a, and the fish wire is converted to C2;

c5, stopping the stability test of the force unloading system;

the durability of the guide ring is evaluated according to the abrasion condition between the guide ring and the fish line. Compared with the prior art, the fish wire wheel testing device and the testing method thereof have the following beneficial effects:

(1) The application relates to a fishing line reel test device and a test method thereof, which are used for detecting whether a fishing line reel is designed within a standard requirement range, and mainly comprise a paying-off device, a fishing line reel fixing device, a rocker arm rotating device and a computer, wherein the paying-off device, the fishing line reel fixing device and the rocker arm rotating device are all mobile platforms formed by a plurality of guide rails and motors, and the computer is connected with and controls the operation of the devices, so that a test method for the quality of the fishing line reel product is provided, and the accuracy of the quality test of the fishing line reel is improved;

(2) According to the fishing line reel test equipment and the test method thereof, the test contents comprise the durability test of the force unloading system, the durability test of the line blocking device, the stability test of the force unloading system, the stability test of the recovered fishing line and the durability test of the guide ring, and the computer is utilized to objectively obtain the relevant quality parameters of the fishing line reel, so that the universality and the accuracy of the fishing line reel test are improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application. In the drawings:

FIG. 1 is an isometric view of a test apparatus according to an embodiment of the present application;

FIG. 2 is an isometric view of a test apparatus according to an embodiment of the present application;

FIG. 3 is a schematic top view of a test apparatus according to an embodiment of the present application;

FIG. 4 is a schematic diagram of a partial isometric view of a test apparatus according to an embodiment of the present application;

FIG. 5 is a schematic diagram of a partial isometric view of a test apparatus according to an embodiment of the present application;

FIG. 6 is a schematic flow chart diagram of a durability test of a force-unloading system according to an embodiment of the application;

FIG. 7 is a schematic diagram of a flowchart of a durability test of a wire stop according to an embodiment of the present application;

FIG. 8 is a schematic diagram of a flow chart of a stability test of a recovered fishing line according to an embodiment of the present application;

FIG. 9 is a schematic flow chart diagram of a stability test of a force-unloading system according to an embodiment of the application;

FIG. 10 is a flow chart illustrating a guide ring durability test of a force-unloading system according to an embodiment of the present application.

Reference numerals illustrate:

1-paying-off device; 101-a first motor; 102-pay-off reel; 2-a fishing line reel fixing device; 201-a first cradle head; 2011-a first horizontal rail platform; 2012-a first vertical rail platform; 2013-a turntable; 202-fixing a rod; 203-a dial assembly; 2031-cylinder; 2032-a dial; 2033-a fixed plate; 3-a rocker arm rotating device; 301-a second cradle head; 3011-a second horizontal rail platform; 3012-a second vertical rail platform; 302-a second motor; 303-clamping blocks; 4-a computer; 5-a sensor; 6-fishing line; 7-a fishing line wheel; 8-fishing rod.

Detailed Description

It should be noted that, without conflict, the embodiments of the present application and features of the embodiments may be combined with each other.

The application will be described in detail below with reference to the drawings in connection with embodiments.

A fishing line reel test device is disclosed in figures 1-5, and is used for detecting whether a fishing line reel 7 is designed within a standard requirement range, and mainly comprises a paying-off device 1, a fishing line reel fixing device 2, a rocker arm rotating device 3 and a computer 4, wherein the paying-off device 1, the fishing line reel fixing device 2 and the rocker arm rotating device 3 are all movable platforms formed by a plurality of guide rails and motors, and the computer 4 is connected with and controls the operation of the devices, so that a fishing line reel 7 product quality test method is provided, and the fishing line reel 7 quality test accuracy is improved. Specifically, the paying-off device 1 comprises a first motor 101 and a paying-off disc 102, wherein the paying-off disc 102 is connected with the output end of the first motor 101 and is used for paying off; the fishing line reel fixing device 2 comprises a first cradle head 201, a fixing rod 202 and a shifting block assembly 203, wherein the fixing rod 202 is arranged on the first cradle head 201, the first cradle head 201 is used for adjusting the position and the angle of the fishing line reel 7, the shifting block assembly 203 is arranged on the first cradle head 201, and the shifting block assembly 203 is used for shifting a line stop of the fishing line reel 7; the rocker arm rotating device 3 comprises a second cradle head 301, a second motor 302 and a clamping block 303, wherein the second motor 302 is arranged on the second cradle head 301, the clamping block 303 is connected with the second motor 302, the clamping block 303 clamps a rocker arm of the fishing line reel 7, the second cradle head 301 is used for adjusting the position and the angle of the clamping block 303, and the second motor 302 is used for rotating the clamping block 303 to realize the rotation of the rocker arm to take up or pay off; the computer 4 is connected to the first motor 101 and the second motor 302, and is used for controlling the first motor 101 and the second motor 302 and calculating test data. Optionally, the first pan-tilt 201 and the second pan-tilt 301 are in hand-operated transmission, so as to precisely control the positions thereof.

Further, the first pan/tilt/zoom device 201 includes a first horizontal rail platform 2011, a first vertical rail platform 2012, and a turntable 2013; the first vertical guide rail platform 2012 is installed on the first horizontal guide rail platform 2011 to realize horizontal translation; turntable 2013 is mounted on first vertical rail platform 2012 to effect vertical translation.

Further, the fixing bar 202 is mounted on the turntable 2013, and the fishing reel 7 is mounted on the fixing bar 202; the shifting block assembly 203 comprises a cylinder 2031, a shifting block 2032 and a fixing plate 2033, wherein the fixing plate 2033 is connected with a first vertical guide rail platform 2012, the cylinder 2031 is fixedly connected with the fixing plate 2033, and the shifting block 2032 is connected with the output end of the cylinder 2031 and is used for shifting a line blocking device of a fishing line wheel 7.

Further, the second pan-tilt 301 includes a second horizontal rail platform 3011 and a second vertical rail platform 3012, and the second horizontal rail platform 3011 is mounted on the second vertical rail platform 3012; the second motor 302 is mounted on the second horizontal guide rail platform 3011 and is used for adjusting the position of the rotation shaft of the clamping block 303; the clamping block 303 comprises a rotating block and a pressing block, the rotating block is connected with the second motor 302, and the pressing block is connected with the rotating block through screws and is used for clamping the rocker arm; the rotation axis of the rotation block is aligned with the rotation axis of the rocker arm of the fishing line reel 7 and is used for rotating the rocker arm to realize line winding or unwinding.

According to a fishing line reel test method, according to a fishing line reel test device, as shown in fig. 6-10, test contents comprise a durability test of a force unloading system, a durability test of a line blocking device, a stability test of the force unloading system, a stability test of a recovered fishing line 6 and a guide ring durability test, and relevant quality parameters of a fishing line reel 7 are objectively obtained by using a computer 4, so that universality and accuracy of the fishing line reel 7 test are improved. The stability test of the recovered fishing line 6 is provided with a sensor 5, the sensor 5 is connected with the computer 4, and the sensor 5 is arranged on a rocker arm of the fishing line wheel 7 and used for monitoring the stress condition of the rocker arm.

Example 1, durability testing of a force-unloading system includes the steps of:

s1, fixing a fishing line reel 7: assembling the fishing line wheel 7, fixing the fishing line wheel 7 on the fixing rod 202, clamping the rocker arm by the clamping block 303, and connecting the fishing line 6 with the paying-off disc 102;

s2, paying off and recording paying off times c and paying off force n: the force-unloading knob of the fishing line reel 7 is adjusted, the computer 4 controls the first motor 101 to rotate the paying-off disc 102 to pay off, the paying-off length is a, a is preferably 30m, the paying-off speed is preferably 1.2m/s, and the paying-off force n and the paying-off times c of the first motor 101 are recorded by the computer 4;

s3, pre-tightening and winding: the computer 4 controls the first motor 101 to enter a braking state so as to apply a pretightening force p to the fishing line 6 to avoid loosening when the fishing line is wound, wherein p is preferably 5N, and the computer 4 controls the second motor 302 to rotate so as to rotate the rocker arm to wind the fishing line, and the winding length is a;

s4, judging c: the computer 4 judges whether the paying-off times c is larger than or equal to a set value, the set value is preferably 100 times, if the paying-off times c is larger than or equal to the set value, the process goes to S6, otherwise, the process goes to S5;

s5, judging n: the computer 4 judges whether the paying-off force N is larger than or equal to a set value, and the set value is 10N so as to judge whether the fish wire 6 is broken in advance;

if the paying-off force n is greater than or equal to the set value, standing the test device for t time, wherein t is preferably 30S, and returning to S2;

if the paying-off force n is smaller than the set value, turning to S6;

s6, stopping the test: stopping the durability test of the force unloading system;

and (5) evaluating the stability of the unloading system according to the paying-off times c.

Example 2: the durability test of the wire stopper comprises the following steps:

t1, fixed fishing line reel 7: the fish wire wheel 7 is fixed on the fixed rod 202, the wire stopper is opened, the wire stopper faces upwards, the clamping block 303 clamps the rocker arm, and the poking block assembly 203 just contacts the wire stopper;

and T2, winding and recording unlocking force x and rotation times c: the computer 4 controls the second motor 302 to rotate the rocker arm for taking up by theta degrees, wherein theta degrees are preferably 100 degrees, and the angle is just that the wire blocking device rotates for one circle, so that the wire blocking device is closed under the blocking effect of the shifting block assembly 203, and the computer 4 records the unlocking force x and the rotation times c of the second motor 302;

t3, judging c: the computer 4 judges whether the rotation times c is larger than or equal to a set value, the set value is 25000 times preferably, if the rotation times c is larger than or equal to the set value, the rotation is carried out to T6, and if the rotation times c is smaller than the set value, the rotation is carried out to T4;

t4, judging x: the computer 4 judges whether the unlocking force x is larger than or equal to a set value, and the set value is preferably 10N, so as to judge whether the test is faulty or damaged at the moment, such as the condition that the rocker arm of the fishing line wheel 7 is broken, the fishing line 6 is broken, and the like;

if the unlocking force x is greater than or equal to the set value, returning to T2;

if the unlocking force x is smaller than the set value, the computer 4 records the times m continuously smaller than the set value, and rotates T5;

t5, judging m: if the number m of times that the unlocking force continuously does not reach the set value is greater than or equal to the set value, the set value is preferably 100 times, the unlocking force is turned to T6, and if the number m of times is smaller than the set value, the unlocking force is turned back to T2;

t6, testing the durability of the stop line device;

and evaluating the stability of the force unloading system according to the rotation times c.

Example 3: the stability test of the recovered fish line 6 comprises the steps of:

b1, fixing a fishing line reel 7 and installing a sensor 5: the fishing line wheel 7 is fixed on the fixed rod 202, the clamping block 303 clamps the rocker arm, the fishing line 6 is connected with the pay-off reel 102, and a sensor 5 is arranged on the rocker arm of the fishing line wheel 7;

b2, pre-tightening a fish wire 6: the computer 4 controls the first motor 101 to enter a braking state to apply a pretightening force p, preferably 4.5N, to the fish line 6;

and B3, winding and drawing a winding force curve and recording winding times B: the computer 4 controls the second motor 302 to rotate the rocker arm for winding, the winding length is a, preferably a is 4 times the circumference of the fishing line wheel 7, and a winding force curve graph and winding times b of the second motor 302 are drawn in the process;

b4, judging B: the computer 4 judges whether the wire winding times B are larger than or equal to a set value, the set value is preferably 5 times, if so, the wire winding times B are switched to B5, and if so, the wire winding times B are switched back to B3;

b5, stopping the stability test of the force unloading system;

and evaluating the stability of the recovered fishing line 6 according to the line winding force curve graph, and if the difference between the peak value and the valley value of the force is not more than 11N, judging the recovered fishing line is qualified.

Example 4: the stability test of the force unloading system comprises the following steps:

a1, fixing a fishing line reel 7: the fishing line wheel 7 is fixed on the fixed rod 202, the clamping block 303 clamps the rocker arm, and the fishing line 6 is connected with the pay-off reel 102;

a2, paying off, recording paying off times c and drawing a paying-off force curve: the computer 4 controls the first motor 101 to rotate the paying-off disc 102 for paying-off, the paying-off length is a, the computer 4 records paying-off times c during the paying-off time, and a paying-off force graph in the paying-off process is drawn;

a3, pre-tightening and winding: the computer 4 controls the first motor 101 to enter a braking state so as to apply pretightening force p, p is preferably 26.7N, to the fishing line 6, the computer 4 controls the second motor 302 to rotate so as to rotate a rocker arm to rotate and recycle the fishing line 6, and when the winding length reaches a, the a is preferably 1.5m, the winding is stopped, and the computer is kept stand for t time, and t is preferably 30s;

a4, judging c: the computer 4 judges whether the paying-off times are larger than or equal to a set value, the set value is preferably 5 times, if so, the paying-off times are switched to A5, and if not, the paying-off times are switched back to A2;

a5, stopping the stability test of the force unloading system;

and evaluating the stability of the recovered fish line 6 according to the paying-off force curve graph, and if the difference between the peak value and the valley value of the force is not more than 11N, judging the recovered fish line is qualified.

Example 5: the guide ring durability test comprises the following steps:

c1, replacing the fishing rod 8 and fixing the fishing line reel 7: the fixing rod 202 is replaced by a fishing rod 8, the fishing line wheel 7 is fixed on the fishing rod 8, and at the moment, the fishing line wheel 7 is positioned at a position which simulates normal fishing of the fishing line wheel 7, the clamping block 303 clamps the rocker arm, and the fishing line 6 passes through a guide ring on the fishing rod 8 and is connected with the paying-off disc 102;

and C2, paying off and recording paying off times C: the computer 4 controls the first motor 101 to rotate the paying-off disc 102 to pay off, the paying-off length is a, the a is preferably 30m, and the computer 4 records paying-off times c;

and C3, judging C: the computer 4 judges whether the paying-off times C is larger than or equal to a set value, the set value is preferably 3000 times, if so, the paying-off times C is switched to C5, and if not, the paying-off times C is switched to C4;

and C4, pre-tightening and winding: the computer 4 controls the first motor 101 to enter a braking state so as to apply a pretightening force p to the fishing line 6, the computer 4 controls the second motor 302 to rotate so as to rotate the rocker arm to take up, the take-up length is a, a is preferably 30m, and the fishing line is converted into C2;

c5, stopping the stability test of the force unloading system;

the durability of the guide ring is evaluated based on the wear condition between the guide ring and the fish line 6.

Specifically, the information transmission, signal processing, control mode and control logic related in the technical scheme can be realized by adopting the prior art, and the method comprises the communication connection between the computer 4 and the first motor 101, the second motor 302 and the sensor 5.

Those of ordinary skill in the art will appreciate that the elements and method steps of each example described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer 4 software, or combinations of both, and that the elements and steps of each example have been described generally in terms of functionality in the foregoing description to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

In the several embodiments provided in the present application, it should be understood that the disclosed methods and systems may be implemented in other ways. For example, the above-described division of units is merely a logical function division, and there may be another division manner when actually implemented, for example, a plurality of units or components may be combined or may be integrated into another system, or some features may be omitted or not performed. The units may or may not be physically separate, and components shown as units may or may not be physical units, may be located in one place, or may be distributed over a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the embodiment of the present application.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the application, and are intended to be included within the scope of the appended claims and description.

The foregoing description of the preferred embodiments of the application is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the application.

Claims (8)

1. A fish wire wheel test equipment, its characterized in that: comprises a paying-off device (1), a fishing line wheel fixing device (2), a rocker arm rotating device (3) and a computer (4);

the paying-off device (1) comprises a first motor (101) and a paying-off disc (102), wherein the paying-off disc (102) is connected with the output end of the first motor (101) and is used for paying off;

the fishing line reel fixing device (2) comprises a first cradle head (201), a fixing rod (202) and a shifting block assembly (203), wherein the fixing rod (202) is arranged on the first cradle head (201), the first cradle head (201) is used for adjusting the position and angle of the fishing line reel (7), the shifting block assembly (203) is arranged on the first cradle head (201), and the shifting block assembly (203) is used for shifting a line blocking device of the fishing line reel (7);

the rocker arm rotating device (3) comprises a second cradle head (301), a second motor (302) and a clamping block (303), wherein the second motor (302) is arranged on the second cradle head (301), the clamping block (303) is connected with the second motor (302), the clamping block (303) clamps a rocker arm of the fishing line wheel (7), the second cradle head (301) is used for adjusting the position and the angle of the clamping block (303), and the second motor (302) is used for rotating the clamping block (303) to realize the rotation of the rocker arm to take up or pay off;

the computer (4) is connected with the first motor (101) and the second motor (302) and is used for controlling the first motor (101) and the second motor (302) and calculating test data;

the second cradle head (301) comprises a second horizontal guide rail platform (3011) and a second vertical guide rail platform (3012), and the second horizontal guide rail platform (3011) is installed on the second vertical guide rail platform (3012);

the second motor (302) is arranged on the second horizontal guide rail platform (3011) and is used for adjusting the position of the rotating shaft of the clamping block (303);

the clamping block (303) comprises a rotating block and a pressing block, the rotating block is connected with the second motor (302), and the pressing block is connected with the rotating block through a screw and is used for clamping the rocker arm;

the rotating shaft of the rotating block is aligned with the rotating shaft of the rocker arm of the fishing line wheel (7) and is used for rotating the rocker arm to realize line winding or paying-off;

in the process of carrying out the fishing line wheel test, the test contents comprise a durability test of a force unloading system, a durability test of a line stopper, a stability test of the force unloading system, a stability test of the recovered fishing line (6) and a guide ring durability test;

the stability test of retrieving fish tape (6) is equipped with sensor (5), and computer (4) are connected to sensor (5), and sensor (5) are installed on fish tape wheel (7) rocking arm for monitor rocking arm atress condition.

2. A line wheel testing apparatus according to claim 1, wherein: the first cradle head (201) comprises a first horizontal guide rail platform (2011), a first vertical guide rail platform (2012) and a rotary table (2013);

the first vertical guide rail platform (2012) is arranged on the first horizontal guide rail platform (2011) to realize horizontal translation;

the turntable (2013) is arranged on the first vertical guide rail platform (2012) to realize vertical translation.

3. A line wheel testing apparatus according to claim 2, wherein: the fixing rod (202) is arranged on the turntable (2013), and the fishing line reel (7) is arranged on the fixing rod (202);

the poking block assembly (203) comprises a cylinder (2031), a poking block (2032) and a fixing plate (2033), wherein the fixing plate (2033) is connected with the first vertical guide rail platform (2012), the cylinder (2031) is fixedly connected with the fixing plate (2033), and the poking block (2032) is connected with the output end of the cylinder (2031) and is used for poking a wire blocking device of the fish wire wheel (7).

4. A line wheel testing apparatus according to claim 1, wherein: the durability test of the force unloading system comprises the following steps:

s1, fixing a fishing line reel (7): the fishing line wheel (7) is fixed on the fixed rod (202), the clamping block (303) clamps the rocker arm, and the fishing line (6) is connected with the paying-off disc (102);

s2, paying off and recording paying off times c and paying off force n: the computer (4) controls the first motor (101) to rotate the paying-off disc (102) to pay off, the paying-off length is a, and the computer (4) records paying-off force n and paying-off times c of the first motor (101) during the paying-off period;

s3, pre-tightening and winding: the computer (4) controls the first motor (101) to enter a braking state so as to apply a pretightening force p to the fishing line (6), and the computer (4) controls the second motor (302) to rotate so as to rotate the rocker arm to take up, wherein the take-up length is a;

s4, judging c: the computer (4) judges whether the paying-off times c is larger than or equal to a set value, if so, the process goes to S6, otherwise, the process goes to S5;

s5, judging n: the computer (4) judges whether the paying-off force n is larger than or equal to a set value;

if the paying-off force n is greater than or equal to the set value, standing the test device for t time, and returning to S2;

if the paying-off force n is smaller than the set value, turning to S6;

s6, stopping the test: stopping the durability test of the force unloading system;

and (5) evaluating the stability of the unloading system according to the paying-off times c.

5. A line wheel testing apparatus according to claim 1, wherein: the durability test of the wire stopper comprises the following steps:

t1, fixed fishing line reel (7): the fishing line wheel (7) is fixed on the fixed rod (202), the line stopper is opened, the line stopper faces upwards, the rocker is clamped by the clamping block (303), and the shifting block assembly (203) is contacted with the line stopper;

and T2, winding and recording unlocking force x and rotation times c: the computer (4) controls the second motor (302) to rotate the rocker arm for theta-degree wire collection, the wire blocking device is closed under the blocking action of the shifting block assembly (203) during the wire blocking process, and the computer (4) records the unlocking force x and the rotation times c of the second motor (302);

t3, judging c: the computer (4) judges whether the rotation times c is larger than or equal to a set value, if so, the computer rotates to T6, and if not, the computer rotates to T4;

t4, judging x: the computer (4) judges whether the unlocking force x is larger than or equal to a set value;

if the unlocking force x is greater than or equal to the set value, returning to T2;

if the unlocking force x is smaller than the set value, the computer (4) records the times m continuously smaller than the set value, and rotates T5;

t5, judging m: if the number m of the unlocking force which is not continuously up to the set value is larger than or equal to the set value, turning to T6, and if the number m is smaller than the set value, turning back to T2;

t6, testing the durability of the stop line device;

and evaluating the stability of the force unloading system according to the rotation times c.

6. A line wheel testing apparatus according to claim 1, wherein: the stability test of the recovered fishing line (6) comprises the following steps:

b1, fixing a fishing line wheel (7) and installing a sensor (5): the fishing line wheel (7) is fixed on the fixing rod (202), the clamping block (303) clamps the rocker arm, the fishing line (6) is connected with the paying-off reel (102), and the sensor (5) is arranged on the rocker arm of the fishing line wheel (7);

b2, pre-tightening the fish wire (6): the computer (4) controls the first motor (101) to enter a braking state so as to apply a pretightening force p to the fish wire (6);

and B3, winding and drawing a winding force curve and recording winding times B: the computer (4) controls the second motor (302) to rotate the rocker arm to take up, the take-up length is a, and a take-up force curve graph and the take-up times b of the second motor (302) in the process are drawn;

b4, judging B: the computer (4) judges whether the wire winding times B is larger than or equal to a set value, if so, the wire winding times B are switched to B5, and if so, the wire winding times B are switched back to B3;

b5, stopping the stability test of the force unloading system;

and evaluating the stability of the recovered fishing line (6) according to the line winding force curve graph.

7. A line wheel testing apparatus according to claim 1, wherein: the stability test of the force unloading system comprises the following steps:

a1, a fixed fishing line reel (7): the fishing line wheel (7) is fixed on the fixed rod (202), the clamping block (303) clamps the rocker arm, and the fishing line (6) is connected with the paying-off disc (102);

a2, paying off, recording paying off times c and drawing a paying-off force curve: the computer (4) controls the first motor (101) to rotate the paying-off disc (102) to pay off, the paying-off length is a, the computer (4) records paying-off times c during the paying-off time, and a paying-off force graph in the paying-off process is drawn;

a3, pre-tightening and winding: the computer (4) controls the first motor (101) to enter a braking state so as to apply a pretightening force p to the fishing line (6), the computer (4) controls the second motor (302) to rotate so as to rotate the rocker arm to rotate for recovering the fishing line (6), the winding length is a, and the fishing line is kept stand for t time;

a4, judging c: the computer (4) judges whether the paying-off times are larger than or equal to a set value, if so, the paying-off times are switched to A5, and if not, the paying-off times are switched back to A2;

a5, stopping the stability test of the force unloading system;

and evaluating the stability of the recovered fish wire (6) according to the paying-off force curve graph.

8. A line wheel testing apparatus according to claim 1, wherein: the guide ring durability test comprises the following steps:

c1, replacing a fishing rod (8) and fixing a fishing line wheel (7): the fixing rod (202) is replaced by a fishing rod (8), the fishing line wheel (7) is fixed on the fishing rod (8), the clamping block (303) clamps the rocker arm, and the fishing line (6) passes through a guide ring on the fishing rod (8) and is connected with the pay-off reel (102);

and C2, paying off and recording paying off times C: the computer (4) controls the first motor (101) to rotate the paying-off disc (102) to pay off, the paying-off length is a, and the computer (4) records paying-off times c;

and C3, judging C: the computer (4) judges whether the paying-off times C is larger than or equal to a set value, if so, the paying-off times C is turned to C5, and if not, the paying-off times C is turned to C4;

and C4, pre-tightening and winding: the computer (4) controls the first motor (101) to enter a braking state so as to apply a pretightening force p to the fishing line (6), the computer (4) controls the second motor (302) to rotate so as to rotate the rocker arm to take up, the take-up length is a, and the fishing line is converted into C2;

c5, stopping the stability test of the force unloading system;

the durability of the guide ring is evaluated according to the abrasion condition between the guide ring and the fish line (6).