CN115656033A

CN115656033A - Powder coating adhesion performance detection device and detection method thereof

Info

Publication number: CN115656033A
Application number: CN202211546752.9A
Authority: CN
Inventors: 王文芹; 王连芳; 程实; 杨帆; 葛文可; 汤建宇
Original assignee: Nantong Xinran Powder Coating Co ltd
Current assignee: Nantong Xinran Powder Coating Co ltd
Priority date: 2022-12-05
Filing date: 2022-12-05
Publication date: 2023-01-31
Anticipated expiration: 2042-12-05
Also published as: CN115656033B

Abstract

The invention discloses a powder coating adhesive property detection device and a detection method thereof, belonging to the technical field of coating adhesive property detection, and comprising a detection box, wherein a position adjusting component for driving a detection end of a detection component to sequentially move to be connected with each standard detection piece is arranged in the detection box; a positioning and mounting assembly for mounting a plurality of groups of standard detection pieces is mounted on an upper plate in the detection box; a controller is arranged on a lower layer plate in the detection box; the outer wall of the detection box is fixedly connected with a display screen; the inside mounting of detection case has the temperature regulation subassembly that is used for adjusting detection temperature. Through the mode, the temperature in the detection box can be kept constant, the detection temperature is ensured to be in a stable temperature range, and the detection error caused by temperature influence is reduced.

Description

Powder coating bonding performance detection device and detection method thereof

Technical Field

The invention relates to the technical field of paint bonding performance detection, in particular to a powder paint coating bonding performance detection device and a detection method thereof.

Background

When the coating bonding performance of the powder coating is detected, the powder coating is coated on a standard coating plate, a detection head is bonded on the coating, the detection head is pulled upwards through a detection instrument, and the maximum bonding performance peak value is detected when the coating cracks.

Currently, there are also inspection devices on the market that can continuously inspect groups of powder coatings, but they are generally open. Because the detection temperature also has certain influence on the detection result, how to realize the regulation of the detection environment temperature and ensure the consistency of the detection temperature is a problem to be solved urgently in the field.

Based on the above, the invention designs a powder coating bonding performance detection device and a detection method thereof to solve the above problems.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a powder coating adhesion performance detection device and a detection method thereof.

In order to achieve the purpose, the invention is realized by the following technical scheme:

a powder coating bonding performance detection device comprises a detection box, wherein the detection box is of a closed structure, and a transparent glass window is arranged at the front end of the detection box, so that detection personnel can observe internal detection conditions conveniently;

the detection box is internally provided with a position adjusting assembly for driving the detection end of the detection assembly to sequentially move to be connected with each standard detection piece;

a positioning and mounting assembly for mounting a plurality of groups of standard detection pieces is mounted on an upper plate in the detection box;

a controller is arranged on a lower layer plate in the detection box;

the outer wall of the detection box is fixedly connected with a display screen;

the inside mounting of detection case has the temperature regulation subassembly that is used for adjusting detection temperature.

Furthermore, the position adjusting assembly comprises a transverse linear module sliding table, a supporting frame and a vertical linear module sliding table; vertical sharp module slip table fixed mounting is on the inside top plate of detection case, and the movable block of vertical sharp module slip table and the one end bottom fixed connection of support frame, horizontal sharp module slip table fixed mounting are at the top of support frame, and the movable block of horizontal sharp module slip table is connected with the determine module, the other end bottom fixed connection of support frame has spacing slider, and spacing slider sliding connection is on the guide rail, and guide rail fixed mounting is on the inside top plate of detection case.

Furthermore, a bridge is fixedly installed on the supporting frame, a first drag chain is installed in the bridge, and the movable end of the first drag chain is connected with the detection assembly.

Furthermore, the positioning and mounting assembly comprises a pressing plate, a vertical inserting plate, a bottom plate, an outer plate, a straight fixing plate and a rear back plate; the upper end of the bottom plate is fixedly connected with a plurality of groups of straight fixing plates which are sequentially arranged from left to right, the upper ends of the straight fixing plates are fixedly connected with a pressing plate, the rear end of the outer plate is provided with a plurality of groups of vertical inserting plates which are distributed at equal intervals, and the upper parts of the vertical inserting plates are sequentially provided with a plurality of groups of standard detecting parts which are distributed at equal intervals from front to back; the rear ends of the vertical inserting plates are fixedly connected to the rear back plate.

Further, the standard test piece comprises a T-shaped block, a bonding bottom plate and a bonding top plate; the upper portion of vertical picture peg is by preceding to back install a plurality of groups of equidistant distribution's bonding bottom plate in proper order, and the bonding bottom plate pegs graft respectively in the bonding bottom plate jack of seting up on vertical picture peg, and the upper surface coating of bonding bottom plate has the powder coating, and the bonding roof bonds in the upper end of bonding bottom plate, and the upper end fixedly connected with T-shaped piece of bonding roof, and the distance at adjacent clamp plate top is less than the length of bonding bottom plate, and the upper surface at bonding bottom plate both ends contacts with the laminating of the upper portion lower surface of the clamp plate of both sides respectively.

Further, the outer plate is locked on the bottom plate through a locking assembly; the locking assembly comprises a stop block, a straight shaft, a limiting block and a torsion spring; the rear end of the straight shaft is rotatably arranged at the front end of the bottom plate, the front end of the straight shaft is fixedly connected with a stop block, the straight shaft is provided with a torsion spring, the inner end of the torsion spring is fixedly connected with the straight shaft, and the outer end of the torsion spring is fixedly connected with the bottom plate; the front end of the outer plate is fixedly connected with a limiting block for limiting the rotation of the stop block, and when the right side wall of the limiting block is contacted with the left side wall of the stop block, the stop block is in a vertical state; the rear end of the stop block is in contact with the front end of the outer plate in a fitting manner.

Furthermore, the detection assembly comprises a pressure sensor, a cylinder, a connecting sliding block, a connecting plate and a gas station; the movable block of the transverse linear module sliding table is fixedly connected with the connecting sliding block, the lower end of the connecting sliding block is fixedly connected with the air cylinder, the output end of the air cylinder is fixedly connected with the pressure sensor, the lower end of the pressure sensor is fixedly connected with the connecting plate, the connecting plate is provided with a T-shaped groove which is matched and spliced with the T-shaped block, the air cylinder is connected with the air station, and the air station is arranged on a lower layer plate in the detection box; the movable end of the first drag chain is connected with the connecting sliding block.

Furthermore, the temperature adjusting component comprises an electric heating fan, an air hole, a temperature sensor, a fan, an air outlet pipe and a straight pipe; the electric heating fan is fixedly arranged on a lower layer plate in the detection box, an air outlet pipe is fixedly connected with the air outlet end of the electric heating fan, the other end of the air outlet pipe is communicated with a plurality of groups of straight pipes, and the upper ends of the straight pipes are communicated with a plurality of groups of air holes formed in an upper layer plate in the detection box one by one; fixedly connected with is used for increasing the fan of the hot gas flow effect on the inner wall of detection case, and fixed mounting has a plurality of groups to be used for detecting the temperature-sensing ware of different position temperatures in the detection case on the inner wall of detection case.

Furthermore, the display screen, the transverse linear module sliding table, the vertical linear module sliding table, the pressure sensor, the air cylinder, the electric heating fan, the temperature sensor and the fan are all connected with the controller.

The invention also provides a detection method of the powder coating bonding performance detection device, which comprises the following steps:

the method comprises the following steps that firstly, an outer plate and vertical inserting plates are installed, a stop block is rotated clockwise to be in a horizontal state, each bonding bottom plate is inserted into a bonding bottom plate inserting hole of each vertical inserting plate, and the outer plate drives each vertical inserting plate to be simultaneously inserted into a slot formed between adjacent pressing plates; the upper parts of the pressing plates at the two sides are respectively pressed on the left end and the right end of each bonding bottom plate, so that the vertical limiting effect on the bonding bottom plates is achieved; then the stop block is loosened, under the action of restoring force of the torsion spring, the torsion spring drives the straight shaft to rotate anticlockwise, the straight shaft drives the stop block to rotate anticlockwise to a vertical state, the stop block is limited through the limiting block, and the outer plate is limited and locked through the stop block;

the supporting frame is driven to move back and forth through the vertical linear module sliding table, the other end of the supporting frame slides back and forth along the guide rail, the supporting frame drives the transverse linear module sliding table to move back and forth, and the transverse linear module sliding table drives the connecting sliding block to move back and forth;

step three, the connecting sliding block is driven to horizontally move left and right through the transverse linear module sliding table, the connecting sliding block drives the air cylinder to horizontally move left and right, the air cylinder drives the pressure sensor and the connecting plate to horizontally move left and right, the connecting plate is controlled to move to one side of the T-shaped block through the vertical linear module sliding table and the transverse linear module sliding table, then the connecting plate is controlled to move to be spliced with the T-shaped block, the air cylinder is started to contract, the air cylinder drives the pressure sensor and the connecting plate to move upwards, the coating bonding performance of the powder coating is detected through the pressure sensor, and the pressure sensor detects when the coating cracks to obtain the maximum bonding performance peak value; displaying the detection data through a display screen;

step four, hot air is generated through the electric heating fan, the hot air enters the interior of the detection box through the air outlet pipe, the straight pipe and the air hole, the hot air flowing effect is increased through the fan, the temperatures of different positions in the detection box are detected through the temperature sensor, the temperature range can be set through the controller, after the temperature in the detection box reaches a set temperature interval, the controller controls the electric heating fan and the fan to stop working, and the temperature data of different positions in the detection box are displayed through the display screen.

Advantageous effects

The temperature in the detection box is adjusted through the temperature adjusting assembly, so that the temperature in the detection box can be kept constant, the detection temperature is ensured to be in a stable temperature range, and the detection error caused by temperature influence is reduced; the detection end which drives the detection assembly through the position adjusting assembly sequentially moves to be connected with each standard detection piece, powder coating adhesive property detection is carried out through the detection assembly, a test result is displayed through the display screen, and the operation of the position adjusting assembly, the detection assembly and the temperature adjusting assembly is controlled through the controller.

The supporting frame is driven to move back and forth by the vertical linear module sliding table, the other end of the supporting frame slides back and forth along the guide rail, the supporting frame drives the transverse linear module sliding table to move back and forth, and the transverse linear module sliding table drives the detection end of the detection assembly to move back and forth; meanwhile, the detection end of the detection assembly is driven to move left and right by opening the transverse linear module sliding table; therefore, the detection assembly can be sequentially moved to be connected with each standard detection piece; and starting the detection assembly to detect the coating bonding performance of the powder coating.

According to the invention, the connecting sliding block is driven to horizontally move left and right through the transverse linear module sliding table, the connecting sliding block drives the air cylinder to horizontally move left and right, the air cylinder drives the pressure sensor and the connecting plate to horizontally move left and right, the connecting plate is controlled to move to one side of the T-shaped block through the vertical linear module sliding table and the transverse linear module sliding table, then the connecting plate is controlled to move to be spliced with the T-shaped block, the air cylinder is started to contract, the air cylinder drives the pressure sensor and the connecting plate to move upwards, the powder coating bonding performance is detected through the pressure sensor, and the maximum bonding performance peak value is obtained through detection of the pressure sensor when a coating cracks.

According to the invention, the electric heating fan is used for generating hot air, the hot air enters the detection box through the air outlet pipe, the straight pipe and the air hole, the hot air flowing effect is increased through the fan, the temperature at different positions in the detection box is detected through the temperature sensor, the temperature range can be set through the controller, when the temperature in the detection box reaches the set temperature range, the controller controls the electric heating fan and the fan to stop working, and the temperature data at different positions in the detection box can be displayed through the display screen.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

FIG. 1 is a first perspective view of a main structure of a powder coating adhesion performance detection apparatus and a detection method thereof according to the present invention;

FIG. 2 is a structural front view of a powder coating adhesion performance detection apparatus and a detection method thereof according to the present invention;

FIG. 3 is a left side view of the structure of a powder coating adhesion performance detection apparatus and a detection method thereof according to the present invention;

FIG. 4 is a perspective view of a second main structure of the powder coating adhesion performance detection apparatus and the detection method thereof according to the present invention;

FIG. 5 is a third perspective view of a main structure of a powder coating adhesion performance detection apparatus and a detection method thereof according to the present invention;

FIG. 6 isbase:Sub>A sectional view taken along the line A-A of FIG. 2;

FIG. 7 is a sectional view taken along the line C-C of FIG. 3;

FIG. 8 is a sectional view taken along the line B-B of FIG. 2;

fig. 9 is an enlarged view at D in fig. 5.

The reference numerals in the drawings denote:

1. the detection box 2, the position adjusting component 21, the transverse linear module sliding table 22, the support frame 23, the vertical linear module sliding table 24, the limiting slider 25, the guide rail 26, the first drag chain 27, the bridge 28, the second drag chain 3, the positioning and mounting component 31, the T-shaped block 32, the pressure plate 33, the vertical insertion plate 34, the bottom plate 35, the outer plate 36, the holding rod 37, the stop block 38, the straight fixing plate 39, the straight shaft 310, the back plate 311, the bonding bottom plate 312, the bonding bottom plate insertion hole 313, the limiting block 314, the torsion spring 315, the bonding top plate 4, the detection component 41, the pressure sensor 42, the air cylinder 43, the connecting slider 44, the T-shaped groove 45, the connecting plate 46, the air station 5, the temperature adjusting component 51, the electric heating fan 52, the air hole 53, the temperature sensor 54, the fan 55, the air outlet pipe 56, the straight pipe 6, the display screen 7 and the controller.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive step based on the embodiments of the present invention, are within the scope of protection of the present invention.

The present invention will be further described with reference to the following examples.

Example 1

Referring to the attached drawings 1-9 of the specification, the powder coating bonding performance detection device comprises a detection box 1, wherein the detection box 1 is of a closed structure, and an openable transparent glass window is hermetically arranged at the front end of the detection box 1, so that detection personnel can open the detection box and observe the internal detection condition conveniently;

the detection box 1 is internally provided with a position adjusting component 2 which is used for driving the detection end of the detection component 4 to move to the position adjusting component connected with each standard detection piece in sequence;

a positioning and mounting assembly 3 for mounting a plurality of groups of standard detection pieces is mounted on an upper plate in the detection box 1;

a controller 7 is arranged on a lower layer plate in the detection box 1;

the outer wall of the detection box 1 is fixedly connected with a display screen 6;

the interior of the detection box 1 is provided with a temperature adjusting component 5 for adjusting the detection temperature.

The temperature in the detection box 1 is adjusted by the temperature adjusting component 5, so that the temperature in the detection box 1 can be kept constant, the detection temperature is ensured to be in a stable temperature range, and the detection error caused by temperature influence is reduced; the detection end of the detection component 4 is driven by the position adjusting component 2 to sequentially move to be connected with each standard detection component, the powder coating adhesion performance detection is carried out through the detection component 4, the test result is displayed through the display screen 6, and the operation of the position adjusting component 2, the detection component 4 and the temperature adjusting component 5 is controlled through the controller 7;

the position adjusting assembly 2 comprises a transverse linear module sliding table 21, a supporting frame 22 and a vertical linear module sliding table 23; the vertical linear module sliding table 23 is fixedly arranged on an upper plate in the detection box 1, a movable block of the vertical linear module sliding table 23 is fixedly connected with the bottom of one end of the support frame 22, the transverse linear module sliding table 21 is fixedly arranged at the top of the support frame 22, and the movable block of the transverse linear module sliding table 21 is connected with the detection assembly 4;

the bottom of the other end of the support frame 22 is fixedly connected with a limiting slide block 24, the limiting slide block 24 is connected to a guide rail 25 in a sliding manner, and the guide rail 25 is fixedly arranged on an upper layer plate in the detection box 1;

a bridge frame 27 is fixedly installed on the supporting frame 22, a first drag chain 26 is installed in the bridge frame 27, and the movable end of the first drag chain 26 is connected with the detection assembly 4;

a second drag chain 28 is further installed on the upper plate inside the detection box 1, and the movable end of the second drag chain 28 is connected with the transverse linear module sliding table 21; the winding of the electric wire is avoided when the transverse linear module sliding table 21 moves;

the supporting frame 22 is driven to move back and forth through the vertical linear module sliding table 23, the other end of the supporting frame 22 slides back and forth along the guide rail 25, the supporting frame 22 drives the transverse linear module sliding table 21 to move back and forth, and the transverse linear module sliding table 21 drives the detection end of the detection assembly 4 to move back and forth; meanwhile, the detection end of the detection assembly 4 is driven to move left and right by opening the transverse linear module sliding table 21; therefore, the detection assembly 4 can be sequentially moved to be connected with each standard detection piece; and starting the detection component 4 to detect the coating bonding performance of the powder coating.

Example 2

On the basis of the embodiment 1, please refer to fig. 1-9 of the specification, the positioning and mounting assembly 3 includes a pressing plate 32, a vertical inserting plate 33, a bottom plate 34, an outer plate 35, a straight fixing plate 38 and a back plate 310;

the upper end of the bottom plate 34 is fixedly connected with a plurality of groups of straight fixing plates 38 which are sequentially arranged from left to right, the upper ends of the straight fixing plates 38 are fixedly connected with a pressing plate 32, the rear end of the outer plate 35 is provided with a plurality of groups of vertical inserting plates 33 which are distributed at equal intervals, and the upper parts of the vertical inserting plates 33 are sequentially provided with a plurality of groups of standard detecting parts which are distributed at equal intervals from front to back;

the standard test piece includes a T-block 31, a bonded bottom plate 311, and a bonded top plate 315; a plurality of groups of bonding bottom plates 311 which are distributed at equal intervals are sequentially arranged on the upper portion of the vertical inserting plate 33 from front to back, the bonding bottom plates 311 are respectively inserted into bonding bottom plate inserting holes 312 which are formed in the vertical inserting plate 33, the upper surfaces of the bonding bottom plates 311 are coated with powder paint coatings, the bonding top plates 315 are bonded at the upper ends of the bonding bottom plates 311, the upper ends of the bonding top plates 315 are fixedly connected with T-shaped blocks 31, the distance between the tops of adjacent pressing plates 32 is smaller than the length of the bonding bottom plates 311, and the upper surfaces of the two ends of the bonding bottom plates 311 are respectively in contact with the lower surfaces of the upper portions of the pressing plates 32 on the two sides in a fitting manner;

the upper parts of the pressing plates 32 on the two sides are respectively pressed on the left end and the right end of each bonding bottom plate 311, so that the vertical limiting effect on the bonding bottom plates 311 is achieved; preferably, the distance between the bottoms of the adjacent pressing plates 32 is equal to the length of the bonding base plate 311, so that the transverse limiting effect on the bonding base plate 311 can be achieved;

during installation, the bonding bottom plates 311 are inserted into the bonding bottom plate insertion holes 312 of the vertical insertion plates 33, and the outer plates 35 are used for driving the vertical insertion plates 33 to be inserted into the insertion grooves formed between the adjacent pressing plates 32;

preferably, the rear ends of the vertical insertion plates 33 are all fixedly connected to the back plate 310, and the vertical insertion plates 33 can be limited by the back plate 310 moving backwards;

a holding rod 36 which is convenient for pulling the outer plate 35 by hand is fixedly arranged on the outer plate 35;

the outer plate 35 can be driven to move forwards by pulling the holding rod 36 by hand;

the outer plate 35 is locked on the bottom plate 34 by a locking assembly;

the locking assembly comprises a stop 37, a straight shaft 39, a limit block 313 and a torsion spring 314; the rear end of the straight shaft 39 is rotatably arranged at the front end of the bottom plate 34, the front end of the straight shaft 39 is fixedly connected with the stop block 37, the straight shaft 39 is provided with a torsion spring 314, the inner end of the torsion spring 314 is fixedly connected with the straight shaft 39, and the outer end of the torsion spring 314 is fixedly connected with the bottom plate 34; a limit block 313 for limiting the rotation of the stopper 37 is fixedly connected to the front end of the outer plate 35, and when the right side wall of the limit block 313 contacts with the left side wall of the stopper 37, the stopper 37 is in a vertical state; the rear end of the stopper 37 is in contact with the front end of the outer plate 35;

when the outer plate 35 is installed, the stop block 37 is rotated clockwise to be in a horizontal state, after the vertical inserting plate 33 is inserted inwards to a set position, the stop block 37 is loosened, under the action of restoring force of the torsion spring 314, the torsion spring 314 drives the straight shaft 39 to rotate anticlockwise, the straight shaft 39 drives the stop block 37 to rotate anticlockwise to be in a vertical state, the stop block 37 is limited through the limiting block 313, and the outer plate 35 is limited and locked through the stop block 37;

the detection assembly 4 comprises a pressure sensor 41, an air cylinder 42, a connecting sliding block 43, a connecting plate 45 and an air station 46; the movable block of the transverse linear module sliding table 21 is fixedly connected with a connecting sliding block 43, the lower end of the connecting sliding block 43 is fixedly connected with a cylinder 42, the output end of the cylinder 42 is fixedly connected with a pressure sensor 41, the lower end of the pressure sensor 41 is fixedly connected with a connecting plate 45, a T-shaped groove 44 which is matched and spliced with the T-shaped block 31 is formed in the connecting plate 45, the cylinder 42 is connected with an air station 46, and the air station 46 is installed on a lower layer plate in the detection box 1; the movable end of the first drag chain 26 is connected with the connecting sliding block 43, which is beneficial to ventilation and electrification of the detection component 4;

the connecting sliding block 43 is driven to horizontally move left and right through the transverse linear module sliding table 21, the connecting sliding block 43 drives the air cylinder 42 to horizontally move left and right, the air cylinder 42 drives the pressure sensor 41 and the connecting plate 45 to horizontally move left and right, the connecting plate 45 is controlled to move to one side of the T-shaped block 31 through the vertical linear module sliding table 23 and the transverse linear module sliding table 21, then the connecting plate 45 is controlled to move to be inserted with the T-shaped block 31, then the air cylinder 42 is started to contract, the air cylinder 42 drives the pressure sensor 41 and the connecting plate 45 to move upwards, the powder coating adhesive property is detected through the pressure sensor 41, and the maximum adhesive property peak value is obtained through detection of the pressure sensor 41 when a coating cracks;

the display screen 6, the transverse linear module sliding table 21, the vertical linear module sliding table 23, the pressure sensor 41 and the air cylinder 42 are all connected with the controller 7; the operation of each part can be controlled by the controller 7; the detection data can be displayed through the display screen 6;

the temperature adjusting component 5 comprises an electric heating fan 51, an air hole 52, a temperature sensor 53, a fan 54, an air outlet pipe 55 and a straight pipe 56; the electric heating fan 51 is fixedly arranged on a lower layer plate in the detection box 1, an air outlet pipe 55 is fixedly connected to the air outlet end of the electric heating fan 51, the other end of the air outlet pipe 55 is communicated with a plurality of groups of straight pipes 56, and the upper ends of the straight pipes 56 are communicated with a plurality of groups of air holes 52 formed in an upper layer plate in the detection box 1 one by one; the inner wall of the detection box 1 is fixedly connected with a fan 54 for increasing the hot gas flowing effect, and the inner wall of the detection box 1 is fixedly provided with a plurality of groups of temperature sensors 53 for detecting the temperature of different positions in the detection box 1;

the electric heating fan 51, the temperature sensor 53 and the fan 54 are all connected with the controller 7; the operation of each part can be controlled by the controller 7;

produce the hot-air through electric fan 51, the hot-air is through outlet duct 55, the inside that straight tube 56 gentleness hole 52 got into detection case 1, increase the steam flow effect through fan 54, detect different position temperature in the detection case 1 through temperature-sensing ware 53, the temperature range is set for to accessible controller 7, after the temperature in detection case 1 reaches the temperature interval of setting for, controller 7 control electric fan 51 and fan 54 stop work, can show different position temperature data in the detection case 1 through display screen 6.

Example 3

On the basis of the embodiment 2, referring to the attached fig. 1-9 of the specification, a detection method of a powder coating adhesion performance detection device comprises the following steps:

step one, installing an outer plate 35 and a vertical inserting plate 33, clockwise rotating a stop block 37 to a horizontal state, inserting each bonding bottom plate 311 into a bonding bottom plate inserting hole 312 of the vertical inserting plate 33, and then driving each vertical inserting plate 33 to be simultaneously inserted into a slot formed between adjacent pressing plates 32 by using the outer plate 35; the upper parts of the pressing plates 32 on the two sides are respectively pressed on the left end and the right end of each bonding bottom plate 311, so that the vertical limiting effect on the bonding bottom plates 311 is achieved; then, the stop 37 is loosened, under the action of the restoring force of the torsion spring 314, the torsion spring 314 drives the straight shaft 39 to rotate anticlockwise, the straight shaft 39 drives the stop 37 to rotate anticlockwise to a vertical state, the stop 37 is limited through the limiting block 313, and the outer plate 35 is limited and locked through the stop 37;

step two, the support frame 22 is driven to move back and forth through the vertical linear module sliding table 23, the other end of the support frame 22 slides back and forth along the guide rail 25, the support frame 22 drives the transverse linear module sliding table 21 to move back and forth, and the transverse linear module sliding table 21 drives the connecting sliding block 43 to move back and forth;

step three, the connecting sliding block 43 is driven to horizontally move left and right through the transverse linear module sliding table 21, the connecting sliding block 43 drives the air cylinder 42 to horizontally move left and right, the air cylinder 42 drives the pressure sensor 41 and the connecting plate 45 to horizontally move left and right, the connecting plate 45 is controlled to move to one side of the T-shaped block 31 through the vertical linear module sliding table 23 and the transverse linear module sliding table 21, then the connecting plate 45 is controlled to move to be inserted with the T-shaped block 31, then the air cylinder 42 is started to contract, the air cylinder 42 drives the pressure sensor 41 and the connecting plate 45 to move upwards, the powder coating bonding performance is detected through the pressure sensor 41, and the pressure sensor 41 detects the maximum bonding performance peak value when the coating cracks; displaying the detection data through the display screen 6;

step four, hot air is generated through the electric heating fan 51, the hot air enters the detection box 1 through the air outlet pipe 55, the straight pipe 56 and the air hole 52, the hot air flowing effect is increased through the fan 54, the temperature of different positions in the detection box 1 is detected through the temperature sensor 53, the temperature range can be set through the controller 7, after the temperature in the detection box 1 reaches a set temperature range, the controller 7 controls the electric heating fan 51 and the fan 54 to stop working, and the temperature data of different positions in the detection box 1 is displayed through the display screen 6.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims

1. The utility model provides a powder coating adhesion performance detection device, includes detection case (1), its characterized in that:

the detection box (1) is internally provided with a position adjusting assembly (2) for driving the detection end of the detection assembly (4) to move to the position adjusting assembly connected with each standard detection piece in sequence;

a positioning and mounting assembly (3) for mounting a plurality of groups of standard detection pieces is mounted on an upper plate in the detection box (1);

a controller (7) is arranged on a lower layer plate in the detection box (1);

a display screen (6) is fixedly connected to the outer wall of the detection box (1);

the temperature adjusting component (5) used for adjusting the detection temperature is installed in the detection box (1).

2. The powder coating bonding performance detection device of claim 1, wherein the position adjustment assembly (2) comprises a transverse linear module sliding table (21), a support frame (22) and a vertical linear module sliding table (23); vertical sharp module slip table (23) fixed mounting is on the inside upper plate of detection case (1), and the movable block of vertical sharp module slip table (23) and the one end bottom fixed connection of support frame (22), horizontal sharp module slip table (21) fixed mounting are at the top of support frame (22), and the movable block of horizontal sharp module slip table (21) is connected with determine module (4), the other end bottom fixed connection of support frame (22) has limit slider (24), and limit slider (24) sliding connection is on guide rail (25), and guide rail (25) fixed mounting is on the inside upper plate of detection case (1).

3. The powder coating bonding performance detection device as claimed in claim 2, wherein a bridge (27) is fixedly mounted on the support frame (22), a first drag chain (26) is mounted in the bridge (27), and a movable end of the first drag chain (26) is connected with the detection assembly (4).

4. The powder coating bonding performance detection device as claimed in claim 3, wherein the positioning and mounting assembly (3) comprises a pressing plate (32), a vertical inserting plate (33), a bottom plate (34), an outer plate (35), a straight fixing plate (38) and a back plate (310); the upper end of the bottom plate (34) is fixedly connected with a plurality of groups of straight fixing plates (38) which are sequentially arranged from left to right, the upper ends of the straight fixing plates (38) are fixedly connected with a pressing plate (32), the rear end of the outer plate (35) is provided with a plurality of groups of vertical inserting plates (33) which are distributed at equal intervals, and the upper parts of the vertical inserting plates (33) are sequentially provided with a plurality of groups of standard detecting parts which are distributed at equal intervals from front to back; the rear ends of the vertical inserting plates (33) are fixedly connected to the rear back plate (310).

5. The powder coating material coating bonding performance detection device of claim 4, wherein the standard detection member comprises a T-shaped block (31), a bonding bottom plate (311) and a bonding top plate (315); the upper portion of vertical picture peg (33) is by installing a plurality of groups of equidistant distribution's bonding bottom plate (311) from front to back in proper order, bonding bottom plate (311) peg graft respectively in bonding bottom plate jack (312) of seting up on vertical picture peg (33), the upper surface coating of bonding bottom plate (311) has the powder coating, bonding top plate (315) bonds in the upper end of bonding bottom plate (311), the upper end fixedly connected with T-shaped piece (31) of bonding top plate (315), the distance at adjacent clamp plate (32) top is less than the length of bonding bottom plate (311), the upper surface at bonding bottom plate (311) both ends respectively with the laminating contact of the upper portion lower surface of the clamp plate (32) of both sides.

6. The powder paint coating adhesion detection device of claim 5, wherein the outer plate (35) is locked on the bottom plate (34) by a locking assembly; the locking assembly comprises a stopper (37), a straight shaft (39), a limiting block (313) and a torsion spring (314); the rear end of the straight shaft (39) is rotatably arranged at the front end of the bottom plate (34), the front end of the straight shaft (39) is fixedly connected with a stop block (37), the straight shaft (39) is provided with a torsion spring (314), the inner end of the torsion spring (314) is fixedly connected with the straight shaft (39), and the outer end of the torsion spring (314) is fixedly connected with the bottom plate (34); the front end of the outer plate (35) is fixedly connected with a limiting block (313) used for limiting the rotation of the stop block (37), and when the right side wall of the limiting block (313) is in contact with the left side wall of the stop block (37), the stop block (37) is in a vertical state; the rear end of the stopper (37) is in contact with the front end of the outer plate (35).

7. The powder coating material coating bonding performance detection device as claimed in claim 6, wherein the detection assembly (4) comprises a pressure sensor (41), a cylinder (42), a connecting slide block (43), a connecting plate (45) and a gas station (46); the movable block of the transverse linear module sliding table (21) is fixedly connected with a connecting sliding block (43), the lower end of the connecting sliding block (43) is fixedly connected with a cylinder (42), the output end of the cylinder (42) is fixedly connected with a pressure sensor (41), the lower end of the pressure sensor (41) is fixedly connected with a connecting plate (45), a T-shaped groove (44) which is matched and spliced with the T-shaped block (31) is formed in the connecting plate (45), the cylinder (42) is connected with an air station (46), and the air station (46) is installed on a lower layer plate in the detection box (1); the movable end of the first drag chain (26) is connected with a connecting sliding block (43).

8. The powder coating bonding performance detection device according to claim 7, wherein the temperature regulation component (5) comprises an electric heating fan (51), an air hole (52), a temperature sensor (53), a fan (54), an air outlet pipe (55) and a straight pipe (56); the electric heating fan (51) is fixedly arranged on a lower layer plate in the detection box (1), an air outlet pipe (55) is fixedly connected to the air outlet end of the electric heating fan (51), the other end of the air outlet pipe (55) is communicated with a plurality of groups of straight pipes (56), and the upper ends of the straight pipes (56) are communicated with a plurality of groups of air holes (52) formed in an upper layer plate in the detection box (1) one by one; fixedly connected with fan (54) that are used for increasing the hot gas effect of flowing on the inner wall of detection case (1), fixed mounting has a plurality of groups to be used for detecting temperature-sensing ware (53) of different positions temperature in detection case (1) on the inner wall of detection case (1).

9. The powder coating bonding performance detection device of claim 8, wherein the display screen (6), the horizontal linear module sliding table (21), the vertical linear module sliding table (23), the pressure sensor (41), the air cylinder (42), the electric heating fan (51), the temperature sensor (53) and the fan (54) are connected with the controller (7).

10. The method for detecting the powder paint coating adhesion performance detecting device according to claim 9, comprising the steps of:

the method comprises the following steps that firstly, an outer plate (35) and a vertical inserting plate (33) are installed, a stop block (37) is rotated clockwise to be in a horizontal state, each bonding bottom plate (311) is inserted into a bonding bottom plate inserting hole (312) of the vertical inserting plate (33), and the outer plate (35) is used for driving each vertical inserting plate (33) to be inserted into a slot formed between adjacent pressing plates (32) simultaneously; the upper parts of the pressure plates (32) at the two sides are respectively pressed on the left end and the right end of each bonding bottom plate (311) to play a role in vertically limiting the bonding bottom plates (311); then the stop block (37) is loosened, under the action of restoring force of the torsion spring (314), the torsion spring (314) drives the straight shaft (39) to rotate anticlockwise, the straight shaft (39) drives the stop block (37) to rotate anticlockwise to a vertical state, the stop block (37) is limited through the limiting block (313), and the outer plate (35) is limited and locked through the stop block (37);

secondly, the support frame (22) is driven to move back and forth through the vertical linear module sliding table (23), the other end of the support frame (22) slides back and forth along the guide rail (25), the support frame (22) drives the transverse linear module sliding table (21) to move back and forth, and the transverse linear module sliding table (21) drives the connecting sliding block (43) to move back and forth;

step three, the connecting sliding block (43) is driven to horizontally move left and right through the transverse linear module sliding table (21), the connecting sliding block (43) drives the air cylinder (42) to horizontally move left and right, the air cylinder (42) drives the pressure sensor (41) and the connecting plate (45) to horizontally move left and right, the connecting plate (45) is controlled to move to one side of the T-shaped block (31) through the vertical linear module sliding table (23) and the transverse linear module sliding table (21), then the connecting plate (45) is controlled to move to be connected with the T-shaped block (31) in an inserting mode, then the air cylinder (42) is started to shrink, the air cylinder (42) drives the pressure sensor (41) and the connecting plate (45) to move upwards, the powder coating adhesive property is detected through the pressure sensor (41), and the maximum adhesive property peak value is obtained through detection of the pressure sensor (41) when a coating cracks; displaying the detection data through a display screen (6);

step four, hot air is generated through the electric heating fan (51), the hot air enters the detection box (1) through the air outlet pipe (55), the straight pipe (56) and the air hole (52), the hot air flowing effect is improved through the fan (54), different position temperatures in the detection box (1) are detected through the temperature sensor (53), the temperature range can be set through the controller (7), after the temperature in the detection box (1) reaches a set temperature range, the controller (7) controls the electric heating fan (51) and the fan (54) to stop working, and different position temperature data in the detection box (1) are displayed through the display screen (6).