CN218629601U - Powder coating gelling detection device - Google Patents

Abstract

The utility model discloses a powder coating gelatinization detection device, wherein, the powder coating gelatinization detection device comprises a bracket, the bracket comprises a base and a supporting plate which are arranged at intervals up and down, a heating table is arranged on the base, and the heating table is provided with a heating vessel with an opening at the top; be provided with driving motor, stirring subassembly, telescopic machanism and sensing subassembly in the backup pad, wherein, driving motor drive stirring subassembly is at the heating ware internal rotation, and telescopic machanism drives sensing subassembly flexible to stretch into or break away from the heating ware. The technical scheme solves the technical problems of labor waste and low efficiency of the existing gelling detection.

Description

Powder coating gelling detection device

Technical Field

The utility model relates to a powder coating technical field, in particular to powder coating colloidizes detection device.

Background

Powder coating is a novel pollution-free coating and has been widely applied to surface decoration processes of various products, and the gelling time is an important index of the powder coating and directly influences parameters such as the curing time and the curing quality of the coating.

The gel time detection of the existing powder coating mainly comprises the steps that a constant-temperature table is used for heating quantitative powder coating, the powder coating is uniformly heated in a manual stirring mode, meanwhile, the wire drawing state of the powder coating is observed through naked eyes in the stirring process, the time of wire drawing breakage of the powder coating is judged, and the process from the beginning of heating to the occurrence of the wire drawing breakage is timed, so that the gel time of the powder coating is obtained.

However, such a gel time measurement method has a large error due to the influence of factors such as the degree of precision observed by an operator and the stirring speed, and thus the measurement result is not accurate enough.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a powder coating detection device that gels, aim at solving the technical problem that current detection that gels wastes time and energy.

In order to achieve the above object, the utility model provides a powder coating gelatinization detection device, include:

the support comprises a base and support plates, and the support plates are arranged above the base at intervals and are connected with the base;

the heating table is arranged on the base and provided with a heating vessel with an opening at the top;

the driving motor is arranged on the supporting plate;

the stirring component is movably connected to the supporting plate and extends downwards into the heating dish, and the driving motor is in transmission connection with the stirring component to drive the stirring component to rotate in the heating dish;

the telescopic mechanism is provided with a fixed end and a telescopic end connected with the fixed end, the fixed end is arranged on one side of the supporting plate, which is far away from the base, and the telescopic end penetrates through the supporting plate and is telescopic towards the direction of the heating dish; and

the sensing assembly is arranged at the telescopic end, and the telescopic mechanism drives the sensing assembly to stretch and retract so as to stretch into or separate from the heating vessel.

Optionally, the sensing assembly comprises:

one end of the tension sensor is fixedly arranged at the telescopic end;

the measuring rod is arranged at the other end of the tension sensor, and the telescopic end of the telescopic mechanism drives the measuring rod to stretch into or separate from the heating vessel.

Optionally, the end of the measuring rod extending into the heating dish is provided with a conical head.

Optionally, the stirring assembly comprises:

the rotary disc bearing comprises a fixed disc and a rotary disc connected with the fixed disc, the fixed disc is fixedly arranged on the bottom surface of the supporting plate and is coaxial with the measuring rod, and the rotary disc is in transmission connection with the driving motor;

the connecting plate is connected to the end face, facing the heating dish, of the rotating disk, and an avoidance hole is formed in the center of the connecting plate and is used for the measuring rod to penetrate through; and

the stirring rod is arranged on the connecting plate, extends into the heating dish, and drives the stirring rod to rotate around the measuring rod when the rotating disk rotates.

Optionally, the puddler sets up a plurality ofly, it is a plurality of the puddler follows the periphery in dodging the hole is evenly arranged.

Optionally, the stirring rod is of a plate-shaped structure; and/or the stirring rod is detachably connected with the connecting plate.

Optionally, the peripheral surface of the rotating disk is provided with convex teeth, a rotating shaft of the driving motor is connected with a transmission gear, and the transmission gear is in meshing transmission with the convex teeth of the rotating disk to drive the rotating disk to rotate.

Optionally, the powder coating gelling detection device comprises a visual assembly, wherein the visual assembly is arranged on one side of the heating table and used for observing the telescopic action of the sensing assembly.

Optionally, the powder coating gelatinization detection device includes the bracing piece, the base reaches the both ends face that the backup pad is relative is equipped with the mounting groove, the bracing piece with two the mounting groove can be dismantled and be connected.

Optionally, the heating vessel is detachably connected with the heating table; and/or the heating vessel is made of a copper material.

Compared with the prior art, in the technical scheme of the utility model, the powder coating gelling detection device is provided with a bracket, wherein the bracket comprises a base arranged on a supporting surface, and supporting plates are arranged above the base at intervals and connected with the base; the powder coating heating device comprises a base, a heating table, a heating vessel and a heating device, wherein the base is provided with the heating table, the top of the heating vessel is provided with an opening, and the powder coating is placed in the heating vessel, so that the powder coating in the heating vessel is heated by adjusting parameters such as temperature and power of the heating table; in order to ensure that the powder coating is uniformly heated, the powder coating gelling detection device also has a stirring function, a driving motor and a stirring component are arranged on the supporting plate, wherein the stirring component is movably connected with the supporting plate, one end of the stirring component extends downwards into the heating dish, the driving motor is in transmission connection with the stirring component, and the stirring component can rotate in the heating dish by the driving of the driving motor, so that the powder coating is stirred, and the uniform heating of the powder coating in the heating process is ensured; in addition, this powder coating gelatinization detection device still has the gelatinization and detects the function, still be provided with telescopic machanism and sensing subassembly in this backup pad, telescopic machanism has stiff end and flexible end, the stiff end sets firmly the terminal surface that deviates from the base in the backup pad, flexible end can pass this backup pad and stretch out and draw back to the heating ware direction, sensing subassembly sets up in the tip of this flexible end along with flexible end is synchronous flexible, when flexible end is flexible, this sensing subassembly can stretch into and break away from in this heating ware, and like this, in powder coating heating process, soak or break away from powder coating through sensing subassembly reciprocating, can accurately judge powder coating's gelled state, thereby realized the gelatinization detection to powder coating, the detection degree of difficulty has been reduced effectively, and the detection efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be 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 present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural view of an embodiment of the device for inspecting powder coating gelation according to the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a longitudinal sectional view of the powder coating gelling detection device of the present invention.

The reference numbers indicate:

the realization, the functional characteristics and the advantages of the utility model are further explained by combining the embodiment and referring to the attached drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, back, 8230; \8230;) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the attached drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be interconnected within two elements or in a relationship where two elements interact with each other unless otherwise specifically limited. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout includes three juxtapositions, exemplified by "A and/or B" including either A or B or both A and B. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Gel time refers to the time required for a volume of powder coating to melt under specified conditions and become an immutable material, which directly affects the curing time and quality of the powder coating.

In the existing gelling detection process, powder coating is often placed in a heating hole of a heating table for heating, a glue stick is used for stirring manually, a wire drawing state is periodically lifted and judged, and finally the gelling time of the powder coating is obtained in a manual timing mode. The detection mode has enough experience for detection personnel, and in addition, in the detection process, the detection personnel needs to complete the operation of timing and stirring observation at the same time, so that the operation difficulty is very high.

In order to solve the above problem, the utility model provides a powder coating gelatination detection device, include:

the support 100 comprises a base 110 and a support plate 120, wherein the support plate 120 is arranged above the base 110 at intervals and connected with the base 110;

the heating table 200 is arranged on the base 110, and the heating table 200 is provided with a heating dish 800 with an open top;

a driving motor 300 provided at the support plate 120;

the stirring assembly 400 is movably connected to the supporting plate 120 and extends downwards into the heating dish 800, and the driving motor 300 is in transmission connection with the stirring assembly 400 to drive the stirring assembly 400 to rotate in the heating dish 800;

the telescopic mechanism 500 is provided with a fixed end and a telescopic end connected with the fixed end, the fixed end is arranged on one side of the support plate 120 departing from the base 110, and the telescopic end penetrates through the support plate 120 and extends and retracts towards the direction of the heating dish 800; and

the sensing assembly 600 is arranged at the telescopic end, and the telescopic mechanism 500 drives the sensing assembly 600 to stretch and retract so as to stretch into or separate from the heating dish 800.

Compared with the prior art, in the technical scheme of the utility model, the powder coating gelatinization detection device is provided with a support 100, wherein the support 100 comprises a base 110 arranged on a supporting surface, a support plate 120 is arranged above the base 110 at intervals, and the support plate 120 is connected with the base 110; the base 110 is provided with the heating table 200, the heating table 200 is provided with the heating dish 800, the top of the heating dish 800 is opened, and the powder coating is placed in the heating dish 800, and the powder coating in the heating dish 800 is heated by adjusting parameters such as temperature and power of the heating table 200; in order to ensure that the powder coating is uniformly heated, the powder coating gelling detection device also has a stirring function, a driving motor 300 and a stirring assembly 400 are arranged on the supporting plate 120, wherein the stirring assembly 400 is movably connected with the supporting plate 120, one end of the stirring assembly 400 extends downwards into the heating dish 800, the driving motor 300 is in transmission connection with the stirring assembly 400, and the stirring assembly 400 rotates in the heating dish 800 through the driving of the driving motor 300 to stir the powder coating, so that the powder coating is uniformly heated in the heating process; in addition, this powder coating gelatinization detection device still has the function of gelling detection, still be provided with telescopic machanism 500 and sensing subassembly 600 in this backup pad 120, telescopic machanism 500 has stiff end and flexible end, the stiff end sets firmly in the terminal surface that deviates from base 110 on backup pad 120, flexible end can pass this backup pad 120 and stretch out and draw back to heating dish 800 direction, sensing subassembly 600 sets up in the tip of this flexible end along with flexible end synchronous telescope, when flexible end is flexible, this sensing subassembly 600 can stretch into and break away from in this heating dish 800, therefore, in the powder coating heating process, immerse or break away from powder coating through sensing subassembly 600 is reciprocating, can accurately judge the gelled state of powder coating, thereby realized gelling detection to powder coating, reduced the detection degree of difficulty effectively, detection efficiency is improved.

Specifically, as shown in fig. 1 to 3, the powder coating gelling detection device includes a bracket 100, the bracket 100 has a base 110 disposed on a supporting surface, and a supporting plate 120 disposed above the base 110 at an interval, the supporting plate 120 is connected with the base 110 to fix the relative positions of the two; in order to heat the powder coating, the base 110 is provided with a heating table 200, the heating table 200 is provided with a control main body and a heating table 200 plate, and after parameters such as temperature on the control main body are set, the temperature of the heating table 200 plate can be flexibly adjusted to meet different test conditions; in addition, a heating dish 800 can be arranged on the heating table 200, the top of the heating dish 800 is opened, a containing cavity is arranged in the heating dish 800 to contain the powder coating, during detection, the powder coating is placed in the heating dish 800, and the temperature of the heating dish 800 is adjusted by adjusting the parameters of the heating table 200 to realize the heating of the powder coating; in order to ensure uniform heating of the powder coating, the powder coating gelling detection device can realize stirring of the powder coating, a driving motor 300 is arranged on the support plate 120, and a stirring assembly 400 is further arranged on the support plate 120, wherein the stirring assembly 400 can be arranged on the end surface of the support plate 120 facing one side of the base 110, and the stirring assembly 400 can be movably connected with the support plate 120; in addition, in order to realize the detection of the gelled state of the powder coating, the supporting plate 120 is further provided with a telescopic mechanism 500, the telescopic mechanism 500 has a fixed end and a telescopic end connected to the fixed end, the fixed end is fixed on one side of the supporting plate 120 away from the base 110, and the telescopic end downwardly penetrates through the supporting plate 120 and then extends and retracts in the direction of the heating dish 800, it is conceivable that the telescopic mechanism 500 may be a device that realizes a telescopic function, such as an air cylinder or a hydraulic cylinder, for example, an air cylinder, a cylinder body of which is fixedly arranged on the supporting plate 120, and a piston of which can downwardly extend and retract after passing through an avoidance hole arranged on the supporting plate 120, and the specific implementation manner of the telescopic mechanism 500 is not limited herein; in addition, the supporting plate 120 is further provided with a sensing assembly 600, the sensing assembly 600 can be arranged at the end of the telescopic end and can be stretched and contracted along with the telescopic end towards the direction of the heating dish 800, the sensing assembly 600 can be stretched into or separated from the heating dish 800 along with the movement of the telescopic end, during the detection process, the telescopic end of the telescopic mechanism 500 can be stretched and contracted periodically to drive the sensing assembly 600 to be immersed into the powder coating periodically and be drawn out from the powder coating to realize the wire drawing action on the powder coating, in order to realize the detection of the wire drawing state of the powder coating, the sensing assembly 600 can be provided with a mechanical sensor or an optical sensor, the sensor can be electrically connected with a background computer, the wire drawing state of the powder coating can be detected and recorded through the sensor, and thus, the time from the start of heating of the powder coating to the wire drawing fracture can be judged through the sensing assembly 600, and the gelling time of the powder coating can be obtained. In the technical scheme, the powder coating in the heating dish 800 is stirred in a manner that the stirring assembly 400 is driven by the driving motor 300, so that the manual working strength is reduced, and the stirring stability is ensured; drive sensing assembly 600 through telescopic machanism 500 and stretch out and draw back, realized judging the automatic wire drawing of powder coating in the heating pan 800, reduced working strength on the one hand, also guaranteed the detection precision simultaneously.

Further, the sensing assembly 600 includes:

a tension sensor 610, one end of which is fixedly arranged at the telescopic end;

and the measuring rod 620 is arranged at the other end of the tension sensor 610, and the telescopic end of the telescopic mechanism 500 drives the measuring rod 620 to extend into or separate from the heating dish 800.

Specifically, as shown in fig. 2, for convenience of the detection process, in this embodiment, the sensing assembly 600 includes a tension sensor 610 and a measuring rod 620, wherein the tension sensor 610 may be fixedly disposed at the telescopic end of the telescopic mechanism 500, and the other end of the tension sensor 610 may be connected to the measuring rod 620. In the detection process, the stretching mechanism 500 drives the tension sensor 610 and the measuring rod 620 to stretch, the measuring rod 620 can be periodically immersed in and separated from the powder coating in the heating dish 800, when the measuring rod 620 is separated from the powder coating, a drawn wire is formed at the end of the measuring rod 620 along with the gelling of the powder coating, the powder coating is applied to a viscous force of the measuring rod 620 opposite to the movement direction of the measuring rod 620, the viscous force can be measured by the tension sensor 610, and a continuous electric signal is reflected in the measurement result of the tension sensor 610; and as the powder coating is continuously heated, the powder coating evolves towards a crosslinking curing state, when the powder coating reaches a critical point of gelling and crosslinking curing, and at the moment, when the measuring rod 620 performs a wire drawing action, the wire drawing of the powder coating is broken, the breakage is reflected on a measuring result of the tension sensor 610 and is an instant electric signal change, and the change is measured, so that the positioning of the wire drawing breakage moment is realized, and the gelling time is measured.

Further, the end of the measuring rod 620 extending into the heating dish 800 is provided with a conical head.

In order to ensure the stability of stress in the wire drawing process, a conical head can be arranged at the end part of the heating vessel 800 for measurement, when the conical head performs wire drawing action, the powder coating on the conical head is converged to the tip of the conical head under the action of viscous force and gravity, so that the powder coating is drawn at the tip of the conical head, the stability of wire drawing is ensured, and the accuracy of gelling detection is improved.

Further, the stirring assembly 400 includes:

the turntable bearing 410 comprises a fixed disk and a rotating disk connected with the fixed disk, the fixed disk is fixedly arranged on the bottom surface of the support plate 120 and is coaxial with the measuring rod 620, and the rotating disk is in transmission connection with the driving motor 300;

the connecting plate 420 is connected to the end face, facing the heating dish 800, of the rotating disk, and an avoidance hole is formed in the center of the connecting plate 420 for the measuring rod 620 to pass through; and

the stirring rod 430 is arranged on the connecting plate 420, the stirring rod 430 extends into the heating dish 800, and the rotating disk drives the stirring rod 430 to rotate around the measuring rod 620 when rotating.

Specifically, as shown in fig. 2, the stirring assembly 400 includes a turntable bearing 410, the turntable bearing 410 has a fixed disk and a rotating disk, in this embodiment, the rotating disk is disposed on an inner side surface of the fixed disk and rotates relative to the fixed disk, the rotating disk can be connected to the driving motor 300 through engagement transmission, friction transmission, and the like, the fixed disk is fixed on a lower end surface of the supporting plate 120 and is disposed coaxially with the measuring rod 620, i.e., a rotation axis of the rotating disk is coaxial with the measuring rod 620; the rotating disc is provided with a connecting plate 420, the upper end face of the connecting plate 420 is connected with the lower end face of the rotating disc through a bolt, and an avoidance hole is formed in the center of the connecting plate 420, so that the measuring rod 620 can penetrate through the avoidance hole to stretch up and down; in addition, the connecting plate 420 is further provided with a stirring rod 430, the stirring rod 430 can be arranged on the periphery of the avoiding hole, namely the stirring rod 430 is arranged on one side of the measuring rod 620 at intervals, in the detection process, the stirring rod 430 can extend into the heating dish 800 and rotate around the measuring rod 620, the connecting plate 420 is driven to rotate through the rotating disk, the stirring rod 430 is further driven to rotate, and the powder coating in the heating dish 800 can be stirred.

Further, the stirring rods 430 are provided in plurality, and the stirring rods 430 are uniformly arranged along the periphery of the avoiding hole. In order to improve stirring effect, can set up a plurality of puddlers 430 along the periphery that dodges the hole this, a plurality of puddlers 430 can be along the periphery that dodges the hole and evenly arrange, like this, stir when through a plurality of puddlers 430, improved the efficiency of stirring, guaranteed powder coating's the even of being heated.

Further, the stirring rod 430 has a plate-shaped structure; and/or, the stirring rod 430 is detachably connected with the connection plate 420. Specifically, in order to further improve the stirring effect, the stirring rod 430 may be provided with a plate-shaped structure, such that when the stirring rod 430 rotates, the side surface of the stirring rod 430 may effectively push the powder coating in the heating pan 800 to move, such that the powder coating in the heating pan 800 may be sufficiently stirred, and the stirring effect may be improved. In addition, in order to facilitate the maintenance of the equipment, the stirring rod 430 may be detachably connected to the connecting plate 420, for example, a thread structure or a fastening structure may be disposed on the stirring rod 430 and the connecting plate 420, and the stirring rod 430 may be maintained or replaced conveniently by using the detachable structure, which facilitates the maintenance of the equipment.

Furthermore, the peripheral surface of the rotating disk is provided with convex teeth, the rotating shaft of the driving motor 300 is connected with a transmission gear, and the transmission gear is in meshing transmission with the convex teeth of the rotating disk so as to drive the rotating disk to rotate. Specifically, as shown in fig. 2, in order to simplify the transmission structure between the driving motor 300 and the rotating disk, a protruding tooth may be formed on the inner wall of the rotating disk, and correspondingly, a transmission gear is fixedly arranged on the motor shaft of the driving motor 300, and the transmission gear is engaged with the protruding tooth on the rotating disk to drive the rotating disk to rotate; in the technical scheme, the gear transmission mode has the advantages of simple structure and easiness in realization, in addition, the transmission gear has the speed reduction effect because the diameter of the transmission gear is smaller than that of the rotating disk, the torque of the rotating disk is increased, and the stability of stirring action is favorably ensured.

Further, the powder coating material gelling detection apparatus includes a vision assembly 700, and the vision assembly 700 is disposed at one side of the heating stage 200 for observing the expansion and contraction of the sensing assembly 600. Specifically, as shown in fig. 1 and fig. 2, in order to facilitate observation of the detection operation, a visual component 700 may be provided, the visual component 700 may be an industrial camera, the camera may be provided on one side of the heating stage 200, and the upper edge of the heating dish 800 may be viewed in a front view at a visual angle, when the measuring rod 620 retracts upwards, the whole wire drawing state of the powder coating may be observed through the camera, that is, the gel state may be detected through the sensing component 600, and the gel state may be detected through the camera, so that the application range of the product is improved.

Further, the powder coating gelling detection device comprises a support rod 900, wherein two opposite end surfaces of the base 110 and the support plate 120 are provided with mounting grooves, and the support rod 900 is detachably connected with the two mounting grooves. Specifically, as shown in fig. 1, in order to further enhance the applicability of the product, the supporting board 120 and the base 110 may be detachably connected, in this embodiment, the powder coating material gelling detection apparatus further includes a supporting bar 900, correspondingly, mounting grooves may be disposed on the lower end surface of the supporting board 120 and the upper end surface of the base 110, the supporting bar 900 and the mounting grooves are connected to connect the supporting board 120 and the base 110, and the supporting bar 900 may be disposed in multiple numbers to improve the connection strength. In the technical scheme, the supporting rod 900 is arranged to detachably connect the supporting plate 120 and the base 110, and in the using process, the supporting plate 120, the stirring assembly 400 and the telescopic assembly arranged on the supporting plate 120 are detached, so that the manual gel detection is facilitated, and the application range of the powder coating gel detection device is widened.

Further, the heating dish 800 is detachably connected to the heating stage 200; and/or the heating vessel 800 is made of copper material. Specifically, the heating pan 800 can be detachably arranged on the heating table 200, so that on one hand, the maintenance of the heating pan 800 is facilitated, and on the other hand, the adaptation to the powder coatings of different specifications can be realized by replacing the heating pans 800 of different specifications, thereby expanding the application range of the powder coating gelling detection device; in addition, in order to improve the heating effect of the heating dish 800, the material of the heating dish 800 can be a copper material, and the copper material has good heat conduction performance, so that the heat conduction efficiency between the heating platform 200 and the heating dish 800 can be improved, and the heating effect of the heating dish 800 can be improved.

The above is only the optional embodiment of the present invention, and not the scope of the present invention is limited thereby, all the equivalent structure changes made by the contents of the specification and the drawings are utilized under the inventive concept of the present invention, or the direct/indirect application in other related technical fields is included in the patent protection scope of the present invention.

Claims (10)

1. A powder coating gelatinization detection device, characterized by comprising:

the support comprises a base and support plates, and the support plates are arranged above the base at intervals and are connected with the base;

the heating table is arranged on the base and provided with a heating vessel with an opening at the top;

the driving motor is arranged on the supporting plate;

the stirring assembly is movably connected to the supporting plate and extends downwards into the heating dish, and the driving motor is in transmission connection with the stirring assembly so as to drive the stirring assembly to rotate in the heating dish;

the telescopic mechanism is provided with a fixed end and a telescopic end connected with the fixed end, the fixed end is arranged on one side of the supporting plate, which is far away from the base, and the telescopic end penetrates through the supporting plate and is telescopic towards the direction of the heating dish; and

the sensing assembly is arranged at the telescopic end, and the telescopic mechanism drives the sensing assembly to stretch and retract so as to stretch into or separate from the heating vessel.

2. The powder coating material gelation detection apparatus of claim 1, wherein the sensing assembly includes:

one end of the tension sensor is fixedly arranged at the telescopic end;

the measuring rod is arranged at the other end of the tension sensor, and the telescopic end of the telescopic mechanism drives the measuring rod to stretch into or separate from the heating dish.

3. The powder coating material gelation test apparatus of claim 2 wherein the end of the measuring rod extending into the heating pan is provided with a tapered head.

4. The powder coating material gelation detection apparatus of claim 2, wherein the agitation assembly includes:

the rotary disc bearing comprises a fixed disc and a rotary disc connected with the fixed disc, the fixed disc is fixedly arranged on the bottom surface of the supporting plate and is coaxial with the measuring rod, and the rotary disc is in transmission connection with the driving motor;

the connecting plate is connected to the end face, facing the heating dish, of the rotating disk, and an avoidance hole is formed in the center of the connecting plate and used for the measuring rod to penetrate through; and

the stirring rod is arranged on the connecting plate, extends into the heating dish, and drives the stirring rod to rotate around the measuring rod when the rotating disk rotates.

5. The powder coating material gelation detection apparatus according to claim 4, wherein the number of the stirring rods is plural, and the plural stirring rods are uniformly arranged along the periphery of the avoidance hole.

6. The powder coating material gelation detection apparatus of claim 4, wherein the stirring rod is of a plate-like structure; and/or the stirring rod is detachably connected with the connecting plate.

7. The powder coating material gelation detection apparatus as claimed in claim 4, wherein the peripheral surface of the rotary plate is provided with convex teeth, and the rotary shaft of the driving motor is connected with a transmission gear which is in mesh transmission with the convex teeth of the rotary plate to drive the rotary plate to rotate.

8. The powder coating material gelation detection apparatus of claim 1, wherein the powder coating material gelation detection apparatus includes a vision module provided at a side of the heating stage for observing the telescopic action of the sensing module.

9. The powder coating material gelation detection apparatus as claimed in claim 1, wherein the powder coating material gelation detection apparatus includes a support bar, and mounting grooves are provided on both end faces of the base and the support plate which are opposite to each other, and the support bar is detachably connected to both the mounting grooves.

10. The powder coating material gelation detection apparatus of claim 1 wherein the heating pan is removably attached to the heating stage; and/or the heating vessel is made of a copper material.

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