阅读说明：本技术 一种诱蝇球涂胶系统及使用方法 (Fly-luring ball gluing system and using method ) 是由 高波 李方华 刘启梅 孙大明 杨承玲 金爱华 尹正平 于 2021-03-26 设计创作，主要内容包括：本发明提供了一种诱蝇球涂胶系统及使用方法,包括朝向诱蝇球涂胶的涂胶机构和对涂胶后的诱蝇球上的粘胶进行加热的后处理机构以及同时套设于涂胶机构和后处理机构的链条,所述涂胶机构驱动链条转动,所述链条间隔固定有多个置物杆,所述置物杆与链条所在平面垂直且一端固定于链条的链节,所述诱蝇球插设于置物杆的另一端。本申请具有改善诱蝇球喷胶不均,导致喷胶效果不佳的问题的效果。(The invention provides a fly-luring ball gluing system and a using method thereof, and the fly-luring ball gluing system comprises a gluing mechanism facing the glue-spreading direction of a fly-luring ball, a post-processing mechanism heating the glue on the glued fly-luring ball, and a chain sleeved on the gluing mechanism and the post-processing mechanism, wherein the gluing mechanism drives the chain to rotate, a plurality of object placing rods are fixed on the chain at intervals, the object placing rods are vertical to the plane of the chain, one end of each object placing rod is fixed on a chain link of the chain, and the fly-luring ball is inserted at the other end of the object placing rod. This application has the improvement and lures the fly ball to spout gluey inhomogeneous, leads to spouting the effect of the not good problem of gluey effect.)

1. The utility model provides a lure ball rubber coating system which characterized in that: including attracting gluey rubber coating mechanism (2) of fly ball (1) and attracting the viscose on fly ball (1) after the rubber coating to carry out the aftertreatment mechanism (3) that heat and overlap simultaneously and locate chain (4) of rubber coating mechanism (2) and aftertreatment mechanism (3), rubber coating mechanism (2) drive chain (4) rotate, chain (4) interval is fixed with a plurality of thing poles (41) of putting, put the chain link that perpendicular just one end in chain (4) of thing pole (41) and chain (4) place plane, fly ball (1) are inserted and are located the other end of putting thing pole (41).

2. The glue spreading system for the fly ball of claim 1, wherein: aftertreatment mechanism (3) are including being used for heating control by temperature change room (31) of the viscose on luring fly ball (1) and a plurality of leading gear (32) that are used for direction chain (4), import (311) and export (312) that supply chain (4) to pass through are seted up in control by temperature change room (31), the interval is provided with many axostylus axostyle (33) in control by temperature change room (31), axostylus axostyle (33) rotate and are connected with driven gear (331), chain (4) are 'S' form and overlap in proper order and locate a plurality of driven gear (331), one of them lateral wall of control by temperature change room (31) is located the closed loop of chain (4), leading gear (32) set up in one side of export (312) of control by temperature change room (31).

3. The glue spreading system for the fly ball of claim 2, wherein: the temperature control device is characterized in that a water inlet pipe (313), a water outlet pipe (314) and a plurality of secondary pipelines (315) which are annular and arranged on the inner wall of the temperature control chamber (31) at intervals are arranged in the temperature control chamber (31), one end of the water inlet pipe (313) is sealed, the other end of the water inlet pipe stretches out of the temperature control chamber (31) and is communicated with a first heat source (316), one end of the water outlet pipe (314) is sealed, the other end of the water outlet pipe stretches out of the temperature control chamber (31) and is communicated with a second valve (317), two ends of the secondary pipelines (315) are respectively communicated with the sealed ends of the water inlet pipe (313) and the water outlet pipe (314).

4. The glue spreading system for the fly ball of claim 3, wherein: the cross section of the bottom of the temperature control chamber (31) on the vertical plane is V-shaped, and the bottom of the temperature control chamber (31) is communicated with a glue outlet (319).

5. The glue spreading system for the fly ball of claim 4, wherein: glue coating mechanism (2) include frame (21), set up in mount table (22) of frame (21) and towards luring fly ball (1) to spout gluey subassembly (23) that spouts, mount table (22) include base (221), rotate and connect in mounting disc (222) of base (221) and install in base (221) and control mounting disc (222) intermittent rotation's control box (223), be fixed with on mounting disc (222) with mounting disc (222) coaxial rotation's driving gear (2221), driven gear (331) and leading gear (32) are located to chain (4) cover.

6. The glue spreading system for the fly ball of claim 5, wherein: the plane of the chain (4) is a horizontal plane.

7. The glue spreading system for the fly ball of claim 4, wherein: gluing mechanism (2) including being used for holding the viscose and being upper shed structure soak groove (24) and to soaking heating element (25) that the viscose heated in groove (24), soak groove (24) and rotate and be connected with and be no less than four fixed axle (241), fixed axle (241) are provided with first gear (242), two of them first gear (242) are located the upper shed department that soaks groove (24), and all the other first gear (242) are located and soak groove (24) and are close to the tank bottom, one of them the one end of fixed axle (241) is provided with driving motor (2411), first gear (242), driven gear (331) and guide gear (32) are located to chain (4) cover.

8. The glue spreading system for the fly ball of claim 7, wherein: the heating assembly (25) comprises a heating pipe (251) and a second heat source (252) communicated with one end of the heating pipe (251), the other end of the heating pipe (251) is communicated with a first valve (2511), a part of pipelines of the heating pipe (251) are arranged on the outer wall of the soaking groove (24) in an S-shaped surrounding mode, and a protective layer (26) is arranged on the outer wall, far away from the soaking groove (24), of the heating pipe (251) in a wrapping mode.

9. The glue spreading system for the fly ball of claim 8, wherein: the plane of the chain (4) is a vertical plane.

10. A method of using the glue application system for a fly ball according to any one of claims 1 to 9, wherein: the method comprises the following steps:

s1, inserting the fly trapping ball (1) needing to be glued into one end of the object placing rod (41);

s2, gluing the fly trapping ball (1) through the gluing mechanism (2), driving the chain (4) to rotate, and heating the viscose on the fly trapping ball (1) by using the post-processing mechanism (3);

and S3, finally, taking down the fly trapping balls (1) heated by the post-processing mechanism (3), and inserting the fly trapping balls (1) needing to be glued into the object placing rod (41).

Technical Field

The application relates to the technical field of spherical trapper production equipment, in particular to a fly-luring ball gluing system and a using method.

Background

The fly trapping ball is a ball-shaped trapping and killing device for the trypetid pests, can effectively trap and kill the trypetid, the small trypetid, the melon and the like through the viscose coated on the surface of the ball body, and has an important effect on improving the benefits of the orchard.

Referring to fig. 10, the conventional glue spreading apparatus for the fly ball comprises a glue spraying mechanism 2 for spraying glue towards the fly ball 1, wherein the glue spraying mechanism 2 comprises a frame 21, a mounting table 22 arranged on the frame 21 and used for mounting a plurality of fly balls 1, and a glue spraying assembly 23 for spraying glue towards the fly ball 1; the mounting table 22 comprises a base 221, a mounting disc 222 which is rotatably connected to the base 221 and is used for circumferentially mounting a plurality of fly luring balls 1, and a control box 223 which is mounted on the base 12 and controls the mounting disc 222 to rotate intermittently; the glue spraying assembly 23 comprises a spray head 231 for spraying glue towards the fly ball 1 and a glue melting box 232 communicated with the spray head 231. When the fly trapping device is used, a plurality of fly trapping balls 1 needing glue spraying are circumferentially arranged on the mounting disc 222, and then the mounting disc 222 is controlled to intermittently rotate through the control box 223, so that the fly trapping balls 1 rotate to the lower part of the spray head 231 and stop rotating; then, the viscose in the viscose melting box 232 is sprayed to the fly trapping ball 1 rotating to the lower part of the spray head 231 through the spray head 231; after the glue spraying is finished, continuing rotating, and spraying glue for the next time; in the glue spraying process, the fly trapping ball 1 after glue spraying is taken down and replaced.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: the glue spraying cooling speed on the fly trapping ball is relatively high, and the condition of non-uniform glue spraying exists, so that the glue spraying effect is poor.

Disclosure of Invention

In order to improve the problem that the glue spraying effect is not good due to the fact that the glue spraying of the fly luring ball is uneven, the application provides a fly luring ball gluing system and a using method.

First aspect, the application provides a fly ball rubber coating system lures adopts following technical scheme:

the utility model provides a lure ball rubber coating system, includes towards lure the gluey rubber coating mechanism of fly ball and to the gummed viscose on the lure fly ball after the gluing carry out the aftertreatment mechanism that heats and overlap the chain of locating rubber coating mechanism and aftertreatment mechanism simultaneously, rubber coating mechanism drive chain rotates, the chain interval is fixed with a plurality of thing poles of putting, put the chain link that the thing pole is fixed in the chain with the plane perpendicular and one end of chain place, lure the fly ball to insert and locate the other end of putting the thing pole.

Preferably, the post-processing mechanism includes a temperature control room for heating viscose on the fly luring ball and a plurality of guide gears for guiding the chain, the temperature control room is provided with an inlet and an outlet for the chain to pass through, a plurality of shaft levers are arranged at intervals in the temperature control room, the shaft levers are rotatably connected with driven gears, the chain is in an 'S' -shape and is sequentially sleeved on the plurality of driven gears, one side wall of the temperature control room is located in a closed loop of the chain, and the guide gears are arranged on one side of the outlet of the temperature control room.

Preferably, the temperature control chamber is internally provided with a water inlet pipe, a water outlet pipe and a plurality of secondary pipelines which are annular and arranged on the inner wall of the temperature control chamber at intervals, one end of the water inlet pipe is sealed, the other end of the water inlet pipe extends out of the temperature control chamber and is communicated with a first heat source, one end of the water outlet pipe is sealed, the other end of the water outlet pipe extends out of the temperature control chamber and is communicated with a second valve, two ends of the secondary pipelines are respectively communicated with the sealed ends of the water inlet pipe and the water outlet pipe, and the temperature control.

Preferably, the cross section of the bottom of the temperature control chamber on the vertical plane is in a 'V' shape, and the bottom of the temperature control chamber is communicated with a glue outlet.

Preferably, rubber coating mechanism includes the frame, sets up in the mount table of frame and the gluey subassembly of spouting of luring the fly ball to spout towards, the mount table includes the base, rotates to be connected in the mounting disc of base and installs in base and control mounting disc intermittent type pivoted control box, be fixed with on the mounting disc with the coaxial pivoted driving gear of mounting disc, driving gear, driven gear and leading gear are located to the chain cover.

Preferably, the plane of the chain is a horizontal plane.

Preferably, rubber coating mechanism is including being used for holding the viscose and being the soaking groove of upper shed structure and to the heating element who soaks the inslot viscose heating, soaking the groove and rotating and be connected with and be no less than four fixed axles, the fixed axle is provided with first gear, wherein two first gear is located the upper shed department that soaks the groove, and is all the other first gear is located and soaks the inslot and be close to the tank bottom, one of them the one end of fixed axle is provided with driving motor, first gear, driven gear and leading gear are located to the chain cover.

Preferably, the heating assembly comprises a heating pipe and a second heat source communicated with one end of the heating pipe, the other end of the heating pipe is communicated with a first valve, part of pipelines of the heating pipe are S-shaped and are arranged on the outer wall of the soaking groove in a surrounding mode, and a protective layer is arranged on the outer wall, far away from the soaking groove, of the heating pipe in a wrapping mode.

Preferably, the plane of the chain is a vertical plane.

In a second aspect, the application provides a method for using a fly ball gluing system, which comprises the following steps:

s1, inserting the fly ball to be glued into one end of the object placing rod;

s2, gluing the fly trapping ball by the gluing mechanism, driving the chain to rotate, and heating the viscose on the fly trapping ball by the post-processing mechanism;

and S3, finally, taking down the fly trapping balls heated by the post-processing mechanism, and inserting the fly trapping balls needing to be glued into the object placing rod.

In summary, the present application includes at least one of the following beneficial technical effects:

the gluing mechanism is arranged to glue the fly trapping ball, and the post-processing mechanism connected with the gluing mechanism is used for heating and melting the glued viscose on the fly trapping ball through a chain, so that the melted viscose flows and is uniformly distributed on the spherical surface of the fly trapping ball, and the problem of poor glue spraying effect caused by uneven glue spraying of the fly trapping ball is solved; in the gluing process, the operation speed of the whole system and the temperature of the first heat source can be controlled by the gluing mechanism, and the temperature of the temperature control chamber can be relatively controlled, so that the effect that the viscose on the fly trapping ball is melted, flows and is uniformly distributed on the spherical surface is better; simultaneously, through setting up the rubber coating system that constitutes by rubber coating mechanism and aftertreatment mechanism, in the unit interval, the luring fly ball quantity that can handle for the rubber coating equipment among the prior art is more relatively, and the treatment effeciency is higher relatively.

Drawings

FIG. 1 is a top view of a first embodiment of the present application;

fig. 2 is a schematic view of the overall structure of a glue application mechanism according to the first embodiment of the present application;

fig. 3 is a schematic view of the overall structure of an aftertreatment mechanism according to a first embodiment of the present application;

FIG. 4 is a schematic view of a partial cross-sectional structure of an aftertreatment mechanism according to a first embodiment of the application;

FIG. 5 is an enlarged schematic view of portion A of FIG. 4;

FIG. 6 is a front view of embodiment two of the present application;

fig. 7 is a schematic view of the overall structure of a glue application mechanism according to a second embodiment of the present application;

FIG. 8 is a schematic view of a partial cross-sectional structure of an aftertreatment mechanism according to a second embodiment of the present application;

FIG. 9 is an enlarged schematic view of the portion B of FIG. 8;

fig. 10 is an overall structural diagram of the related art.

In the above drawings: 1. a fly-luring ball; 2. a gluing mechanism; 21. a frame; 22. an installation table; 221. a base; 222. mounting a disc; 2221. a driving gear; 223. a control box; 23. spraying a glue component; 231. a spray head; 232. a glue melting box; 24. a soaking tank; 241. a fixed shaft; 2411. a drive motor; 242. a first gear; 25. a heating assembly; 251. heating a tube; 2511. a first valve; 252. a second heat source; 26. a protective layer; 3. a post-processing mechanism; 31. a temperature control chamber; 311. an inlet; 312. an outlet; 313. a water inlet pipe; 314. a water outlet pipe; 315. a secondary pipeline; 316. a first heat source; 317. a second valve; 318. a temperature measuring instrument; 319. a glue outlet; 32. a guide gear; 33. a shaft lever; 331. a driven gear; 4. a chain; 41. a placement rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-9.

Example one

Referring to fig. 1 and 2, the embodiment of the application provides a glue spreading system for a fly ball, which includes a glue spreading mechanism 2, a post-processing mechanism 3 and a chain 4; the gluing mechanism 2 is mainly used for gluing the spherical surface of the fly trapping ball 1 and driving the chain 4 to rotate, and the post-processing mechanism 3 is mainly used for heating the glued viscose glue on the fly trapping ball 1; rubber coating mechanism 2 and aftertreatment mechanism 3 are located to chain 4 cover simultaneously, and the interval sets up and is fixed with a plurality of thing poles 41 of putting on chain 4, and the one end of putting thing pole 41 is fixed in on the face of the chain link of chain 4, and puts on 4 closed loop place planes of pole length direction perpendicular to chain of thing pole 41 to guarantee the normal rotation of chain 4, the fly ball 1 that lures that needs the viscose inserts and locates the other end of putting thing pole 41. During the use, utilize rubber coating mechanism 2 to install the fly ball 1 of luring indirectly on chain 4 and carry out the rubber coating after, utilize rubber coating mechanism 2 drive chain 4 to rotate, pivoted chain 4 can drive fly ball 1 of luring after the rubber coating and enter into aftertreatment mechanism 3 and make the viscose heated to make the viscose on the fly ball 1 of luring flow and relative equipartition in the sphere, improve fly ball of luring and spout the glue inequality, lead to spouting the not good problem of glue effect.

Referring to fig. 2, the glue applying mechanism 2 includes a frame 21, a mounting table 22, and a glue spraying assembly 23. The frame 21 stands on the ground; the mounting table 22 comprises a base 221 fixed on the frame 21, a mounting disc 222 rotatably connected to one side of the base 221, which is far away from the ground, and a control box 223 mounted on the base 221 and controlling the mounting disc 222 to rotate intermittently; a driving gear 2221 which is coaxial with the mounting disc 222 and rotates is further fixed on the mounting disc 222, and after the driving gear 2221 is sleeved with the chain 4, the chain and the driving gear 2221 which is horizontally arranged are positioned on the same horizontal plane; that is, when the chain drive device is used, the control box 223 can control the mounting plate 222 to intermittently rotate, and further control the driving gear 2221 to drive the chain 4 to intermittently rotate. The plane of the spray head 231 of the glue spraying assembly 23 is higher than the plane of the driving gear 2221, so that the spray head 231 sprays glue to the fly ball 1 from top to bottom.

During glue spraying, firstly the fly trapping ball 1 needing to be glued is inserted into the object placing rod 41, then the control box 223 controls the fly trapping ball 1 needing to be glued to intermittently rotate to the lower part of the spray head 231 of the glue spraying assembly 23, and after glue is sprayed through the spray head 231 of the glue spraying assembly 23, the control box 223 continuously controls the mounting disc 222 to intermittently rotate, so that the fly trapping ball 1 sprayed with glue is rotated away and turned to the post-processing mechanism 3, glue melting operation is carried out on the fly trapping ball 1 sprayed with glue, and meanwhile glue can be sprayed on the next fly trapping ball 1 needing to be glued.

A groove body which is positioned right below the spray head 231 of the glue spraying assembly 23 is arranged on the frame 21 so as to receive the glue flowing down from the sprayed fly trapping ball 1.

Referring to fig. 3 to 5, the post-processing mechanism 3 includes a temperature controlled chamber 31 and a plurality of guide gears 32; the two opposite sides of the temperature control chamber 31 are respectively provided with an inlet 311 and an outlet 312, the inlet 311 can allow the chain 4 and the fly ball 1 sprayed with glue by the glue coating mechanism 2 to enter the temperature control chamber 31, and the outlet 312 can allow the chain 4 and the fly ball 1 entering the temperature control chamber 31 to pass through. A water inlet pipe 313, a water outlet pipe 314 and a plurality of secondary pipelines 315 are fixed on the inner wall of the temperature control chamber 31, one end of the water inlet pipe 313 is closed, the end side wall of the water inlet pipe 313 is communicated with one end of the secondary pipeline 315, the other end of the water inlet pipe 313 extends out of the temperature control chamber 31 and is communicated with a first heat source 316, the first heat source 316 can be water with higher temperature or a hot air blower capable of discharging hot air and the like, so that the heat source is guided into the secondary pipeline 315 through the water inlet pipe 313; one end of the water outlet pipe 314 is closed, the end side wall of the water outlet pipe is communicated with the other end of the secondary pipeline 315, and the other end of the water outlet pipe 314 extends out of the temperature control chamber 31 and is communicated with a second valve 317, so that the water outlet pipe 314 is opened and closed through the second valve 317. When the temperature in the temperature controlled chamber 31 is raised by the heat source introduced into the sub-pipe 315, the second valve 317 is closed to prevent the heat source in the sub-pipe 315 from being discharged, and when the temperature needs to be lowered, the second valve 317 is opened to discharge the heat source.

Wherein, the water inlet pipe 313 and the water outlet pipe 314 are positioned on the same vertical plane, and the water inlet pipe 313 is higher than the water outlet pipe 314, so as to ensure that the heat source substance in the secondary pipeline 315 can be sufficiently discharged relatively through the water outlet pipe 314.

A plurality of temperature detectors 318 are further provided at intervals on the temperature-controlled room 31 to monitor the temperature in the temperature-controlled room 31 in real time.

A plurality of shaft rods 33 are arranged in the temperature control chamber 31 at intervals, the shaft rods 33 are vertically arranged, two ends of each shaft rod 33 are respectively fixed on the inner wall of the temperature control chamber 31, the shaft rods 33 are rotatably connected with driven gears 331, the driven gears 331 and the driving gear 2221 are positioned on the same horizontal plane, and chains 4 entering the temperature control chamber 31 from the inlet 311 are sequentially arranged on the driven gears 331 in an S shape, so that the bonding on the fly luring balls 1 entering the temperature control chamber 31 is completely melted and flows uniformly on the spherical surface, and the gluing effect is improved. The plurality of guide gears 32 are rotatably connected to one side of the outlet 312 of the temperature control chamber 31 through a frame body fixed on the ground, so that the chains 4 are sequentially sleeved, that is, under the guiding action of the guide gears 32, the chains 4 in a closed-loop structure are sleeved on the driving gear 2221, the driven gear 331 and the guide gears 32; under the action of the rotating driving gear 2221, the rotating chain 4 brings the fly trapping ball 1 sprayed with glue on the glue coating mechanism 2 into the temperature control chamber 31 for glue melting, and brings the fly trapping ball 1 out from the outlet 312, so that the glue on the fly trapping ball 1 is more uniformly distributed on the spherical surface.

On the vertical plane, the section of the bottom of the temperature control chamber 31 is in a 'V' shape, so that the viscose dropped from the fly-luring ball 1 is converged at the bottom of the temperature control chamber 31; and the bottom of the temperature control chamber 31 is communicated with a glue outlet 319 to ensure that the glue converged at the bottom of the temperature control chamber 31 can flow out.

When the fly trapping ball 1 coated with the glue by the glue coating mechanism 2 enters the temperature control chamber 31, the temperature in the temperature control chamber 31 rises under the transfer action of the first heat source 316 and the secondary pipeline 315, so that the glue on the spherical surface of the fly trapping ball 1 is melted, flows and is uniformly distributed on the spherical surface, and the redundant glue drops on the glue outlet 319 of the temperature control chamber 31, thereby solving the problem that the glue spraying effect is poor due to the uneven glue spraying of the fly trapping ball 1; in the process, the temperature in the temperature control chamber 31 can be monitored in real time through the temperature measuring instrument 318, and the temperature in the temperature control chamber 31 is controlled by controlling the temperature of the first heat source 316, so that the effect of melting and uniformly distributing the glue on the spherical surface of the fly luring ball 1 is relatively better.

The embodiment of the application further provides a use method applied to the gluing system, which comprises the following steps: the method comprises the following steps:

s1, inserting the fly ball 1 needing to be glued into one end of the object placing rod 41, and preheating the temperature control chamber 31 through the first heat source 316;

s2, controlling the mounting disc 222 to rotate intermittently through the control box 223, so that the fly trapping ball 1 needing to be glued is located below the spray head 231 of the glue spraying assembly 23, and spraying glue towards the fly trapping ball 1 through the spray head 231 of the glue spraying assembly 23; then, the gluing mechanism 2 drives the chain 4 to rotate, the fly trapping ball 1 sprayed with glue is brought into the temperature control chamber 31, and the post-processing mechanism 3 is used for heating the glue on the fly trapping ball 1;

s3, taking down the fly trapping balls 1 taken out from the outlet 312, inserting the fly trapping balls 1 needing to be glued into the object placing rod 41, and so on, and completing glue spraying of the plurality of fly trapping balls 1.

When the fly trapping device is used, the glue coating mechanism 2 is used for coating the spherical surface of the fly trapping ball 1, and in the process, the control box 223 is used for controlling the intermittent rotation speed of the mounting disc 222 so as to give consideration to the glue spraying speed of the spray head 231 of the glue spraying assembly 23 towards the fly trapping ball 1 and the running speed of the whole system (the rotation speed of the chain 4), so that the glue spraying effect is better; afterwards, under the effect of utilizing the size of the temperature of the first heat source 316 to control the size of the temperature in the temperature control chamber 31, the effect that the viscose on the fly trapping ball 1 entering the temperature control chamber 31 is melted, flows and is uniformly distributed on the spherical surface is relatively better in the rotating process of the chain 4, and the redundant viscose drips on the glue outlet 319 of the temperature control chamber 31, so that the problem that the glue spraying effect is poor due to the uneven glue spraying of the fly trapping ball 1 is solved.

Example two

Referring to fig. 7 to 9, a second embodiment of the present application relates to a glue applying system for a fly ball, which is different from the first embodiment in that:

the glue coating mechanism 2 comprises a soaking tank 24 and a heating component 25; the steeping cistern 24 is open at the top to contain the glue. At least four mutually parallel fixed shafts 241 are rotatably connected to the soaking tank 24, two of the fixed shafts 241 are respectively positioned at two ends of the opening of the soaking tank 24, and the rest of the fixed shafts 241 are positioned in the soaking tank 24 and close to the bottom of the soaking tank 24, so that the fixed shafts 241 are submerged by the viscose in the soaking tank 24; one end of one of the fixed shafts 241 is provided with a driving motor 2411, an output shaft of the driving motor 2411 is coaxially fixed at the end of the fixed shaft 241 to start the driving motor 2411 and drive the fixed shaft 241 to rotate, and the driving motor 2411 can be a speed regulating motor so as to regulate the speed. The fixed shafts 241 are fixed with first gears 242, and the planes of the first gears 242 are the same vertical plane, so that the chains 4 are sequentially wound around, and the chains 4 are driven by the rotating first gears 242 to rotate.

The heating assembly 25 includes a heating tube 251 and a second heat source 252; one end of the heating pipe 251 is communicated with a second heat source 252, and the second heat source 252 may be water with higher temperature or a hot air blower capable of discharging hot air, etc. to introduce the heat source into the heating pipe 251; the pipe part at the other end of the heating pipe 251 is surrounded and fixed on the outer wall of the soaking tank 24 in an 'S' shape so as to heat the viscose in the soaking tank 24 through the heat source in the heating pipe 251, and one end of the heating pipe 251 far away from the second heat source 252 is communicated with a first valve 2511 so as to realize the opening and closing of the heating pipe 251 through the communication of the first valve 2511, thereby being convenient for controlling the discharge of the heat source in the heating pipe 251. The outer wall of the heating pipe 251 far away from the soaking groove 24 is coated with a protective layer 26, and the protective layer 26 is made of heat insulation cotton so as to reduce the dissipation of heat of a heat source in the heating pipe 251 and relatively enhance the safety.

In the second embodiment, the plane of the driven gear 331 is a vertical plane, so that after the chain 4 is sleeved on the first gear 242, the driven gear 331 and the guide gear 32, the plane of the closed loop formed by the chain 4 is a vertical plane.

The second embodiment of the present application further provides a use method applied to the gluing system: the method comprises the following steps:

s1, inserting the fly ball 1 needing to be glued into one end of the object placing rod 41, and preheating the temperature control chamber 31 through the first heat source 316;

s2, the fixed shaft 241 is controlled to rotate through the driving motor 2411, so that the first gear 242 rotates to drive the chain 4 to rotate, the fly trapping ball 1 enters the soaking groove 24, and the gluing operation is completed; in the continuous rotating process, the fly trapping ball 1 sprayed with glue is brought into the temperature control chamber 31, and the glue on the fly trapping ball 1 is heated by the post-processing mechanism 3;

s3, taking down the fly trapping balls 1 taken out from the outlet 312, inserting the fly trapping balls 1 needing to be glued into the object placing rod 41, and so on, and completing glue spraying of the plurality of fly trapping balls 1.

Finally, the above embodiments are only used for illustrating the technical solutions of the present application and not for limiting, although the present application is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present application without departing from the spirit and scope of the technical solutions of the present application, and all the technical solutions of the present application should be covered by the claims of the present application.