CN112452651A - Intelligent epoxy resin glue smearing instrument and use method thereof - Google Patents

Abstract

The invention discloses an intelligent epoxy resin adhesive smearing instrument and a using method thereof, wherein the intelligent epoxy resin adhesive smearing instrument comprises a main rod, a rotating shell is fixedly arranged on the top surface of the main rod, an annular slide way is fixedly arranged on the top surface of the rotating shell, an annular slide block is connected in the annular slide way in a sliding manner, a base is fixedly arranged on the top surface of the annular slide block, a first through groove penetrates through the base from top to bottom, and a rotating cavity with an upward opening is arranged in the rotating shell; the invention can coat the epoxy resin adhesive on the main rod, thereby improving the coating accuracy and convenience; the mixing box is arranged, the epoxy resin and the curing agent can be mixed, and a user can control the flow of the flow valve through equipment such as a mobile phone and the like, so that the proportion of the epoxy resin and the curing agent is controlled, and the proportion is accurately controlled; after the epoxy resin and the curing agent are mixed, the epoxy resin can slowly rotate, so that the epoxy resin glue in the mixing cavity keeps flowing, and the curing is avoided.

Description

Intelligent epoxy resin glue smearing instrument and use method thereof

Technical Field

The invention relates to the technical field of epoxy resin, in particular to an intelligent epoxy resin adhesive smearing instrument and a using method thereof.

Background

The epoxy resin adhesive generally refers to an adhesive prepared by using epoxy resin as a main body, an epoxy resin curing agent is generally required to be added to cure the epoxy resin adhesive when the epoxy resin adhesive is used, and the proportion of the epoxy resin and the curing agent to be mixed is different according to different bonded objects. Generally, when in use, the user is required to mix the epoxy resin and the curing agent in a barrel, stir the mixture and then apply the mixture. This method has some disadvantages:

firstly, because the time for coating is uncertain, if the time is too long, the epoxy resin below the coating can be cured and cannot be used or the adhesiveness is reduced;

secondly, due to manual mixing, the control of the proportion is not accurate enough, and the quality of the epoxy resin adhesive is also influenced;

thirdly, other devices are needed for auxiliary use when the barreled epoxy resin adhesive is coated again, which is very inconvenient.

Disclosure of Invention

The invention aims to provide an intelligent epoxy resin glue smearing instrument and a using method thereof, which are used for overcoming the defects in the prior art.

The intelligent epoxy resin glue smearing instrument comprises a main rod, wherein a rotating shell is fixedly arranged on the top surface of the main rod, an annular slide way is fixedly arranged on the top surface of the rotating shell, an annular slide block is connected in the annular slide way in a sliding manner, a base is fixedly arranged on the top surface of the annular slide block, a first through groove penetrates through the base from top to bottom, a rotating cavity with an upward opening is arranged in the rotating shell, an outer gear extending into the rotating cavity is fixedly arranged on the bottom surface of the base, a second through groove penetrates through the outer gear from top to bottom, a motor is fixedly arranged on the bottom wall of the rotating cavity on the right side of the outer gear, a rotating shaft is arranged on the top surface of the motor, a driving gear meshed with the right tooth surface of the outer gear is fixedly arranged at the top end of the rotating shaft, a mixing box is fixedly arranged on the top surface of the base, the feeding pipe is provided with a flow valve, an air pump is arranged between the feeding pipe and the cavity, a first air outlet pipe connected with the air pump is arranged in the top wall of the feeding cavity in a communicated mode, a first air inlet pipe penetrating through the top surface of the mixing box is installed on the top surface of the air pump, a mixing cavity is arranged below the air pump and is communicated with the bottom wall of the feeding cavity through an adding pipe, a valve is arranged on the adding pipe, a rubber outlet pipe is arranged in the bottom wall of the mixing cavity in a communicated mode and is fixedly provided with a valve, the rubber outlet pipe downwards penetrates through the first through groove and the second through groove and extends into the rotating cavity, the bottom end of the main rod is fixedly provided with a contraction head, a flow pipe vertically penetrates through the contraction head and is upwards extended into the rotating cavity, the flow pipe is rotatably connected with the rubber outlet pipe through a connecting pipe, and a supporting device capable of enabling the main rod to be placed, the heating device capable of accelerating the curing speed of the epoxy resin adhesive is detachably arranged below the supporting device.

Optionally, the supporting device comprises a fixing block fixedly arranged on the main rod, three contraction grooves are formed in the inner ring of the fixing block, connecting blocks are connected in the contraction grooves in a rotating mode, and telescopic supports are fixedly arranged on the connecting blocks.

Optionally, heating device including set firmly in screw on the mobile jib, the outer detachably of mobile jib is equipped with the heating shell, run through from top to bottom in the heating shell and be equipped with the thread groove, the thread groove with threaded connection, be equipped with multiunit air jet system in the heating shell, the air jet system including set up in heater in the heating shell, the heater top surface is installed and is run through the second intake pipe of heating shell lateral surface, the heater bottom surface is installed and is run through the second outlet duct of heating shell bottom surface, the heater top be equipped with the energy accumulator in the heating shell, be equipped with the mouth that charges in the heating shell lateral surface.

Optionally, an anti-slip sleeve is fixedly arranged on the main rod between the fixing block and the thread.

Optionally, a ventilation cover is arranged in the first air inlet pipe.

Optionally, a prompt lamp is arranged in the top surface of the mixing box and outside the feeding pipe.

A use method of an intelligent epoxy resin glue smearing instrument comprises the following specific steps:

the method comprises the steps that firstly, a telescopic support is manually rotated out of a contraction groove, then the telescopic support is stretched, a main rod is placed on a plane, the top surface of a mixing box is enabled to face upwards, then a mobile phone logs in a setting interface, the flow rates of two flow valves are set on the interface according to the proportion of resin and curing agent required to be added, after the setting is completed, the resin and the curing agent are added into two placing cavities through a feeding pipe, the resin and the curing agent are respectively added into the two placing cavities, when a prompt lamp is turned on, the completion of the addition is indicated, and the addition of the resin and the curing agent is stopped;

secondly, starting an air pump, sucking air through a first air inlet pipe, discharging the air into a cavity through a first air outlet pipe, increasing the pressure intensity in the cavity, starting and opening a valve, enabling resin and a curing agent in the cavity to enter a mixing cavity for mixing, simultaneously starting a motor, driving a driving gear to rotate through a rotating shaft, driving an outer gear to rotate through the driving gear, driving a mixing box to rotate through a base through the outer gear, mixing the resin and the curing agent in the mixing cavity when the mixing box rotates, and completing epoxy resin adhesive preparation work;

thirdly, the energy accumulator is charged through an external power supply of the charging port, the heating shell is arranged on the main rod through a thread groove and threads after charging is finished, the energy accumulator supplies energy to the heater, the heater starts to work, gas is sucked from the second gas inlet pipe, is sprayed out from the second gas outlet pipe after being heated and is sprayed on the surface of an object, and the periphery of a part coated with the epoxy resin adhesive is heated;

fourthly, opening a valve to enable the mixing cavity to be communicated with the rubber outlet pipe and the flow pipe, enabling the epoxy resin adhesive in the mixing cavity to enter the flow pipe under the pressure of the gas discharged by the air pump, discharging the epoxy resin adhesive from the bottom end of the contraction head through the flow pipe, and smearing the epoxy resin adhesive on the outer surface of the object;

and fifthly, after finishing the smearing work, the air pump starts to work at the maximum power, the air enters the mixing cavity through the first air outlet pipe, enters the mixing cavity through the adding pipe, then enters the rubber outlet pipe and the flowing pipe, and discharges the redundant epoxy resin glue to avoid the blockage of the pipeline due to the solidification caused by the residual epoxy resin glue in the pipeline.

The invention has the beneficial effects that:

firstly, the main rod can be used for coating the epoxy resin adhesive, so that the coating accuracy and convenience are improved;

secondly, the invention is provided with the mixing box, the epoxy resin and the curing agent can be mixed, and a user can control the flow of the flow valve through equipment such as a mobile phone and the like, so that the proportion of the epoxy resin and the curing agent is controlled, and the proportion is accurately controlled;

thirdly, after the epoxy resin and the curing agent are mixed, the epoxy resin mixer can slowly rotate, so that the epoxy resin adhesive in the mixing cavity is ensured to keep flowing, and the curing is avoided.

Drawings

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

FIG. 1 is a schematic diagram of an intelligent epoxy glue application apparatus of the present invention;

FIG. 2 is a schematic view of the structure at A-A in FIG. 1;

FIG. 3 is a schematic view of the structure at B-B in FIG. 1;

fig. 4 is a schematic view of the mixing box of fig. 1.

Detailed Description

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 4, an intelligent epoxy resin adhesive smearing instrument according to an embodiment of the present invention includes a main rod 12, a rotating casing 42 is fixedly disposed on a top surface of the main rod 12, an annular slide way 41 is fixedly disposed on a top surface of the rotating casing 42, an annular slide block 40 is slidably connected to the annular slide way 41, a base 39 is fixedly disposed on a top surface of the annular slide block 40, a first through groove 51 is vertically penetrated in the base 39, a rotating cavity 43 with an upward opening is disposed in the rotating casing 42, an external gear 44 extending into the rotating cavity 43 is fixedly disposed on a bottom surface of the base 39, a second through groove 45 is vertically penetrated in the external gear 44, a motor 47 is fixedly disposed on a bottom wall of the rotating cavity 43 on a right side of the external gear 44, a rotating shaft 48 is mounted on a top surface of the motor 47, a driving gear 49 engaged with a right gear surface, the top surface of the base 39 is fixedly provided with the mixing box 11, the interior of the mixing box 11 is provided with the symmetrical cavity 28, the top wall of the cavity 28 is communicated with the feed pipe 30 which runs through the top surface of the mixing box 11, the feed pipe 30 is provided with the flow valve 31, the interior of the cavity 28 is provided with the air pump 33, the interior of the top wall of the cavity 28 is communicated with the first air outlet pipe 32 connected with the air pump 33, the top surface of the air pump 33 is provided with the first air inlet pipe 35 which runs through the top surface of the mixing box 11, the lower part of the air pump 33 is provided with the mixing cavity 38, the mixing cavity 38 is communicated with the bottom wall of the cavity 28 through the adding pipe 37, the adding pipe 37 is provided with the valve 36, the bottom wall of the mixing cavity 38 is communicated with the rubber outlet pipe 50, the rubber outlet pipe 50 is fixedly provided with the valve 52, the rubber outlet pipe 50 downwards passes through the, the bottom end of the main rod 12 is fixedly provided with a contraction head 18, a flow pipe 27 penetrates through the contraction head 18 from top to bottom, the flow pipe 27 extends upwards into the rotation cavity 43, the flow pipe 27 is rotatably connected with the rubber outlet pipe 50 through a connecting pipe 46, a supporting device 101 capable of enabling the main rod 12 to be placed on a plane is fixedly arranged on the main rod 12, and a heating device 102 capable of accelerating the curing speed of epoxy resin adhesive is detachably arranged below the supporting device 101.

Preferably, strutting arrangement 101 including set firmly in fixed block 13 on the mobile jib 12, fixed block 13 inner ring is equipped with three shrink groove 19, shrink 19 internal rotation of groove is connected with connecting block 20, telescopic bracket 21 has set firmly on the connecting block 20, can place mobile jib 12 on the plane and make mixing box 11 top surface upwards through three telescopic bracket 21, conveniently to putting into adding curing agent and resin in the chamber 28.

Preferably, the heating means 102 comprises a thread 26 fixed to the stem 12, a heating shell 16 is detachably arranged outside the main rod 12, a thread groove 17 is arranged in the heating shell 16 in a vertical penetrating way, the thread groove 17 is in threaded connection with the thread 26, a plurality of groups of air injection devices 103 are arranged in the heating shell 16, the air injection device 103 comprises a heater 24 arranged in the heating shell 16, a second air inlet pipe 23 penetrating through the outer side surface of the heating shell 16 is arranged on the top surface of the heater 24, a second air outlet pipe 25 penetrating the bottom surface of the heating housing 16 is installed on the bottom surface of the heater 24, an energy accumulator 22 is arranged in the heating shell 16 above the heater 24, a charging port 15 is arranged in the outer side surface of the heating shell 16, the epoxy resin adhesive can be prevented from being cracked due to local heating while the curing speed of the epoxy resin adhesive is increased.

Preferably, an anti-slip sleeve 14 is fixedly arranged on the main rod 12 between the fixing block 13 and the thread 26, and the anti-slip sleeve 14 can prevent the main rod 12 from sliding when a user uses the device by hand, so that the epoxy resin glue is not uniformly applied.

Preferably, a ventilation cover 34 is arranged in the first air inlet pipe 35, and the ventilation cover 34 can prevent impurities from entering the air pump 33.

Preferably, a prompt lamp 29 is arranged in the top surface of the mixing box 11 outside the filling pipe 30, and the prompt lamp 29 is lightened to indicate that the adding is finished.

A use method of an intelligent epoxy resin glue smearing instrument comprises the following specific steps:

step one, manually rotating the telescopic support 21 out of the contraction tank 19, stretching the telescopic support 21, placing the main rod 12 on a plane and ensuring that the top surface of the mixing box 11 faces upwards, logging in a setting interface through a mobile phone, setting the flow of two flow valves 31 on the interface according to the proportion of resin and curing agent required to be added, adding the resin and the curing agent into the placing cavity 28 through the feeding pipe 30 after the setting is finished, respectively adding the resin and the curing agent into the two placing cavities 28, and stopping adding the resin and the curing agent when the prompt lamp 29 is turned on to indicate that the adding is finished;

secondly, starting the air pump 33, sucking air through the first air inlet pipe 35, discharging the air into the cavity 28 through the first air outlet pipe 32, increasing the pressure in the cavity 28 to open the valve 36, mixing the resin and the curing agent in the cavity 28 into the mixing cavity 38, simultaneously, starting the motor 47 to drive the driving gear 49 to rotate through the rotating shaft 48, driving the external gear 44 to rotate through the driving gear 49, driving the mixing box 11 to rotate through the base 39 through the external gear 44, and mixing the resin and the curing agent in the mixing cavity 38 when the mixing box 11 rotates to complete the preparation work of the epoxy resin adhesive;

thirdly, the energy storage device 22 is charged through an external power supply of the charging port 15, the heating shell 16 is installed on the main rod 12 through the thread groove 17 and the thread 26 after charging is completed, at the moment, the energy storage device 22 supplies energy to the heater 24, the heater 24 starts to work, gas is sucked from the second air inlet pipe 23, is sprayed out from the second air outlet pipe 25 after being heated, and is sprayed on the surface of an object to heat the periphery of a part coated with epoxy resin glue;

fourthly, the valve 52 is opened, so that the mixing cavity 38 is communicated with the rubber outlet pipe 50 and the flow pipe 27, the epoxy resin glue in the mixing cavity 38 enters the flow pipe 27 under the pressure of the gas discharged by the gas pump 33, and is discharged from the bottom end of the contraction head 18 through the flow pipe 27 and smeared on the outer surface of the object;

and fifthly, after finishing the smearing work, starting maximum power work of the air pump 33, enabling air to enter the cavity 28 through the first air outlet pipe 32, enter the mixing cavity 38 through the adding pipe 37, then enter the rubber outlet pipe 50 and the flowing pipe 27, and discharging redundant epoxy resin glue to avoid the phenomenon that the residual epoxy resin glue in the pipeline is solidified to block the pipeline.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. The utility model provides an instrument is paintd to intelligence epoxy glue, includes the mobile jib, its characterized in that: the top surface of the main rod is fixedly provided with a rotating shell, the top surface of the rotating shell is fixedly provided with an annular slide way, the annular slide way is internally and slidably connected with an annular slide block, the top surface of the annular slide block is fixedly provided with a base, a first through groove penetrates through the base from top to bottom, a rotating cavity with an upward opening is arranged in the rotating shell, the bottom surface of the base is fixedly provided with an external gear extending into the rotating cavity, a second through groove penetrates through the external gear from top to bottom, a motor is fixedly arranged on the bottom wall of the rotating cavity on the right side of the external gear, the top surface of the motor is provided with a rotating shaft, the top end of the rotating shaft is fixedly provided with a driving gear meshed with the right tooth surface of the external gear, the top surface of the base is fixedly provided with a mixing box, a position-symmetrical, the air pump is arranged between the placing cavities, a first air outlet pipe connected with the air pump is arranged in the top wall of the placing cavity in a communicated mode, a first air inlet pipe penetrating through the top surface of the mixing box is installed on the top surface of the air pump, a mixing cavity is arranged below the air pump, the mixing cavity is communicated with the bottom wall of the placing cavity through an adding pipe, a valve is arranged on the adding pipe, a rubber outlet pipe is arranged in the bottom wall of the mixing cavity in a communicated mode, a valve is fixedly arranged on the rubber outlet pipe, the rubber outlet pipe downwards penetrates through the first through groove and the second through groove and extends into the rotating cavity, a contraction head is fixedly arranged at the bottom end of the main rod, a flow pipe vertically penetrates through the contraction head and extends upwards into the rotating cavity, the flow pipe is rotatably connected with the rubber outlet pipe through a connecting pipe, and a supporting device capable of enabling the main rod to be placed on, the heating device capable of accelerating the curing speed of the epoxy resin adhesive is detachably arranged below the supporting device.

2. The intelligent epoxy glue smearing instrument as claimed in claim 1, wherein: the supporting device comprises a fixing block fixedly arranged on the main rod, three contraction grooves are formed in the inner ring of the fixing block, connecting blocks are connected in the contraction grooves in a rotating mode, and telescopic supports are fixedly arranged on the connecting blocks.

3. The intelligent epoxy glue smearing instrument as claimed in claim 1, wherein: heating device including set firmly in screw thread on the mobile jib, the outer detachably of mobile jib is equipped with the heating shell, run through from top to bottom in the heating shell and be equipped with the thread groove, the thread groove with threaded connection, be equipped with multiunit air jet system in the heating shell, the air jet system including set up in heater in the heating shell, the heater top surface is installed and is run through the second intake pipe of heating shell lateral surface, the heater bottom surface is installed and is run through the second outlet duct of heating shell bottom surface, the heater top be equipped with the energy accumulator in the heating shell, be equipped with the mouth that charges in the heating shell lateral surface.

4. The intelligent epoxy glue smearing instrument as claimed in claim 1, wherein: and an anti-slip sleeve is fixedly arranged on the main rod between the fixed block and the thread.

5. The intelligent epoxy glue smearing instrument as claimed in claim 1, wherein: a ventilation cover is arranged in the first air inlet pipe.

6. The intelligent epoxy glue smearing instrument as claimed in claim 1, wherein: and a prompt lamp is arranged in the top surface of the mixing box outside the feeding pipe.

7. The using method of the intelligent epoxy resin glue smearing instrument is characterized by comprising the following specific steps:

the method comprises the steps that firstly, a telescopic support is manually rotated out of a contraction groove, then the telescopic support is stretched, a main rod is placed on a plane, the top surface of a mixing box is enabled to face upwards, then a mobile phone logs in a setting interface, the flow rates of two flow valves are set on the interface according to the proportion of resin and curing agent required to be added, after the setting is completed, the resin and the curing agent are added into two placing cavities through a feeding pipe, the resin and the curing agent are respectively added into the two placing cavities, when a prompt lamp is turned on, the completion of the addition is indicated, and the addition of the resin and the curing agent is stopped;

secondly, starting an air pump, sucking air through a first air inlet pipe, discharging the air into a cavity through a first air outlet pipe, increasing the pressure intensity in the cavity, starting and opening a valve, enabling resin and a curing agent in the cavity to enter a mixing cavity for mixing, simultaneously starting a motor, driving a driving gear to rotate through a rotating shaft, driving an outer gear to rotate through the driving gear, driving a mixing box to rotate through a base through the outer gear, mixing the resin and the curing agent in the mixing cavity when the mixing box rotates, and completing epoxy resin adhesive preparation work;

thirdly, the energy accumulator is charged through an external power supply of the charging port, the heating shell is arranged on the main rod through a thread groove and threads after charging is finished, the energy accumulator supplies energy to the heater, the heater starts to work, gas is sucked from the second gas inlet pipe, is sprayed out from the second gas outlet pipe after being heated and is sprayed on the surface of an object, and the periphery of a part coated with the epoxy resin adhesive is heated;

fourthly, opening a valve to enable the mixing cavity to be communicated with the rubber outlet pipe and the flow pipe, enabling the epoxy resin adhesive in the mixing cavity to enter the flow pipe under the pressure of the gas discharged by the air pump, discharging the epoxy resin adhesive from the bottom end of the contraction head through the flow pipe, and smearing the epoxy resin adhesive on the outer surface of the object;

and fifthly, after finishing the smearing work, the air pump starts to work at the maximum power, the air enters the mixing cavity through the first air outlet pipe, enters the mixing cavity through the adding pipe, then enters the rubber outlet pipe and the flowing pipe, and discharges the redundant epoxy resin glue to avoid the blockage of the pipeline due to the solidification caused by the residual epoxy resin glue in the pipeline.

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