CN210815152U - Rapid glue melting equipment - Google Patents

Abstract

The utility model provides a quick melten gel equipment relates to heating melten gel equipment technical field, has solved among the prior art technical problem that the site operation melten gel time is slow, the energy consumption is big, work efficiency is low, the melten gel quality is poor. This quick melten gel equipment includes base, staving, infrared heater, heating agitating unit and rotary device, and infrared heater sets up in the staving lateral wall to with premixing device intercommunication, in the heating agitating unit lower extreme stretched into the staving, so set up, infrared heater carried out by outer and interior heating through the mode of heat radiation to the raw materials of treating heating. The lower end of the heating and stirring device extends into the barrel body, and is directly contacted with the raw material to be heated, and the raw material to be heated is heated from inside to outside in a heat conduction mode. The rotary device drive is waited to heat the raw materials and is rotated for heating agitating unit, and both cooperate for internal heat convection of staving, the utility model is used for improve the work efficiency of melten gel equipment.

Description

Rapid glue melting equipment

Technical Field

The utility model belongs to the technical field of heating melten gel equipment technique and specifically relates to a quick melten gel equipment is related to.

Background

The hot melt adhesive, the asphalt coating or other high polymer heating coatings are used after being heated by the glue melting equipment. At present, the heating of the heating paint is mainly electric heating, heating wires or electric couples and other electric heating elements are adopted to heat and melt the heating object, and fuel combustion is also adopted as a heat source. The electric heating mode is mostly resistance-type heating, and heat utilization rate is low, can only reach 30% to power consumption is huge, and the power supply network load is big in the use, often appears the condition such as overload. The fuel combustion is the most traditional form, the heat of the fuel needs to be converted through a heat conducting medium, the utilization rate of the heat is only 15%, and the equipment using the fuel combustion as a heat source is large in size and poor in use convenience.

In the prior art, for example, a thermal bucket remover is powered by an electric heating tube to generate heat, the heat is reflected to the wall of a paint bucket in a radiation mode, and then the heat is transferred to paint in a heat conduction mode. The heating mode has the advantages of huge power consumption, only 10% of heat utilization rate, no effective utilization of most heat loss, long glue melting time, and 1 hour of heating 20L of asphalt paint to 150 ℃.

Rainbow wind-powered electricity generation thermosol machine, the heating method is the electric heat form equally, has increased rotation and stirring function, and the electric heat original paper is buried in the bucket, has improved heat utilization and has rateed to rotatory stirring has prevented the overheated degeneration of coating. But the electricity consumption is huge in the same electric heating mode, the heat loss of the coating is not controlled in the heating process, part of heat loss to the environment is not fully utilized, the glue melting time is long, and it takes 25min to melt 20L of asphalt coating.

The fuel oil glue dissolving machine is large in size, generates heat by burning diesel oil and other energy sources, transfers the heat to the coating through the heat conduction oil, can melt the large-size coating, but is low in heat utilization rate and serious in energy consumption. The equipment is large in size, can reach 4 cubes, and is poor in use convenience.

Therefore, how to solve the technical problems of slow glue melting time, large energy consumption, low working efficiency and poor glue melting quality in field construction in the prior art becomes an important technical problem to be solved by the personnel in the field.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a quick melten gel equipment has solved the technical problem that the site operation melten gel time is slow among the prior art, the energy consumption is big, work efficiency is low, the melten gel quality is poor. The utility model provides a plurality of technical effects that preferred technical scheme among a great deal of technical scheme can produce see the explanation below in detail.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a quick melten gel equipment, include: a base; the barrel body is used for containing raw materials to be heated and is fixedly arranged above the base; the infrared heater is arranged on the side wall of the barrel body, and an air inlet of the infrared heater is communicated with a premixing device for mixing gas and air; the heating and stirring device is erected above the barrel body, and the lower end of the heating and stirring device extends into the barrel body; and the rotating device is used for driving the raw materials to be heated in the barrel body to move and is arranged at the bottom of the barrel body.

Preferably, the heating and stirring device comprises a stirring bracket, a movable rod which can move vertically relative to the stirring bracket, a stirring assembly and a heating assembly, wherein the stirring assembly and the heating assembly are arranged at the lower part of the movable rod and can extend into the barrel body.

Preferably, the stirring assembly comprises a connecting pipe connected with the moving rod and stirring blades arranged along the circumferential direction of the connecting pipe, the upper end of each stirring blade is fixedly connected with the connecting pipe, the lower end of each stirring blade extends along the vertical direction to a direction gradually far away from the axis of the connecting pipe, and a counterweight pressing block is arranged on the connecting pipe; the heating assembly comprises a heating pipe and a connecting wire, the heating pipe is connected with the lower end of the stirring blade, the connecting wire is used for connecting the heating pipe with a power supply, and the moving rod and the connecting pipe are internally provided with hollow structures for the connecting wire to pass through.

Preferably, the heating and stirring device further comprises a containing shell with a lower opening for containing the stirring assembly, and a cover body arranged on the lower circumferential part of the outer side wall of the containing shell and used for shielding the upper opening of the barrel body, wherein the moving rod penetrates through the top of the containing shell.

Preferably, a limiting assembly is arranged between the accommodating shell and the moving rod, and the limiting assembly comprises a limiting sleeve fixedly arranged at the top of the accommodating shell and used for the moving rod to penetrate through, a plurality of positioning holes axially arranged along the moving rod, and a positioning pin penetrating through the side wall of the limiting sleeve and extending into any one of the positioning holes.

Preferably, the rotating device comprises a rotating bottom plate arranged on the inner side of the barrel body, a rotating table assembly arranged between the rotating bottom plate and the bottom of the barrel body, and a motor for driving the rotating table assembly to move.

Preferably, the revolving stage subassembly includes inner drive axle, outer sleeve and bearing, inner drive axle one end with motor output shaft transmission is connected, the other end with rotating bottom plate fixed connection, the outer sleeve with staving bottom fixed connection, the bearing set up in the outer sleeve with between the inner drive axle.

Preferably, the barrel body comprises an inner barrel and an outer barrel sleeved outside the inner barrel, and a heat insulation layer is arranged between the inner barrel and the outer barrel; and a heat-insulating bottom plate is arranged between the rotating bottom plate and the bottom surface of the inner side of the barrel body, and the heat-insulating bottom plate is sleeved outside the outer sleeve.

Preferably, the base comprises a housing and a support frame arranged inside the housing, and the premixing device is fixedly arranged on the support frame.

Preferably, a plurality of control buttons are included for controlling the operation of the rotating device, the premixing device and the heating and stirring device, respectively.

The utility model provides a quick melten gel equipment, including base, staving, infrared heater, heating agitating unit and rotary device, infrared heater sets up in the lateral wall of staving, and infrared heater is provided with the air inlet, and air inlet and premixing device intercommunication to the gas and the air admission that supply to mix are inside to react. The heating and stirring device is erected above the barrel body, and the lower end of the heating and stirring device extends into the barrel body to stir and heat the raw materials to be heated in the barrel body. The rotating device is arranged at the bottom of the barrel body and used for driving the raw materials to be heated in the barrel body to move. So set up, put into in the barrel and wait to heat the raw materials, infrared heater adopts the far infrared radiation heating technique, have energy-conservation, the heating intensifies soon, pollution-free, characteristics that the thermal efficiency is high, and use the gas as the energy, the gas reacts the heat production in getting into infrared heater promptly, infrared heater turns into the infrared radiation transmission with the produced heat energy of burning, treat through the mode of heat radiation and heat the raw materials and carry out by outer and interior heating, more effectively by waiting to heat the raw materials absorption, the physical heat loss that has significantly reduced. The lower end of the heating and stirring device extends into the barrel body, and is directly contacted with the raw material to be heated, and the raw material to be heated is heated from inside to outside in a heat conduction mode. The heating and stirring device and the infrared heater can form two-way heating from inside to outside and from outside to inside on the raw materials to be heated, thereby greatly reducing the heating time and improving the heating efficiency. The raw materials to be heated in the rotating device driving barrel body move relative to the heating and stirring device, the rotating device and the heating and stirring device are matched for use, heat convection in the raw materials to be heated can be accelerated, the heating uniformity of the raw materials to be heated is improved, local overheating is prevented, the melt adhesive quality is improved, and the technical problems that in the prior art, the melt adhesive time in field construction is slow, the energy consumption is large, the working efficiency is low, and the melt adhesive quality is poor are solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic position diagram of a base, a barrel and an infrared heater provided by an embodiment of the present invention;

fig. 2 is a schematic view of the interior of a base provided by an embodiment of the present invention;

FIG. 3 is a schematic view of the overall structure of the fast glue melting apparatus according to the embodiment of the present invention;

FIG. 4 is a schematic view of a heating and stirring apparatus provided in an embodiment of the present invention;

FIG. 5 is a cross-sectional view of a heating and stirring apparatus provided in an embodiment of the present invention;

fig. 6 is a schematic diagram of the position of the stirring blade provided by the embodiment of the present invention;

fig. 7 is a schematic structural view of a stirring bracket provided by an embodiment of the present invention;

fig. 8 is a schematic structural view of a turntable assembly according to an embodiment of the present invention;

fig. 9 is a schematic view of a supporting frame structure provided by an embodiment of the present invention.

FIG. 1-base; 101-a housing; 102-a support frame; 2, a barrel body; 201-inner barrel; 202-an outer tub; 203-insulating layer; 3-an infrared heater; 4-an air inlet; 5-a premixing device; 6-stirring the support; 601-upright column; 602-a cross-post; 603-a guide sleeve; 7-moving the rod; 8-a stirring component; 801-connecting pipe; 802-stirring blade; 803-counterweight pressing block; 9-a heating assembly; 901-heating a pipe; 10-a containment shell; 11-a cover body; 12-a stop collar; 13-positioning holes; 14-a locating pin; 15-a rotating table assembly; 1501-inner drive shaft; 1502-an outer sleeve; 1503-a bearing; 16-an electric machine; 17-control buttons; 18-rotating the base plate; 19-heat preservation bottom plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

An object of the utility model is to provide a quick melten gel equipment has solved the technical problem that the site operation melten gel time is slow among the prior art, the energy consumption is big, work efficiency is low, the melten gel quality is poor.

Hereinafter, embodiments will be described with reference to the drawings. The embodiments described below do not limit the scope of the invention described in the claims. Further, the entire contents of the configurations shown in the following embodiments are not limited to those necessary as a solution of the invention described in the claims.

Referring to fig. 1-3, the utility model provides a quick melten gel equipment, including base 1, staving 2, infrared heater 3, heating agitating unit and rotary device, 2 fixed connection of staving are in the top of base 1, and 2 insides of staving are used for holding the raw materials of waiting to heat. The infrared heater 3 is arranged at the opening of the side wall of the barrel body 2, and the two infrared heaters 3 can be arranged oppositely to enhance the radiation heating effect. An air inlet 4 of the infrared heater 3 is communicated with a premixing device 5, and the premixing device 5 is used for mixing fuel gas and air in proportion and then conveying the mixture into the infrared heater 3 for reaction. The heating and stirring device is erected above the barrel body 2, namely, the part of the heating and stirring device, which is positioned outside the barrel body 2, can be fixedly connected with the barrel body 2, the base 1 or the ground so as to support and fix the heating and stirring device, and the lower end of the heating and stirring device extends into the barrel body 2 so as to stir and heat the raw materials to be heated in the barrel body 2. The rotating device is arranged at the bottom of the barrel body 2 and used for driving the raw materials to be heated in the barrel body 2 to move. So set up, put into in the staving 2 and wait to heat the raw materials, infrared heater 3 adopts the far infrared radiation heating technique, have energy-conservation, the heating intensifies soon, pollution-free, characteristics that the thermal efficiency is high, and use the gas as the energy, the gas reacts the heat production in getting into infrared heater 3 promptly, infrared heater 3 turns into the produced heat energy of burning infrared radiation transmission, treat through the mode of heat radiation and heat the raw materials and carry out by outer and interior heating, more effectively by waiting to heat the raw materials absorption, the physical heat loss that has significantly reduced. The lower end of the heating and stirring device extends into the barrel body 2, and is directly contacted with the raw material to be heated, and the raw material to be heated is heated from inside to outside in a heat conduction mode. The heating and stirring device and the infrared heater 3 can form two-way heating from inside to outside and from outside to inside on the raw materials to be heated, thereby greatly reducing the heating time and improving the heating efficiency. The raw materials that wait to heat in rotary device drive staving 2 move to make it rotate for heating agitating unit, rotary device and heating agitating unit cooperation are used, and one moves one quiet, can wait to heat the raw materials and carry out intensive mixing, improves the degree of consistency of being heated of waiting to heat the raw materials, prevents local overheat, has improved the melten gel quality. Heating agitating unit, infrared heater 3 and rotary device cooperation, through the compounding of hot convection, thermal radiation and hot-conducting multiple heating methods, greatly improved heating efficiency, reduced energy consumption, solved among the prior art field construction melten gel time slow, the energy consumption is big, work efficiency is low, the technical problem of melten gel poor quality.

Among them, the far infrared ray radiation heating technology is a new technology developed in recent years. The far infrared ray is used for heat transfer by radiation, and energy is transferred by electromagnetic waves, and no medium is needed for energy loss in the middle. When far infrared rays are irradiated to an object to be heated, a part of the rays is reflected and a part is transmitted. When the wavelength of the emitted far infrared ray is consistent with the absorption wavelength of the heated object, the heated object absorbs a large amount of far infrared ray, at this time, molecules and atoms in the object generate 'resonance', strong vibration and rotation are generated, and the vibration and rotation increase the temperature inside and outside the object at the same time, thereby achieving the purpose of heating.

Optionally, the infrared heater 3 may include a combustion chamber communicated with the air inlet 4 and an infrared radiation plate disposed in the combustion chamber, external fuel gas is introduced into the combustion chamber, the fuel gas is uniformly dispersed on the inner surface of the infrared radiation plate through preheating catalysis, oxygen in the air and the fuel gas on the inner surface react under the condition of low-temperature preheating catalysis, atoms in the reaction process transition from high energy level to low energy level, release a large amount of energy, and overflow in the form of far infrared rays. And far infrared rays have a certain penetration ability. When the far infrared energy is radiated on the surface of an object, atoms or molecules in the object can resonate after the object absorbs the far infrared energy, so that the atoms or molecules vibrate at high speed and collide with each other to increase the temperature of the atoms or molecules, and when the resonant frequency is consistent with the far infrared frequency, matched absorption can occur, so that the object can absorb the far infrared energy to the maximum extent. Matching absorption is of great significance to heating of the object.

The premixing device 5 combines the gas with the air to achieve a combustion ratio, the gas is uniformly mixed, the pressure is stable, the gas is uniform and sufficient, and the premixing device 5 can be arranged at the bottom of the rapid glue melting equipment. The premixing device 5 and the infrared heater 3 can adopt a full premixing combustion mode, so that the energy consumption is reduced, the combustion efficiency is improved, and the environmental pollution is reduced. The premixing device 5 is used for completely mixing fuel and air before entering a nozzle of a combustion chamber, and fully stirring and mixing gas molecules through a premixing cavity, so that the mixing is more complete, the combustion speed is not limited by physical conditions such as gas diffusion speed and the like, and the combustion speed is higher and the efficiency is higher. Structures or devices for premixing gas and air are well known in the art and will not be described in detail herein.

Referring to fig. 3-7, as the optional implementation manner of the embodiment of the present invention, the heating and stirring device includes a stirring support 6, a moving rod 7, a stirring assembly 8 and a heating assembly 9, the stirring support 6 may include two vertical columns 601 arranged side by side and a horizontal column 602 connecting the two vertical columns 601, a guide sleeve 603 for the moving rod 7 to run through may be fixedly disposed on the horizontal column 602, the position of the guide sleeve 603 may deviate from the center position of the horizontal column 602, so that the stirring assembly 8 deviates from the axis of the barrel body 2, thereby enhancing the stirring effect. The user pulls the upper end of the moving rod 7, so that the moving rod 7 can move vertically relative to the guide sleeve 603, so as to adjust the distance that the stirring assembly 8 and the heating assembly 9 extend into the barrel body 2. The guide sleeve 603 and the moving rod 7 can be square pipes. The lower end of the upright column 601 can stand on the ground, or the lower end of the upright column 601 can be fixedly connected to the base 1 or the barrel body 2, so that the heating and stirring device can be static relative to the barrel body 2, the raw material to be heated in the barrel body 2 driven by the rotating device rotates relative to the heating and stirring device, and the stirring assembly 8 and the heating assembly 9 in the barrel body 2 can be extended to realize stirring and heating of the raw material to be heated.

Further, stirring subassembly 8 includes connecting pipe 801 and stirring vane 802, connecting pipe 801 can with carriage release lever 7 fixed connection, stirring vane 802 can evenly be provided with a plurality ofly along connecting pipe 801's circumference, stirring vane 802's upper end all with connecting pipe 801 fixed connection, the lower extreme extends to the direction of keeping away from connecting pipe 801 axis gradually along vertical direction, stirring vane 802 is by the slope setting of last relative to connecting pipe 801 down, so that increase stirring subassembly 8's shared space, stirring effect is good. The stirring blades 802 may be helical blades, which can further enhance the stirring effect. The connecting pipe 801 is sleeved with a counterweight pressing block 803, so that the stirring blade 802 can gradually and naturally sink by means of the weight of the stirring blade 802 after reaching the upper surface of the raw material to be heated.

Further, the heating assembly 9 includes a heating pipe 901 and a connecting wire, the heating pipe 901 may be a circular ring-shaped tubular structure, the lower ends of the stirring blades 802 are all fixedly connected to the heating pipe 901, and the connecting wire is an electric wire for connecting the heating pipe 901 to a power supply and supplying power to the connecting pipe 801. The connecting pipe 801 can be communicated with the heating pipe 901, and the moving rod 7 and the connecting pipe 801 are both provided with hollow structures for the connecting line to penetrate through so as to protect the connecting line.

As the embodiment of the utility model provides an optional embodiment, heating agitating unit is still including holding shell 10 and connecting at the lid 11 that holds shell 10 lateral wall lower part circumference, and lid 11 is used for sheltering from the opening on 2 upper portions of staving to keep warm to 2 inner spaces of staving. The middle part of the cover body 11 is provided with an opening for the stirring assembly 8 and the heating assembly 9 to pass through. The receiving shell 10 is open at a lower portion thereof for the passage of the stirring assembly 8 into the inner cavity of the receiving shell 10. The movable rod 7 penetrates through the top of the accommodating shell 10 and can vertically move relative to the accommodating shell 10, and the movable rod 7 is arranged in such a way that before the heating barrel is used, the movable rod 7 penetrates through the accommodating shell 10 to be assembled, the stirring assembly 8 is positioned in a cavity in the accommodating shell 10, then the assembled whole body is placed into the barrel body 2, the cover body 11 is positioned above a raw material to be heated, and the stirring assembly 8 and the heating assembly 9 are gradually sunk to a position below the cover body 11 by self weight so as to gradually stir and heat the raw material to be heated; after the heating is accomplished, the user can go up pull movable rod 7, and it is internal to receive again and hold shell 10 with stirring subassembly 8 and heating element 9, and the colloid that forms after the controllable part treats heating raw materials heating is put or is put to the side with whole after the equipment, and the colloid on stirring subassembly 8 and the heating element 9 all can be preserved in holding shell 10 inner chambers, avoids the colloid to run off extravagantly.

Further, a limiting assembly is arranged between the accommodating shell 10 and the moving rod 7, the limiting assembly comprises a limiting sleeve 12, a plurality of positioning holes 13 and a positioning pin 14, the limiting sleeve 12 is fixedly connected to the top opening of the accommodating shell 10, and the moving rod 7 can vertically move relative to the limiting sleeve 12. A plurality of locating holes 13 set up along the carriage release lever 7 axial, and stop collar 12 lateral wall is provided with the through-hole, and locating pin 14 runs through the through-hole of stop collar 12 lateral wall and can stretch into arbitrary locating hole 13 in for through penetrating and wearing out of locating pin 14, the realization is to holding shell 10 and carriage release lever 7's position control and fixed, with the whereabouts distance of adjusting stirring subassembly 8 and heating element 9.

Referring to fig. 3 and 8, as an optional implementation manner of the embodiment of the present invention, the rotating device includes a rotating base plate 18, a rotating table assembly 15 and a motor 16, the rotating base plate 18 is located inside the barrel body 2, and an outer diameter of the rotating base plate 18 is smaller than an inner diameter of the barrel body 2, so that the lower colloid flows out. Revolving stage subassembly 15 upper end is connected with swivel base plate 18, and the lower extreme is connected with 2 bottoms of staving, and motor 16's output shaft drives revolving stage subassembly 15 motion, and then drives swivel base plate 18 and rotates to drive the interior raw materials motion of treating of staving 2, the drive mode is simple, and the operation is convenient.

Further, the rotating platform assembly 15 includes an inner transmission shaft 1501, an outer sleeve 1502 and a bearing 1503, one end of the inner transmission shaft 1501 is in transmission connection with an output shaft of the motor 16, and the other end of the inner transmission shaft is fixedly connected with the rotating base plate 18, that is, the motor 16 can be disposed in the inner cavity of the base 1, the output shaft of the motor 16 penetrates through the bottoms of the base 1 and the barrel 2 and then is connected with the inner transmission shaft 1501, and optionally, a connecting hole is disposed at the lower end of the inner transmission shaft 1501 so as to be fixedly connected with the output. The outer sleeve 1502 is fixedly connected with the bottom of the barrel body 2, the bearing 1503 is arranged between the outer sleeve 1502 and the inner transmission shaft 1501, and at least two bearings 1503 can be arranged along the axial direction of the inner transmission shaft 1501 so as to enable the rotation stress to be more uniform. So set up, the output shaft of motor 16 drives inner drive shaft 1501 and rotates, and then drives swivel base plate 18 and rotates, and the motion is nimble. Wherein a sealing baffle is arranged between the outer sleeve 1502 and the rotating bottom plate 18. The rotating base plate 18 and the inner transmission shaft 1501 can be detachably connected, such as bolted or clamped, so as to facilitate cleaning.

Further, the barrel body 2 comprises an inner barrel 201 and an outer barrel 202 sleeved outside the inner barrel, a heat insulation layer 203 is filled between the inner barrel 201 and the outer barrel 202, and the heat insulation layer 203 can be made of polyurethane, aerogel felt and the like, so as to prevent heat dissipation. A heat insulation bottom plate 19 is arranged between the rotating bottom plate 18 and the bottom surface of the inner side of the barrel body 2, the heat insulation bottom plate 19 is sleeved outside an outer sleeve 1502, and an annular groove or a shaft shoulder structure can be arranged on the upper portion of the outer sleeve, so that the heat insulation bottom plate 19 can be installed and positioned conveniently.

Referring to fig. 2 and 9, the base 1 includes a housing 101 and a support frame 102, the support frame 102 is disposed inside the housing 101, the support frame 102 may include a frame structure formed by a plurality of cross bars and a plurality of vertical bars, and the support frame 102 is fixedly connected to the premixing device 5 to fixedly support the premixing device 5. The side wall of the housing 101 is provided with a plurality of ventilation holes for facilitating air circulation. The outlet of the premixing device 5 is communicated with the air inlet 4 of the infrared heater 3 through a joint and an air conveying pipe.

Referring to fig. 1, the present invention further comprises a plurality of control buttons 17, which can be disposed on the sidewall of the base 1, the control buttons 17 can use a knob switch, the model can be LA38-11X/21, and the control buttons 17 are respectively connected to the fan of the motor 16 and the premixing device 5 and the switch circuit of the heating pipe 901, and are respectively used to control the opening and closing of the rotating device, the premixing device 5 and the heating and stirring device.

Further, the outside of the installation position of the control button 17 is wrapped with a heat insulation plate and/or an insulation plate for performing heat insulation or insulation protection on the circuit at the control button 17, so as to avoid the influence of the overhigh temperature of the external environment or other components on the normal use of the internal components thereof.

The outer side wall of the barrel body 2 or the base 1 is provided with a protection mark for prompting and protecting a user to prevent the user from being injured at high temperature.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a quick melten gel equipment which characterized in that includes:

a base (1);

the barrel body (2) is used for containing raw materials to be heated and is fixedly arranged above the base (1);

the infrared heater (3) is arranged on the side wall of the barrel body (2), and an air inlet (4) of the infrared heater (3) is communicated with a premixing device (5) for mixing gas and air;

the heating and stirring device is erected above the barrel body (2) and the lower end of the heating and stirring device extends into the barrel body (2);

the rotating device is used for driving the raw materials to be heated in the barrel body (2) to move and is arranged at the bottom of the barrel body (2).

2. The fast melt adhesive equipment according to claim 1, wherein the heating and stirring device comprises a stirring bracket (6), a moving rod (7) which can move vertically relative to the stirring bracket (6), a stirring assembly (8) which is arranged at the lower part of the moving rod (7) and can extend into the barrel body (2), and a heating assembly (9).

3. The fast melt adhesive apparatus according to claim 2, wherein the stirring assembly (8) comprises a connecting pipe (801) connected with the moving rod (7) and a stirring blade (802) arranged along the circumference of the connecting pipe (801), the upper end of the stirring blade (802) is fixedly connected with the connecting pipe (801), the lower end of the stirring blade extends along the vertical direction to the direction gradually far away from the axis of the connecting pipe (801), and a counterweight pressing block (803) is arranged on the connecting pipe (801); the heating assembly (9) comprises a heating pipe (901) connected with the lower end of the stirring blade (802) and a connecting wire used for connecting the heating pipe (901) with a power supply, and hollow structures used for allowing the connecting wire to pass through are arranged in the moving rod (7) and the connecting pipe (801).

4. The fast melt adhesive equipment according to claim 2, wherein the heating and stirring device further comprises a containing shell (10) with a lower opening for containing the stirring assembly (8) and a cover body (11) arranged on the lower circumferential part of the outer side wall of the containing shell (10) for shielding the upper opening of the barrel body (2), and the moving rod (7) penetrates through the top of the containing shell (10).

5. The quick glue melting equipment according to claim 4, characterized in that a limiting assembly is arranged between the accommodating shell (10) and the moving rod (7), and comprises a limiting sleeve (12) fixedly arranged at the top of the accommodating shell (10) and used for the moving rod (7) to penetrate through, a plurality of positioning holes (13) axially arranged along the moving rod (7), and a positioning pin (14) penetrating through the side wall of the limiting sleeve (12) and capable of extending into any one of the positioning holes (13).

6. The fast melt adhesive apparatus according to claim 1, wherein the rotating means comprises a rotating base plate (18) disposed inside the tub (2), a rotating table assembly (15) disposed between the rotating base plate (18) and the bottom of the tub (2), and a motor (16) for driving the rotating table assembly (15) to move.

7. The fast melt adhesive apparatus according to claim 6, wherein the rotary table assembly (15) comprises an inner transmission shaft (1501), an outer sleeve (1502) and a bearing (1503), the inner transmission shaft (1501) is in transmission connection with the output shaft of the motor (16) at one end, the other end is fixedly connected with the rotary bottom plate (18), the outer sleeve (1502) is fixedly connected with the bottom of the barrel body (2), and the bearing (1503) is arranged between the outer sleeve (1502) and the inner transmission shaft (1501).

8. The fast melt adhesive equipment according to claim 7, wherein the barrel body (2) comprises an inner barrel (201) and an outer barrel (202) sleeved outside the inner barrel (201), and an insulating layer (203) is arranged between the inner barrel (201) and the outer barrel (202); a heat preservation bottom plate (19) is arranged between the rotating bottom plate (18) and the bottom surface of the inner side of the barrel body (2), and the heat preservation bottom plate (19) is sleeved on the outer side of the outer sleeve (1502).

9. The quick glue melting equipment according to claim 1, wherein the base (1) comprises a casing (101) and a support frame (102) arranged inside the casing (101), and the premixing device (5) is fixedly arranged on the support frame (102).

10. The apparatus according to claim 1, comprising a plurality of control buttons (17) for controlling the operation of said rotating means, said premixing means (5) and said heating and stirring means, respectively.

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