CN210651627U - Feeding equipment's firing equipment is used in IMD production - Google Patents

Abstract

The utility model discloses a firing equipment of firing equipment is used in IMD production belongs to IMD processing technology technical field, including heater and heating cabinet, heater one end is installed at the workbin top, and the heating cabinet includes box, heating pipe, rabbling mechanism and heat preservation mechanism, and the heating pipe is equipped with two, and two heating pipe settings are in box one side, and rabbling mechanism one end is installed at box top central part, and heat preservation mechanism centers on the box setting. Be provided with the heating cabinet, the heating cabinet during operation, the raw materials is at first preheated through the heating pipe and is gone into in the box, later stirs the raw materials through rabbling mechanism, takes place the adhesion when preventing the raw materials to stew and causes the caking, influences the raw materials and carries, later keeps warm through the raw materials after heat preservation mechanism to the heating, makes the raw materials can keep the temperature after preheating when waiting to get into next process, is favorable to follow-up melting the raw materials and processes.

Description

Feeding equipment's firing equipment is used in IMD production

Technical Field

The utility model belongs to the technical field of IMD processing technology and specifically relates to a firing equipment of firing equipment is used in IMD production.

Background

In the process of IMD injection molding, granular raw materials to be used are added from a feeding hopper and conveyed by a screw in an injection molding machine, the granular materials are heated by a heating cylinder outside a machine barrel of the injection molding machine in the conveying process, and the heated liquid raw materials are injected into a mold from the head of the screw and then cooled in the mold to form a required product. The temperature in the machine barrel is difficult to control in the process of melting the injection molding raw material at high temperature, and the raw material is agglomerated or attached to the screw due to too low temperature, so that the inner part of the machine barrel is blocked and the production process is influenced; however, if the temperature is increased blindly, the excessive temperature may affect the properties of the raw material, and at the same time, the energy waste is large, and the production cost is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a IMD production is with firing equipment of charging equipment in order to solve the problem that proposes in the above-mentioned background art.

The utility model provides a firing equipment of firing equipment is used in IMD production, including heater and heating cabinet, heater one end is installed the workbin top, the heating cabinet includes box, heating pipe, rabbling mechanism and heat preservation mechanism, the heating pipe is equipped with two, two the heating pipe sets up box one side, the heating pipe with the inside intercommunication of box, rabbling mechanism one end is installed box top central point, heat preservation mechanism centers on the box sets up.

Further, the heater includes fixed plate, power connection and preheating rod, preheating rod installs on the fixed plate, power connection passes the fixed plate is connected preheating rod, preheating rod is the U-shaped setting.

Further, the bottom of the box body is obliquely arranged, and a discharge hole is obliquely formed in the bottom of the box body.

Further, the heating pipe includes two pipelines and two heating rods, two the pipeline is fixed box one side, every the pipeline all with the inside intercommunication of box, every the heating rod is installed one pipeline outer wall one side, the heating rod is helical structure, the internal diameter of heating rod helical structure is greater than the pipeline external diameter.

Further, rabbling mechanism includes two agitator motor and two puddlers, agitator motor installs the box top, every the puddler is installed one on the agitator motor, every be equipped with three montants on the puddler.

Further, heat preservation mechanism includes bottom heated board and two side heated boards, the bottom heated board includes flat board and bottom heating rod, the flat board is installed the bottom half, the bottom heating rod sets up the flat board with between the bottom half, every the side heated board includes heat preservation shell and side heating rod, the heat preservation shell is installed the box side, the side heating rod sets up the heat preservation shell with between the box.

Compared with the prior art, the beneficial effects of the utility model reside in that:

be provided with the heating cabinet, the heating cabinet includes box, heating pipe, rabbling mechanism and heat preservation mechanism, the heating pipe is equipped with two, two the heating pipe sets up box one side, the heating pipe with the inside intercommunication of box, rabbling mechanism one end is installed box top central part, heat preservation mechanism centers on the box sets up. The heating cabinet during operation, the raw materials is at first preheated through the heating pipe and then enters into the box body, then stirs the raw materials through rabbling mechanism, takes place the adhesion and causes the caking when preventing the raw materials from stewing, influences the raw materials and carries, later keeps warm through the raw materials after the heat preservation mechanism to the heating, makes the raw materials can keep the temperature after preheating when waiting for to get into next process, is favorable to follow-up melting the raw materials and processes.

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 embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are 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 view of a first view angle structure of a feeding device for IMD production;

FIG. 2 is a schematic diagram of a second view angle structure of a feeding device for IMD production;

FIG. 3 is a schematic structural diagram of a feeding mechanism;

FIG. 4 is a schematic structural view of the anti-blocking mechanism;

FIG. 5 is a schematic view of the internal structure of the feeding mechanism;

FIG. 6 is a schematic view of the structure of the heating chamber;

FIG. 7 is a schematic structural view of a stirring mechanism;

fig. 8 is a schematic structural view of the heat retention mechanism.

Reference numerals: the anti-blocking device comprises a feeding mechanism 1, a material box 2, an anti-blocking mechanism 3, a conveying mechanism 4, a preheating mechanism 5, a base 101, a hopper 102, a conveying belt 103, a blocking rod 1031, a baffle 1032, an anti-blocking motor 301, a belt pulley 302, an anti-blocking rod 303, a connecting piece 3031, a connecting rod 3032, a mounting plate 401, a conveying motor 402, a conveying rod 403, a heater 6, a heating box 7, a box body 701, a heating pipe 702, a stirring mechanism 703, a heat preservation mechanism 704, a fixing plate 601, a power supply connector 602, a preheating rod 603, a discharge port 7011, a pipeline 7021, a heating rod 7022, a stirring motor 7031, a stirring rod 7032, a bottom heat preservation plate 7041, a side heat preservation plate 7042, a flat plate 7043, a bottom heating rod 70.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention.

The components of the embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

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

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

It is shown below with combination of fig. 1 to fig. 8, the embodiment of the utility model provides a feeding equipment is used in IMD production, include feed mechanism 1, workbin 2, prevent stifled mechanism 3, conveying mechanism 4 and preheat mechanism 5, feed mechanism 1 sets up 2 one side of workbin, feed mechanism 1 highly is greater than 2 heights of workbin, prevent that stifled mechanism 3 articulates be close to in the workbin 2 one side of feed mechanism 1, conveying mechanism 4 sets up keep away from in the workbin 2 one side of feed mechanism 1, conveying mechanism 4 is 45 jiaos of slope setting with the level, it sets up to preheat mechanism 5 workbin 2 below. The utility model has the advantages that: when carrying out the material loading, at first carry granular raw materials to workbin 2 in through feed mechanism 1, replace artifical material loading through feed mechanism 1, the speed of material loading has been increased, after granular raw materials got into workbin 2, stir the raw materials through preventing stifled mechanism 3, prevent that the raw materials from piling up in 2 inside one sides of workbin and causing the raw materials to spill workbin 2, carry the raw materials through conveying mechanism 4, avoid the raw materials only to flow through the action of gravity and cause the jam, conveying mechanism 4 carries the raw materials to preheating mechanism 5 after, preheat the raw materials through preheating mechanism 5 work, make the raw materials heat before melting the state, can rise the raw materials temperature in advance, be convenient for subsequent processing of raw materials to use.

Specifically, the utility model discloses a feed mechanism 1 includes base 101, hopper 102 and conveyer belt 103, hopper 102 is semi-circular structure, hopper 102 is installed on the base 101, conveyer belt 103 is fixed on the base 101, the one end of conveyer belt 103 stretches into in the hopper 102, the other end of conveyer belt 103 is located 2 tops of workbin. Feed mechanism 1 during operation, carry the graininess raw materials in hopper 102 to workbin 2 in through conveyer belt 103, fix conveyer belt 103 and hopper 102 through base 101, inside the setting up of conveyer belt 103 made the raw materials can be the steady transport of constant speed ration to workbin 2, prevented that a large amount of raw materials once only from causing workbin 2 to block up in getting into workbin 2.

Specifically, the utility model discloses a conveyer belt 103 surface is equipped with a plurality of bars 1031 that block, conveyer belt 103 both sides are equipped with baffle 1032, block the bar 1031 edge the conveyer belt 103 surface evenly sets up, it is less than to block the bar 1031 height baffle 1032 height. A plurality of baffle 1032 that block setting cooperation conveyer belt 103 both sides of pole 1031 can effectively make the raw materials stay on conveyer belt 103, prevents that the raw materials from skidding on conveyer belt 103 and influencing the raw materials and carry the effect, and the setting of both sides baffle 1032 can avoid the raw materials to drop from conveyer belt 103 both sides in the transportation process and cause the waste of raw materials.

Specifically, the utility model discloses a prevent stifled mechanism 3 including preventing stifled motor 301, belt pulley 302 and two and prevent stifled pole 303, prevent stifled motor 301 and fix 2 outsides of workbin, belt pulley 302 connects prevent stifled motor 301 and two prevent stifled pole 303, prevent stifled pole 303 and articulate 2 insides of workbin, prevent that stifled motor 301's output passes 2 connections of workbin are on one of them prevent stifled pole 303. Prevent stifled mechanism 3 during operation, through prevent stifled motor 301 and drive belt pulley 302 and one prevent that stifled pole 303 rotates, drive another through belt pulley 302 simultaneously prevent that stifled pole 303 rotates, through two prevent that the setting of stifled pole 303 can prevent that the raw materials from piling up stifled pole 303 department and stopping up workbin 2 to cause the unable material loading that influences that flows of raw materials in workbin 2.

Specifically, the utility model discloses a be equipped with a plurality of connection pieces 3031 on preventing stifled pole 303, install a plurality of connecting rods 3032 between connection piece 3031, a plurality of connecting rods 3032 are followed prevent that stifled pole 303 circumference evenly sets up. Through the setting of connecting rod 3032 and connection piece 3031 for prevent that stifled pole 303 stirs the raw materials through connecting rod 3032 at the during operation, support connecting rod 3032 through a plurality of connection pieces 3031, prevent that connecting rod 3032 atress inequality from damaging, the setting of a plurality of connecting rods 3032 can be fully stirs the raw materials in succession, thereby prevent that the raw materials from condensing and piling up and causing the jam.

Specifically, the utility model discloses a conveying mechanism 4 includes mounting panel 401, two conveyor motors 402 and two conveying rod 403, mounting panel 401 is 45 jiaos of slope with the level and installs 2 inboards of workbin, two conveyor motors 402 is fixed on mounting panel 401, two conveyor rod 403 is perpendicular mounting panel 401 sets up, every all be equipped with the flight on the conveying rod 403, every conveyor motors 402 connects one conveyor rod 403. Conveying mechanism 4 during operation, drive through conveying motor 402 and carry pole 403 to rotate, setting through carrying pole 403, make the raw materials can carry through carrying pole 403, compare in the raw materials natural flow, carry pole 403 to provide power for the raw materials flows, thereby the mobility of raw materials has been increased, prevent that the raw materials from blockking up, the setting of mounting panel 401 slope 45 makes the raw materials direction of motion of carrying pole 403 transportation unanimous with the tangential direction of the parabola farthest away simultaneously, thereby make the raw materials under the unchangeable condition of atress, can move farther distance, thereby be favorable to carrying the transportation of pole 403 to the raw materials.

Specifically, the utility model discloses a preheat mechanism 5 and include heater 6 and heating cabinet 7, 6 one end of heater is installed 2 tops of workbin, the 6 other ends of heater stretch into just be located two in the workbin 2 between the conveying rod 403, heating cabinet 7 intercommunication 2 bottoms of workbin. Preheat 5 during operations of mechanism, 6 temperatures in the heater are higher than the 7 temperatures in heating cabinet, the raw materials at first carries out rapid heating through heater 6, later heated raw materials get into heating cabinet 7 in, keep warm to the raw materials after the heating through heating cabinet 7, be favorable to controlling the temperature of raw materials, be convenient for the follow-up processing of raw materials is to melting the state, preheat the raw materials through heater 6 and heating cabinet 7 simultaneously, be favorable to the subsequent handling to carry out accurate control to the raw materials temperature, the problem of direct heating the raw materials from the cooling state to melting the state because of the too big heating effect that leads to of the difference in temperature can not be solved.

Specifically, the utility model discloses a heating cabinet 7 includes box 701, heating pipe 702, rabbling mechanism 703 and heat preservation mechanism 704, heating pipe 702 is equipped with two, two heating pipe 702 sets up box 701 one side, heating pipe 702 with the inside intercommunication of box 701, rabbling mechanism 703 one end is installed box 701 top central part, heat preservation mechanism 704 centers on box 701 sets up. Heating cabinet 7 during operation, the raw materials gets into in the box 701 after preheating through heating pipe 702 at first, later stirs the raw materials through rabbling mechanism 703, takes place the adhesion and causes the caking when preventing the raw materials from stewing, influences the raw materials and carries, later keeps warm to the raw materials after the heating through heat preservation mechanism 704, makes the raw materials can keep the temperature after preheating when waiting to get into next process, is favorable to follow-up melting the raw materials and processes.

Specifically, the utility model discloses a heater 6 includes fixed plate 601, power connection 602 and preheating rod 603, preheating rod 603 is installed on fixed plate 601, power connection 602 passes fixed plate 601 is connected preheating rod 603, preheating rod 603 is the setting of U-shaped. Through heater 6 during operation, switch on power through power connection 602 for preheating rod 603 supplies power, preheat rod 603U-shaped setting on the one hand when having increased preheating rod 603 heated area, has reduced preheating rod 603 length, and the U-shaped setting makes preheating rod 603 can bear bigger power simultaneously to produce the oppression to preheating rod 603 and cause preheating rod 603 to damage when preventing that the raw materials from flowing through preheating rod 603.

Specifically, the utility model discloses a bottom of box 701 slope sets up, the bottom slope is equipped with discharge gate 7011. The bottom of the box 701 is obliquely arranged, so that the component force of the gravity in the horizontal direction is greater than the component force of the gravity in the vertical direction, the friction force between the raw materials and the bottom of the box 701 is smaller than the resultant force of the raw materials in the horizontal advancing direction, and the raw materials can move towards the discharge port 7011 along the bottom of the box 701.

Specifically, the utility model discloses a heating pipe 702 includes two pipelines 7021 and two heating rods 7022, two pipeline 7021 is fixed box 701 one side, every pipeline 7021 all with the inside intercommunication of box 701, every heating rod 7022 is installed one pipeline 7021 outer wall one side, heating rod 7022 is helical structure, heating rod 7022 helical structure's internal diameter is greater than the pipeline 7021 external diameter. Through the setting of heating pipe 702 way and heating rod 7022, when making the raw materials can flow through from inside the pipeline 7021, heating rod 7022 is connected with equipment main power, heating rod 7022 begins to generate heat after the power switch-on, heat the inside raw materials of pipeline 7021 through the heating rod 7022 of pipeline 7021 outer wall, keep apart raw materials and heating rod 7022 through pipeline 7021, prevent that heating rod 7022 high temperature from making the raw materials melt the bonding on heating rod 7022, influence the heating effect of heating rod 7022, this heating rod 7022 adopts traditional electrical heating technique, belong to the common general knowledge in the art, do not do here and do not do any more and describe repeatedly.

Specifically, the utility model discloses an rabbling mechanism 703 includes two agitator motor 7031 and two puddlers 7032, agitator motor 7031 installs the box 701 top, every the puddler 7032 is installed one on the agitator motor 7031, every be equipped with three montants on the puddler 7032. The rabbling mechanism 703 during operation drives the puddler 7032 through agitator motor 7031 and rotates, and the area of contact of puddler 7032 and raw materials has been increased to the setting of three montant on the puddler 7032 to the working range of puddler 7032 has been increased.

Specifically, the utility model discloses a heat preservation mechanism 704 includes bottom heated board 7041 and two side heated boards 7042, bottom heated board 7041 includes dull and stereotyped 7043 and bottom heating rod 7044, dull and stereotyped 7043 is installed the box 701 bottom, bottom heating rod 7044 sets up dull and stereotyped 7043 with between the box 701 bottom, every side heated board 7042 includes heat preservation shell 7045 and side heating rod 7046, heat preservation shell 7045 installs the box 701 side, side heating rod 7046 sets up heat preservation shell 7045 with between the box 701. Setting through bottom heated board 7041 and side heated board 7042, make the different positions of the inside raw materials of box 701 can the thermally equivalent, avoid the inside uneven partial raw materials cooling caking that leads to of being heated of box 701, the setting of side heated board 7042 heat preservation shell 7045 can prevent that side heating rod 7046's heat transfer from leading to the fact the heat to scatter and disappear in the air simultaneously, bottom heating rod 7044 and side heating rod 7046 all adopt current electrical heating technique, belong to the common general knowledge in this field, do not do here and describe repeatedly for a long time.

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

Claims (6)

1. The utility model provides a firing equipment of firing equipment is used in IMD production which characterized in that: including heater (6) and heating cabinet (7), heater (6) are located heating cabinet (7) feed inlet department top, heating cabinet (7) include box (701), heating pipe (702), rabbling mechanism (703) and heat preservation mechanism (704), heating pipe (702) are equipped with two, two heating pipe (702) set up box (701) one side, heating pipe (702) with the inside intercommunication of box (701), rabbling mechanism (703) one end is installed box (701) top central part, heat preservation mechanism (704) center on box (701) set up.

2. The heating device of the feeding device for IMD production according to claim 1, wherein: the heater (6) comprises a fixing plate (601), a power connector (602) and a preheating rod (603), the preheating rod (603) is installed on the fixing plate (601), the power connector (602) penetrates through the fixing plate (601) to be connected with the preheating rod (603), and the preheating rod (603) is arranged in a U shape.

3. The heating device of the feeding device for IMD production according to claim 1, wherein: the bottom of the box body (701) is obliquely arranged, and a discharge hole (7011) is obliquely arranged at the bottom.

4. The heating device of the feeding device for IMD production according to claim 1, wherein: heating pipe (702) include two pipeline (7021) and two heating rod (7022), two pipeline (7021) is fixed box (701) one side, every pipeline (7021) all with box (701) inside intercommunication, every heating rod (7022) is installed one pipeline (7021) outer wall one side, heating rod (7022) is helical structure, heating rod (7022) helical structure's internal diameter is greater than pipeline (7021) external diameter.

5. The heating device of the feeding device for IMD production according to claim 1, wherein: rabbling mechanism (703) include two agitator motor (7031) and two puddler (7032), agitator motor (7031) are installed box (701) top, every puddler (7032) are installed one on agitator motor (7031), every be equipped with three montants on puddler (7032).

6. The heating device of the feeding device for IMD production according to claim 1, wherein: heat preservation mechanism (704) include bottom heated board (7041) and two side heated boards (7042), bottom heated board (7041) are including dull and stereotyped (7043) and bottom heating rod (7044), install dull and stereotyped (7043) box (701) bottom, bottom heating rod (7044) set up dull and stereotyped (7043) with between box (701) bottom, every side heated board (7042) are including heat preservation shell (7045) and side heating rod (7046), install heat preservation shell (7045) box (701) side, side heating rod (7046) set up heat preservation shell (7045) with between box (701).

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