CN220661425U - Heating mechanism for glass fiber reinforced plastic grille production - Google Patents

Abstract

The utility model relates to a heating mechanism for producing a glass fiber reinforced plastic grille, which comprises an outer box, wherein a supporting leg is fixedly arranged at the lower end of the outer box, a heating barrel is fixedly arranged in the outer box, a heating wire is fixedly arranged outside the heating barrel and positioned in the outer box, raw materials in the heating barrel are heated through the heating wire, the heating wire is connected with an external power supply through a wire, an upper cover is detachably arranged at the upper end of the outer box, a feeding structure is arranged at the upper end of the upper cover, timing and quantitative feeding is realized through the feeding structure, the feeding structure comprises a fixed barrel and a feeding barrel, the fixed barrel is arranged at the upper end of the upper cover and is connected with the upper cover through a bolt, a feeding hole matched with the fixed barrel is formed in the upper cover, raw materials in the fixed barrel enter the heating barrel through the feeding hole, the feeding barrel is fixedly arranged in the fixed barrel, and a supporting frame is fixedly arranged on the fixed barrel.

Description

Heating mechanism for glass fiber reinforced plastic grille production

Technical Field

The utility model relates to the technical field of glass fiber reinforced plastic production, in particular to a heating mechanism for glass fiber reinforced plastic grid production.

Background

In the glass fiber reinforced plastic grille production process, glass fiber reinforced plastic raw materials are required to be heated firstly, the glass fiber reinforced plastic raw materials are melted and then are cooled and molded through a mold to finally form a violent rigid grille, in the glass fiber reinforced plastic raw material heating process, a glass fiber reinforced plastic raw material heating mechanism is required to be used, but the existing glass fiber reinforced plastic raw material heating structure generally lacks a heat preservation function, in the glass fiber reinforced plastic heating process, a large amount of heat can be dissipated into the air, so that the heating efficiency of the glass fiber reinforced plastic raw materials is reduced, the melting of the glass fiber reinforced plastic raw materials is influenced, the production efficiency is reduced, meanwhile, heat preservation cannot be carried out after the melting is finished, the existing glass fiber reinforced plastic raw material heating structure lacks a quantitative feeding device, and when other materials or auxiliary chemicals are added into the glass fiber reinforced plastic raw materials, the glass fiber reinforced plastic raw materials lack a quantitative feeding function is not convenient for operators to add materials to the heating structure in a quantitative mode or add materials required to be added at fixed time in the melting process.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a heating mechanism for producing glass fiber reinforced plastic grids, which aims to solve the problems in the background art.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a glass steel grid production is with heating mechanism, includes the outer box, the fixed supporting leg that is provided with of outer box lower extreme, the supporting leg is provided with a plurality ofly, the inside fixed heating vat that is provided with of outer box, the outside of heating vat is located the inside fixed heater strip that is provided with of outer box, heats the raw materials in the heating vat through the heater strip, through wire connection between heater strip and the external power source, outer box upper end detachably is provided with the upper cover, the upper cover upper end is provided with feeding structure, realizes regularly quantitative feeding through feeding structure, feeding structure includes fixed vat and feeding vat, fixed vat set up in upper cover upper end, and with upper cover bolted connection, be provided with on the upper cover with fixed vat complex feed inlet, the raw materials in the fixed vat get into in the heating vat through the feed inlet, the fixed setting of feeding vat in inside the fixed vat, fixed being provided with the support frame on the fixed vat.

Preferably, the rotary rod is rotatably arranged on the support frame, the baffle plates are fixedly arranged on the rotary rod, the baffle plates are provided with a plurality of baffle plates, gaps matched with the baffle plates are formed in the feeding barrel, a motor is fixedly arranged on the support frame, the output end of the motor is connected with the rotary rod, the rotary rod is driven to rotate through the motor, and the baffle plates are driven to shade or open the gaps by the rotary rod, so that the timing and quantitative feeding of additionally added raw materials is controlled.

In a further preferred embodiment, the side wall of the outer case is provided with a plurality of mounting holes, a heat accumulator is detachably arranged in the mounting holes, the plurality of heat accumulator are arranged, and threads are arranged in the mounting holes, so that the heat accumulator is convenient to mount and dismount.

In a further preferred embodiment, the outer case is provided with a first air inlet hole, the first air inlet hole is communicated with the mounting hole, the first air inlet hole is provided with a plurality of second air inlet holes matched with the first air inlet hole, the second air inlet holes are provided with a plurality of second air inlet holes, and hot air is convenient to enter the first air inlet holes through the second air inlet holes so as to enter the mounting hole, and the heat accumulator is heated.

In a further preferred embodiment, the upper cover is provided with through holes at two sides of the feeding structure, the through holes are provided with a plurality of through holes, the upper cover is fixedly provided with a connecting pipe, one end of the connecting pipe is connected with the second air inlet hole, the other end of the connecting pipe is connected with the through holes, the second air inlet hole is communicated with the through holes through the connecting pipe, and hot air in the heating barrel conveniently enters the second air inlet hole from the through holes.

In a further preferred aspect, the side end of the outer box is detachably provided with an insulation board, the insulation board is provided with a plurality of insulation boards, the side end of the outer box is provided with a mounting groove, two ends of the insulation board are provided with mounting blocks matched with the mounting groove, and the insulation board is used for insulating the whole structure, so that heat dissipation is reduced.

In a further preferred embodiment, the outer case is detachably provided with a shielding block, the shielding block is provided with threads, the shielding block is provided with a plurality of shielding blocks, and the shielding block is connected with the mounting hole through threads, so that the mounting hole is shielded through the shielding block, and meanwhile, the heat accumulator is convenient to mount and dismount.

(III) beneficial effects

Compared with the prior art, the utility model provides a heating mechanism for producing glass fiber reinforced plastic grids, which has the following beneficial effects:

1. according to the utility model, the heat accumulator in the mounting hole at the side end of the outer box is arranged, the through hole and the second air inlet hole are formed in the upper cover, the first air inlet hole, the second air inlet hole and the mounting hole are communicated, the second air inlet hole and the through hole are communicated through the connecting pipe, so that the air generated in the heating process passes through the through hole and enters the second air inlet hole from the connecting pipe, and then enters the first air inlet hole from the second air inlet hole to reach the mounting hole, the heat in the hot air is absorbed through the heat accumulator, the heat loss is reduced, and the heating barrel in the outer box is insulated through the heat dissipated by the heat accumulator.

2. According to the utility model, the feeding structure at the upper end of the upper cover is arranged, the motor drives the rotating rod to rotate, so that the baffle plate arranged on the rotating rod is matched with the notch arranged at the side end of the feeding barrel, the notch is shielded or opened, and the materials which need to be additionally added in the feeding barrel are fed into the heating barrel in a timing and quantitative manner by controlling the rotation time and the rotation speed of the motor, so that the glass fiber reinforced plastic grille is convenient to produce.

3. According to the utility model, the heat insulation board at the side end of the outer box is arranged, and the installation blocks arranged at the two ends of the heat insulation board are matched with the installation grooves arranged at the side end of the outer box, so that the heat inside the outer box is insulated through the heat insulation board, the outward heat dissipation is reduced, and the glass fiber reinforced plastic raw materials can be heated rapidly.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a heating mechanism for producing glass fiber reinforced plastic grids;

FIG. 2 is a schematic diagram of the cooperation structure of the upper cover and the feeding structure of a heating mechanism for producing glass fiber reinforced plastic grids;

FIG. 3 is a schematic diagram of the cooperation structure of a heating barrel and an outer box of a heating mechanism for producing glass fiber reinforced plastic grids;

FIG. 4 is a schematic diagram of the structure of an outer box of a heating mechanism for producing glass fiber reinforced plastic grids;

fig. 5 is a schematic structural view of an upper cover of a heating mechanism for producing glass fiber reinforced plastic grids.

In the figure: 1. an outer case; 2. support legs; 3. heating the barrel; 4. a heating wire; 5. an upper cover; 6. a fixed barrel; 7. a feed barrel; 8. a feed inlet; 9. a support frame; 10. a rotating lever; 11. a baffle; 12. a notch; 13. a motor; 14. a mounting hole; 15. a heat storage body; 16. a first air inlet hole; 17. a second air inlet hole; 18. a through hole; 19. a connecting pipe; 20. a thermal insulation board; 21. a mounting groove; 22. a mounting block; 23. a shielding block.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1:

referring to fig. 1-5, a heating mechanism for glass steel grid production, including outer case 1, outer case 1 lower extreme is fixedly provided with supporting leg 2, supporting leg 2 is provided with a plurality of, outer case 1 inside is fixedly provided with heating barrel 3, the outside of heating barrel 3 is located the inside fixed heater strip 4 that is provided with of outer case 1, raw materials in the heating barrel 3 are heated through heater strip 4, through wire connection between heater strip 4 and the external power supply, outer case 1 upper end detachably is provided with upper cover 5, upper cover 5 upper end is provided with the feeding structure, realize the fixed quantity feeding through the feeding structure, the feeding structure includes fixed barrel 6 and feeding barrel 7, fixed barrel 6 sets up in upper cover 5 upper end, and with upper cover 5 bolted connection, be provided with the feed inlet 8 with fixed barrel 6 complex on the upper cover 5, the raw materials in the fixed barrel 6 get into in the heating barrel 3 through feed inlet 8, the fixed setting in fixed barrel 6 is inside, fixedly provided with support frame 9 on the fixed barrel 6, rotationally be provided with dwang 10 on the support frame 9, fixedly provided with on the dwang 10, fixedly provided with motor 11 on the dwang, the fixed baffle 11 is provided with the motor 11, and a plurality of fixed blades are provided with 11 on the fixed motor 13 and the fixed motor 13 are opened through the fixed gap 13, the fixed motor 13 is connected with the fixed 13, thereby the gap is realized to the fixed quantity feeding 13.

Referring to fig. 1-5, in the present embodiment, a plurality of mounting holes 14 are formed on the side wall of the outer case 1, a heat accumulator 15 is detachably disposed in the mounting holes 14, the heat accumulator 15 is provided in plurality, threads are disposed in the mounting holes 14, so that the heat accumulator 15 is convenient to mount and dismount, a first air inlet 16 is formed on the outer case 1, the first air inlet 16 is communicated with the mounting holes 14, the first air inlet 16 is provided in plurality, a second air inlet 17 matched with the first air inlet 16 is formed on the upper cover 5, the second air inlet 17 is provided in plurality, so that hot air enters the first air inlet 16 through the second air inlet 17 to enter the mounting holes 14, heat the heat accumulator 15 is heated, through holes 18 are formed on two sides of the upper cover 5, which are located on the feeding structure, a plurality of through holes 18 are formed, connecting pipes 19 are fixedly disposed on the upper cover 5, one end of the connecting pipe 19 is connected with the second air inlet hole 17, the other end is connected with the through hole 18, the second air inlet hole 17 is communicated with the through hole 18 through the connecting pipe 19, hot air in the heating barrel 3 conveniently enters the second air inlet hole 17 from the through hole 18, the side end of the outer box 1 is detachably provided with a plurality of heat preservation boards 20, the side end of the outer box 1 is provided with a plurality of mounting grooves 21, both ends of the heat preservation boards 20 are provided with mounting blocks 22 matched with the mounting grooves 21, the whole structure is insulated through the heat preservation boards 20, heat dissipation is reduced, a shielding block 23 is detachably arranged on the outer box 1, threads are arranged on the shielding block 23, the shielding block 23 is provided with a plurality of, the shielding block 23 is in threaded connection with the mounting holes 14, thereby shielding the mounting holes 14 through the shielding block 23, and simultaneously, the installation and the disassembly of the heat storage body 15 are convenient, the heat in the hot gas generated in the heating process is conveniently absorbed, so that the whole structure is insulated, and the heat dissipation is reduced.

Example 2:

to sum up, when using whole device to heat glass steel raw and other materials, the raw and other materials that need later stage timing ration to add are put into feeding barrel 7 to the raw and other materials that need later stage timing ration to add in the heating barrel 3 through the feed inlet 8 that sets up on upper cover 5 in pouring the raw and other materials that need heating into fixed barrel 6 into heating barrel 3 through the feed inlet 8 that sets up on upper cover 5 into fixed barrel 6, through control motor 13 drive dwang 10 rotation through start-up time and rotational speed, the separation blade 11 that sets up on the dwang 10 shelters from or opens breach 12 that the 7 both sides of feeding barrel were seted up, make in the feeding barrel 7 other materials that need add can be fixed timing ration send into fixed barrel 6, be connected through feed inlet 8 that sets up on fixed barrel 6 and upper cover 5, make the material that adds can get into heating barrel 3, thereby be convenient for melt the heating of glass steel raw and other materials.

Example 3:

in summary, in the heating process of glass steel raw materials, the heating of heater strip 4 can form hot air and gasify the raw materials, hot gas gets into connecting pipe 19 through the through-hole 18 of seting up on upper cover 5, connect through connecting pipe 19 between through-hole 18 and the second inlet port 17, thereby hot gas gets into second inlet port 17 from connecting pipe 19, through the connection of second inlet port 17 and first inlet port 16, hot air gets into in the first inlet port 16 of seting up on the lateral wall of outer box 1 from second inlet port 17, through the intercommunication of first inlet port 16 and mounting hole 14, thereby make hot air and the surface of heat accumulator 15 contact, the heat accumulator 15 absorbs the heat in the gas and stores in heat accumulator 15 inside, when the raw materials of heater strip 4 to heating barrel 3 inside, the heat of heat accumulator 15 makes the temperature transition between heater strip 4 and the external normal atmospheric temperature air, thereby prevent the heat that heater strip 4 produced to scatter and lose in the air fast, cause the waste of heat, melt the heat insulation board 20 carries out outer box 1 through setting up, the heat preservation board 20, the heat loss of the same is convenient for 4 to heat the raw materials of heater strip and fast heat preservation.

In summary, in all the above mentioned embodiments, the welding, the bolt and nut matching connection, the bolt or screw connection or other known connection modes may be selected according to the actual situation, and are not described in detail herein, where the above description refers to a fixed connection with writing, and the welding is the priority, although the embodiments of the utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and variations may be made to these embodiments without departing from the principle and spirit of the utility model, the scope of which is defined by the appended claims and their equivalents.

Claims (7)

1. The utility model provides a heating mechanism is used in glass steel grid production, includes outer case (1), its characterized in that, outer case (1) lower extreme is fixed to be provided with supporting leg (2), supporting leg (2) are provided with a plurality of, outer case (1) inside is fixed to be provided with heating vat (3), the outside of heating vat (3) is located outer case (1) inside and is fixedly provided with heater strip (4), outer case (1) upper end detachably is provided with upper cover (5), upper cover (5) upper end is provided with feeding structure, feeding structure includes fixed vat (6) and feeding bucket (7), fixed vat (6) set up in upper cover (5) upper end, and with upper cover (5) bolted connection, be provided with on upper cover (5) with fixed vat (6) complex feed inlet (8), feeding bucket (7) fixedly set up in inside fixed vat (6), fixed support frame (9) are provided with on fixed vat (6).

2. The heating mechanism for glass fiber reinforced plastic grid production according to claim 1, characterized in that a rotating rod (10) is rotatably arranged on the supporting frame (9), a baffle (11) is fixedly arranged on the rotating rod (10), a plurality of baffles (11) are arranged, a notch (12) matched with the baffle (11) is formed in the feeding barrel (7), a motor (13) is fixedly arranged on the supporting frame (9), and the output end of the motor (13) is connected with the rotating rod (10).

3. The heating mechanism for glass fiber reinforced plastic grid production according to claim 1, wherein a plurality of mounting holes (14) are formed in the side wall of the outer box (1), a plurality of heat storage bodies (15) are detachably arranged in the mounting holes (14), a plurality of heat storage bodies (15) are arranged, and threads are arranged in the mounting holes (14).

4. A heating mechanism for glass fiber reinforced plastic grid production according to claim 3, characterized in that a first air inlet hole (16) is formed in the outer box (1), the first air inlet hole (16) is communicated with the mounting hole (14), a plurality of first air inlet holes (16) are formed, a second air inlet hole (17) matched with the first air inlet hole (16) is formed in the upper cover (5), and a plurality of second air inlet holes (17) are formed.

5. The heating mechanism for glass fiber reinforced plastic grid production according to claim 4, wherein through holes (18) are formed in the upper cover (5) and located on two sides of the feeding structure, a plurality of through holes (18) are formed, connecting pipes (19) are fixedly arranged on the upper cover (5), one ends of the connecting pipes (19) are connected with the second air inlet holes (17), the other ends of the connecting pipes are connected with the through holes (18), and the second air inlet holes (17) are communicated with the through holes (18) through the connecting pipes (19).

6. The heating mechanism for glass fiber reinforced plastic grid production according to claim 1, wherein the side end of the outer box (1) is detachably provided with a plurality of heat insulation boards (20), the side end of the outer box (1) is provided with mounting grooves (21), and both ends of the heat insulation boards (20) are provided with mounting blocks (22) matched with the mounting grooves (21).

7. A heating mechanism for glass fiber reinforced plastic grid production according to claim 3, characterized in that a shielding block (23) is detachably arranged on the outer box (1), threads are arranged on the shielding block (23), a plurality of shielding blocks (23) are arranged, and the shielding blocks (23) are in threaded connection with the mounting holes (14).