CN218371763U - Two heat source graphite alkene bulking furnace - Google Patents

Abstract

The utility model provides a two heat source graphite alkene bulking furnace, including popped furnace body, popped furnace body's one end is provided with the balladeur train, the bottom of balladeur train is provided with the slide, the popped furnace body other end is provided with the positioning disk. The utility model discloses in, connect the balladeur train in the one end of popped furnace body, the balladeur train drives popped furnace body horizontal slip, the other end at popped furnace body sets up the positioning disk, set up on the positioning disk and expand the relative inner heater of stove body and outer heater, the balladeur train drives and expands when stove body slides to the positioning plate, the inner heater gets into and expands stove originally internally, the outside at the stove body is expanded in the outer heater cover is established to outer heater cover, when inner heater and outer heater ohmic heating this moment, this internal graphite alkene of expanding stove can be heated inside and outside, only install the heating method of heater in the stove body that expands relatively current, the heating method of this application makes graphite alkene have two heat sources, make the temperature in the stove even.

Description

Two heat source graphite alkene bulking furnaces

Technical Field

The utility model relates to a furnace technical field that expands specifically is a two heat source graphite alkene furnace that expands.

Background

Graphene is a new material which is formed by tightly stacking sp2 hybridized and connected carbon atoms into a single-layer two-dimensional honeycomb lattice structure, has excellent optical, electrical and mechanical properties, has important application prospects in the aspects of materials science, micro-nano processing, energy, biomedicine, drug delivery and the like, is usually produced and prepared by a puffing furnace in the processing process, and has at least the following defects in the process of the existing puffing furnace: 1. the heating source of the puffing furnace is single, usually, only a heater is arranged in the puffing furnace body, graphene in the puffing furnace has a certain stacking thickness, and the single heater can cause uneven temperature in the puffing furnace, namely the temperature of the graphene close to the heater is higher, and the temperature of part of raw materials in the graphene far away from or butted with the heater is lower; 2. graphene in the furnace body of the conventional expansion furnace is usually in a static state, and the butted graphene is heated unevenly inside and outside, so that the heating efficiency is influenced, and the phenomenon of uneven heating of the graphene is easily caused; 3. the existing graphene swelling furnace lacks an effective heat preservation and insulation function, and the problem of heat energy loss and waste easily occurs.

Therefore, the utility model provides a two heat source graphite alkene bulking furnaces.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a two heat source graphite alkene furnace of expanding to solve the problem that proposes in the above-mentioned background art, the utility model discloses at the one end fixed connection balladeur train of the stove body of expanding, set up the positioning disk at the other end, heater and outer heater in the installation on the positioning disk, when the stove body of expanding and positioning disk offset, the inner heater gets into the stove of expanding originally internally, and outer heater cover is established outside the stove of expanding originally, and the stove body of expanding is the rotation setting moreover.

In order to achieve the above purpose, the present invention is realized by the following technical solution: the utility model provides a two heat source graphite alkene expansion furnace, includes popped furnace body, popped furnace body's one end is provided with the balladeur train, the bottom of balladeur train is provided with the slide, the popped furnace body other end is provided with the positioning disk, and the one side regulation relative with popped furnace body on this positioning disk is provided with outer heater and interior heater, when popped furnace body's other end opening just offsets with the positioning disk, interior heater is located popped furnace body's middle part, and outer heater cover is established in popped furnace body's outside.

Furthermore, an outer high-frequency coil is arranged on the outer heater, and an inner high-frequency coil and a heating tube positioned in the inner high-frequency coil are arranged on the inner heater.

Furthermore, a heat insulation sleeve positioned outside the external heater is fixedly connected to one side of the positioning plate, one end of the heat insulation sleeve, which faces the sliding frame, is opened, and a sealing plate opposite to the heat insulation sleeve is arranged on the sliding frame.

Furthermore, one end of the puffing furnace body is fixedly connected with a supporting shaft which is coaxial, the supporting shaft penetrates through one side of the sealing plate and is connected with the sealing plate in a rotating mode, and the other side of the sealing plate is fixedly connected with a driving motor fixedly connected with the supporting shaft.

Furthermore, the bottom of the sliding frame is provided with an L-shaped supporting plate, the bottom of the L-shaped supporting plate is fixedly provided with a sliding plate, and the sliding seat is provided with a sliding groove in sliding fit with the sliding plate.

Furthermore, a screw rod transmission mechanism for controlling the sliding plate to slide relative to the sliding groove is arranged on the sliding seat.

The utility model has the advantages that: the utility model relates to a double-heat-source graphene expansion furnace, which comprises an expansion furnace body; a support shaft; a carriage; an L-shaped supporting plate; a slide plate; a slide base; a chute; positioning a plate; an external heater; an outer high frequency coil; an internal heater; an inner high-frequency coil; a heat generating tube; a heat insulating sleeve; closing the plate; a drive motor; and a lead screw transmission mechanism.

1. The balladeur train is connected to the one end at popped furnace body, the balladeur train drives popped furnace body horizontal slip, the other end at popped furnace body sets up the positioning disk, set up on the positioning disk and expand relative inner heater of stove body and outer heater, the balladeur train drives and expands when stove body slides to the locating plate, the inner heater gets into and expands stove originally internally, outer heater cover is established in the outside of the stove body that expands, when inner heater and outer heater ohmic heating this moment, this internal graphite alkene of the stove that expands can be heated inside and outside, current heating method only at the internal installation heater of stove that expands relatively, the heating method of this application makes graphite alkene have two heat sources, make the internal temperature of stove even.

2. At the one end fixed connection back shaft of expansion furnace body, driving motor is installed to the one end of back shaft, and driving motor passes through the back shaft and drives the rotation of expansion furnace body, drives the graphene raw materials in it and rolls when the expansion furnace body is rotatory, and this kind of mode that sets up graphite alkene heating of stewing among the relative prior art has the advantage that makes graphite alkene be heated the degree of consistency.

3. The setting is used for bearing the positioning disk of interior heater and its of external heating, and one side fixedly connected with of positioning disk is thermal-insulated section of thick bamboo, rotates at the one end of expansion furnace body and connects the shrouding, encloses into a confined space when shrouding and thermal-insulated section of thick bamboo offset, and this interior heater, outer heater and expansion furnace body all are located this space, have heat preservation energy-conserving advantage.

Drawings

Fig. 1 is a schematic structural view of the combination of a puffing furnace body, a sliding seat, a sliding frame, an internal heater, an external heater, a heat insulation sleeve and a sealing plate in the dual-heat-source graphene puffing furnace of the present invention;

fig. 2 is a schematic view of the front view of fig. 1 in a dual heat source graphene puffing furnace according to the present invention;

in the figure: 1. a puffing furnace body; 11. a support shaft; 2. a carriage; 21. an L-shaped supporting plate; 211. a slide plate; 3. a slide base; 31. a chute; 4. positioning a plate; 5. an external heater; 51. an outer high-frequency coil; 6. an internal heater; 61. an inner high-frequency coil; 62. a heat generating tube; 7. a heat insulating sleeve; 8. closing the plate; 9. a drive motor; 101. and a lead screw transmission mechanism.

Detailed Description

In order to make the utility model realize, the technical means, the creation characteristics, the achievement purpose and the efficacy are easy to understand and understand, the utility model is further explained by combining the specific implementation mode.

Referring to fig. 1 and fig. 2, the present invention provides a technical solution: the utility model provides a two heat source graphite alkene bulking furnace, including popped furnace body 1, popped furnace body 1 is horizontal setting, the one end of popped furnace body 1 is provided with balladeur train 2, balladeur train 2's bottom is provided with slide 3, popped furnace body 1 other end is provided with positioning disk 4, this positioning disk 4 goes up and is provided with outer heater 5 and inner heater 6 with popped furnace body 1 relative one side regulation, wherein be provided with outer high frequency coil 51 on the outer heater 5, be provided with interior high frequency coil 61 on the inner heater 6 and be located the heating tube 62 of interior high frequency coil 61, the other end opening of popped furnace body 1 and when offsetting with positioning disk 4, inner heater 6 is located the middle part of popped furnace body 1, the outside at popped furnace body 1 is established to outer heater 5 cover, graphite alkene is put in through the opening of popped furnace body 1, then slip balladeur train 2, in popped furnace body 1 gets into outer heater 5, interior high frequency coil 61 after the circular telegram, popped furnace body itself generates heat because of electromagnetic induction, inner heater 61 makes heating tube 62 generate heat after the circular telegram, 1 inside and outside the popped furnace body is heated simultaneously, the graphite alkene of popped furnace body is heated more evenly.

In this embodiment, a heat insulating sleeve 7 located outside the external heater 5 is fixedly connected to one side of the positioning plate 4, one end of the heat insulating sleeve 7 facing the carriage 2 is open, a sealing plate 8 opposite to the heat insulating sleeve 7 is arranged on the carriage 2, and after the puffing oven body 1 enters the external high-frequency coil 51, the heat insulating sleeve 7 and the sealing plate 8 enclose a closed space to play a role in heat preservation.

This embodiment, the one end fixedly connected with of popped furnace body 1 is with the back shaft 11 of axle center, and this back shaft 11 runs through one side of shrouding 8 and just is provided with the bearing for rotating the connection and rotating the junction, and 8 opposite side fixedly connected with of shrouding and 11 fixed connection's of back shaft driving motor 9, driving motor 9 start-up drive whole popped furnace body 1 rotatory, and the rotatory graphene raw materials that drives in popped furnace body 1 rolls, further improves the degree of consistency that graphene was heated.

In this embodiment, the bottom of the carriage 2 is provided with an L-shaped supporting plate 21, a sliding plate 211 is fixedly arranged at the bottom of the L-shaped supporting plate 21, a sliding groove 31 which is in sliding fit with the sliding plate 211 is arranged on the sliding base 3, a lead screw transmission mechanism 101 which controls the sliding of the sliding plate 211 relative to the sliding groove 31 is arranged on the sliding base 3, the lead screw transmission mechanism 101 adopts a structure combining a common control motor and a common lead screw, a specific lead screw is rotatably connected on the sliding base 3, a screw sleeve which is connected with the lead screw in a rotating and closing manner is welded at the bottom of the L-shaped supporting plate 21, and the sliding maneuvering control of the carriage 2 is realized through the control motor.

When using this bulking furnace, control balladeur train 2 outwards slides, bulking furnace body 1 breaks away from radiation shield 7, then drop into graphite alkene through bulking furnace body 1's open end, bulking furnace body 1 resets, radiation shield 7 and shrouding 8 offset and enclose into an inclosed space, then start driving motor 9, back shaft 11 drives bulking furnace body 1 rotatory, outside high frequency coil 51 and interior high frequency coil 61 power supply, bulking furnace body 1 and heating tube 62 all generate heat because of electromagnetic induction, there are two heat sources inside and outside the graphite alkene in bulking furnace body 1, make graphite alkene be heated evenly, and bulking furnace body 1 is rotatory to be driven graphite alkene and roll, improve the degree of consistency that graphite alkene was heated.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. The utility model provides a two heat source graphite alkene bulking furnace, includes popped furnace body (1), its characterized in that, the one end of popped furnace body (1) is provided with balladeur train (2), the bottom of balladeur train (2) is provided with slide (3), popped furnace body (1) other end is provided with positioning disk (4), and one side regulation relative with popped furnace body (1) on this positioning disk (4) is provided with external heater (5) and internal heater (6), when the other end opening of popped furnace body (1) just offsets with positioning disk (4), internal heater (6) are located the middle part of popped furnace body (1), and the outside at popped furnace body (1) is established in external heater (5) cover.

2. The dual-heat-source graphene expansion furnace as claimed in claim 1, wherein: an outer high-frequency coil (51) is arranged on the outer heater (5), and an inner high-frequency coil (61) and a heating tube (62) positioned in the inner high-frequency coil (61) are arranged on the inner heater (6).

3. The dual-heat-source graphene swelling furnace according to claim 2, characterized in that: one side of the positioning disc (4) is fixedly connected with a heat insulation sleeve (7) positioned outside the external heater (5), one end of the heat insulation sleeve (7) facing the sliding frame (2) is provided with an opening, and the sliding frame (2) is provided with a sealing plate (8) opposite to the heat insulation sleeve (7).

4. The dual-heat-source graphene swelling furnace according to claim 3, wherein: one end fixedly connected with of popped furnace body (1) is with axle center back shaft (11), and this back shaft (11) run through one side of shrouding (8) and be the rotation connection, shrouding (8) opposite side fixedly connected with and back shaft (11) fixed connection's driving motor (9).

5. The dual-heat-source graphene expansion furnace as claimed in claim 1, wherein: the bottom of the sliding frame (2) is provided with an L-shaped supporting plate (21), the bottom of the L-shaped supporting plate (21) is fixedly provided with a sliding plate (211), and the sliding base (3) is provided with a sliding groove (31) in sliding fit with the sliding plate (211).

6. The dual-heat-source graphene expansion furnace as claimed in claim 5, wherein: the sliding seat (3) is provided with a lead screw transmission mechanism (101) for controlling the sliding plate (211) to slide relative to the sliding groove (31).

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