CN207113576U - Hydrogen continuous tunnel furnace and ceramic circuit elements process equipment - Google Patents
Hydrogen continuous tunnel furnace and ceramic circuit elements process equipment Download PDFInfo
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- CN207113576U CN207113576U CN201721045295.XU CN201721045295U CN207113576U CN 207113576 U CN207113576 U CN 207113576U CN 201721045295 U CN201721045295 U CN 201721045295U CN 207113576 U CN207113576 U CN 207113576U
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Abstract
The utility model provides a kind of hydrogen continuous tunnel furnace and ceramic circuit elements process equipment, is related to electronic component processing technique field, and hydrogen continuous tunnel furnace provided by the utility model includes body of heater, air supply plant and two gates, wherein:The both ends of body of heater are respectively provided with an outside flue, and the both sides and bottom of each outside flue are connected by pipeline with air supply plant respectively;Gate connects one to one with outside flue, is connected between the outside flue of each gate corresponding thereto by connection component.Hydrogen tunnel provided by the utility model furnace atmosphere is preferable, can prevent outside air from entering body of heater, is effectively guaranteed the sintering quality of ceramic circuit elements.
Description
Technical field
Electronic component processing technique field is the utility model is related to, more particularly, to a kind of hydrogen continuous tunnel furnace and ceramic circuit
Element process equipment.
Background technology
With the development of science and technology, the function of electronic product is become stronger day by day, volume is less and less, the quality requirement of electronic product
Also more and more higher, ceramic circuit elements have high high temperature resistant, electrical insulation capability, dielectric constant and dielectric loss low, had very
Good performance, therefore the manufacture of ceramic component has obtained vigorous growth.
Need to carry out high temperature burning to ceramic circuit elements by hydrogen continuous tunnel furnace during carrying out ceramic component into production
Knot, but existing hydrogen tunnel furnace atmosphere is bad, influences the sintering quality of ceramic circuit elements, it is impossible to better meet city
The demand of field.
Therefore, how to provide a kind of preferable hydrogen continuous tunnel furnace of atmosphere and ceramic circuit elements process equipment is this area
One of technical problem that technical staff need to solve.
Utility model content
The purpose of this utility model is to provide a kind of hydrogen continuous tunnel furnace, to solve hydrogen tunnel furnace atmosphere in the prior art
The bad technical problem of property.A kind of circuit element process equipment using above-mentioned hydrogen continuous tunnel furnace is provided in addition.
The utility model provides a kind of hydrogen continuous tunnel furnace, including body of heater, air supply plant and two gates, wherein:
The both ends of the body of heater are respectively provided with an outside flue, the both sides of each outside flue and bottom difference
It is connected by pipeline with the air supply plant;
The gate connects one to one with the outside flue, the outside of each described gate corresponding thereto
Connected between flue by connection component.
Further, the connection component includes high-temperature silica gel, mounting base, pressing plate and multiple locking members, wherein:
Through hole is provided with the high-temperature silica gel, the mounting base and the pressing plate, each through hole mutually interconnects
Pass to the passage to form conveying material;
The openend of the outside flue stretches into the passage and is welded in the mounting base;
The high-temperature silica gel is located between the mounting base and the gate;
The pressing plate deviates from the side of the high-temperature silica gel located at the mounting base;
Multiple locking members are sequentially connected the pressing plate, the mounting base, the high-temperature silica gel and the gate.
Further, the body of heater includes the inside flue connected with two outside flues, the internal flue
Outside is wound with molybdenum filament.
Further, the gate includes doorframe body, drive component and the door body with drive component drive connection,
The doorframe body is provided with the opening for being used for material disengaging, and the both sides of the doorframe body are provided with chute, the door body
In chute, the drive component can drive the door body to be moved along the chute for both sides.
Further, the drive component includes cylinder, axis body, drive sprocket and driven sprocket, the cylinder with it is described
Connected between drive sprocket by the first chain drive, so that the cylinder can drive the drive sprocket to rotate when acting,
The axis body is located at the top of the doorframe body, and the drive sprocket and the driven sprocket are connected with the axis body, so that
The drive sprocket can drive the driven sprocket to rotate when rotating, pass through second between the driven sprocket and the door body
Chain drive connects, so that the driven sprocket can drive the door body to rise or fall when rotating.
Further, the driven sprocket is two, and two driven sprockets pass through second chain and institute respectively
State and connected at the top of door body.
Further, the drive component also includes tensioning wheel, and the tensioning wheel is connected and is located at the doorframe body
Between the cylinder and the drive sprocket, the tensioning wheel is connected with first chain drive, for being tensioned described first
Chain.
The utility model also provides a kind of ceramic circuit elements process equipment, including the hydrogen tunnel described in such scheme
Stove.
Further, device, pan feeding platform and outfeed platforms are promoted mainly in addition to;
Along material conveying direction, the device of promoting mainly is located at the pan feeding platform upstream, and the pan feeding platform is positioned at described
Body of heater upstream, the outfeed platforms are located at the body of heater downstream;
The device of promoting mainly is used to the material on the pan feeding platform pushing to the furnace interior, the outfeed platforms
For receiving the material of the outside flue output positioned at the body of heater discharge end.
Further, the device of promoting mainly includes motor, transmission component, slide assemblies and push rod, the motor with it is described
Transmission component is connected, and the slide assemblies are slidably connected with the transmission component, and the push rod is located at the slide assemblies
On.
Hydrogen continuous tunnel furnace and ceramic circuit elements process equipment provided by the utility model can produce following beneficial effect:
When above-mentioned hydrogen continuous tunnel furnace works, connected between gate and outside flue by connection component, material passes through lock
Door enters the outside flue of body of heater one end, and subsequent material is entered in body of heater by outside flue, carried out to ceramic electron element
During sintering, air supply plant conveys hydrogen to the both sides of flue outside two and bottom respectively by pipeline so that two
Fiery curtain can be sufficiently formed in individual outside flue, prevent outside air enters body of heater.
For prior art, the both sides of each outside flue in hydrogen continuous tunnel furnace provided by the utility model
And bottom is connected by pipeline with air supply plant, because the density of hydrogen is small, this allows for hydrogen can be more fully
It is distributed in outside flue so that outside flue mouth can be sufficiently formed fiery curtain, and the extraneous air of effective isolation enters body of heater
It is interior, be not in the fireless fiery curtain in bottom of outside flue, avoid influences in body of heater because air enters in body of heater
Atmosphere, reduce the sintering qualities of ceramic circuit elements.Connected simultaneously between gate and outside flue by connection component, relatively
The junction deflection of gate and outside flue is smaller for traditional direct welding, is effectively guaranteed the plane of gate
Degree so that gate has better seal when closed, avoids the hydrogen in outside flue from revealing to form flare from surrounding, makes
Obtaining hydrogen continuous tunnel furnace has more preferable atmosphere.
For prior art, ceramic circuit elements process equipment provided by the utility model has preferably sintering
The condition of ceramic circuit elements, it can effectively avoid outside air that there is preferably economical influence caused by sintering quality
Benefit.
Brief description of the drawings
, below will be right in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art
The required accompanying drawing used is briefly described in embodiment or description of the prior art, it should be apparent that, describe below
In accompanying drawing be some embodiments of the present utility model, for those of ordinary skill in the art, do not paying creativeness
On the premise of work, other accompanying drawings can also be obtained according to these accompanying drawings.
Fig. 1 is the side view of the air supply plant that the utility model embodiment one provides and gate;
Fig. 2 is the three dimensional structure diagram of the air supply plant that the utility model embodiment one provides and gate;
Fig. 3 is the sectional view for the connection component that the utility model embodiment one provides;
Fig. 4 is close-up schematic view at the A of the offer of the utility model embodiment one;
Fig. 5 is the body of heater schematic cross-section that the utility model embodiment one provides;
Fig. 6 is a kind of measurements of the chest, waist and hips structural representation for ceramic circuit elements process equipment that the utility model embodiment two provides
Figure;
Fig. 7 is the front view for promoting mainly device that the utility model embodiment one provides;
Fig. 8 is the top view for promoting mainly device that the utility model embodiment two provides.
Icon:1- bodies of heater;Flue inside 11-;12- molybdenum filaments;2- pipelines;3- gates;31- doorframe bodies;32-
Drive component;321- cylinders;322- axis bodies;323- drive sprockets;324- driven sprockets;The chains of 325- first;326-
Second chain;327- tensioning wheels;33- door body;Flue outside 4-;5- connection components;51- high-temperature silica gels;52- is installed
Bottom plate;53- pressing plates;54- locking members;6- electricity cabinets;7- promotes mainly device;71- motors;72- transmission components;721- first
Sprocket wheel;The sprocket wheels of 722- second;723- screw mandrels;724- optical axises;73- slide assemblies;731- slides;74- push rods;8- enters
Expect platform;9- outfeed platforms.
Embodiment
The technical solution of the utility model is clearly and completely described below in conjunction with accompanying drawing, it is clear that described
Embodiment is the utility model part of the embodiment, rather than whole embodiments.Based on the embodiment in the utility model, sheet
The every other embodiment that field those of ordinary skill is obtained under the premise of creative work is not made, belongs to this practicality
Novel protected scope.
, it is necessary to explanation in description of the present utility model, term " " center ", " on ", " under ", it is "left", "right", " perpendicular
Directly ", the orientation of the instruction such as " level ", " interior ", " outer " or position relationship are based on orientation shown in the drawings or position relationship, are only
Described for the ease of description the utility model and simplifying, rather than instruction or imply signified device or element must have it is specific
Orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.In addition, term " the
One ", " second ", " the 3rd " are only used for describing purpose, and it is not intended that instruction or hint relative importance.
, it is necessary to which explanation, unless otherwise clearly defined and limited, term " are pacified in description of the present utility model
Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly
Connection;Can be mechanical connection or electrical connection;Can be joined directly together, can also be indirectly connected by intermediary,
It can be the connection of two element internals.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition
Concrete meaning of the language in the utility model.
Specific embodiment of the present utility model is described in detail below in conjunction with accompanying drawing.It should be appreciated that herein
Described embodiment is merely to illustrate and explained the utility model, is not limited to the utility model.
Fig. 1 is the side view of the air supply plant that the utility model embodiment one provides and gate;Fig. 2 is the utility model
The air supply plant and the three dimensional structure diagram of gate that embodiment one provides;Fig. 3 is the lock that the utility model embodiment one provides
The front view of door;Fig. 4 is close-up schematic view at the A of the offer of the utility model embodiment one;Fig. 5 is implemented for the utility model
The body of heater schematic cross-section that example one provides;Fig. 6 is that a kind of ceramic circuit elements processing that the utility model embodiment two provides is set
Standby measurements of the chest, waist and hips structural representation;Fig. 7 is the front view for promoting mainly device that the utility model embodiment one provides;Fig. 8 is this practicality
The top view for promoting mainly device that new embodiment two provides.
Embodiment one:
The purpose of the present embodiment is to provide a kind of hydrogen continuous tunnel furnace, as shown in Figures 1 to 5, including body of heater 1, dress of supplying gas
Put with two gates 3, wherein:The both ends of body of heater 1 are respectively provided with an outside flue 4, the both sides and bottom of each outside flue 4
Portion is connected by pipeline 2 with air supply plant respectively;Gate 3 connects one to one with outside flue 4, each gate 3 and its phase
Connected between corresponding outside flue 4 by connection component 5.
When above-mentioned hydrogen continuous tunnel furnace works, connected between gate and outside flue by connection component, material passes through lock
Door enters the outside flue of body of heater one end, and subsequent material is entered in body of heater by outside flue, carried out to ceramic electron element
During sintering, air supply plant conveys hydrogen to the both sides of flue outside two and bottom respectively by pipeline so that two
Fiery curtain can be sufficiently formed in individual outside flue, prevent outside air enters body of heater.
For prior art, the both sides of each outside flue in the hydrogen continuous tunnel furnace that the present embodiment provides with
And bottom is connected by pipeline with air supply plant, because the density of hydrogen is small, this, which allows for hydrogen, more fully to divide
Cloth is in outside flue so that and outside flue mouth can be sufficiently formed fiery curtain, and the extraneous air of effective isolation enters in body of heater,
Be not in the fireless fiery curtain in bottom of outside flue, avoid influences the gas in body of heater because air enters in body of heater
Atmosphere, reduce the sintering quality of ceramic circuit elements.Connected simultaneously between gate and outside flue by connection component, relative to biography
The junction deflection of gate and outside flue is smaller for the direct welding of system, is effectively guaranteed the flatness of gate, makes
Obtain gate has better seal when closed, avoids the hydrogen in outside flue from revealing to form flare from surrounding so that hydrogen
Gas continuous tunnel furnace has more preferable atmosphere.
Further, as shown in Figures 2 to 4, in order that obtaining the better tightness between gate 3 and outside flue 4, even
Connected components 5 include high-temperature silica gel 51, mounting base 52, pressing plate 53 and multiple locking members 54, wherein:High-temperature silica gel 51, installation bottom
Through hole is provided with plate 52 and pressing plate 53, each through hole is interconnected to form the passage of conveying material;Outside flue 4
Openend stretches into the passage and is welded in mounting base 52;High-temperature silica gel 51 is located between mounting base 52 and gate 3;Pressing plate
53 deviate from the side of high-temperature silica gel 51 located at mounting base 52;Multiple locking members 54 be sequentially connected pressing plate 53, mounting base 52,
High-temperature silica gel 51 and gate 3.Mounting base 52 can directly be avoided with the welding of the openend of outside flue 4 gate 3 directly with outside
Portion's flue 4 is welded so that gate is deformed, and the high-temperature silica gel 51 set between mounting base 52 and gate can be effective
The gap between gate 3 and mounting base 52 is compensated, and because high-temperature silica gel 51 has preferably elasticity, enables to lock
Door 3 and mounting base 52 between there is better seal, the setting of pressing plate can increase the thickness of connection component 5, avoid by
It is not firm enough to cause to connect between gate 3 and mounting base 52 in the thinner thickness of connection component 5.
Specifically, as shown in Figure 3 and Figure 4, high-temperature silica gel 51, mounting base 52 and the structure in the shape of a frame of pressing plate 53, frame-shaped
The opening of structure is used for the passage for forming conveying material, and the opening of pressing plate can be more than the opening of mounting base 52, realize and increase
The weight of connection component 5 can be reduced by adding while the thickness of connection component 5.
It should be noted that every portion that can be sequentially connected pressing plate 53, mounting base 52, high-temperature silica gel 51 and gate 3
Part can be the locking member 54 mentioned by the utility model, such as:Bolt, screw etc..
Preferably, install for convenience, locking member 54 uses screw.
Further, as shown in figure 5, in order that obtaining the better heat preservation of body of heater 1, body of heater 1 includes and two outside stoves
The inside flue 11 that courage 4 connects, the outside of internal flue 11 are wound with molybdenum filament 12, and specifically, the spiral winding of molybdenum filament 12 is internally
The outside of flue 11, and often gap be present between circle molybdenum filament 12.The setting of molybdenum filament 12 can effectively prevent the heat stream of body of heater
Lose, reduce the energy consumption of process.
Further, as depicted in figs. 1 and 2, in order to facilitate the opening and closing of regulating gate 3, gate 3 include doorframe body 31,
Drive component 32 and the door body 33 being connected with drive component 32, doorframe body 31 are provided with the opening for being used for material disengaging,
And the both sides of doorframe body 31 are provided with chute, the both sides of door body 33 in chute, drive component 32 can drive door body 33 along
Chute moves.When drive component 32 drives door body 33 upward, gate 3 is in open mode, when drive component 32 drives door body
33 it is downward when, gate 3 is closed.The setting of drive component 32 enables burning of the gate 3 according to ceramic circuit elements
Knot situation is opened and closed in time, improves automaticity.
It should be noted that every component that door body 33 can be driven to be moved along chute can be the utility model institute
The drive component 32 referred to, such as:Pulley assembly, threaded screw rod component etc..
Preferably, as depicted in figs. 1 and 2, the lower section of outside flue 4 is provided with frame, drive component 32 include cylinder 321,
Axis body 322, drive sprocket 323 and driven sprocket 324, cylinder pass through in frame between cylinder 321 and drive sprocket 323
First chain 325 is connected, so that cylinder 321 can drive drive sprocket 323 to rotate when acting, axis body 322 is located at doorframe
The top of body 31, drive sprocket 323 and driven sprocket 324 are connected with axis body 322, so that drive sprocket 323 can when rotating
Drive driven sprocket 324 to rotate, be connected between driven sprocket 324 and door body 33 by the second chain 326, so that driven chain
Wheel 324 can drive door body 33 to rise or fall when rotating.By taking Fig. 2 as an example, when cylinder 321 shrinks, cylinder drives the first chain
Bar 325 moves down, and the first chain 325 drives drive sprocket 323 to rotate clockwise, and drive sprocket 323 drives axis body and axle
Driven sprocket 324 on body rotates clockwise, and driven sprocket 324 packs up the second chain 326 so that the second chain 326 drives door
Body 33 rises, and when cylinder 321 extends, cylinder drives the first chain 325 to move up, and the first chain 325 drives drive sprocket
323 rotate counterclockwise, and drive sprocket 323 drives the driven sprocket 324 on axis body and axis body to rotate counterclockwise, driven sprocket
324 the second chains 326 of release so that the second chain 326 drives door body 33 to decline.The structure of above-mentioned drive component 32 enables to
The rising of gate and decline process are more steady, and stability is higher, is not in be caused due to the unstability of transmission
Poor sealing between doorframe body 31 and door body 33.
Further, as shown in Fig. 2 in order that the drive door body 33 that can more stablize of drive component 32 along chute
Mobile, driven sprocket 324 is two, and two driven sprockets 324 are connected by second chain 326 and the top of door body 33 respectively
Connect.Two driven sprockets 324 can be driven to be rotated when main shaft 322 rotates so that the rise and fall of door body 33 are more
What is added is steady.
Further, in order that the transmission process for obtaining drive component 32 is more stable, drive component 32 also includes tensioning
Wheel 327, doorframe body 31 is provided with power transmission shaft, is connected between one end of power transmission shaft and doorframe body 31 by bearing, power transmission shaft
The other end be fixedly connected with tensioning wheel 327, tensioning wheel 327 be located between cylinder 321 and drive sprocket 323, tensioning wheel 327
It is connected with the first chain 325, for being tensioned the first chain 325.The setting of tensioning wheel 327 enables to cylinder 321 and master
The tension effects of the first chain 325 between movable sprocket 323 are more preferable, effectively avoid because the loosening of the first chain 325 makes
Obtain door body 33 to lift not exclusively, influence the transport of material.
Embodiment two:
The purpose of the present embodiment is to provide a kind of ceramic circuit elements process equipment, the ceramic electrical that the present embodiment two provides
Circuit component process equipment includes the hydrogen continuous tunnel furnace that above-described embodiment one provides.
For prior art, the ceramic circuit elements process equipment that the present embodiment provides has preferably sintering pottery
The condition of porcelain circuit element, it can effectively avoid outside air that there is preferably economic imitate on influence caused by sintering quality
Benefit.
Further, as shown in fig. 6, in order that obtaining ceramic circuit elements process equipment automation provided by the utility model
Degree is stronger, and ceramic circuit elements process equipment provided by the utility model also includes promoting mainly device 7, pan feeding platform 8 and discharging
Platform 9;Along material conveying direction, promote mainly device 7 and be located at the upstream of pan feeding platform 8, pan feeding platform is located on the body of heater 1
Trip, outfeed platforms 9 are located at the downstream of body of heater 1;Promote mainly the inside that device 7 is used to push to the material on pan feeding platform 8 in body of heater 1
Inside flue 11, outfeed platforms 9 are used to receive the material for being delivered to outside flue 4 by internal flue 11.Said structure can have
The processing efficiency of the raising ceramic circuit elements of effect, reduce the workload of worker.
Specifically, in addition to electric cabinet 6, electric cabinet 6 electrically connect with promoting mainly device 7, to provide electric power and real to promote mainly device 7
The now control and protection to device circuit.
It should be noted that every can push to the material on pan feeding platform 8 positioned at the outside of the feed end of body of heater 1
Device inside flue 4 can be the device of promoting mainly mentioned by the utility model, such as:Air pressure pushing meanss, hydraulic drive
Device, cam pushing meanss etc..
Preferably, in order that winner's pushing device pushing course is more steady, promoting mainly device 7 includes motor 71, transmission group
Part 72, slide assemblies 73 and push rod 74, electric cabinet 6 are electrically connected with motor 71 to provide electric power for motor, and motor can be servo electricity
Machine, servomotor are connected with transmission component 72, and slide assemblies 73 are slidably connected with transmission component 72, and push rod 74 is located at cunning
On dynamic component 73.Promote mainly in the course of work of device 7, servomotor driving transmission component 72 rotates, when transmission component 72 rotates
Slide assemblies 73 can drive push rod 74 to be moved along transmission component 72.Slide assemblies 73 are driven using servomotor so that push rod
74 move along transmission component 72, can ensure that pushing course is more accurate, steadily.
Specifically, as shown in Figure 7 and Figure 8, the transmission component 72 can be Chain conveyer, gear drive or V belt translation, slide
Dynamic component 73 can be crank block component, screw mandrel slide block assembly etc., it is preferable that the transmission component 72 includes the first sprocket wheel
721st, the second sprocket wheel 722 and screw mandrel 723, connected between the first sprocket wheel 721 and the second sprocket wheel 722 by chain, the first sprocket wheel
721 are connected with motor, and the second sprocket wheel 722 is connected with screw mandrel 723, and screw mandrel 723 is driven when the second sprocket wheel 722 rotates
Rotated, transmission component 72 also includes two optical axises 724 being fixedly connected with frame, and two optical axises 724 are set parallel to screw mandrel
Put, and two optical axises 724 are located at the both ends of screw mandrel 723.Slide assemblies 73 include slide 731, and push rod 74 is connected with slide, sliding
Seat 731, which is provided with, is respectively used to three through holes that two optical axises and screw mandrel pass through, and screw thread connects between slide 731 and screw mandrel 723
Connect, because two screw mandrels 723 play position-limiting action to slide 731, can prevent slide 731 from occurring to turn relative to screw mandrel 723
Dynamic, when screw mandrel 723 rotates, slide 731 can move along the bearing of trend of screw mandrel 723, real so as to drive push rod to move
Existing push rod pushes the product into body of heater.
When in use, first, ceramic circuit elements to be sintered are positioned over pan feeding platform 8, the F.F. of push rod 74, will wait to burn
Before the ceramic circuit elements of knot push to the gate of feed end, air supply plant conveys hydrogen, charging to the outside flue 4 of feed end
The gate at end rises, and to form fiery curtain, ceramic circuit elements to be sintered are advanced into the outside flue 4 of feed end by push rod 74
Afterwards, gate declines, and air supply plant stops conveying hydrogen to the outside flue 4 of feed end, and the gate of feed end, which is provided with, to be used to push away
The opening that the body of rod on bar 74 stretches into, the slow-motion of push rod 74 so that ceramic circuit elements are internally sintered in flue 11, are shifted onto
After specified location, air supply plant conveys hydrogen to the outside flue 4 of discharge end, and the gate of discharge end rises, to form fiery curtain, pushed away
The ceramic circuit elements that sintering finishes are pushed into outfeed platforms 9 by bar 74, and with the rewind of rear push-rod 74, the gate of discharge end declines, and send
Device of air stops conveying hydrogen to the outside flue 4 of discharge end, and subsequent air supply plant conveys hydrogen to the outside flue 4 of feed end
Gas, the gate of feed end rises, and to form fiery curtain, after push rod 74 exits from body of heater 1, the gate of feed end declines, dress of supplying gas
Put and stop conveying hydrogen to the outside flue 4 of feed end, last push rod 74 retracts home position.
Finally it should be noted that:Various embodiments above is only to illustrate the technical solution of the utility model, rather than it is limited
System;Although the utility model is described in detail with reference to foregoing embodiments, one of ordinary skill in the art should
Understand:It can still modify to the technical scheme described in foregoing embodiments, either to which part or whole
Technical characteristic carries out equivalent substitution;And these modifications or replacement, the essence of appropriate technical solution is departed from this practicality newly
The scope of each embodiment technical scheme of type.
Claims (10)
- A kind of 1. hydrogen continuous tunnel furnace, it is characterised in that including body of heater (1), air supply plant and two gates (3), wherein:The both ends of the body of heater (1) are respectively provided with an outside flue (4), the both sides and bottom of each outside flue (4) Portion is connected by pipeline (2) with the air supply plant respectively;The gate (3) connects one to one with the outside flue (4), each institute of the gate (3) corresponding thereto State and connected by connection component (5) between outside flue (4).
- 2. hydrogen continuous tunnel furnace according to claim 1, it is characterised in that the connection component (5) includes high-temperature silica gel (51), mounting base (52), pressing plate (53) and multiple locking members (54), wherein:Through hole is provided with the high-temperature silica gel (51), the mounting base (52) and the pressing plate (53), it is each described logical Hole is interconnected to form the passage of conveying material;The openend of the outside flue (4) stretches into the passage and is welded in the mounting base (52);The high-temperature silica gel (51) is located between the mounting base (52) and the gate (3);The pressing plate (53) deviates from the side of the high-temperature silica gel (51) located at the mounting base (52);Multiple locking members (54) are sequentially connected the pressing plate (53), the mounting base (52), the high-temperature silica gel (51) With the gate (3).
- 3. hydrogen continuous tunnel furnace according to claim 1, it is characterised in that the body of heater (1) includes and two outsides The inside flue (11) of flue (4) connection, the outside of the internal flue (11) are wound with molybdenum filament (12).
- 4. hydrogen continuous tunnel furnace according to claim 1, it is characterised in that the gate (3) includes doorframe body (31), driven Dynamic component (32) and the door body (33) with the drive component (32) drive connection, the doorframe body (31), which is provided with, is used for thing Expect the opening of disengaging, and the both sides of the doorframe body (31) are provided with chute, the both sides of the door body (33) are in chute, institute Stating drive component (32) can drive the door body (33) to be moved along the chute.
- 5. hydrogen continuous tunnel furnace according to claim 4, it is characterised in that the drive component (32) include cylinder (321), Axis body (322), drive sprocket (323) and driven sprocket (324), lead between the cylinder (321) and the drive sprocket (323) The first chain (325) drive connection is crossed, so that the cylinder (321) can drive the drive sprocket (323) to rotate when acting, The axis body (322) is located at the top of the doorframe body (31), the drive sprocket (323) and the driven sprocket (324) It is connected with the axis body (322), so that the drive sprocket (323) can drive the driven sprocket (324) to rotate when rotating, It is connected between the driven sprocket (324) and the door body (33) by the second chain (326), so that the driven sprocket (324) when rotating the door body (33) can be driven to rise or fall.
- 6. hydrogen continuous tunnel furnace according to claim 5, it is characterised in that the driven sprocket (324) is two, two institutes Driven sprocket (324) is stated respectively by second chain (326) with being connected at the top of the door body (33).
- 7. hydrogen continuous tunnel furnace according to claim 5, it is characterised in that the drive component (32) also includes tensioning wheel (327), the tensioning wheel (327) is connected with the doorframe body (31) and located at the cylinder (321) and the drive sprocket (323) between, the tensioning wheel (327) is connected with first chain (325), for being tensioned first chain (325)。
- 8. a kind of ceramic circuit elements process equipment, it is characterised in that including the hydrogen as described in claim any one of 1-7 Continuous tunnel furnace.
- 9. ceramic circuit elements process equipment according to claim 8, it is characterised in that also include promoting mainly device (7), entering Expect platform (8) and outfeed platforms (9);Along material conveying direction, the device (7) of promoting mainly is located at pan feeding platform (8) upstream, and the pan feeding platform is located at institute Body of heater (1) upstream is stated, the outfeed platforms (9) are located at the body of heater (1) downstream;It is described promote mainly device (7) be used to the material on the pan feeding platform (8) pushing to the body of heater (1) it is internal, it is described go out Expect that platform (9) is used for the material for receiving outside flue (4) output positioned at the body of heater (1) discharge end.
- 10. ceramic circuit elements process equipment according to claim 9, it is characterised in that the device (7) of promoting mainly includes Motor (71), transmission component (72), slide assemblies (73) and push rod (74), the motor (71) pass with the transmission component (72) Dynamic connection, the slide assemblies (73) are slidably connected with the transmission component (72), and the push rod (74) is located at the Slide Group On part (73).
Priority Applications (1)
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CN201721045295.XU CN207113576U (en) | 2017-08-16 | 2017-08-16 | Hydrogen continuous tunnel furnace and ceramic circuit elements process equipment |
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CN201721045295.XU CN207113576U (en) | 2017-08-16 | 2017-08-16 | Hydrogen continuous tunnel furnace and ceramic circuit elements process equipment |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107314669A (en) * | 2017-08-16 | 2017-11-03 | 肇庆市宏华电子科技有限公司 | Hydrogen continuous tunnel furnace and ceramic circuit elements process equipment |
CN110440583A (en) * | 2019-08-07 | 2019-11-12 | 肇庆市宏华电子科技有限公司 | Sintering furnace and nickel electrode atmosphere continuous tunnel furnace |
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2017
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107314669A (en) * | 2017-08-16 | 2017-11-03 | 肇庆市宏华电子科技有限公司 | Hydrogen continuous tunnel furnace and ceramic circuit elements process equipment |
CN107314669B (en) * | 2017-08-16 | 2023-09-08 | 肇庆市宏华电子科技有限公司 | Hydrogen tunnel furnace and ceramic circuit element processing equipment |
CN110440583A (en) * | 2019-08-07 | 2019-11-12 | 肇庆市宏华电子科技有限公司 | Sintering furnace and nickel electrode atmosphere continuous tunnel furnace |
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