CN209639505U - Sintering furnace is used in a kind of production of non-magnesium hard alloy strip - Google Patents
Sintering furnace is used in a kind of production of non-magnesium hard alloy strip Download PDFInfo
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- CN209639505U CN209639505U CN201920141706.8U CN201920141706U CN209639505U CN 209639505 U CN209639505 U CN 209639505U CN 201920141706 U CN201920141706 U CN 201920141706U CN 209639505 U CN209639505 U CN 209639505U
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Abstract
The utility model discloses a kind of non-magnesium hard alloy strip production sintering furnaces, including furnace box, furnace box top two sides are mounted on feed well, and feed well bottom end extends to the inside of furnace box across the roof of furnace box, the first solenoid valve is equipped on two feed wells, it is equipped with deflector chute below two feed wells, and two deflector chutes are fixedly connected at the inner wall of furnace box top, furnace box bosom is fixedly connected with support plate.The utility model structure novel, so that material be uniformly heated during heat-agglomerating, so that the speed of the loading and unloading of whole device is greatly improved, the degree of automation of sintering furnace is not only made to become higher, the working efficiency of sintering furnace is also improved, wherein can be completely drawn out the vapor after preheating in heating chamber by aspiration pump, has been ensured in the gas in heating chamber without containing steam, so that the quality of product processing is higher, the practicability of the present apparatus is improved.
Description
Technical field
The utility model relates to a kind of sintering furnace, in particular to a kind of non-magnesium hard alloy strip production sintering furnace belongs to
In sintering furnace equipment technical field.
Background technique
Sintering furnace is that powder compact is instigated to obtain the dedicated of required Physical and mechanical properties and microstructure by sintering
Equipment, slurry, the organic principle in removal slurry, completion Al-BSF and the grid line that sintering furnace is generally used on drying silicon wafer are burnt
Knot.However existing sintering furnace does not have quickly and effectively charging and discharging mechanism, this drops the service efficiency of sintering furnace
It is low, it is unfavorable for being mass produced, and existing sintering furnace is upon the introduction of heat, the humidity in hot air cavity is often higher, unfavorable
It is processed in product, so being badly in need of designing a kind of non-magnesium hard alloy strip production sintering furnace now.
Utility model content
The utility model provides a kind of non-magnesium hard alloy strip production sintering furnace, to solve institute in background technique
Mention problem.
In order to solve the above-mentioned technical problem, the utility model provides the following technical solution:
The utility model a kind of production of non-magnesium hard alloy strip sintering furnace, including furnace box, furnace box top two sides
It is mounted on feed well, and the feed well bottom end extends to the inside of furnace box, two feed wells across the roof of furnace box
On be equipped with the first solenoid valve, be equipped with deflector chute below two feed wells, and two deflector chutes are fixedly connected with
At the inner wall of furnace box top, the furnace box bosom is fixedly connected with support plate, and support plate upper end two sides are fixed to be connected
It is connected to bracket, roll shaft is rotatably connected on two brackets, conveyer belt, the conveying are connected between two roll shafts
Band top two sides are fixedly connected to baffle, on the outside of the furnace box and are located at roll shaft the same horizontal position and are equipped with motor, described
Motor output end is sequentially connected by transmission shaft and one of roll shaft, and the conveyer belt is equipped with blanking far from one end of motor
Slot, the side wall that the blanking groove passes through furnace box extend to the outside of furnace box, and set on the blanking groove and positioned at the inside of furnace box
There is second solenoid valve, the blanking groove is arranged right below the material storing box being fixedly connected with furnace box lateral wall, the support plate bottom
Equipped with heating chamber, the furnace box exterior bottom is equipped with air blower, and the air blower output end is fixedly connected with air inlet pipe, described
Heating device is equipped with inside air inlet pipe, furnace box rear end bottom is equipped with aspiration pump, and the aspiration pump input terminal passes through outlet
Pipe is connected to heating chamber fixation, and the air inlet inside pipe wall is equipped with sealant, and the heating device is made of several Elemas, and
The Elema passes through connector and is fixedly connected with air inlet pipe.
As a kind of optimal technical scheme of the utility model, the air inlet pipe is each passed through furnace box side wall and heating chamber side
It wall and extends to inside heating chamber.
As a kind of optimal technical scheme of the utility model, the heating chamber is cone-shaped, and the heating chamber top
Across support plate, the heating chamber top is equipped with third solenoid valve.
As a kind of optimal technical scheme of the utility model, the Elema is uniformly fixed on inside air inlet pipe, and
The Elema both ends connect with electric wire.
As a kind of optimal technical scheme of the utility model, two deflector chutes are symmetrical arranged about in the middle part of furnace box,
And two deflector chutes to angle inclined in the middle part of furnace box be 30-60 degree.
The utility model beneficial effect achieved is: the utility model structure novel, easy to operate, easy to use, leads to
Crossing can uniformly be transported material on conveyer belt using two deflector chutes, so that material be heated during heat-agglomerating
It is more uniform, while quickly being exported sintered material by conveyer belt, so that the speed of the loading and unloading of whole device
It is greatly improved, the degree of automation of sintering furnace is not only made to become higher, also improve the working efficiency of sintering furnace,
In by aspiration pump can by heating chamber preheat after vapor be completely drawn out, ensured and do not contained in the gas in heating chamber
Steam improves the practicability of the present apparatus so that the quality of product processing is higher.
Detailed description of the invention
Attached drawing is used to provide a further understanding of the present invention, and constitutes part of specification, practical with this
Novel embodiment is used to explain the utility model together, does not constitute limitations of the present invention.In the accompanying drawings:
Fig. 1 is the positive structure schematic of the utility model;
Fig. 2 is the side structure schematic diagram of the utility model;
Fig. 3 is the schematic diagram of heating device of the utility model.
In figure: 1, furnace box;2, feed well;3, the first solenoid valve;4, deflector chute;5, support plate;6, bracket;7, roll shaft;8,
Conveyer belt;9, baffle;10, motor;11, blanking groove;12, second solenoid valve;13, material storing box;14, heating chamber;15, air blower;
16, air inlet pipe;17, heating device;18, aspiration pump;19, escape pipe;20, third solenoid valve;21, sealant;22, Elema;
23, connector.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.
Embodiment: as shown in Figure 1-3, the utility model a kind of production of non-magnesium hard alloy strip sintering furnace, including furnace
Case 1,1 top two sides of furnace box are mounted on feed well 2, and 2 bottom end of feed well extends to the interior of furnace box 1 across the roof of furnace box 1
Portion is equipped with the first solenoid valve 3 on two feed wells 2, deflector chute 4, and two deflector chutes 4 is equipped with below two feed wells 2
It is fixedly connected at 1 top inner wall of furnace box, 1 bosom of furnace box is fixedly connected with support plate 5, and 5 upper end two sides of support plate are equal
It is fixedly connected with bracket 6, roll shaft 7 is rotatably connected on two brackets 6, conveyer belt 8 is connected between two roll shafts 7, is conveyed
8 top two sides of band are fixedly connected to baffle 9,1 outside of furnace box and are located at 7 the same horizontal position of roll shaft and are equipped with motor 10, electricity
10 output end of machine is sequentially connected by transmission shaft and one of roll shaft 7, and conveyer belt 8 is equipped with blanking groove far from one end of motor 10
11, the side wall that blanking groove 11 passes through furnace box 1 extends to the outside of furnace box 1, and is equipped on blanking groove 11 and positioned at the inside of furnace box 1
Second solenoid valve 12, blanking groove 11 are arranged right below the material storing box 13 being fixedly connected with 1 lateral wall of furnace box, and 5 bottom of support plate is set
There is heating chamber 14,1 exterior bottom of furnace box is equipped with air blower 15, and 15 output end of air blower is fixedly connected with air inlet pipe 16, air inlet
Heating device 17 is equipped with inside pipe 16,1 rear end bottom of furnace box is equipped with aspiration pump 18, and 18 input terminal of aspiration pump passes through escape pipe
19 are connected to the fixation of heating chamber 14, and 16 inner wall of air inlet pipe is equipped with sealant 21, and heating device 17 is made of several Elemas 22,
And Elema 22 is fixedly connected by connector 23 with air inlet pipe 16.
Air inlet pipe 16 is each passed through 1 side wall of furnace box and 14 side wall of heating chamber and extends to inside heating chamber 14, heating chamber 14
For cone-shaped, and 14 top of heating chamber passes through support plate 5, and 14 top of heating chamber is equipped with third solenoid valve 20, and Elema 22 is uniform
Be fixed on inside air inlet pipe 16, and 22 both ends of Elema connect with electric wire, and two deflector chutes 4 are symmetrical about 1 middle part of furnace box
Setting, and two deflector chutes 4 to the inclined angle in the middle part of furnace box 1 be 30-60 degree.
Specifically, when the utility model is used, first passing through and opening the first solenoid valve 3, and will need to be sintered without magnetic hard
Alloy strip is imported on conveyer belt 8 by feed well 2 by deflector chute 4, then by starting air blower 15, so that air passes through
Air inlet pipe 16 and heating device 17 import in heating chamber 14, and one of Elema 22 is powered wherein first passing through, so that heating
Temperature in chamber 14 will not be too high, achievees the effect that preheating, is then steamed the water in air after heating by starting aspiration pump 18
Gas is discharged by escape pipe 19, and then whole Elemas 22 is powered, so that the temperature in heating chamber 14 reaches highest, connects
Opening third solenoid valve 20 so that the gas of high temperature ascends into the top of furnace box 1, non-magnesium hard alloy strip is heated so that
It is sintered, and finally drives one of roll shaft 7 to rotate by starting motor 10 after processing is completed, so that conveyer belt 8 starts
Work, opens simultaneously second solenoid valve 12, and sintered non-magnesium hard alloy strip is exported by blanking groove 11 and enters storage
In hopper 13.
While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art,
It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired
Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.
Claims (5)
1. a kind of non-magnesium hard alloy strip production sintering furnace, which is characterized in that including furnace box (1), furnace box (1) top
Two sides are mounted on feed well (2), and roof of the feed well (2) bottom end across furnace box (1) extends to the interior of furnace box (1)
Portion is equipped with the first solenoid valve (3) on two feed wells (2), is equipped with deflector chute below two feed wells (2)
(4), and two deflector chutes (4) are fixedly connected at the inner wall of furnace box (1) top, and furnace box (1) bosom is fixed
It is connected with support plate (5), support plate (5) the upper end two sides are fixedly connected to bracket (6), on two brackets (6)
It is rotatably connected to roll shaft (7), is connected with conveyer belt (8) between two roll shafts (7), conveyer belt (8) the top two sides are equal
It is fixedly connected with baffle (9), is equipped with motor (10) on the outside of the furnace box (1) and positioned at roll shaft (7) the same horizontal position, it is described
Motor (10) output end is sequentially connected by transmission shaft and one of roll shaft (7), and the conveyer belt (8) is far from motor (10)
One end is equipped with blanking groove (11), and the side wall that the blanking groove (11) passes through furnace box (1) extends to the outside of furnace box (1), and described
On blanking groove (11) and be located at furnace box (1) inside be equipped with second solenoid valve (12), the blanking groove (11) be arranged right below with
The material storing box (13) that furnace box (1) lateral wall is fixedly connected, support plate (5) bottom are equipped with heating chamber (14), the furnace box (1)
Exterior bottom is equipped with air blower (15), and air blower (15) output end is fixedly connected with air inlet pipe (16), the air inlet pipe
(16) internal to be equipped with heating device (17), furnace box (1) the rear end bottom is equipped with aspiration pump (18), and the aspiration pump (18) is defeated
Enter end and be connected to by escape pipe (19) with heating chamber (14) fixation, air inlet pipe (16) inner wall is equipped with sealant (21), described
Heating device (17) is made of several Elemas (22), and the Elema (22) passes through connector (23) and air inlet pipe
(16) it is fixedly connected.
2. a kind of non-magnesium hard alloy strip production sintering furnace according to claim 1, which is characterized in that the air inlet
Pipe (16) is each passed through furnace box (1) side wall and heating chamber (14) side wall and extends to heating chamber (14) inside.
3. a kind of non-magnesium hard alloy strip production sintering furnace according to claim 1, which is characterized in that the heating
Chamber (14) is cone-shaped, and the heating chamber (14) top passes through support plate (5), and heating chamber (14) top is equipped with third electricity
Magnet valve (20).
4. a kind of non-magnesium hard alloy strip production sintering furnace according to claim 1, which is characterized in that the silicon-carbon
It is internal that stick (22) is uniformly fixed on air inlet pipe (16), and the Elema (22) both ends connect with electric wire.
5. a kind of non-magnesium hard alloy strip production sintering furnace according to claim 1, which is characterized in that described in two
Deflector chute (4) is symmetrical arranged about in the middle part of furnace box (1), and two deflector chutes (4) are equal to inclined angle in the middle part of furnace box (1)
For 30-60 degree.
Priority Applications (1)
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CN201920141706.8U CN209639505U (en) | 2019-01-28 | 2019-01-28 | Sintering furnace is used in a kind of production of non-magnesium hard alloy strip |
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CN201920141706.8U CN209639505U (en) | 2019-01-28 | 2019-01-28 | Sintering furnace is used in a kind of production of non-magnesium hard alloy strip |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113399663A (en) * | 2021-05-11 | 2021-09-17 | 滁州华海中谊工业炉有限公司 | Activating agent heating system for vacuum high-temperature sintering furnace |
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2019
- 2019-01-28 CN CN201920141706.8U patent/CN209639505U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113399663A (en) * | 2021-05-11 | 2021-09-17 | 滁州华海中谊工业炉有限公司 | Activating agent heating system for vacuum high-temperature sintering furnace |
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