CN206803749U - Efficient stable agglomerating plant - Google Patents

Abstract

The utility model discloses a kind of efficient stable agglomerating plant, including circular base, the middle part of the base to be provided with central shaft, central shaft is provided with sintering furnace, the sintering chamber of open at one end is provided with inside sintering furnace, sintering chamber is in horizontally disposed hollow cylindrical, and the sintering cavity wall is provided with electrical heating wire；Rotating disk is rotationally arranged with central shaft, at least one support base is movably installed with the rotating disk, sintering spoon is installed on support base, the height for sintering spoon is adapted with sintering the position of chamber, support base can face sintering furnace slide and sintering spoon is stretched into sintering intracavitary, base is provided with the drive mechanism that driving rotating disk rotates.Sintering spoon is effectively ensured and steadily passes in and out sintering chamber, and reduce experimenter and scald probability, driven by rotary disc support base rotates, realize that sintering experiment is carried out continuously, reduce the sintering spoon cooling stand-by period, so as to improve conventional efficient, while reduce the preheating time of sintering furnace, so as to which the precision of experimental result is effectively ensured, feasibility study is improved.

Description

Efficient stable agglomerating plant

Technical field

The utility model belongs to chemical industry metallurgical technical field of experiment equipment, and in particular to a kind of efficient stable agglomerating plant.

Background technology

To study the main performance of characteristic component contained by various ores, and chemical combination caused by synthetic reaction between ore Physical performance etc., it is often necessary in an experiment one or more ores are sintered with refinement, existing laboratory sintering equipment is main Take and metallic ore powder is placed in sintering spoon, then hand-held sintering spoon stretches into the mode being sintered in sintering furnace.

Sintering process temperature is higher, and in experimentation, for accurate record data, observation experiment progress, it is necessary to Frequently sintering bale-out is gone out to observe sintering degree, often result in the situation of experimenter's hand scald, or sintering spoon is held not It is stable, sintering feed occurs and pours into the sintering intracavitary in sintering furnace out of sintering spoon, influences sintering furnace cleaning inside, and worked as Into a sintering feed sintering when because sintering spoon temperature it is too high, it has not been convenient to carry out device movement etc., it is necessary to wait sintering spoon cooling Afterwards, can just continue to sinter next time after taking sintering spoon away, so operation reduces the cycle of experiment, it has not been convenient to carries out The comparative analysis of multigroup experimental data under identical environment, influence the accuracy of experiment.

Utility model content

To solve above technical problem, the utility model provides a kind of efficient stable agglomerating plant, improves sintering equipment Processing safety, improves the efficiency of sintering experiment, while is advantageous to improve the Accurate Analysis feasibility study of experimental data.

To achieve the above object, technical solutions of the utility model are as follows：

A kind of efficient stable agglomerating plant, itself it is critical that include circular base, the middle part of the base be provided with vertically to The central shaft of upper extension, the top of the central shaft are removably provided with sintering furnace, sintering chamber are provided with inside the sintering furnace, It is in horizontally disposed hollow cylindrical and open at one end to sinter chamber, and its center line is vertical with the axis of central shaft, the sintering chamber Inwall is provided with electrical heating wire；

The rotating disk of circle is rotationally arranged with the central shaft, at least one support base is movably installed with the rotating disk, Sintering spoon is removably installed, the height of the sintering spoon is adapted with sintering the position of chamber, support base on the support base Can face sintering furnace slide make sintering spoon stretch into or release sinter chamber；

The circumferential outer rim of the rotating disk has an engaging tooth A, is provided with and the engaging tooth A on base the side of rotating disk is horizontal Meshed gears, base is interior to be provided with the motor for driving the pinion rotation.

Using above scheme, spoon disengaging sintering chamber is sintered by supporting seat supports, effective reduction personnel and sintering furnace connect Touch, reduce scald risk, while ensure to sinter the steady of spoon, after one, which sinters spoon sintering feed, completes sintering, exit wait In cooling procedure, drive rotating disk to rotate by motor-driven gear, then can sinter the sintering spoon face on another support base Chamber, support base is promoted, sintering spoon is stretched into sintering chamber, so as to rapidly enter second of sintering experiment, improves experiment effect Rate, whole process sintering furnace need not all preheat, continuous experiment, advantageously ensure that the accuracy of experimental result.

As preferred：The rotating disk is equipped with one group of double sided slider bar in corresponding each support base position, and the double sided slider bar edge turns The radial direction of disk is outwards horizontal-extending；

The bottom four corners of the support base are equipped with the roller being adapted with double sided slider bar, and support base is supported by roller-coaster On double sided slider bar, the support base is provided with brake(-holder) block in the position of corresponding two outer side wheels.Using above structure, make support base When face sintering chamber slides, movement is more steady, and will not glance off the situation for causing sintering spoon to be collided with sintering chamber, enters One step improves the stability of device.

As preferred：The sintering spoon includes spoon head and the cylindric kettleholder extended along spoon head terminal horizontal, the spoon Handle is provided with vacuum chamber inside spoon head one end.Using above structure, heat rear end at spoon head sintering can be reduced as far as possible Kettleholder transmission, further reduce experimenter and touch the risk of scald, while in this way, the material of rear end kettleholder can be reduced High temperature resistant demand.

As preferred：The upper end of the support base is installed with the anchor ear of ring-type, and the size of anchor ear is mutually fitted with the size of kettleholder Should.Using said structure, the clamp standoff of spoon can be very easily sintered.

As preferred：The support base is hinged with support arm close to the side of sintering furnace, is provided with the downside of the kettleholder downward The projection of extension, projection are provided with the groove being adapted with support arm.Using above structure, support arm can be stretched into groove, right The supporting construction that spoon forms triangle is sintered, is further ensured that the plateau of sintering spoon.

To further facilitate experimenter's push-and-pull support base, the position of mobile sintering spoon, the rear side of the support base is provided with Handle.

As preferred：The sintering chamber is cylindrical, and electrical heating wire circular array is distributed on the inwall of sintering chamber.Adopt With above structure, the sinter thermally equivalent in sintering spoon can be made, improve sintering rate and uniformity coefficient.

As preferred：The rotating disk is set on the outside of central shaft by bearing.Using above structure, rotating disk is more flat when rotating Cunning is laborsaving.

Compared with prior art, the beneficial effects of the utility model are：

Using efficient stable agglomerating plant provided by the utility model, sintering spoon is formed surely by support base and double sided slider bar Fixed support, ensure that sintering spoon can smoothly pass in and out sintering chamber, and reduce experimenter and scald probability, driven by rotary disc support base Rotate, realize that sintering experiment is carried out continuously, reduce the sintering spoon cooling stand-by period, so as to improve conventional efficient, reduce simultaneously The preheating time of sintering furnace, so as to which the precision of experimental result is effectively ensured, improve feasibility study.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the top view of embodiment illustrated in fig. 1；

Fig. 3 is the side view of support base.

Embodiment

The utility model is described in further detail with accompanying drawing with reference to embodiments.

Referring to figs. 1 to the efficient stable agglomerating plant shown in Fig. 3, the main base 4 included in hollow disc shape, sintering furnace 1st, support base 3 and the sintering spoon 2 being removably mounted on support base 3.

The middle part of base 4, which has, to be integrally formed, and the central shaft 40 extended straight up, central shaft 40 is in solid cylindric Structure, sintering furnace 1 are removably mounted on the top of central shaft 40.

The upper end of sintering furnace 1 is provided with the sintering chamber 10 in hollow cylindrical, and sintering chamber 10 is horizontally disposed and right-hand member is open, Circumferentially array distribution has electrical heating wire 11 on the inwall of sintering chamber 10, and sinters the axis of chamber 10 and the axis of central shaft 40 Line is mutually perpendicular to.

The outside of central shaft 40 is arranged with a circular rotating disk 6 by bearing 61, and the outer rim of rotating disk 6 is machined with engaging tooth A60, the upper surface of base 4 is also horizontal to be provided with a gear 7, and gear 7 is in the outside of rotating disk 6, its engaging tooth B70 and engaging tooth A60 is intermeshed, and the position of corresponding gear 7 is provided with motor 8 vertically in base 4, and the center of the power transmission shaft and gear 7 of motor 8 is consolidated Fixed connection, can drive gear 7 rotate, so as to drive rotating disk 6 to be rotated along central shaft 40.

Circumferentially array distribution has four groups of double sided slider bars 5 to the upper surface of the present embodiment turntable 6, and double sided slider bar 5 parallel is set by two The single track put is formed, the center of the center line face central shaft 40 of double sided slider bar 5, and is horizontally outward extended, on every group of double sided slider bar 5 It is movably set with a support base 3；

The bottom four corners of support base 3 are arranged with four rolling 31, and spacing and size and the phase of double sided slider bar 5 of roller 31 are fitted Should, support base 3 is slidably supported on corresponding double sided slider bar 5 by roller 31, then support base 3 can slide along corresponding double sided slider bar 5, Make it close and away from sintering furnace 1.

Two positions of roller 31 of outside (i.e. the side away from sintering furnace 1) are equipped with brake(-holder) block 32 on support base 3, similar The brake structure of children trolley, after brake(-holder) block 32 are pressed, then it can prevent corresponding two rollers 31 and stop operating, so that Support base 3 is parked in fixed position.

Sinter that spoon 2 includes spoon head 20 and horizontal-extending 21 two parts of kettleholder, spoon head 20 are in backward along the rear end of spoon head 20 The semi-cylindrical structure of open topped, to contain the material of sintering reaction, kettleholder 21 is in solid cylindrical-shaped structure, inside it Hollow vacuum chamber 22 is provided with close to one end of spoon head 20, is mainly used in heat-insulated, the heat of the position of spoon head 20 when preventing sintering reaction The kettleholder 21 of amount rear end transmits, then can be effectively heat-insulated by vacuum chamber 22, simultaneously as spoon head 20 needs to stretch into sintering chamber High temperature sintering reaction is carried out in 10, material high temperature resistant demand is higher, and rear end then need not because vacuum chamber 22 is heat-insulated, then spoon The part of handle 21 can be made of common material, avoid the waste of high quality material.

The upper end of support base 3 is provided with the anchor ear 30 of the ring-type upwardly extended, and height and position and the sintering chamber 10 of anchor ear 30 exist Height and position is consistent on sintering furnace 1, and the obvolvent internal diameter size and the size of kettleholder 21 of anchor ear 30 are adapted, and just obvolvent can be lived Kettleholder 21, and the one end of spoon head 20 is inwardly, face sintering furnace 1.

The inner side of support base 3 is hinged with support arm 33, and support arm 33 stretches out and can do 180 ° of rotations around pin joint, Support arm 33 is cylindrical, and the downside of kettleholder 21 is provided with the projection 23 extended downwardly, and projection 23 is provided with one close to the position of rear side Individual groove, in use, support arm 33 can be stretched into groove from rear, when not in use, supporting part 33 can naturally droop, and be close to support The side wall of seat 3, space-consuming is reduced, the stable of triangle can be formed to sintering spoon 2 and is supported, while also makes support base 3 overall more It is stable.

Outside side wall of the support base 3 away from sintering furnace 1 is provided with the handle 34 of a frame shape, can be more square by handle 34 Just passage support base 3.

Operation principle of the present utility model is as follows：

Referring to figs. 1 to Fig. 3, during experiment, support arm 33 is inserted after the groove in projection 23, kettleholder 21 is caught in anchor ear 30 In, blending bolt locks anchor ear 30.

After fixed completion, sintering feed is put into the spoon heads 20 of all sintering spoons 2, starts motor 8, rotate gear 7 Drive rotating disk 6 to rotate correct position, make the opening end of sintering chamber 1 of the sintering face sintering furnace 1 of spoon 2 on one of support base 3, Then stop motor 8, promote support base 3, move its face sintering furnace 1 on double sided slider bar 5, sintering spoon 2 face sintering chamber 10 Mobile, then spoon head 20 is stretched into sintering chamber 10, within the heated perimeter in electrical heating wire 11, is locked brake(-holder) block 32, is started Sintering furnace 1, because electrical heating wire 11 is evenly distributed on the circumferential inner wall of sintering chamber 10, the sintering feed in spoon head 20 is then from each The heating-up temperature that direction is subject to is basically identical, relative can reduce sintering time, while improve the integrity degree of sintering.

After completing sintering, direct pull handle 34, then sintering spoon 2 smoothly can be exited into sintering chamber 10, reduce and burn The risk that knot spoon 2 may be tilted or collided with the sintering inwall of chamber 10, ensure the security of Experiment Result, while whole experiment During, experimenter directly will not also contact with the sintering spoon 2 with high temperature, avoid scald risk.Exited from sintering chamber 10 The sintering spoon 2 come can support hanging cooling directly on support base 3, be again started up motor 8, drive rotating disk 6 to rotate, make another Individual sintering spoon 2 face sintering chamber 10 repeats preceding stage, then can quickly carry out second of sintering experiment, be burnt so as to substantially increase The solid efficiency tested, the cool time of sintering furnace 1 is greatly reduced during this, can fully ensure that the continuity of experiment, favorably In the feasibility study for improving experimental data.

Finally it should be noted that foregoing description is only preferred embodiment of the present utility model, the common skill of this area Art personnel on the premise of without prejudice to the utility model aims and claim, can make under enlightenment of the present utility model Expression, such conversion are each fallen within the scope of protection of the utility model as multiple types.

Claims (8)

1. A kind of 1. efficient stable agglomerating plant, it is characterised in that：Include the base (4) of circle, the middle part of the base (4), which is provided with, erects The central shaft (40) directly upwardly extended, the top of the central shaft (40) are removably provided with sintering furnace (1), the sintering furnace (1) internal to be provided with sintering chamber (10), sintering chamber (10) is in horizontally disposed hollow cylindrical and open at one end, and its center line is with The axis of mandrel (40) is vertical, and sintering chamber (10) inwall is provided with electrical heating wire (11)；

   The rotating disk (6) of circle is rotationally arranged with the central shaft (40), at least one is movably installed with the rotating disk (6) Seat (3) is supportted, sintering spoon (2), height and the sintering chamber of the sintering spoon (2) are removably installed on the support base (3) (10) position is adapted, support base (3) can face sintering furnace (1) slide make sintering spoon (2) stretch into or release sinter chamber (10)；

   The circumferential outer rim of the rotating disk (6) has an engaging tooth A (60), is provided with and institute on base (4) the side of rotating disk (6) is horizontal Engaging tooth A (60) meshed gears (7) is stated, the motor (8) for driving the gear (7) to rotate is provided with base (4).
2. 2. efficient stable agglomerating plant according to claim 1, it is characterised in that：The rotating disk (6) is in corresponding each branch Support seat (3) position is equipped with one group of double sided slider bar (5), and radial direction of the double sided slider bar (5) along rotating disk (6) is outwards horizontal-extending；

   The bottom four corners of the support base (3) are equipped with the roller (31) being adapted with double sided slider bar (5), and support base (3) passes through rolling Wheel (31) is slidably supported on double sided slider bar (5), and the support base (3) is provided with braking in the position of corresponding two outer side wheels (31) Piece (32).
3. 3. efficient stable agglomerating plant according to claim 1, it is characterised in that：The sintering spoon (2) includes spoon head (20) the cylindric kettleholder (21) and along spoon head (20) terminal horizontal extended, the kettleholder (21) is in spoon head (20) one end Portion is provided with vacuum chamber (22).
4. 4. efficient stable agglomerating plant according to claim 3, it is characterised in that：The upper end of the support base (3) is fixed There is the anchor ear (30) of ring-type, the size and the size of kettleholder (21) of anchor ear (30) are adapted.
5. 5. the efficient stable agglomerating plant according to claim 3 or 4, it is characterised in that：The support base (3) is close to sintering The side of stove (1) is hinged with support arm (33), is provided with the projection (23) extended downwardly on the downside of the kettleholder (21), on projection (23) Provided with the groove being adapted with support arm (33).
6. 6. efficient stable agglomerating plant according to claim 1, it is characterised in that：The rear side of the support base (3) is provided with Handle (34).
7. 7. according to the efficient stable agglomerating plant described in claim 1 or 2 or 3 or 6, it is characterised in that：The sintering chamber (10) Cylindrical, electrical heating wire (11) circular array is distributed on the inwall of sintering chamber (10).
8. 8. efficient stable agglomerating plant according to claim 1, it is characterised in that：The rotating disk (6) passes through bearing (61) It is set on the outside of central shaft (40).