CN105783502A - Efficient battery material sintering furnace with push plate guide sliding function - Google Patents

Abstract

An efficient battery material sintering furnace with a push plate guide sliding function comprises a furnace shell, a furnace lining, an upper partitioning beam and a lower partitioning beam, and is characterized by further comprising a push plate guide sliding mechanism, wherein the push plate guide sliding mechanism consists of a left limiting guide track, a right limiting guide track and a group of middle guide tracks; cross sections of the left limiting guide track and the right limiting guide track are L-shaped; cross sections of the group of middle guide tracks are inverted-T-shaped; a left limiting guide track groove is formed in one side, which faces the right limiting guide track, of the left limiting guide track; a right limiting guide track groove is formed in one side, which faces the left limiting guide track, of the right limiting guide track; a position, which corresponds to the left end of the lower partitioning beam, of the left limiting guide track is fixed with the lower partitioning beam; a position, which corresponds to the right end of the lower partitioning beam, of the right limiting guide track is fixed with the lower partitioning beam; the group of middle guide tracks are positioned between the left limiting guide track and the right limiting guide track and are fixed with the lower partitioning beam; the upper partitioning beam comprises a central insert block, a left insert block, a right insert block and a pair of insert block support columns. Collapse can be avoided; temperature control and atmosphere uniformized effects of adjacent sintering temperature regions are ensured; energy is saved; and a push plate and side walls of a furnace chamber are protected.

Description

There is the battery material high-efficiency sintered stove of push pedal guiding sliding function

Technical field

The invention belongs to kiln facility technology field, be specifically related to a kind of battery material high-efficiency sintered stove with push pedal guiding sliding function.

Background technology

Aforesaid battery material is crystal silicon photovoltaic battery material, anode material of lithium battery etc. such as.Along with the society of mobile electronic device makes being continuously increased of consumption, the performance requirement of mobile electronic device is also improved constantly, simultaneously to produce components and parts relevant to mobile electronic device, material equipment Requirement increasingly harsh, for instance the sintering furnace of the battery material for burning till mobile electronic device is had higher requirement.Concrete as: the difference degree etc. of the uniformity of the particle size distribution of the battery material sintered out by sintering furnace, pattern and chemical index all can directly affect electrical property, the capacity of battery, cycle performance and security performance.

In order to improve sintering efficiency, ensure that sintering quality and energy efficient aspects find rational equilibrium point, push pedal carry the saggar filling battery material and introduce from the entrance of burner hearth until having become the common recognition (push pedal is promoted by material pusher) of industry from the continuous sintering mode drawn that exports of burner hearth.But owing to the sintering temperature of regional and the corresponding atmosphere (protective atmosphere) of tediously long burner hearth differ according to technological requirement; thus burner hearth need to be implemented void and cut off; so-called empty the partition refers to: in burner hearth and arranging every beam corresponding to the position between each two adjacent warm areas; on be configured to the passage advanced for saggar every the space of the lower section of beam, by every beam by burner hearth every setting out different sintering temperature regions.

As is known in the industry, the width of burner hearth is to drive and drive the size of saggar of row shifting together and quantity adapts, such as when adopting single push pedal list saggar technique, the width relative narrower of burner hearth, and when adopting double; two push pedal pair saggar technique, so furnace width at least increases relative to the former and is twice, by that analogy.Same reason, if adopting double; two saggar (two saggars the are stacked up and down) technique of single push pedal, the so height of burner hearth also respective change, and for example fruit adopts double; two push pedal four saggar technique (namely occurring in each push pedal) with two pairs of stacked saggars, then the width of burner hearth and highly also make adaptations.Certainly for single push pedal list saggar, double; two push pedal four saggars or even three push pedal six saggars (three pairs of saggars are stacked) have the strong point of production capacity height and energy efficient, but the control difficulty of temperature and atmosphere that burner hearth respectively sinters region increases accordingly, simultaneously on also improve accordingly every the requirement of beam, specifically: due to reason of expanding with heat and contract with cold, on there will be crackle every beam or even collapse, and the temperature homogeneity that crackle can cause different sintering temperature region is affected, the sintering quality ultimately resulting in battery material is unable to reach expection.Thus though prior art is in order to improve sintering efficiency and reduce energy consumption and adopt the stacked double; two push pedals of saggar or three push pedals to be ultimate attainment acts, but on become technology barrier every the aforementioned drawback of beam because excessively continually maintenance affecting the sintering efficiency of sintering furnace equally every beam and causing the inspection intensity that equipment manages and protects personnel to increase and the maintenance cost of sintering furnace improves.

In addition, owing to the push pedal in prior art is placed directly the bottom of burner hearth, the bottom surface of push pedal and burner hearth diapire comprehensive engagement, thus frictional force between push pedal and burner hearth diapire is relatively large, then it is unfavorable for energy-conservation because material pusher power is big on the one hand, easily make push pedal friction to damaging on the other hand, even also can undermine burner hearth diapire and undermine hearth biside wall owing to contacting friction between two sides and the hearth biside wall of push pedal.

Chinese patent Authorization Notice No. CN20293849U recommends there be " a kind of anode material of lithium battery sintering kiln ", this patent formula gives the enlightenment of three push pedal six saggar techniques, in the energy consumption reduced in the unit interval, raising sintering efficiency, there is achievement, but due on be holistic domes every beam (from this patent figure confirm), thus there is also aforesaid problem except lacking the function that push pedal guiding is slided.

For above-mentioned technical problem, the applicant has done useful exploration and design, finally defines technical scheme described below, and is simulated test in the test center of the applicant under taking secrecy provision, and result proves practicable.

Summary of the invention

The task of the present invention is in that to provide a kind of and contributes to significantly improving the structure every beam and use and avoid in use occurring crack or even collapse and be conducive to meeting and the different temperature in sintering temperature region and the distributing homogeneity of atmosphere are required, be of value to embodying and the good guidance sliding function of push pedal used the energy consumption saving material pusher and avoids push pedal and burner hearth led the battery material high-efficiency sintered stove of sliding function by the push pedal that has of friction damage.

The task of the present invention is performed by, and a kind of battery material high-efficiency sintered stove with push pedal guiding sliding function, including furnace shell, the surrounding at the inwall of this furnace shell is provided with stove pad；nullFurnace lining、On under beam and one group every beam，Furnace lining is arranged around the inwall surrounding of described stove pad，The space gone along with sb. to guard him by this furnace lining and formed is configured to furnace chamber，On every beam corresponding to furnace chamber top arrange and contact with the top of described furnace lining，It is arranged on the bottom of described furnace lining every beam with space state under one group，It is characterised by also including a push pedal guide slide mechanism，This push pedal guide slide mechanism includes a left limit guide rail、One right limit guide rail and one group of intermediate rail，The shape of cross section of left limit guide rail and right limit guide rail is all in L-shaped，And the shape of cross section of one group of intermediate rail is up-narrow and down-wide inverted T-shape，Left limit guide rail towards the side of right limit guide rail length direction constitute have a left limit guide-track groove，And right limit guide rail towards the side of left limit guide rail length direction constitute have a right limit guide-track groove，And left limit guide rail corresponding under described every the position of the left end of beam with under fix every beam，Right limit guide rail under corresponding to every the position of the right-hand member of beam with under fix every beam，And one group of intermediate rail is positioned at a left side、Between right limit guide rail and with space state with under fix every beam；nullA center abaculus is included every beam on described、One left abaculus、One right abaculus and a pair abaculus support column，A wherein abaculus support column in a pair abaculus support column is shown consideration for the left wall of described furnace lining in the position of the lower section corresponding to left abaculus and is touched and also be affixed tactile with the left side of described left limit guide rail simultaneously，And another root abaculus support column in a pair abaculus support column touches with the right wall body patch of furnace lining in the position of the lower section corresponding to right abaculus and pastes with the right side of right limit guide rail and touches simultaneously，Center abaculus is top width and the narrow T-shaped structure in bottom，And the left side central portion at this center abaculus is constituted a left step of center abaculus，And center abaculus right side central constitute have a right step of center abaculus，Left abaculus is the structure of L-shaped，Constitute in the bottom of this left abaculus and have a left abaculus support column mating cavity，This left abaculus support column mating cavity matches with the top of one of them the abaculus support column in a pair described abaculus support column，A left abaculus step is had on the right side of left abaculus and in the position composition corresponding to the described center left step of abaculus，The described left step of center abaculus is bearing on this left abaculus step，Right abaculus is the structure of L-shaped equally，Constitute in the bottom of this right abaculus and have a right abaculus support column mating cavity，This right abaculus support column mating cavity matches with the top of another abaculus support column in a pair described abaculus support column，A right abaculus step is had in the left side of right abaculus and in the position composition corresponding to the described center right step of abaculus，The described right step of center abaculus is bearing on this right abaculus step，Wherein: described center abaculus、The height of left abaculus and right abaculus tends to identical.

nullIn a specific embodiment of the present invention，Described entablature also includes a left extension abaculus and a right extension abaculus，Left extension abaculus is on the left of described center abaculus and between left abaculus，And right extension abaculus is centrally located between the right side of abaculus and right abaculus，Left side central portion at left extension abaculus is constituted a left left step of extension abaculus，And left extension abaculus right side central constitute have a left right step of extension abaculus，The left left step of extension abaculus and described left abaculus step cooperate，The left right step of extension abaculus and the described left step of center abaculus cooperate，Left side central portion at right extension abaculus is constituted a right left step of extension abaculus，And right extension abaculus right side central constitute have a right right step of extension abaculus，The right left step of extension abaculus and the described right step of center abaculus cooperate，The right right step of extension abaculus and described right abaculus step cooperate.

In another specific embodiment of the present invention, described furnace shell with the state support that soars in terrace on furnace shell support.

In another specific embodiment of the present invention, each two adjacent described under be arranged at intervals with electric heater unit in space between beam and between each two adjacent entablatures.

In another specific embodiment of the present invention, described electric heater unit is electrically heated rod.

In an also specific embodiment of the present invention, under described every beam towards on side offer guide rail caulking groove with space state, described left limit guide rail, right limit guide rail and one group of intermediate rail corresponding to guide rail caulking groove position with under constitute by mullite every beam build-in and left limit guide rail, right limit guide rail and one group of intermediate rail.

In more and in a specific embodiment of the present invention, described stove pad is refractory heat-insulating insulation bed course.

The present invention's and then in a specific embodiment, described refractory heat-insulating insulation bed course is asbestos or fire clay.

In the present invention again more and in a specific embodiment, described furnace lining is formed by laying fireproof bricks.

In again and then in a specific embodiment of the present invention, described left extension abaculus and the shape of right extension abaculus are all in zigzag.

Technical scheme provided by the invention is due to by mutual to Shang Geliangyou center abaculus, left abaculus and right abaculus embedding composition, thus crack in use will not occurs because expanding with heat and contract with cold and owing to can ensure good robustness, thus does not have the situation that collapses；Owing to the height of center abaculus, left abaculus and right abaculus tends to identical, thus every the arch of the central region of beam in the monoblock type that the bottom surface every beam can be made to tend to concordant and avoid in prior art, reduce the distance between saggar, it is ensured that the temperature control in adjacent sintering temperature region and the even results of atmosphere；Owing to being additionally arranged push pedal guide slide mechanism, thus the good slide guide to push pedal can be played, both can reduce the power of material pusher for promoting push pedal and saves energy, the sidewall of push pedal and furnace chamber can be protected again.

Accompanying drawing explanation

Fig. 1 is embodiments of the invention structure chart.

Fig. 2 be shown in Fig. 1 on every the detailed structure view of beam.

Fig. 3 is the transverse sectional view of Fig. 1.

Fig. 4 is the longitudinal sectional view of Fig. 1.

Detailed description of the invention

Embodiment:

Refer to Fig. 1 and Fig. 2, illustrate furnace shell 1, surrounding at the inwall of this furnace shell 1 is provided with stove pad 11, illustrate furnace lining 2, under beam 3 and one group every beam 4, furnace lining 2 is arranged around the inwall surrounding (up and down) of aforementioned stove pad 11, the space gone along with sb. to guard him by this furnace lining 2 and formed is configured to furnace chamber 21, on arrange every beam 3 corresponding to the top of furnace chamber 21 and contact with the top of aforementioned furnace lining 2, be arranged on the bottom of aforementioned furnace lining 2 every beam 4 with space state under one group.

nullTechnical essential as technical scheme provided by the invention: also include a push pedal guide slide mechanism 5 in the structural system of aforementioned battery material high-efficiency sintered stove，This push pedal guide slide mechanism 5 includes a left limit guide rail 51、One right limit guide rail 52 and one group of intermediate rail 53，The shape of cross section of left limit guide rail 51 and right limit guide rail 52 is all in L-shaped，And the shape of cross section of one group of intermediate rail 53 is up-narrow and down-wide inverted T-shape，Left limit guide rail 51 towards the side of right limit guide rail 52 length direction constitute have a left limit guide-track groove 511，And right limit guide rail 52 towards the side of left limit guide rail 51 length direction constitute have a right limit guide-track groove 521，And left limit guide rail 51 corresponding under described every the position of the left end of beam 4 with under fix every beam 4，Right limit guide rail 52 under corresponding to every the position of the right-hand member of beam 4 with under fix every beam 4，And one group of intermediate rail 53 is positioned at a left side、Right limit guide rail 51、Between 52 and with space state with under fix every beam 4；nullA center abaculus 31 is included every beam 3 on aforesaid、One left abaculus 32、One right abaculus 33 and a pair abaculus support column 34，A wherein abaculus support column in a pair abaculus support column 34 is shown consideration for the left wall of aforementioned furnace lining 2 in the position of the lower section corresponding to left abaculus 32 and is touched and also be affixed tactile with the left side of aforementioned left limit guide rail 51 simultaneously，And another root abaculus support column in a pair abaculus support column 34 touches with the right wall body patch of furnace lining 2 in the position of the lower section corresponding to right abaculus 32 and pastes with the right side of right limit guide rail 52 and touches simultaneously，The center abaculus 31 T-shaped structure that bottom is narrow in top width，And the left side central portion at this center abaculus 31 is constituted a left step 311 of center abaculus，And center abaculus 3 right side central constitute have a right step 312 of center abaculus，The left abaculus 32 structure in L-shaped，Constitute in the bottom of this left abaculus 32 and have a left abaculus support column mating cavity 321，This left abaculus support column mating cavity 321 matches with the top of one of them the abaculus support column in aforesaid a pair abaculus support column 34，A left abaculus step 322 is had on the right side of left abaculus 32 and in the position composition corresponding to the left step of center abaculus 311，The aforesaid center left step of abaculus 311 is bearing on this left abaculus step 322，Right abaculus 33 is the structure of L-shaped equally，Constitute in the bottom of this right abaculus 33 and have a right abaculus support column mating cavity 331，This right abaculus support column mating cavity 331 matches with the top of another abaculus support column in a pair abaculus support column 34，A right abaculus step 332 is had in the left side of right abaculus 33 and in the position composition corresponding to the right step of aforesaid central abaculus 312，The aforesaid center right step of abaculus 312 is bearing on this right abaculus step 332，Wherein: aforesaid center abaculus 31、The height of left abaculus 32 and right abaculus 33 tends to identical.

As shown in the above description, due on only used three pieces of abaculus every beam 3, namely abaculus 31, left abaculus 32 and right abaculus 33 centered by, thus the width of aforementioned furnace chamber 21 is relatively small, but disclosure satisfy that two pieces of push pedals 6 each carry stacked two saggars 7 of saggar 7(thereon self is stacked) with the form of expression of two push pedal four saggars 7 in the up shifting of push pedal guide mechanism 5, push pedal 6 is promoted by material pusher (not shown).

As it is preferred that scheme, namely in order to improve production capacity energy efficient further, the present invention adopts five pieces of abaculus, relatively to increase the width of furnace chamber 21, the synchronization line simultaneously meeting three pieces of push pedals 6 and six saggars 7 moves, and Fig. 1 to Fig. 3 illustrates accordingly, specific as follows:

nullStill see Fig. 1 and Fig. 2，Aforesaid entablature 3 also includes left extension abaculus 35 that a shape is zigzag and a shape right extension abaculus 36 in zigzag equally，Left extension abaculus 35 is on the left of aforesaid center abaculus 31 and between left abaculus 32，And right extension abaculus 36 is centrally located between the right side of abaculus 31 and right abaculus 33，Left side central portion at left extension abaculus 35 is constituted a left step 351 of left extension abaculus，And left extension abaculus 35 right side central constitute have a right step 352 of left extension abaculus，The left left step of extension abaculus 351 cooperates with aforesaid left abaculus step 322，The left right step of extension abaculus 352 cooperates with the left step 311 of aforesaid center abaculus，Left side central portion at right extension abaculus 36 is constituted a left step 361 of right extension abaculus，And right extension abaculus 36 right side central constitute have a right step 362 of right extension abaculus，The right left step of extension abaculus 361 cooperates with the right step 312 of aforesaid center abaculus，The right right step of extension abaculus 362 cooperates with aforesaid right abaculus step 332.By to this section of explanatory note it can be seen that disclosure satisfy that three pieces of push pedals 6 carry six saggars 7 in the up shifting of push pedal guide mechanism 5, row moves past journey and is sintering process.

As shown in Figure 1, aforesaid furnace shell 1 with the state support that soars in terrace on furnace shell support 12, and each two adjacent aforementioned under between beam 4 and each two adjacent on be arranged at intervals with electric heater unit 41 in space between beam 3, electric heater unit 41 is electrically heated rod.

Under aforesaid every beam 4 towards on side offer guide rail caulking groove 42 with space state, aforesaid left limit guide rail 51, right limit guide rail 52 and one group of intermediate rail 53 corresponding to guide rail caulking groove 42 position with under every beam 4 build-in.

In the present embodiment, aforesaid stove pad 11 is incubated bed course for refractory heat-insulating；Aforesaid refractory heat-insulating insulation bed course is asbestos or fire clay；Aforesaid furnace lining 2 is formed by laying fireproof bricks.

nullPlease see Fig. 1 by emphasis，Aforesaid push pedal guide mechanism 5 includes a left limit guide rail 51、One right limit guide rail 52 and one group of intermediate rail 53，Left limit guide rail 51 corresponding under aforementioned every the left end of beam 4 and with aforesaid guide rail caulking groove 42 scarf，Right limit guide rail 52 correspond to down every beam 4 right-hand member and with guide rail caulking groove 42 scarf，One group of intermediate rail 53 spaced apart between left limit guide rail 51 and right limit guide rail 52 and with guide rail embedding mechanism 42 scarf，One of them abaculus support column in aforesaid a pair abaculus support column 34 is tactile with the left side patch of aforementioned left limit guide rail 51，And another abaculus support column in a pair abaculus support column 34 is tactile with the right side patch of aforementioned right limit guide rail 52，And aforementioned left limit guide rail 51、Right limit guide rail 52 and one group of intermediate rail 53 are constituted by corundum-mullite.

Application examples:

Refer to Fig. 3 and Fig. 4, illustrate three pieces of push pedals 6, each push pedal 6 is stacked with saggar 7 with bilevel stacked state, battery material is filled in saggar 7, when under the work at afore-mentioned materials pusher and under the work of aforementioned electric heater unit 41, carried saggar 7 by push pedal 6 to enter until drawing from the outlet of furnace chamber 21 from the entrance of furnace chamber 21, thus completing the sintering to the battery material in saggar 7.

In sum, technical scheme provided by the invention compensate for the deficiency in prior art, has favorably accomplished invention task, has cashed the technique effect recorded in the superincumbent technique effect hurdle of applicant faithfully.

Claims (10)

1.A kind of battery material high-efficiency sintered stove with push pedal guiding sliding function, including furnace shell (1), the surrounding at the inwall of this furnace shell (1) is provided with stove pad (11)；nullFurnace lining (2)、On under beam (3) and one group every beam (4)，Furnace lining (2) is arranged around the inwall surrounding of described stove pad (11)，The space gone along with sb. to guard him by this furnace lining (2) and formed is configured to furnace chamber (21)，On every beam (3) corresponding to furnace chamber (21) top arrange and contact with the top of described furnace lining (2)，It is arranged on the bottom of described furnace lining (2) with space state every beam (4) under one group，Characterized by further comprising a push pedal guide slide mechanism (5)，This push pedal guide slide mechanism (5) includes a left limit guide rail (51)、One right limit guide rail (52) and one group of intermediate rail (53)，The shape of cross section of left limit guide rail (51) and right limit guide rail (52) is all in L-shaped，And the shape of cross section of one group of intermediate rail (53) is up-narrow and down-wide inverted T-shape，Left limit guide rail (51) towards the side of right limit guide rail (52) length direction constitute have a left limit guide-track groove (511)，And right limit guide rail (52) towards the side of left limit guide rail (51) length direction constitute have a right limit guide-track groove (521)，And left limit guide rail (51) corresponding under described every the position of the left end of beam (4) with under fix every beam (4)，Right limit guide rail (52) under corresponding to every the position of the right-hand member of beam (4) with under every beam (4) fix，And one group of intermediate rail (53) is positioned at a left side、Right limit guide rail (51、52) between and with space state with under every beam (4) fix；nullA center abaculus (31) is included every beam (3) on described、One left abaculus (32)、One right abaculus (33) and a pair abaculus support column (34)，A wherein abaculus support column in a pair abaculus support column (34) is shown consideration for the left wall of described furnace lining (2) in the position of the lower section corresponding to left abaculus (32) and is touched and also be affixed tactile with the left side of described left limit guide rail (51) simultaneously，And another root abaculus support column in a pair abaculus support column (34) touches with the right wall body patch of furnace lining (2) in the position of the lower section corresponding to right abaculus (32) and pastes with the right side of right limit guide rail (52) and touches simultaneously，Center abaculus (31) the T-shaped structure that bottom is narrow in top width，And the left side central portion at this center abaculus (31) is constituted the left step of a center abaculus (311)，And center abaculus (3) right side central constitute have the right step of a center abaculus (312)，The left abaculus (32) structure in L-shaped，Constitute in the bottom of this left abaculus (32) and have left abaculus support column mating cavity (321)，This left abaculus support column mating cavity (321) is matched with the top of one of them the abaculus support column in a pair described abaculus support column (34)，A left abaculus step (322) is had on the right side of left abaculus (32) and in the position composition corresponding to the left step of described center abaculus (311)，The described left step of center abaculus (311) is bearing on this left abaculus step (322)，Right abaculus (33) is the structure of L-shaped equally，Constitute in the bottom of this right abaculus (33) and have right abaculus support column mating cavity (331)，This right abaculus support column mating cavity (331) is matched with the top of another abaculus support column in a pair described abaculus support column (34)，A right abaculus step (332) is had in the left side of right abaculus (33) and in the position composition corresponding to the right step of described center abaculus (312)，The described right step of center abaculus (312) is bearing on this right abaculus step (332)，Wherein: described center abaculus (31)、The height of left abaculus (32) and right abaculus (33) tends to identical.

2.nullThe battery material high-efficiency sintered stove with push pedal guiding sliding function according to claim 1，It is characterized in that described entablature (3) also includes a left extension abaculus (35) and a right extension abaculus (36)，Left extension abaculus (35) is positioned between described center abaculus (31) left side and left abaculus (32)，And right extension abaculus (36) is centrally located between the right side of abaculus (31) and right abaculus (33)，Left side central portion left extension abaculus (35) is constituted the left step of a left extension abaculus (351)，And left extension abaculus (35) right side central constitute have the right step of a left extension abaculus (352)，The left step of left extension abaculus (351) and described left abaculus step (322) cooperate，The right step of left extension abaculus (352) and the described left step of center abaculus (311) cooperate，Left side central portion right extension abaculus (36) is constituted the left step of a right extension abaculus (361)，And right extension abaculus (36) right side central constitute have the right step of a right extension abaculus (362)，The left step of right extension abaculus (361) and the described right step of center abaculus (312) cooperate，The right step of right extension abaculus (362) and described right abaculus step (332) cooperate.

3.The battery material high-efficiency sintered stove with push pedal guiding sliding function according to claim 1, it is characterised in that described furnace shell (1) with the state support that soars in terrace on furnace shell support (12).

4.The battery material high-efficiency sintered stove with push pedal guiding sliding function according to claim 1, it is characterised in that each two adjacent described under be arranged at intervals with electric heater unit (41) in space between beam (4) and between each two adjacent entablatures (3).

5.The battery material high-efficiency sintered stove with push pedal guiding sliding function according to claim 4, it is characterised in that described electric heater unit (41) is electrically heated rod.

6.The battery material high-efficiency sintered stove with push pedal guiding sliding function according to claim 1, it is characterized in that offering guide rail caulking groove (42) towards upper side with space state every beam (4) under described, described left limit guide rail (51), right limit guide rail (52) and one group of intermediate rail (53) corresponding to guide rail caulking groove (42) position with under every beam (4) build-in and left limit guide rail (51), right limit guide rail (52) and one group of intermediate rail (53) by mullite composition.

7.The battery material high-efficiency sintered stove with push pedal guiding sliding function according to claim 1, it is characterised in that described stove pad (11) is incubated bed course for refractory heat-insulating.

8.The battery material high-efficiency sintered stove with push pedal guiding sliding function according to claim 7, it is characterised in that described refractory heat-insulating insulation bed course is asbestos or fire clay.

9.The battery material high-efficiency sintered stove with push pedal guiding sliding function according to claim 1, it is characterised in that described furnace lining (2) is formed by laying fireproof bricks.

10.The battery material high-efficiency sintered stove with push pedal guiding sliding function according to claim 2, it is characterised in that described left extension abaculus (35) and the shape of right extension abaculus (36) are all in zigzag。