CN117164223A - Basalt fiber production equipment with raw material pretreatment function - Google Patents

Abstract

The invention relates to the technical field of basalt fiber production equipment and discloses basalt fiber production equipment with a raw material pretreatment function, which comprises a smelting furnace body, a bearing transition sleeve and a crushing treatment cylinder, wherein a smelting cavity is preset in the middle position of the upper end of the smelting furnace body, a discharging guide pipe is preset in the lower end position of the front surface of the outer part of the smelting furnace body, the bottom of the discharging guide pipe is fixedly connected with a discharging cavity, a sub-runner is preset in the bottom of the discharging cavity, an associated runner is preset in the middle position of the bottom of the smelting cavity, and a plugging transition cavity is fixedly installed at the side position of the outer part of the associated runner. The invention takes the smelting furnace necessary in basalt fiber production operation as a main body, adds processing equipment capable of crushing basalt fiber production raw materials, and adds an association component which is in counterpoint connection with feeding equipment on the processing equipment, thereby effectively enriching the whole use functionality on the basis of ensuring the whole use performance not to be influenced.

Description

Basalt fiber production equipment with raw material pretreatment function

Technical Field

The invention relates to the technical field of basalt fiber production equipment, in particular to basalt fiber production equipment with a raw material pretreatment function.

Background

The basalt fiber is a novel inorganic environment-friendly green high-performance fiber material, which is composed of oxides such as silicon dioxide, aluminum oxide, calcium oxide, magnesium oxide, ferric oxide, titanium dioxide and the like, and the basalt continuous fiber has high strength and multiple excellent performances such as electric insulation, corrosion resistance, high temperature resistance and the like.

The invention discloses extrusion type basalt steel fiber production equipment, which comprises a steelmaking furnace, a basalt melting furnace and a mixed spinning furnace, wherein a molten steel outlet of the steelmaking furnace and a magma outlet of the basalt melting furnace are connected with the mixed spinning furnace, a mixing stirring device driven by a stirring device power mechanism is arranged at the bottom of a furnace body of the mixed spinning furnace, the basalt melting furnace comprises a primary heating cavity and a secondary melting furnace which are arranged up and down, a rotary heating cylinder is arranged in the primary heating cavity, a steelmaking furnace heat preservation layer is arranged at the periphery of the steelmaking furnace and is connected with the primary heating cavity through a hot air pipe, and after being uniformly stirred through the mixing stirring device, basalt steel fiber is pumped out through a mixing furnace wire outlet, the heat consumption of the basalt melting furnace can be effectively reduced in the production process of producing basalt by utilizing the heat generated in the primary heating cavity, and the energy consumption of the production process can be effectively reduced.

The basalt fiber production equipment disclosed in the above patent and the existing basalt fiber production equipment do not have the use functionality of carrying out raw material treatment operation on raw materials before carrying out smelting operation on the raw materials, and the whole working effect on basalt fiber production and processing is difficult to improve on the basis of not influencing the whole processing operation performance, so that the working smoothness and continuity of basalt fiber production and processing are difficult to ensure, so that the whole comprehensive use performance is general, and the applicability of the equipment in basalt fiber production and processing is limited.

Based on the above, the invention provides basalt fiber production equipment with a raw material pretreatment function to solve the problems.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the invention and in the title of the invention, which may not be used to limit the scope of the invention.

The present invention has been made in view of the above and/or problems with existing trowelling robot designs.

Therefore, one of the purposes of the invention is to provide basalt fiber production equipment with a raw material pretreatment function, which takes a smelting furnace necessary in basalt fiber production operation as a main body, adds processing equipment capable of smashing basalt fiber production raw materials, and adds an association component which is in para-position connection with a feeding equipment on the processing equipment, so that the equipment can realize smoother and more stable quick feeding and complete corresponding basalt fiber production raw material treatment and smelting operation on the basis of the use function of processing raw materials and ensuring normal smelting of the raw materials for basalt fiber production.

In order to achieve the above effects, the present invention provides the following technical solutions: the basalt fiber production equipment with the raw material pretreatment function comprises a smelting furnace body, a receiving transition sleeve and a smashing treatment cylinder, wherein a smelting cavity is pre-arranged at the middle position of the upper end of the smelting furnace body, a discharging guide pipe is pre-arranged at the lower end position of the front side of the outer part of the smelting furnace body, a discharging cavity is fixedly connected to the bottom of the discharging guide pipe, a sub-runner is pre-arranged at the bottom of the discharging cavity, an associated runner is pre-arranged at the middle position of the bottom of the smelting cavity, a plugging transition cavity is fixedly arranged at the side position of the outer part of the associated runner, a plugging pushing cylinder is fixedly arranged at the outer part of the plugging transition cavity, a material guide pipe is fixedly arranged at the lower end position of the side of the outer part of the receiving transition sleeve, a butt joint through hole is pre-arranged at the side position of the outer part of the receiving transition sleeve, an electrode bracket is fixedly arranged at the upper end position of the receiving transition sleeve, a feeding table is fixedly arranged at the side position of the upper end of the electrode bracket, a smashing motor is fixedly arranged at the middle position of the outer upper end of the smashing treatment cylinder, a smashing motor is fixedly arranged at the side of the smashing treatment cylinder, a smashing treatment cylinder is fixedly arranged at the side of the outer part of the smashing treatment cylinder, a smashing treatment cylinder is fixedly arranged at the inner side of the outer end of the smashing treatment cylinder, a smashing cylinder is fixedly arranged at the outer end of the grinding cylinder, and an outer shaft is fixedly arranged at the grinding shaft, and fixedly arranged at the grinding shaft.

As a preferred embodiment of the present invention, wherein: the bottom of the smelting furnace body is fixedly provided with a stable supporting leg, reinforcing supporting rods are symmetrically and transversely fixedly arranged between the inner sides of the stable supporting legs, a furnace body overhaul groove is preset at the lower end position of the outer side of the smelting furnace body, a furnace body overhaul cover is movably arranged at the lower end position of the outer side of the smelting furnace body, the installation position of the furnace body overhaul cover outside the smelting furnace body is matched with the fixed installation position of a plugging pushing cylinder inside the smelting furnace body in a corresponding manner, positioning installation screw holes are symmetrically and equidistantly formed in the corner positions inside the furnace body overhaul groove and the corner positions outside the furnace body overhaul cover, alignment installation bolts are movably arranged outside the positioning installation screw holes, and the external thread specifications of the alignment installation bolts are matched with the internal thread specifications of the positioning installation screw holes in a corresponding manner;

through having add shutoff propelling movement cylinder and shutoff ejector pad, combine shutoff transition chamber and the mutual correlation the same structure of correlation runner for this equipment possesses the result of use that carries out the shutoff to the smelting material in the smelting chamber, can realize the service function of free ejection of compact in normal use working process.

As a preferred embodiment of the present invention, wherein: the discharging guide pipe penetrates through the outside of the smelting furnace body and is communicated with the associated flow passage, the associated flow passage is communicated with the smelting cavity, positioning brackets are symmetrically and fixedly arranged at two sides of the upper end inside the smelting furnace body, a bottom blowing assembly is fixedly arranged at the bottom of each positioning bracket, a top blowing assembly is fixedly arranged at the upper end of each positioning bracket, the bottom blowing assembly is fixedly connected with the bottom blowing guide pipe outside, a top blowing guide pipe is fixedly connected to the outside of each top blowing assembly, the blocking transition cavity is communicated with the inside of the associated flow passage, the output end of the blocking pushing cylinder penetrates through the blocking transition cavity and is fixedly connected with a blocking pushing block, and the external specification of the blocking pushing block is mutually matched with the in-wall specification of the blocking transition cavity;

as a preferred embodiment of the present invention, wherein: the middle position outside the receiving transition sleeve is provided with a positioning maintenance groove in advance, the outer part of the positioning maintenance groove is movably provided with a positioning maintenance cover, the outer specification of the positioning maintenance cover is matched with the inner specification of the positioning maintenance groove in a mutually corresponding manner, the corner position outside the positioning maintenance cover and the corner position inside the positioning maintenance groove are symmetrically provided with positioning fastening screw holes, the outer part of the positioning fastening screw holes is provided with positioning fastening bolts in a movably manner, the inner thread specification of the positioning fastening screw holes and the outer thread specification of the positioning fastening bolts are mutually matched, the passing material guide pipe is mutually communicated with the inner part of the receiving transition sleeve, the two side positions of the receiving transition sleeve are symmetrically provided with a butt joint through hole, the opening position of the butt joint through hole outside the receiving transition sleeve is matched with the fixed mounting position of the top blowing guide pipe outside the smelting furnace body in a mutually corresponding manner, the inner part of the butt joint through hole is fixedly connected with a guide connecting pipe, the position inside the receiving the transition sleeve and the passing material guide pipe are mutually staggered from the outer position outside the receiving transition sleeve, and the inner part of the auxiliary smelting connecting pipe is fixedly provided with an auxiliary smelting connecting assembly through the butt joint through the guide pipe;

as a preferred embodiment of the present invention, wherein: the upper end of the passing guide pipe is fixedly provided with a butt joint assembly disc, the fixed installation position of the passing guide pipe outside the bearing transition sleeve is matched with the fixed installation position of the passing guide pipe outside the crushing treatment cylinder in a mutually corresponding manner, the tail end of the passing guide pipe is fixedly connected with an associated butt joint disc, the passing guide pipe is communicated with the inside of the passing guide pipe through the associated butt joint disc, the outer circumferences of the butt joint assembly disc and the associated butt joint disc are respectively provided with a butt joint screw hole at equal intervals in an annular manner, the outside of the butt joint screw hole is movably provided with an associated butt joint fastening bolt, and the external thread specification of the associated butt joint fastening bolt is matched with the in-hole thread specification of the butt joint screw hole in a mutually corresponding manner;

the passing guide pipe and the passing guide pipe are in butt joint to realize the association and intercommunication between the connection transition sleeve and the inside of the crushing treatment cylinder, so that the smoothness of the feeding operation of the treated basalt fiber production raw materials to the smelting furnace is improved.

As a preferred embodiment of the present invention, wherein: the bottom of the crushing treatment cylinder is fixedly provided with a connecting chassis, the upper end of the outer part of the connecting chassis and the position of the circumference of the upper end of the bearing transition sleeve are symmetrically provided with associated connecting holes in an annular equidistant mode, the outer part of each associated connecting hole is movably provided with associated connecting bolts, the outer specifications of the associated connecting bolts are mutually matched with the screw thread specifications in the holes of the associated connecting holes, the whole bearing transition sleeve is a hollow cylinder structure with unsealed top and bottom, and the whole crushing treatment cylinder is a hollow cylinder structure with sealed top and bottom;

through adopting screw fastening's butt joint assembly structure between will accepting transition sleeve and the crushing processing section of thick bamboo for this equipment possesses the periodic service function that will accept transition sleeve and crushing processing section of thick bamboo and dismantle its inner structure and optimize in normal use operation, and can dismantle the assembly according to specific user demand, has enriched holistic service functionality.

As a preferred embodiment of the present invention, wherein: the feeding guide pipe is communicated with the inside of the crushing treatment cylinder, a material guide table is fixedly arranged at one side position of the upper end of the feeding table, a feeding hole is preset at the other side position of the upper end of the feeding table, the feeding hole penetrates through the feeding table and is communicated with the inside of the crushing treatment cylinder, the whole material guide table is of an inclined table structure inclined from top to bottom towards the position direction of the feeding hole at the upper end of the feeding table, a feeding butt joint assembly for correlating with feeding equipment is fixedly arranged at the side position of the upper end of the material guide table, a control box is electrically connected with a crushing motor and a plugging pushing cylinder, a touch control display screen is fixedly arranged at the upper end position of the outer part of the control box, and a functional key is fixedly arranged at the lower end position of the outer part of the control box;

the control box is used as a control center, so that the overall operation and use difficulty of the equipment can be effectively reduced, and the normal use of the equipment is more convenient and stable.

As a preferred embodiment of the present invention, wherein: the external of the crushing treatment cylinder is preset with an encapsulation maintenance groove, the external of the encapsulation maintenance groove is movably provided with an encapsulation maintenance cover, the corner positions of the internal of the encapsulation maintenance groove and the corner positions of the external of the encapsulation maintenance cover are symmetrically provided with fastening assembly screw holes, the external of the fastening assembly screw holes is movably provided with fastening assembly bolts, the external thread specifications of the fastening assembly bolts are correspondingly matched with the in-hole thread specifications of the fastening assembly screw holes, and the external of the encapsulation maintenance cover is preset with a handle groove;

through having add encapsulation access cover for the inside crushing mechanism of crushing processing section of thick bamboo can carry out periodic inspection maintenance operation in this equipment long-term use work, can confirm the state of use of crushing mechanism in time in normal use work, prevents the service condition that crushing mechanism trouble appears in the course of the work, is favorable to strengthening the comprehensive performance of this equipment.

As a preferred embodiment of the present invention, wherein: the auxiliary crushing teeth are symmetrically and fixedly arranged at equal intervals in an annular shape on the inner wall of the crushing treatment cylinder and the inner side of the packaging access cover, and a guide inclined plate is obliquely and fixedly arranged at the bottom position inside the crushing treatment cylinder;

by additionally arranging the auxiliary crushing teeth, the crushing treatment efficiency of the whole crushing treatment cylinder on the raw materials for basalt fiber production is greatly improved, and the comprehensive use efficiency of the whole equipment is correspondingly enhanced.

As a preferred embodiment of the present invention, wherein: the lower end position outside the rotating shaft is pre-provided with a fastening limit thread groove, the upper end position outside the rotating shaft is fixedly provided with a top-sealing limit disk, the outer diameter size of the rotating shaft is matched with the inner diameter size of the assembling shaft sleeve in a mutually corresponding manner, the bottom of the rotating shaft is movably provided with a bottom-sealing limit bolt, the outer thread specification of the bottom-sealing limit bolt is matched with the inner thread specification of the bottom of the rotating shaft in a mutually corresponding manner, the outer part of the fastening limit thread groove is movably provided with a fastening limit thread sleeve, the inner thread specification of the fastening limit thread sleeve is matched with the outer thread specification of the fastening limit thread groove in a mutually corresponding manner, the assembling bearing disk is longitudinally and symmetrically and fixedly arranged at equal intervals outside the assembling shaft sleeve, the outer ring-shaped equidistant symmetrical arrangement of the assembling bearing disk is provided with an alignment insertion groove, the outer specification of the insertion crushing tooth is matched with the inner specification of the alignment insertion groove in a mutually corresponding manner, the insertion crushing tooth is annularly and movably arranged at the outer part of the assembling bearing disk in a mutually corresponding manner, the outer upper end of the insertion crushing tooth is provided with the outer thread specification of the fastening bolt hole of the fastening limit thread groove is correspondingly arranged between the fastening screw hole of the fastening thread sleeve and the fastening bolt;

through the assembly structure that adopts counterpoint cartridge at the assembly loading disc outside with the cartridge crushing tooth for the cartridge crushing tooth possesses the use functionality of free change in long-term use work, helps prolonging the holistic life of crushing processing section of thick bamboo and this equipment.

The invention has the beneficial effects that: according to the invention, a smelting furnace which is necessary in basalt fiber production operation is taken as a main body, a processing device capable of crushing basalt fiber production raw materials is additionally arranged, and an association component which is in counterpoint connection with a feeding device is additionally arranged on the processing device, so that the processing device can realize smoother and more stable quick feeding and complete corresponding basalt fiber production raw material processing and smelting operation on the basis of having the use functions of processing raw materials and ensuring normal smelting of the raw materials for basalt fiber production, the overall use functionality is effectively enriched on the basis of ensuring that the overall use performance is not influenced, and the crushing treatment efficiency of the device on raw materials can be correspondingly improved through the improvement of a crushing mechanism in the raw material processing device, thereby being beneficial to improving the overall use work efficiency.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

FIG. 1 is a schematic diagram of a split structure of the present invention;

FIG. 2 is a schematic diagram of the overall structure of the present invention;

FIG. 3 is a schematic view of an assembly structure according to the present invention;

FIG. 4 is a schematic diagram of the internal structure of the smelting furnace body;

FIG. 5 is a schematic view of the internal structure of the receiving transition sleeve according to the present invention;

FIG. 6 is a schematic view of the structure of the invention in the retracted state of the plugging push block inside the receiving transition sleeve;

FIG. 7 is a schematic view showing the internal structure of the pulverizing treatment cylinder according to the present invention;

FIG. 8 is a schematic diagram of the overall internal structure of the present invention;

FIG. 9 is a schematic view showing a disassembling structure of the pulverizing mechanism of the present invention;

FIG. 10 is a schematic view showing the overall structure of the pulverizing mechanism of the present invention;

FIG. 11 is an enlarged schematic view of the structure of FIG. 1A according to the present invention;

FIG. 12 is an enlarged schematic view of the structure of FIG. 1B according to the present invention;

fig. 13 is an enlarged view of the structure of fig. 4 at C according to the present invention.

Reference numerals in the drawings: 1. smelting furnace body; 101. a smelting chamber; 102. a discharge conduit; 103. a furnace body overhaul groove; 104. a furnace body access cover; 105. stabilizing the support legs; 106. reinforcing the support rod; 107. a positioning bracket; 108. associating the flow channels; 109. a bottom blowing assembly; 110. a top-blowing assembly; 111. a discharge cavity; 112. plugging the transition cavity; 113. a sub-runner; 114. a bottom blowing duct; 115. a top-blowing duct; 116. plugging a pushing cylinder; 117. plugging the pushing block; 118. positioning and installing screw holes; 119. positioning and installing bolts; 2. receiving a transition sleeve; 201. positioning an overhaul groove; 202. aligning the access cover; 203. a material passing guide pipe; 204. butt joint through holes; 205. an electrode holder; 206. a guide connecting pipe; 207. smelting an electrode; 208. a smelting auxiliary assembly; 209. butting and assembling the discs; 210. a butt joint screw hole; 211. positioning and fastening screw holes; 212. positioning and fastening bolts; 3. a crushing treatment cylinder; 301. the chassis is connected; 302. associating the connecting holes; 303. associating the connecting bolts; 304. a material-passing guide pipe; 305. a feed table; 306. a crushing motor; 307. a control box; 308. packaging the overhaul groove; 309. packaging an access cover; 310. auxiliary crushing teeth; 311. associating the butt joint discs; 312. a material guiding table; 313. a rotation shaft; 314. a feed inlet; 315. assembling a shaft sleeve; 316. a guide sloping plate; 317. fastening a limit thread groove; 318. a bottom sealing limit bolt; 319. fastening a limit screw sleeve; 320. assembling a bearing plate; 321. an alignment insertion groove; 322. inserting crushing teeth; 323. the screw hole is fastened by inserting; 324. inserting a fastening bolt; 325. a feeding butt joint assembly; 326. sealing the top limit disc; 327. fastening and assembling screw holes; 328. a handle groove; 329. a touch display screen; 330. a function key; 331. fastening an assembly bolt; 332. and (5) associating butt joint fastening bolts.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present invention is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 to 13, a first embodiment of the present invention provides a basalt fiber production apparatus having a raw material pretreatment function, comprises a smelting furnace body 1, a smelting cavity 101, a discharge conduit 102, a furnace body overhaul groove 103, a furnace body overhaul cover, a stable supporting leg 105, a reinforcing strut 106, a positioning bracket 107, an associated runner 108, a bottom blowing component 109, a top blowing component 110, a discharge cavity 111, a plugging transition cavity 112, a shunt channel 113, a bottom blowing conduit 114, a top blowing conduit 115, a plugging pushing cylinder 116, a plugging pushing block 117, a positioning installation screw 118, a positioning installation bolt 119, a receiving transition sleeve 2, a positioning overhaul groove 201, a positioning overhaul cover 202, a passing conduit 203, a butt joint through hole 204, an electrode bracket 205, a guide connecting pipe 206, a smelting electrode 207, a smelting auxiliary component 208, a butt joint assembly disc 209, a butt joint screw 210, a positioning fastening screw 211, a positioning fastening bolt 212, a crushing processing cylinder 3 connection chassis 301, associated connection holes 302, associated connection bolts 303, feed throughs 304, feed table 305, grinding motor 306, control box 307, packaging access slot 308, packaging access cover 309, auxiliary grinding teeth 310, associated docking tray 311, feed guide table 312, rotation shaft 313, feed inlet 314, assembly sleeve 315, guide swash plate 316, fastening limit screw slot 317, back cover limit bolt 318, fastening limit screw cap 319, assembly carrier plate 320, alignment cartridge slot 321, cartridge grinding teeth 322, cartridge fastening screw holes 323, cartridge fastening screw 324, feed docking assembly 325, capping limit plate 326, fastening assembly screw holes 327, handle slot 328, touch display 329, function keys 330, fastening assembly screw 331, and associated docking fastening screw 332, a smelting cavity 101 is pre-arranged in the middle of the upper end of the smelting furnace body 1, the lower extreme position of smelting furnace body 1 outside front is preset and is had ejection of compact pipe 102, the bottom fixedly connected with ejection of compact chamber 111 of ejection of compact pipe 102, the bottom of ejection of compact chamber 111 is preset and is had branch runner 113, the intermediate position of smelting chamber 101 bottom is preset and is had associated runner 108, the outside avris position fixed mounting of associated runner 108 has shutoff transition chamber 112, the outside fixed mounting of shutoff transition chamber 112 has shutoff push cylinder 116, the lower extreme position of taking the avris outside transition sleeve 2 has material pipe 203, the avris position of taking the transition sleeve 2 outside is preset and is had butt joint through-hole 204, the upper end position of taking the avris inside transition sleeve 2 is fixed mounting has electrode holder 205, electrode holder 205's inside fixed mounting has smelting electrode 207, the avris position fixed mounting of crushing processing section of thick bamboo 3 upper end has feed table 305, the intermediate position fixed mounting of crushing motor 306 in crushing processing section of thick bamboo 3 outside upper end, the upper end position fixed mounting of crushing processing section of thick bamboo 3 is equipped with control box 307, the lower extreme position fixed mounting of the avris outside avris of crushing processing section of thick bamboo 3 has material pipe 304, the output shaft of passing through-through guide pipe 306, the fixed mounting of crushing motor's output shaft is equipped with the fixed mounting of rotary shaft 315, the movable bearing teeth 320 is equipped with inside movable bearing teeth 310 of the fixed mounting of the crushing processing section of a rotary shaft 3, the inside shaft housing 320 is equipped with the movable bearing tooth 320, the inside of the movable bearing 320 is equipped with the movable bearing 320.

The bottom of smelting furnace body 1 is fixedly provided with firm supporting legs 105, symmetrical transverse fixed mounting has reinforcing support rods 106 between the inboard of firm supporting legs 105, furnace body maintenance groove 103 is preset in the lower extreme position of the outside avris of smelting furnace body 1, furnace body maintenance cover 104 is movably mounted in the lower extreme position of the outside avris of smelting furnace body 1, furnace body maintenance cover 104 corresponds and coincides with the fixed mounting position of shutoff propelling movement cylinder 116 in smelting furnace body 1 each other in the outside mounted position of smelting furnace body 1, the equal equidistant location installation screw 118 of symmetry is seted up in the inside corner position of furnace body maintenance groove 103 and the outside corner position of furnace body maintenance cover 104, the outside movable mounting of location installation screw 118 has counterpoint mounting bolt 119, the external screw thread specification of counterpoint mounting bolt 119 and the inside screw thread specification of location installation screw 118 correspond each other and match.

The discharging guide pipe 102 passes through the outside of the smelting furnace body 1 and is communicated with the associated flow passage 108, the associated flow passage 108 is communicated with the smelting cavity 101, positioning brackets 107 are symmetrically and fixedly arranged at two sides of the upper end of the inside of the smelting furnace body 1, a bottom blowing assembly 109 is fixedly arranged at the bottom of each positioning bracket 107, a top blowing assembly 110 is fixedly arranged at the upper end of each positioning bracket 107, a bottom blowing guide pipe 114 is fixedly connected to the outside of each bottom blowing assembly 109, a top blowing guide pipe 115 is fixedly connected to the outside of each top blowing assembly 110, a blocking transition cavity 112 is communicated with the inside of the associated flow passage 108, a blocking pushing block 117 is fixedly connected to the output end of a blocking pushing cylinder 116 through the blocking transition cavity 112, and the external specification of each blocking pushing block 117 is mutually matched with the in-wall specification of the blocking transition cavity 112;

the middle position of the outer part of the receiving transition sleeve 2 is pre-provided with a positioning maintenance groove 201, the outer part of the positioning maintenance groove 201 is movably provided with a positioning maintenance cover 202, the outer specification of the positioning maintenance cover 202 is correspondingly matched with the inner groove specification of the positioning maintenance groove 201, the corner position of the outer part of the positioning maintenance cover 202 and the corner position of the inner part of the positioning maintenance groove 201 are symmetrically provided with positioning fastening screw holes 211, the outer part of the positioning fastening screw holes 211 is movably provided with positioning fastening bolts 212, the in-hole screw specification of the positioning fastening screw holes 211 and the outer screw specification of the positioning fastening bolts 212 are mutually matched, the passing material guide pipe 203 is mutually communicated with the inner part of the receiving transition sleeve 2, the two side positions of the receiving transition sleeve 2 are symmetrically provided with a butt joint through hole 204, the inner hole specification of the butt joint through hole 204 is correspondingly matched with the fixed installation position of the top blowing guide pipe 115 outside the smelting furnace body 1, the inner part of the butt joint through hole 204 is fixedly connected with a guide connecting pipe 206, the position of the inside the transition sleeve 2 and the outer part of the passing material guide pipe 203 are mutually matched with the outer part of the top blowing guide pipe 208, and the inner part of the auxiliary electrode assembly is mutually communicated with the inner part of the butt joint through the guide pipe 206 and the outer part of the top blowing guide pipe 204 is mutually staggered with the outer part of the transition sleeve 2, and the butt joint electrode assembly is mutually communicated with the inner part of the auxiliary electrode assembly, and the auxiliary electrode assembly is mutually matched with the auxiliary electrode assembly.

The upper end of the passing conduit 203 is fixedly provided with a butt joint assembly tray 209, the fixed installation position of the passing conduit 203 outside the bearing transition sleeve 2 is correspondingly matched with the fixed installation position of the passing conduit 304 outside the crushing treatment cylinder 3, the tail end of the passing conduit 304 is fixedly connected with an associated butt joint tray 311, the passing conduit 304 is mutually communicated with the inside of the passing conduit 203 through the associated butt joint tray 311, the outer circumferences of the butt joint assembly tray 209 and the associated butt joint tray 311 are respectively provided with a butt joint screw hole 210 at equal intervals in an annular shape, the outside of the butt joint screw hole 210 is movably provided with an associated butt joint fastening bolt 332, and the external thread specification of the associated butt joint fastening bolt 332 is correspondingly matched with the in-hole thread specification of the butt joint screw hole 210.

The bottom of the crushing treatment cylinder 3 is fixedly provided with a connecting chassis 301, the upper end of the outer part of the connecting chassis 301 and the circumferential position of the upper end of the receiving transition sleeve 2 are symmetrically provided with associated connecting holes 302 in an annular equidistant mode, the outer part of each associated connecting hole 302 is movably provided with associated connecting bolts 303, the outer specifications of the associated connecting bolts 303 are mutually matched with the screw specifications in the holes of the associated connecting holes 302, the receiving transition sleeve 2 is of a hollow cylinder structure with unsealed top and bottom, and the crushing treatment cylinder 3 is of a hollow cylinder structure with sealed top and bottom.

The feeding guide pipe 304 is communicated with the inside of the crushing treatment cylinder 3, a guide table 312 is fixedly arranged at one side position of the upper end of the feeding table 305, a feeding opening 314 is preset at the other side position of the upper end of the feeding table 305, the feeding opening 314 penetrates through the feeding table 305 and is communicated with the inside of the crushing treatment cylinder 3, the whole guide table 312 is of an inclined table structure inclined from top to bottom towards the position direction of the feeding opening 314 at the upper end of the feeding table 305, a feeding docking assembly 325 for relevant feeding equipment is fixedly arranged at the side position of the upper end of the guide table 312, a control box 307 is electrically connected with a crushing motor 306 and a plugging pushing cylinder 116, a touch control display screen 329 is fixedly arranged at the upper end position outside the control box 307, and a function key 330 is fixedly arranged at the lower end position outside the control box 307.

The outside of the crushing processing cylinder 3 is pre-provided with a packaging maintenance groove 308, the outside of the packaging maintenance groove 308 is movably provided with a packaging maintenance cover 309, the corner position inside the packaging maintenance groove 308 and the corner position outside the packaging maintenance cover 309 are symmetrically provided with fastening assembly screw holes 327, the outside of the fastening assembly screw holes 327 is movably provided with fastening assembly bolts 331, the external thread specifications of the fastening assembly bolts 331 and the in-hole thread specifications of the fastening assembly screw holes 327 are correspondingly matched with each other, and the outside of the packaging maintenance cover 309 is pre-provided with a handle groove 328.

The auxiliary crushing teeth 310 are symmetrically and fixedly arranged on the inner wall of the crushing processing cylinder 3 and the inner side of the encapsulation access cover 309 at equal intervals in an annular shape, and a guiding inclined plate 316 is obliquely and fixedly arranged at the bottom position inside the crushing processing cylinder 3

The lower extreme position outside rotation axis 313 is equipped with the fastening limit screw groove 317 in advance, the fixed mounting of upper end position outside rotation axis 313 has the back-up limit dish 326, the mutual correspondence between the external diameter size of rotation axis 313 and the internal diameter size of assembly axle sleeve 315 matches, the bottom movable mounting of rotation axis 313 has back-up limit bolt 318, the mutual correspondence between the external screw thread specification of back-up limit bolt 318 and the internal screw thread specification of rotation axis 313 bottom, the external movable mounting of fastening limit screw groove 317 has fastening limit screw 319, the mutual correspondence between the internal screw thread specification of fastening limit screw 319 and the external screw thread specification of fastening limit screw groove 317, the fixed mounting of the equidistant symmetry is longitudinally fixed at the outside of assembly axle sleeve 315 to assembly bearing dish 320, the equidistant symmetrical counterpoint cartridge groove 321 has been seted up to the outside annular of assembly bearing dish 320, the outside movable mounting of counterpoint cartridge groove 321 has cartridge crushing tooth 322, the mutual correspondence between the outside specification of cartridge crushing tooth 322 and the inslot specification of counterpoint cartridge groove 321, cartridge crushing tooth 322 is the equidistant movable mounting in the outside of assembly bearing dish 320, the corresponding screw hole 324 is fixed to the fixed mounting screw hole 323 between the outside screw hole of the outside of assembly bearing dish 320.

Example 2

When the basalt fiber production operation is carried out by using the basalt fiber production equipment, the alignment assembly connection assembly operation between the receiving transition sleeve 2 and the crushing treatment cylinder 3 is preferably completed, the alignment assembly between the receiving transition sleeve 2 and the crushing treatment cylinder 3 is assembled and fastened through the associated connecting holes 302 by the associated connecting bolts 303, so that the stability of the whole crushing treatment cylinder 3 at the upper end of the smelting furnace body 1 is ensured, the raw material conveying equipment for basalt fiber production is stably aligned and connected with the feeding table 305 by the feeding butt joint assembly 325, the raw material for basalt fiber production can be stably and continuously fed into the crushing treatment cylinder 3 by the conveying equipment under the action of the structural characteristics of the material guiding table 312, the crushing motor 306 is controlled to be started by the control box 307, the rotary shaft 313 and the external assembly shaft sleeve 315 thereof can be correspondingly driven to rotate at high speed, and under the structural action of the inserted crushing teeth 322 combined with the auxiliary crushing teeth 310, continuous and stable crushing treatment is carried out on the materials in the crushing treatment cylinder 3, the crushed materials are stably guided into the material guide pipe 304 under the structural characteristic action of the guide inclined plate 316, the crushed materials stably enter the smelting cavity 101 by utilizing the contraposition assembly association structure between the material guide pipe 304 and the material passing guide pipe 203, the smelting furnace body 1 carries out stable and continuous high-temperature smelting operation on the crushed materials in the smelting cavity 101 by utilizing the smelting electrode 207 through the electric arc furnace principle, the bottom blowing guide pipe 114 and the top blowing guide pipe 115 are combined with the guide connecting pipe 206 to carry out stable auxiliary holding on the crushed materials in the smelting cavity 101, the smelted materials can be recovered through the control of the plugging pushing block 117 by the plugging pushing cylinder 116, the associated runner 108 carries out discharging operation to the discharging guide pipe 102, the smelting materials entering the discharging cavity 111 can carry out split-flow discharging operation to the bottom under the structural action of the split runner 113, the greatest convenience is provided for the subsequent processing links such as wiredrawing, fibrosis and the like, the overall comprehensive use performance is effectively and correspondingly improved on the basis of enriching the overall use functionality, and the overall applicability of the equipment is greatly expanded.

It should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present invention may be modified or substituted without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered in the scope of the claims of the present invention.

Claims (10)

1. Basalt fiber production facility that possesses raw and other materials pretreatment function, including smelting furnace body (1), accept transition sleeve (2) and crushing processing section of thick bamboo (3), its characterized in that: the middle position of the upper end of the smelting furnace body (1) is pre-provided with a smelting cavity (101), the lower end position of the front side of the exterior of the smelting furnace body (1) is pre-provided with a discharging conduit (102), the bottom of the discharging conduit (102) is fixedly connected with a discharging cavity (111), the bottom of the discharging cavity (111) is pre-provided with a sub-runner (113), the middle position of the bottom of the smelting cavity (101) is pre-provided with an associated runner (108), the side position of the exterior of the associated runner (108) is fixedly provided with a plugging transition cavity (112), the exterior of the plugging transition cavity (112) is fixedly provided with a plugging pushing cylinder (116), the lower end position of the side of the exterior of the accepting transition sleeve (2) is fixedly provided with a passing conduit (203), the side position of the exterior of the accepting transition sleeve (2) is pre-provided with a butt joint through hole (204), the upper end position of the interior side of the accepting transition sleeve (2) is fixedly provided with an electrode bracket (205), the interior of the electrode bracket (205) is fixedly provided with a smelting electrode (207), the side position of the upper end of the crushing treatment cylinder (3) is fixedly provided with a plugging transition cylinder (305), the side of the exterior of the crushing cylinder (3) is fixedly provided with a motor (307), the side of the exterior of the crushing cylinder (307) is fixedly provided with the exterior of the pulverizing cylinder (307), the utility model discloses a crushing processing section of thick bamboo, including crushing processing section of thick bamboo (3), the lower extreme position fixed mounting of outside avris has logical material pipe (304), the output shaft of crushing motor (306) passes crushing processing section of thick bamboo (3) fixedly connected with rotation axis (313), the outside movable mounting of rotation axis (313) has assembly axle sleeve (315), the outside fixed mounting of assembly axle sleeve (315) has assembly loading tray (320), the outside movable mounting of assembly loading tray (320) has cartridge crushing tooth (322), the inside inner wall fixed mounting of crushing processing section of thick bamboo (3) has supplementary crushing tooth (310).

2. The basalt fiber production equipment with raw material pretreatment function as claimed in claim 1, wherein: the utility model discloses a smelting furnace, including smelting furnace body (1), fixed mounting, location installation screw (118) are all symmetrically and equidistant to horizontal fixed mounting of bottom of smelting furnace body (1) has firm supporting leg (105) in the bottom fixed mounting of smelting furnace body (1), lower extreme position of smelting furnace body (1) outside avris is equipped with furnace body access cover (104) in advance, the lower extreme position movable mounting of smelting furnace body (1) outside avris has furnace body access cover (104), furnace body access cover (104) correspond the coincide each other at the inside fixed mounting position of smelting furnace body (1) with shutoff propelling movement cylinder (116), location installation screw (118) have all been offered to the inside corner position of furnace body access cover (104) and equidistant to the outside corner position of furnace body access cover (103), the outside movable mounting of location installation screw (118) has counterpoint installation screw (119), the mutual correspondence between the external screw thread specification of counterpoint installation screw (119) and the internal screw thread specification of location installation screw (118).

3. The basalt fiber production equipment with raw material pretreatment function as claimed in claim 2, wherein: the utility model discloses a smelting furnace, including smelting furnace body (1), associated runner (108), smelting chamber (101), locating support (107) are installed to the both sides position symmetry of smelting furnace body (1) inside upper end, bottom fixed mounting of locating support (107) has bottom to blow subassembly (109), the upper end fixed mounting of locating support (107) has top to blow subassembly (110), bottom to blow subassembly (109) outside fixedly connected with bottom to blow pipe (114), the outside fixedly connected with top to blow pipe (115) of top to blow subassembly (110), the inside intercommunication of associated runner (108) between shutoff transition chamber (112), the output of shutoff propelling movement cylinder (116) passes shutoff transition chamber (112) fixedly connected with shutoff ejector pad (117), the outside specification of shutoff ejector pad (117) and the interior specification of wall of shutoff transition chamber (112) are mutually adapted.

4. The basalt fiber production equipment with raw material pretreatment function as claimed in claim 3, wherein: the middle position outside the receiving transition sleeve (2) is pre-provided with a positioning maintenance groove (201), the outer part of the positioning maintenance groove (201) is movably provided with a positioning maintenance cover (202), the outer specifications of the positioning maintenance cover (202) and the inner groove specifications of the positioning maintenance groove (201) are correspondingly matched with each other, the corner position outside the positioning maintenance cover (202) and the corner position inside the positioning maintenance groove (201) are symmetrically provided with positioning fastening screw holes (211), the outer part of the positioning fastening screw holes (211) is movably provided with positioning fastening bolts (212), the inner hole screw specifications of the positioning fastening screw holes (211) are mutually matched with the outer screw specifications of the positioning fastening bolts (212), the inner part of the receiving transition sleeve (2) is mutually communicated with the inner part of the receiving transition sleeve (203), the two side positions outside the receiving transition sleeve (2) are symmetrically provided with the butt joint through holes (204), the outer part of the receiving transition sleeve (2) is provided with positioning fastening screw holes (211) and the fixed mounting position outside the melting furnace body (1), the butt joint through holes (204) are mutually matched with the inner side guide through holes (204) and the inner part (204) are fixedly provided with the butt joint through holes (206), the position of the guide connecting pipe (206) in the transition sleeve (2) is staggered with the position of the material passing guide pipe (203) outside the transition sleeve (2), the top blowing guide pipe (115) is communicated with the inside of the guide connecting pipe (206) through the butt joint through hole (204), and a smelting auxiliary assembly (208) is fixedly arranged at the upper end of the outside of the smelting electrode (207).

5. The basalt fiber production equipment with raw material pretreatment function as claimed in claim 4, wherein: the upper end of the passing conduit (203) is fixedly provided with a butt joint assembly disc (209), the fixed installation position of the passing conduit (203) on the outer side of the bearing transition sleeve (2) is matched with the fixed installation position of the passing conduit (304) on the outer side of the crushing treatment cylinder (3) in a mutually corresponding manner, the tail end of the passing conduit (304) is fixedly connected with an associated butt joint disc (311), the passing conduit (304) is mutually communicated with the inner side of the passing conduit (203) through the associated butt joint disc (311), the butt joint assembly disc (209) and the outer circumference of the associated butt joint disc (311) are respectively provided with a butt joint screw hole (210) in an annular equidistant manner, an associated butt joint fastening bolt (332) is movably installed on the outer side of the butt joint screw hole (210), and the external screw specification of the associated butt joint fastening bolt (332) is matched with the screw specification in the hole of the butt joint screw hole (210).

6. The basalt fiber production equipment with raw material pretreatment function as claimed in claim 5, wherein: the bottom fixed mounting of crushing processing section of thick bamboo (3) has connection chassis (301), connection chassis (301) outside upper end and accept the equal equidistant symmetry of border position of transition sleeve (2) upper end have seted up associated connection hole (302), the outside movable mounting of associated connection hole (302) has associated connecting bolt (303), the external specification of associated connecting bolt (303) and the downthehole thread specification of associated connection hole (302) are mutually adapted, accept transition sleeve (2) wholly and be the hollow barrel structure that top and bottom all did not seal, and the crushing processing section of thick bamboo (3) wholly be the hollow barrel structure that top and bottom all seal.

7. The basalt fiber production equipment with raw material pretreatment function as claimed in claim 6, wherein: the utility model discloses a feeding device for crushing a material, including a feeding platform (307), a crushing processing section of thick bamboo (3), a feeding pipe (304), a feeding platform (312), a feeding opening (314), a control box (307), a touch display screen (329) and a functional button (330) are fixedly installed in the lower extreme position outside control box (307), a feeding pipe (304) and a crushing processing section of thick bamboo (3) are inside to communicate each other, a feeding platform (312) is fixedly installed in one side position of feeding platform (305) upper end in a guide platform (312), a feeding platform (314) is fixedly installed in the opposite side position of feeding platform upper end, a feeding inlet (314) is preset in the opposite side position of feeding platform (305), a feeding inlet (314) is passed through in the feeding platform (305) and inside to communicate each other in the crushing processing section of thick bamboo (3), a whole feeding platform (312) is in an inclined platform structure from top to bottom in the feeding platform upper end in a guide platform (305) position direction, a feeding butt joint assembly (325) is fixedly installed in the limit side position of feeding platform upper end in the guide platform (312), a control box (307) and a crushing motor (306) and a shutoff pushing cylinder (116) are electrically connected each other.

8. The basalt fiber production equipment with raw material pretreatment function as claimed in claim 7, wherein: the outside of smashing processing section of thick bamboo (3) is equipped with encapsulation access groove (308) in advance, the outside movable mounting in encapsulation access groove (308) has encapsulation access cover (309), inside corner position in encapsulation access groove (308) and the outside corner position of encapsulation access cover (309) all symmetry have seted up fastening assembly screw (327), the outside movable mounting of fastening assembly screw (327) has fastening assembly bolt (331), correspond each other and match between the external screw thread specification of fastening assembly bolt (331) and the downthehole screw thread specification of fastening assembly screw (327), the outside of encapsulation access cover (309) is equipped with handle groove (328) in advance.

9. The basalt fiber production equipment with raw material pretreatment function as claimed in claim 8, wherein: the auxiliary crushing teeth (310) are symmetrically and fixedly arranged on the inner wall of the crushing treatment cylinder (3) and the inner side of the packaging access cover (309) at equal intervals, and a guide inclined plate (316) is obliquely and fixedly arranged at the bottom position inside the crushing treatment cylinder (3).

10. The basalt fiber production equipment with raw material pretreatment function as claimed in claim 9, wherein: the lower end position outside the rotating shaft (313) is pre-provided with a fastening limit thread groove (317), the upper end position outside the rotating shaft (313) is fixedly provided with a capping limit disk (326), the outer diameter size of the rotating shaft (313) is correspondingly matched with the inner diameter size of the assembling shaft sleeve (315), the bottom of the rotating shaft (313) is movably provided with a back cover limit bolt (318), the outer thread specification of the back cover limit bolt (318) is mutually matched with the inner thread specification at the bottom of the rotating shaft (313), the outer part of the fastening limit thread groove (317) is movably provided with a fastening limit screw sleeve (319), the inner thread specification of the fastening limit screw sleeve (319) is correspondingly matched with the outer thread specification of the fastening limit thread groove (317), the assembling bearing disk (320) is longitudinally and symmetrically and fixedly arranged at equal intervals outside the assembling shaft sleeve (315), the outer annular equidistant symmetrical bearing disk (320) is symmetrically provided with a counterpoint plug-in groove (321), the outer part of the counterpoint plug-in groove (321) is movably provided with plug-in grinding teeth (322), the counterpoint plug-in grinding teeth (322) are correspondingly matched with the external annular mounting groove (322) at equal intervals, the outer upper ends of the inserting and crushing teeth (322) and the outer upper ends of the assembling bearing plates (320) are respectively provided with an inserting and fastening screw hole (323), an inserting and fastening bolt (324) is movably arranged at the outer upper end of the inserting and fastening screw hole (323), and the outer thread specification of the inserting and fastening bolt (324) is correspondingly matched with the thread specification in the inserting and fastening screw hole (323).