CN114180815A

CN114180815A - Melting device is used in glass fiber production

Info

Publication number: CN114180815A
Application number: CN202111257829.6A
Authority: CN
Inventors: 陆甫兴; 陆俊南; 易新春
Original assignee: Jiangsu Jiacheng Special Fiber Co ltd
Current assignee: Jiangsu Jiacheng Special Fiber Co ltd
Priority date: 2021-10-27
Filing date: 2021-10-27
Publication date: 2022-03-15

Abstract

The invention discloses a melting device for glass fiber production, which comprises a melting assembly, a discharging assembly and a stirring assembly, wherein the discharging assembly is arranged at the top end of a protective shell and comprises a bearing plate, two storage boxes are arranged at the top end of the bearing plate, and a swinging mechanism is arranged between the two storage boxes at the top end of the bearing plate; the stirring subassembly sets up in the bottom of loading board, and the stirring subassembly includes the connecting block, and the control mouth has been seted up in the front of connecting block, is provided with rotary rod and turbine in the control mouth respectively, and the lever arm of rotary rod is equipped with respectively and promotes sleeve pipe, adapter sleeve and rotation sleeve pipe, and rotation sleeve pipe's outer wall articulates there are two puddlers. The invention has the beneficial effects that: the invention utilizes the rotating motor to drive the stirring component and the swinging mechanism simultaneously, so that the raw materials can be stirred and fed when being put into the melting furnace, and the raw materials are stirred more fully.

Description

Melting device is used in glass fiber production

Technical Field

The invention relates to a melting device, in particular to a melting device for glass fiber production, and belongs to the technical field of glass fiber processing.

Background

The glass fiber is an inorganic non-metallic material with excellent performance, has the advantages of good insulativity, strong heat resistance, good corrosion resistance and high mechanical strength, and is prepared by taking six ores of pyrophyllite, quartz sand, limestone, dolomite, borocalcite and boromagnesite as raw materials and carrying out processes of high-temperature melting, wire drawing, winding, weaving and the like.

In the process of preparing the glass fiber, the most critical step is processing of raw materials, two melting is one of the critical processes, most of melting equipment used in the existing operation is an integral melting furnace, when melting is carried out, in order to enable melting to be more complete and quicken melting speed, a plurality of stirring assemblies are arranged in the melting furnace, but the existing stirring assemblies are mostly provided with a plurality of groups of stirring rods on a rotating rod for stirring together in order to increase stirring efficiency, so that the stirring mode not only increases the load of a stirring motor, but also fixes the stirring position, so that dead angles of stirring are difficult to avoid, and the feeding of the raw materials is also brain-type filling, so that the raw materials are accumulated, and great troubles are also caused for subsequent stirring.

Disclosure of Invention

The present invention has been made to solve the above problems, and an object of the present invention is to provide a melting apparatus for producing glass fibers.

The present invention achieves the above object by the following technical solution, a melting apparatus for glass fiber production, comprising:

the melting assembly comprises a protective shell, a melting furnace is arranged in the protective shell, and support columns are fixedly connected to four corners of the top end of the protective shell;

the discharging assembly is arranged at the top end of the protective shell and comprises a bearing plate, two storage boxes are arranged at the top end of the bearing plate, a swinging mechanism is arranged between the two storage boxes at the top end of the bearing plate, and four corners of the bottom end of the bearing plate are fixedly connected with the top ends of the four support columns respectively;

stirring assembly, stirring assembly sets up in the bottom of loading board, and is located the inside of melting furnace, stirring assembly includes the connecting block, the control mouth has been seted up in the front of connecting block, be provided with rotary rod and turbine in the control mouth respectively, the lever arm of rotary rod is overlapped respectively and is equipped with promotion sleeve pipe, adapter sleeve and rotation sleeve pipe, it has two puddlers to rotate sheathed tube outer wall and articulate.

Preferably, the top of loading board has seted up interlude hole, two direction spouts and two drain mouths respectively, two the direction spout is seted up between two drain mouths, the interlude hole is seted up between two direction spouts, the top of loading board is provided with the rotation motor, just the output of rotating the motor runs through the top fixed connection of interlude hole and rotary rod.

Preferably, swing mechanism includes the shift ring, the inner wall at the front and the back of shift ring is provided with two sets of tooth of stirring, two direction sliders of the bottom fixedly connected with of shift ring, two the direction slider respectively with two direction spout slip interlude connections, two linkage blocks of the equal fixedly connected with of outer wall at the front and the back of shift ring, four wherein one side of linkage block, respectively with two storage box opposite side fixed connection.

Preferably, the output pot head that rotates the motor is equipped with the half-gear, the half-gear setting is between the inner wall of shift ring, and with two sets of tooth meshes mutually of stirring.

Preferably, the top of connecting block and the bottom fixed connection of loading board, the supported hole has all been seted up to the both sides of connecting block, and all link up each other with the control mouth, the equal fixedly connected with bracing piece in both sides of turbine, two the bracing piece rotates with two supported holes respectively and alternates the connection, two the equal fixedly connected with swing arm in one side that the bracing piece was carried on the back mutually, two the swing arm is carried on the back mutually one side, and is located the equal fixedly connected with connecting rod of one end of keeping away from the bracing piece.

Preferably, promote two spliced poles of sheathed tube outer wall fixedly connected with, two the lever arm of spliced pole all overlaps and is equipped with the push rod, two one side in opposite directions of push rod, and the one end that is located to keep away from the spliced pole rotates with two connecting rods respectively and alternates to be connected.

Preferably, two first connectors are fixedly connected to the outer wall of the connecting sleeve, two adjusting rods are sleeved on the outer wall of each first connector, and one sides, back to back, of the adjusting rods are respectively connected with one sides, opposite to each other, of the two stirring rods in a rotating mode through connectors.

Preferably, the middle part of the pushing sleeve is provided with an annular limiting groove, the bottom end of the pushing sleeve is provided with an annular connecting port, and the annular connecting port and the annular limiting groove are communicated with each other.

Preferably, two limiting rods are fixedly connected to the top end of the connecting sleeve, the two limiting rods penetrate through the annular connecting port and are connected with the annular limiting groove in a sliding and penetrating mode, a blocking plate is sleeved on the top of each limiting rod, and the blocking plate is connected in the annular limiting groove in a sliding and penetrating mode.

Preferably, two the one end that the puddler kept away from each other all is provided with stirring vane, the outer wall at rotary rod top, and be located the control mouth and be provided with the screw thread, turbine and rotary rod mesh in the control mouth.

The invention has the beneficial effects that:

firstly, the rotary motor is utilized to drive a stirring assembly and a swinging mechanism at the same time, and the swinging mechanism is also connected with a storage box, so that the feeding assembly and the stirring assembly can be driven to be synchronously carried out by only one motor, and the raw materials can be stirred and fed when being put into the melting furnace, so that the raw materials are stirred more fully.

Secondly, the stirring assembly realizes the combined adjustment among the swing arm, the push rod, the adjusting rod and the stirring rods by utilizing the connection relation among the rotary rod, the turbine, the connecting sleeve, the pushing sleeve and the rotary sleeve, not only can enable the two stirring rods to stir in a mirror-rotating manner, but also can enable the two stirring rods to perform opening and closing adjustment of an included angle while rotating through the transmission effect, so that the stirring can be more sufficient and complete, meanwhile, the design of a plurality of stirring rods and stirring blades is omitted, and the load of a rotary motor is reduced to a great extent.

Thirdly, the discharging assembly utilizes the moving ring, the half gear and the shifting tooth to be matched with the control of the rotating motor, so that the moving ring can do reciprocating motion, then the two storage boxes are driven by the linkage block to do reciprocating motion, the discharging position can be adjusted, the situation that materials are accumulated at the same position and cannot be stirred is avoided, the discharging assembly and the stirring assembly are connected together, and meanwhile, the burden of the stirring assembly is greatly reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of a fusion assembly of the present invention;

FIG. 3 is a schematic structural view of a discharge assembly of the present invention;

FIG. 4 is a schematic structural diagram of the carrier plate according to the present invention;

FIG. 5 is a schematic structural diagram of a swing mechanism according to the present invention;

FIG. 6 is a schematic structural view of a stirring assembly of the present invention;

FIG. 7 is a schematic view of the connection of a push sleeve and a connection sleeve according to the present invention;

FIG. 8 is an enlarged view of the structure at A in FIG. 7 according to the present invention;

fig. 9 is a schematic view of the structural connection of the turbine and the rotating rod of the present invention.

In the figure: 1. a protective housing; 101. a melting furnace; 102. a support pillar; 2. a carrier plate; 201. a guide chute; 202. a material leakage port; 203. rotating the motor; 3. connecting blocks; 301. rotating the rod; 302. a turbine; 303. a support bar; 304. swinging arms; 4. pushing the sleeve; 401. connecting columns; 402. a push rod; 403. an annular restriction groove; 5. connecting a sleeve; 501. adjusting a rod; 502. a restraining bar; 503. a blocking plate; 6. rotating the sleeve; 601. a stirring rod; 602. a stirring blade; 7. a moving ring; 701. the teeth are stirred; 702. a linkage block; 703. a guide slider; 704. a half gear; 8. a storage box.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, a melting apparatus for producing glass fibers includes:

the melting assembly comprises a protective shell 1, a melting furnace 101 is arranged in the protective shell 1, and support columns 102 are fixedly connected to four corners of the top end of the protective shell 1;

melting furnace 101 is current ellipse circular smelting furnace, can accomplish the smelting of raw materials well, and protective housing 1 surrounds the protection to the outer wall of melting furnace 101, has both protected melting furnace 101, can avoid operating personnel to scald again, and protective housing 1's bottom is provided with row material pipe, and is provided with the valve at the top of this row material pipe, and this row material pipe is located protective housing 1 inside part and melting furnace 101's discharge end looks through connection simultaneously.

The discharging assembly is arranged at the top end of the protective shell 1 and comprises a bearing plate 2, two storage boxes 8 are arranged at the top end of the bearing plate 2, a swinging mechanism is arranged between the two storage boxes 8 at the top end of the bearing plate 2, and four corners of the bottom end of the bearing plate 2 are fixedly connected with the top ends of the four support columns 102 respectively;

the inner wall of storage box 8 sets up to the shape of locating the slope towards the center, and is close to the bottom opening more and is provided with two storage boxes 8 less, can classify the deposit input with the raw materials, just so can more conveniently carry out putting into in proper order of compounding raw materials, and four support columns 102 increase the distance between loading board 2 and the melting furnace 101, provide storage space for the stirring subassembly.

As a technical optimization scheme of the invention, the top end of the bearing plate 2 is respectively provided with a through-insertion hole, two guide sliding chutes 201 and two material leakage ports 202, the two guide sliding chutes 201 are arranged between the two material leakage ports 202, the through-insertion hole is arranged between the two guide sliding chutes 201, the top end of the bearing plate 2 is provided with a rotating motor 203, and the output end of the rotating motor 203 penetrates through the through-insertion hole and is fixedly connected with the top end of the rotating rod 301;

the interlude hole is used for providing the condition to being connected between rotary rod 301 and the output that rotates motor 203, it sets up the middle part on 2 tops of loading board to rotate motor 203 output vertical fixed downwards, the middle part on 2 tops of loading board is seted up to the interlude hole, two horizontal centrosymmetry of direction spout 201 are seted up, and set up the size the same, two horizontal centrosymmetry of drain hole 202 are seted up, and set up the size the same, the slope of drain hole 202 inner wall sets up simultaneously, it is more less near the lower extreme opening, the design carries out the buffering of speed in order to the raw materials to the whereabouts more, carry out the whereabouts direction of raw materials simultaneously, avoid causing the jam of drain hole 202.

The output end of the rotating motor 203 is sleeved with a half gear 704, and the half gear 704 is arranged between the inner walls of the moving ring 7 and meshed with the two groups of stirring teeth 701;

as a technical optimization scheme of the invention, the swing mechanism comprises a moving ring 7, two groups of shifting teeth 701 are arranged on the inner walls of the front and back of the moving ring 7, two guide sliders 703 are fixedly connected to the bottom end of the moving ring 7, the two guide sliders 703 are respectively connected with two guide chutes 201 in a sliding and penetrating manner, two linkage blocks 702 are respectively fixedly connected to the outer walls of the front and back of the moving ring 7, and one side of each of the four linkage blocks 702 is respectively fixedly connected with the opposite side of each of the two material storage boxes 8;

two groups of stirring teeth 701 are horizontally and symmetrically arranged on the inner walls of the front surface and the back surface of the moving ring 7, the length and the thickness of the guide sliding block 703 correspond to the arrangement depth and the width of the guide sliding groove 201, and the contact surfaces of the guide sliding block and the guide sliding groove are smooth, so that the moving ring 7 can move stably.

The stirring assembly is arranged at the bottom end of the bearing plate 2 and is positioned inside the melting furnace 101, the stirring assembly comprises a connecting block 3, a control opening is formed in the front face of the connecting block 3, a rotating rod 301 and a turbine 302 are respectively arranged in the control opening, lever arms of the rotating rod 301 are respectively sleeved with a pushing sleeve 4, a connecting sleeve 5 and a rotating sleeve 6, and the outer wall of the rotating sleeve 6 is hinged with two stirring rods 601;

the fixed cover of rotating sleeve 6 is established in the pole wall department of rotary rod 301 bottom, and connecting tube 5 and promotion sleeve 4 all rotate with rotary rod 301 and alternate the connection, and connecting tube 5's top and the bottom that promotes sleeve 4 rotate through restriction pole 502 and connect, and promotion sleeve 4 can drive connecting tube 5 and carry out the removal of vertical direction.

As a technical optimization scheme of the invention, the two stirring rods 601 are provided with stirring blades 602 at the ends far away from each other, the outer wall of the top of the rotating rod 301 is provided with threads in the control port, and the turbine 302 and the rotating rod 301 are engaged in the control port;

the worm wheel 302 and the thread on the top outer wall of the rotating rod 301 can rotate under the action of meshing transmission.

The top end of the connecting block 3 is fixedly connected with the bottom end of the bearing plate 2, supporting holes are formed in two sides of the connecting block 3 and communicated with the control port, supporting rods 303 are fixedly connected to two sides of the turbine 302, the two supporting rods 303 are rotatably and alternately connected with the two supporting holes respectively, swing arms 304 are fixedly connected to opposite sides of the two supporting rods 303, and connecting rods are fixedly connected to opposite sides of the two swing arms 304 and one ends of the two swing arms which are far away from the supporting rods 303;

the top of connecting block 3 and the middle part fixed connection of loading board 2 bottom, and make the position that rotary rod 301 was located face the below of interlude hole, two supporting hole horizontal centrosymmetric offer, and the diameter of seting up of supporting hole is the same with the outer wall diameter of bracing piece 303, and the contact surface between them is smooth, can make bracing piece 303 carry out smooth rotation under the support direction in supporting hole.

As a technical optimization scheme of the invention, the outer wall of the push sleeve 4 is fixedly connected with two connecting columns 401, lever arms of the two connecting columns 401 are respectively sleeved with a push rod 402, and one ends of the two push rods 402, which are opposite to each other, are respectively in rotating penetrating connection with the two connecting rods at the ends far away from the connecting columns 401;

one end of the push rod 402 is hinged with the swing arm 304 through a connecting rod, and the other end of the push rod 402 is hinged with the push sleeve 4 through a connecting column 401, so that the acting force of the push rod 402 on the push sleeve 4 can be converted into a reciprocating force in the vertical direction under the limitation of the rotating rod 301.

As a technical optimization scheme of the invention, the outer wall of the connecting sleeve 5 is fixedly connected with two first connectors, the outer walls of the two first connectors are respectively sleeved with adjusting rods 501, and the opposite sides of the two adjusting rods 501 are respectively connected with the opposite sides of the two stirring rods 601 through connectors in a rotating manner;

the adjusting rod 501 is hinged to the connecting sleeve 5 through a connector, so that the adjusting rod 501 can be rotationally adjusted after being subjected to the reciprocating force in the vertical direction of the connecting sleeve 5.

The top end of the connecting sleeve 5 is fixedly connected with two limiting rods 502, the two limiting rods 502 penetrate through the annular connecting port and are connected with the annular limiting groove 403 in a sliding and penetrating manner, the tops of the two limiting rods 502 are respectively sleeved with a blocking plate 503, and the two blocking plates 503 are connected in the annular limiting groove 403 in a sliding and penetrating manner;

the annular connecting opening is a circular opening, the diameter of the annular connecting opening is the same as that of the outer wall of the limiting rod 502, meanwhile, the contact surface of the annular connecting opening and the outer wall of the limiting rod 502 is smooth, the limiting rod 502 can rotate freely, the width of the annular limiting groove 403 is one point and one time of the diameter of the blocking plate 503, the limiting rod 502 is prevented from sliding out of the annular connecting opening, and connection and disconnection between the connecting sleeve 5 and the pushing sleeve 4 are avoided.

Annular limiting groove 403 is formed in the middle of push sleeve 4, an annular connecting port is formed in the bottom end of push sleeve 4, and the annular connecting port and annular limiting groove 403 are communicated with each other.

In use, the invention is described with reference to figures 1 to 9;

the first step is carried out by first classifying the raw materials to be melted into two magazines 8 and then starting the melting furnace 101 to start the operation.

Implementing the second step of operation, the following processes will occur when the rotating motor 203 is started;

in the first process, the rotating motor 203 drives the rotating rod 301 to rotate through the output end, the rotating rod 301 drives the rotating sleeve 6 at the bottom to synchronously rotate, then the rotating sleeve 6 drives the stirring rod 601 and the stirring blades 602 to rotate, the stirring rod 601 drives the adjusting rod 501 to rotate, and the adjusting rod 501 drives the connecting sleeve 5 to rotate;

the second process is that the rotating rod 301 rotates, and meshing transmission is performed through threads on the outer wall of the top of the rotating rod, so that the turbine 302 rotates, the turbine 302 rotates to drive the two support rods 303 to rotate, the swing arms 304 connected to the two support rods 303 rotate at the moment, two ends, far away from the support rods 303, of the two swing arms 304 perform circular motion, at the moment, swinging pulling force acts on one end, connected with the push rod 402, of the push rod 402, the push rod 402 swings downwards while the limit directions of the push sleeve 4 and the connecting column 401 are guided, and the push sleeve 4 is pulled to perform reciprocating motion in the vertical direction while the two push rods 402 swing;

the connecting sleeve 5 is driven by the limiting rod 502 to reciprocate in the vertical direction while the pushing sleeve 4 reciprocates, and at the moment, the adjusting rod 501 pulls the stirring rod 601 along with the connecting sleeve 5 to perform opening and closing transformation of an included angle. (combining the first process and the second process, the stirring rod 601 drives the stirring blade 602 to rotate and stir while changing the angle)

The third process, the rotating motor 203 drives the half gear 704 to rotate through the output end, the half gear 704 drives the moving ring 7 to horizontally and longitudinally reciprocate under the limiting and guiding of the guiding slide block 703 and the guiding chute 201 through the meshing transmission with the two groups of stirring teeth 701, the moving ring 7 drives the two storage boxes 8 to horizontally and longitudinally reciprocate through the linkage block 702, and the materials to be melted loaded in the two storage boxes 8 are gradually diffused into the melting furnace 101 through the material leakage port 202 to be melted and are melted.

And implementing the third step, closing the melting furnace 101 after the melting operation is finished, and then opening a valve of a discharge pipe at the bottom of the protective shell 1 to discharge the molten finished product from the melting furnace 101.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A melting apparatus for glass fiber production, comprising:

the melting assembly comprises a protective shell (1), a melting furnace (101) is arranged in the protective shell (1), and supporting columns (102) are fixedly connected to four corners of the top end of the protective shell (1);

the discharging assembly is arranged at the top end of the protective shell (1) and comprises a bearing plate (2), two storage boxes (8) are arranged at the top end of the bearing plate (2), a swinging mechanism is arranged between the two storage boxes (8) and at the top end of the bearing plate (2), and four corners of the bottom end of the bearing plate (2) are fixedly connected with the top ends of the four support columns (102) respectively;

stirring assembly, stirring assembly sets up in the bottom of loading board (2), and is located the inside of melting furnace (101), stirring assembly includes connecting block (3), the control mouth has been seted up in the front of connecting block (3), be provided with rotary rod (301) and turbine (302) in the control mouth respectively, the lever arm of rotary rod (301) is equipped with respectively and promotes sleeve pipe (4), connecting sleeve pipe (5) and rotation sleeve pipe (6), the outer wall that rotates sleeve pipe (6) articulates there are two puddlers (601).

2. The melting apparatus for producing glass fiber according to claim 1, wherein: the top of loading board (2) has been seted up interlude hole, two direction spout (201) and two drain holes (202) respectively, two guide spout (201) are seted up between two drain holes (202), the interlude hole is seted up between two direction spout (201), the top of loading board (2) is provided with rotates motor (203), just the top fixed connection that the output that rotates motor (203) runs through interlude hole and rotary rod (301).

3. The melting apparatus for producing glass fiber according to claim 1, wherein: swing mechanism includes shift ring (7), the inner wall at shift ring (7) front and the back is provided with two sets of tooth (701) of stirring, two direction slider (703) of bottom fixedly connected with of shift ring (7), two direction slider (703) are connected with two direction spout (201) slip interlude respectively, two linkage blocks (702), four of the equal fixedly connected with of outer wall at shift ring (7) front and the back wherein one side of linkage block (702) respectively with two storage box (8) one side fixed connection in opposite directions.

4. The melting apparatus for producing glass fiber according to claim 2, wherein: the output pot head of rotating electrical machines (203) is equipped with half gear (704), half gear (704) set up between the inner wall of shift ring (7), and with two sets of tooth (701) of stirring mesh mutually.

5. The melting apparatus for producing glass fiber according to claim 1, wherein: the top of connecting block (3) and the bottom fixed connection of loading board (2), the brace rod has all been seted up to the both sides of connecting block (3), and all link up each other with the control mouth, the equal fixedly connected with bracing piece (303) in both sides of turbine (302), two bracing piece (303) rotate respectively with two brace rod holes and alternate the connection, two the equal fixedly connected with swing arm (304) in one side that bracing piece (303) carried on the back mutually, two one side that swing arm (304) carried on the back mutually just is located the equal fixedly connected with connecting rod of one end of keeping away from bracing piece (303).

6. The melting apparatus for producing glass fiber according to claim 1, wherein: two spliced poles (401) of outer wall fixedly connected with of promotion sleeve pipe (4), two the lever arm of spliced pole (401) all overlaps and is equipped with push rod (402), two push rod (402) one side in opposite directions, and the one end that is located to keep away from spliced pole (401) rotates with two connecting rods respectively and alternates the connection.

7. The melting apparatus for producing glass fiber according to claim 1, wherein: two first connectors of outer wall fixedly connected with of adapter sleeve (5), two the outer wall of first connector all overlaps and is equipped with regulation pole (501), two adjust pole (501) one side that the back of the body mutually and rotate through connector and two puddler (601) one side in opposite directions respectively and connect.

8. The melting apparatus for producing glass fiber according to claim 6, wherein: annular limiting grooves (403) are formed in the middle of the pushing sleeve (4), annular connecting ports are formed in the bottom end of the pushing sleeve (4), and the annular connecting ports are communicated with the annular limiting grooves (403).

9. The melting apparatus for producing glass fiber according to claim 1, wherein: two restriction poles (502) of top fixedly connected with of adapter sleeve (5), two restriction pole (502) all run through annular connector and annular restriction groove (403) slip interlude and connect, two the top of restriction pole (502) all is equipped with and blocks board (503), two block board (503) slip interlude and connect in annular restriction groove (403).

10. The melting apparatus for producing glass fiber according to claim 1, wherein: two the one end that puddler (601) kept away from each other all is provided with stirring vane (602), the outer wall at rotary rod (301) top, and be located the control mouth and be provided with the screw thread, turbine (302) and rotary rod (301) mesh in the control mouth.