CN112919774A

CN112919774A - Adjusting device of charging locomotive in glass melting furnace

Info

Publication number: CN112919774A
Application number: CN202110220693.5A
Authority: CN
Inventors: 李瑛�
Original assignee: Irico Hefei LCD Glass Co Ltd
Current assignee: Irico Hefei LCD Glass Co Ltd
Priority date: 2021-02-26
Filing date: 2021-02-26
Publication date: 2021-06-08

Abstract

The invention discloses an adjusting device of a charging locomotive in a glass melting furnace, which comprises a platform base component, a plurality of groups of lifting scissor arms are arranged on the platform base component, a first transverse moving adjusting component is rotatably arranged at the top of the plurality of groups of lifting scissor arms, a second traversing adjusting component is arranged on the first traversing adjusting component in a threaded manner, an orientation angle adjusting component is arranged on the second traversing adjusting component in a threaded manner, the bidirectional rotation and angle adjustment of the third driving motor are used for adjusting the threaded moving block of the chassis to be matched with the threads of the second threaded rod, so that the orientation angle adjustment assembly makes a first lateral movement adjustment in the lateral direction relative to the second traverse adjustment assembly, the two-way rotation of the second driving motor and the thread matching of the second traverse motion adjusting internal thread moving block and the first threaded rod, such that the orientation angle adjustment assembly makes a second lateral movement adjustment in the lateral direction relative to the first traverse adjustment assembly.

Description

Adjusting device of charging locomotive in glass melting furnace

Technical Field

The invention belongs to the technical field of a locomotive for feeding materials into a glass melting furnace, and particularly relates to an adjusting device of the locomotive for feeding materials into the glass melting furnace.

Background

At present, due to the influence of factors such as building precision of a glass melting furnace, consistency of refractory material volume, particularly thermal expansion of the refractory material in the process of baking the furnace, and the like, a feeding port of the glass melting furnace deviates, two feeding ports of the glass melting furnace are asymmetric, and a feeding locomotive cannot be fed into the feeding port along a standard feeding locomotive rail manufactured in a cold state.

The prior art has the following problems: no matter the charging locomotive is installed for the first time or is replaced subsequently, the charging locomotive must be adjusted in the horizontal direction and the vertical direction, the adjustment is obviously time-consuming and labor-consuming because of the immediacy and the high-temperature field, the melting quality of glass is influenced because batch materials put into a melting furnace are intermittent and unevenly distributed, and the working environment of personnel is severe and the labor intensity is high.

Disclosure of Invention

To solve the problems set forth in the background art described above. The invention provides an adjusting device of a feeding locomotive in a glass melting furnace, which has the characteristics of convenience in use and convenience in adjustment.

In order to achieve the purpose, the invention provides the following technical scheme: an adjusting device of a charging locomotive in a glass melting furnace comprises a platform base assembly, wherein a plurality of groups of lifting scissor arms are arranged on the platform base assembly, a first transverse moving adjusting assembly is rotatably arranged at the tops of the lifting scissor arms, a second transverse moving adjusting assembly is arranged on the first transverse moving adjusting assembly in a threaded manner, an orientation angle adjusting assembly is arranged on the second transverse moving adjusting assembly in a threaded manner, and two groups of charging locomotive fixing assemblies are arranged on the orientation angle adjusting assembly in a threaded manner;

the platform base assembly comprises a platform base chassis, two opposite chassis supporting lug plates are fixedly arranged at the top of the platform base chassis, a double-threaded rod is rotatably arranged between the two chassis supporting lug plates, a first driving motor for driving the double-threaded rod to rotate in two directions is fixedly arranged outside one chassis supporting lug plate, a movable guide rail wheel is fixedly arranged at the bottom of the platform base chassis, and threaded rod internal thread moving blocks are arranged at both ends of the double-threaded rod in a threaded manner;

the first transverse moving adjusting assembly comprises a first transverse moving adjusting chassis, first transverse moving supporting lug plates are fixedly arranged at two ends of the top of the first transverse moving adjusting chassis, two first threaded rods are rotatably arranged between the two first transverse moving supporting lug plates through a bearing seat, two second driving motors for driving the first threaded rods to rotate in two directions are fixedly arranged outside the first transverse moving supporting lug plates at one end, first rotating lug plates are fixedly arranged at two sides of one end of the bottom of the first transverse moving adjusting chassis, guide slide rods are fixedly arranged at two sides of the other end of the bottom of the first transverse moving adjusting chassis, guide slide sleeves are slidably arranged on the guide slide rods, and second rotating lug plates are fixedly arranged at the bottoms of the guide slide sleeves;

the second transverse moving adjusting assembly comprises a second transverse moving adjusting chassis, two second threaded rods are rotatably arranged in the second transverse moving adjusting chassis through a bearing seat, two third driving motors for driving the second threaded rods to rotate in two directions are fixedly arranged on a disc body of the second transverse moving adjusting chassis at one end, and two second transverse moving adjusting internal thread moving blocks are fixedly arranged at the bottom of the second transverse moving adjusting chassis in a symmetrical distribution manner;

the orientation angle adjusting component comprises an orientation angle adjusting top disc, a support column rod is fixedly arranged at the bottom of the orientation angle adjusting top disc, an orientation angle adjusting chassis is rotatably arranged at the bottom of the support column rod through a rotating bearing seat, two chassis guide transverse grooves are symmetrically distributed on the orientation angle adjusting top disc, angle adjusting chassis fixing lug plates are fixedly arranged at the bottoms of two ends of each chassis guide transverse groove, a third threaded rod is rotatably arranged between the two angle adjusting chassis fixing lug plates through a bearing seat, a fourth driving motor for driving the third threaded rod to rotate in a two-way mode is fixedly arranged outside the angle adjusting chassis fixing lug plate at one end, two angle adjusting chassis internal threads are symmetrically distributed and fixedly arranged at the bottom of the orientation angle adjusting chassis, and two fifth driving motors are symmetrically distributed and fixedly arranged on a disc body at the edge of the orientation angle adjusting chassis, two arc-shaped rack plates are symmetrically and fixedly distributed on the edge disk body facing the bottom of the angle adjusting top disk, and an angle adjusting gear meshed with the arc-shaped rack plates is fixedly arranged on an output shaft rod of the fifth driving motor;

the feeding locomotive fixing assembly comprises a feeding locomotive clamping and fixing transverse plate, and a transverse plate clamping and moving internal thread block is fixedly arranged at the bottom of the feeding locomotive clamping and fixing transverse plate through a transverse plate clamping and supporting plate;

when the platform base assembly, the lifting scissor arm and the first transverse moving adjusting assembly are assembled for use, two ends of an arm plate at the bottom of the lifting scissor arm are rotatably connected with side blocks of the threaded moving block in the threaded rod through shaft pins, and two ends of the arm plate at the bottom of the lifting scissor arm are rotatably connected with side blocks of the first rotating lug disc and the second rotating lug disc through the shaft pins;

when the first transverse moving adjusting assembly and the second transverse moving adjusting assembly are assembled for use, the block bodies of the two second transverse moving adjusting internal thread moving blocks move on the rod bodies of the two first threaded rods in a bidirectional threaded manner;

when the second traverse motion adjusting assembly and the orientation angle adjusting assembly are assembled for use, the block bodies of the two internal thread moving blocks of the angle adjusting chassis move on the rod bodies of the two second threaded rods in a bidirectional threaded manner;

when the orientation angle adjusting assembly and the charging locomotive fixing assembly are assembled and used, the block body of the clamping transverse plate moving inner thread block moves in a bidirectional threaded mode on the rod body of the third threaded rod, and the plate body of the clamping transverse plate supporting plate slides in a guiding mode on the plate body of the orientation angle adjusting top plate through the chassis guiding transverse groove.

Preferably, through the bidirectional rotation of the fourth driving motor and the threaded fit of the third threaded rod and the clamping transverse plate moving inner threaded block, the clamping fixing action of the feeding locomotive is closed and the clamping fixing action of the feeding locomotive is released by back-to-back separation.

Preferably, through the two-way rotation of fifth driving motor and the meshing of angle adjustment gear and arc rack plate, make towards angle adjustment top disc and do reinforced orientation angle adjustment of rotary type towards angle adjustment chassis relatively.

Preferably, the orientation angle adjusting assembly is adjusted in a first transverse moving mode relative to the second traverse adjusting assembly in the transverse direction through bidirectional rotation of the third driving motor and threaded matching of the threaded moving block and the second threaded rod in the chassis for angle adjustment, the orientation angle adjusting assembly is adjusted in a second transverse moving mode relative to the first traverse adjusting assembly in the transverse direction through bidirectional rotation of the second driving motor and threaded matching of the threaded moving block and the first threaded rod in the second traverse adjusting mode, and the adjusting direction of the first transverse moving mode is perpendicular to the adjusting direction of the second transverse moving mode.

Preferably, the lifting scissor arm is extended or compressed through the bidirectional rotation of the first driving motor and the threaded fit of the threaded rod and the threaded moving block in the threaded rod, so that the orientation angle adjusting assembly can adjust the height of the feeding material in the longitudinal direction in a height-adjustable manner.

Compared with the prior art, the invention has the beneficial effects that: when the invention is assembled and used between the orientation angle adjusting component and the feeding locomotive fixing component, the block body of the inner thread block moved by the clamping transverse plate moves on the rod body of the third threaded rod in a bidirectional threaded manner, the plate body of the supporting plate of the clamping transverse plate slides on the plate body of the orientation angle adjusting top plate in a guiding manner through the chassis guiding transverse groove, through the way, the feeding locomotive is clamped and fixed on the orientation angle adjusting component through two groups of feeding locomotive fixing components, through the bidirectional rotation of the first driving motor and the threaded matching of the threaded rod inner thread moving block and the double threaded rods, the lifting scissor arm does extension or compression movement, so that the orientation angle adjusting component does feeding adjustment with adjustable height in the longitudinal direction, through the bidirectional rotation of the third driving motor and the threaded matching of the threaded rod inner thread moving block and the second threaded rod, so that the orientation angle adjusting component does first transverse movement adjustment relative to the second transverse moving adjustment in the transverse, the adjusting device of the glass melting furnace charging locomotive can realize the quick adjustment of the glass melting furnace charging locomotive by fixing the charging locomotive and simultaneously realizing the adjustment of longitudinal, transverse and transverse orientation angles of the charging locomotive and enabling the adjustment of the glass melting furnace charging locomotive to be quick and easy by the way that the charging locomotive is fixed and the charging locomotive is adjusted by the bidirectional rotation of the fifth driving motor and the meshing of the angle adjusting gear and the arc-shaped rack plate, thereby realizing the purpose of improving the melting quality of the glass melting furnace, improving the working environment of personnel and reducing the labor intensity of the personnel.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view from another perspective of the present invention;

FIG. 3 is a perspective view of the platform base assembly and the structure of the arm portion of the lift scissor of the present invention;

fig. 4 is an exploded view of the platform base assembly and the structure of the arm portion of the lifting scissor of the present invention;

FIG. 5 is a perspective view of a first traverse adjustment assembly of the present invention;

FIG. 6 is a perspective view of another perspective of the first traverse adjustment assembly of the present invention;

FIG. 7 is a perspective view of a second traverse adjustment assembly of the present invention;

FIG. 8 is a perspective view of the orientation angle adjustment assembly and charging car securing assembly of the present invention;

FIG. 9 is an exploded view of the orientation angle adjustment assembly and charging car securing assembly of the present invention;

FIG. 10 is a perspective view of another angle of orientation adjustment assembly of the present invention;

in the figure: 1. a platform base assembly; 101. a platform base chassis; 102. a chassis support ear plate; 103. a double threaded rod; 104. a threaded rod internal thread moving block; 105. a first drive motor; 106. moving the guide rail wheel; 2. a scissor arm; 3. a first traverse adjustment assembly; 301. a first traverse adjustment chassis; 302. a first lateral movement support ear plate; 303. a first threaded rod; 304. a second drive motor; 305. a first rotating ear plate; 306. a guide slide bar; 307. a guide sliding sleeve; 308. a second rotating ear plate; 4. a second traverse adjustment assembly; 401. a second traverse adjustment chassis; 402. a second threaded rod; 403. a third drive motor; 404. a second traverse adjusting internal thread moving block; 5. an orientation angle adjustment assembly; 501. a top plate is adjusted towards the angle; 502. a chassis guide transverse groove; 503. an orientation angle adjustment chassis; 504. the angle adjusting chassis fixes the ear plate; 505. a fourth drive motor; 506. a fifth drive motor; 507. an arc-shaped rack plate; 508. an angle adjustment gear; 509. a support mast; 510. rotating the bearing seat; 511. an angle adjusting chassis internal thread moving block; 512. a third threaded rod; 6. a charging locomotive fixing component; 601. the feeding locomotive clamps and fixes the transverse plate; 602. clamping the transverse plate supporting plate; 603. the clamping transverse plate moves the internal thread block.

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. 1-10, the present invention provides the following technical solutions: an adjusting device of a feeding locomotive in a glass melting furnace comprises a platform base assembly 1, wherein a plurality of groups of lifting scissor arms 2 are arranged on the platform base assembly 1, a first transverse moving adjusting assembly 3 is rotatably arranged at the top of each group of lifting scissor arms 2, a second transverse moving adjusting assembly 4 is arranged on each first transverse moving adjusting assembly 3 in a threaded manner, an orientation angle adjusting assembly 5 is arranged on each second transverse moving adjusting assembly 4 in a threaded manner, and two groups of feeding locomotive fixing assemblies 6 are arranged on each orientation angle adjusting assembly 5 in a threaded manner;

the platform base assembly 1 comprises a platform base chassis 101, two opposite chassis supporting lug plates 102 are fixedly arranged at the top of the platform base chassis 101, a double-threaded rod 103 is rotatably arranged between the two chassis supporting lug plates 102, a first driving motor 105 for driving the double-threaded rod 103 to rotate in two directions is fixedly arranged outside one chassis supporting lug plate 102, a movable guide rail wheel 106 is fixedly arranged at the bottom of the platform base chassis 101, and threaded rod internal thread movable blocks 104 are arranged at two ends of the double-threaded rod 103 in a threaded manner;

the first traverse adjustment assembly 3 comprises a first traverse adjustment chassis 301, first traverse support lug plates 302 are fixedly arranged at two ends of the top of the first traverse adjustment chassis 301, two first threaded rods 303 are rotatably arranged between the two first traverse support lug plates 302 through bearing seats, two second drive motors 304 for driving the first threaded rods 303 to rotate in two directions are fixedly arranged outside the first traverse support lug plates 302 at one ends, first rotating lug plates 305 are fixedly arranged at two sides of one end of the bottom of the first traverse adjustment chassis 301, guide slide bars 306 are fixedly arranged at two sides of the other end of the bottom of the first traverse adjustment chassis 301, guide slide sleeves 307 are slidably arranged on the guide slide bars 306, and second rotating lug plates 308 are fixedly arranged at the bottoms of the guide slide sleeves 307;

the second traverse adjusting assembly 4 comprises a second traverse adjusting chassis 401, two second threaded rods 402 are rotatably arranged in the second traverse adjusting chassis 401 through bearing seats, two third driving motors 403 for driving the second threaded rods 402 to rotate in two directions are fixedly arranged on a disk body of the second traverse adjusting chassis 401 at one end, and two second traverse adjusting internal thread moving blocks 404 are symmetrically and fixedly arranged at the bottom of the second traverse adjusting chassis 401;

the orientation angle adjusting component 5 comprises an orientation angle adjusting top plate 501, a support post 509 is fixedly arranged at the bottom of the orientation angle adjusting top plate 501, an orientation angle adjusting base plate 503 is rotatably arranged at the bottom of the support post 509 through a rotating bearing seat 510, two base plate guide transverse grooves 502 are symmetrically distributed on the orientation angle adjusting top plate 501, angle adjusting base plate fixing lug plates 504 are fixedly arranged at the bottoms of the two ends of the base plate guide transverse grooves 502, a third threaded rod 512 is rotatably arranged between the two angle adjusting base plate fixing lug plates 504 through a bearing seat, a fourth driving motor 505 for driving the third threaded rod 512 to rotate bidirectionally is fixedly arranged outside the one end angle adjusting base plate fixing lug plate 504, two angle adjusting base plate internal thread moving blocks 511 are symmetrically distributed and fixedly at the bottom of the orientation angle adjusting base plate 503, and two fifth driving motors 506 are symmetrically distributed and fixedly on the edge plate body of the orientation angle adjusting base plate 503, two arc-shaped rack plates 507 are symmetrically and fixedly distributed on an edge disk body facing the bottom of the angle adjusting top disk 501, and an angle adjusting gear 508 meshed with the arc-shaped rack plates 507 is fixedly arranged on an output shaft rod of the fifth driving motor 506;

the feeding locomotive fixing assembly 6 comprises a feeding locomotive clamping and fixing transverse plate 601, and a clamping transverse plate moving inner thread block 603 is fixedly arranged at the bottom of the feeding locomotive clamping and fixing transverse plate 601 through a clamping transverse plate supporting plate 602;

when the platform base assembly 1, the lifting scissor arm 2 and the first transverse moving adjusting assembly 3 are assembled for use, two ends of a bottom arm plate of the lifting scissor arm 2 are rotatably connected with side blocks of the threaded rod internal thread moving block 104 through shaft pins, and two ends of the bottom arm plate of the lifting scissor arm 2 are rotatably connected with side blocks of the first rotating lug disc 305 and the second rotating lug disc 308 through shaft pins;

when the first traversing adjusting assembly 3 and the second traversing adjusting assembly 4 are assembled and used, the blocks of the two second traversing adjusting internal thread moving blocks 404 move on the rod bodies of the two first threaded rods 303 in a bidirectional threaded manner;

when the second traverse motion adjusting assembly 4 and the orientation angle adjusting assembly 5 are assembled and used, the blocks of the two angle adjusting chassis internal thread moving blocks 511 move on the rod bodies of the two second threaded rods 402 in a bidirectional threaded manner;

when the orientation angle adjusting assembly 5 and the charging locomotive fixing assembly 6 are assembled and used, the block body of the clamping transverse plate moving inner thread block 603 moves on the rod body of the third threaded rod 512 in a bidirectional threaded manner, and the plate body of the clamping transverse plate supporting plate 602 slides on the plate body of the orientation angle adjusting top plate 501 in a guiding manner through the chassis guiding transverse groove 502.

In this embodiment, preferably, the two feeding locomotives are clamped and fixed by moving the transverse clamping plate 601 closer to each other and separated from each other by the bidirectional rotation of the fourth driving motor 505 and the threaded engagement of the third threaded rod 512 and the transverse clamping plate moving inner threaded block 603.

In this embodiment, preferably, the orientation angle adjustment top plate 501 is rotatably adjusted relative to the orientation angle adjustment bottom plate 503 by the bidirectional rotation of the fifth driving motor 506 and the engagement of the angle adjustment gear 508 and the arc-shaped rack plate 507.

In this embodiment, it is preferable that the first traverse adjustment relative to the second traverse adjustment unit 4 is performed in the lateral direction by the bidirectional rotation of the third driving motor 403 and the screw-thread engagement between the chassis internal thread moving block 511 and the second threaded rod 402, and the second traverse adjustment relative to the first traverse adjustment unit 3 is performed in the lateral direction by the bidirectional rotation of the second driving motor 304 and the screw-thread engagement between the second traverse adjustment internal thread moving block 404 and the first threaded rod 303, so that the adjustment direction of the first traverse is perpendicular to the adjustment direction of the second traverse.

In this embodiment, preferably, the lifting scissor arm 2 is extended or compressed by the bidirectional rotation of the first driving motor 105 and the threaded engagement of the threaded rod and the threaded moving block 104, so that the feeding adjustment with adjustable height can be performed in the longitudinal direction towards the angle adjusting assembly 5.

The working principle and the using process of the invention are as follows: when the invention is assembled and used between the orientation angle adjusting component 5 and the feeding locomotive fixing component 6, the block body of the clamping transverse plate moving inner thread block 603 moves on the rod body of the third threaded rod 512 in a bidirectional thread way, the plate body of the clamping transverse plate supporting plate 602 slides on the plate body of the orientation angle adjusting top plate 501 in a guiding way through the chassis guiding transverse groove 502, through the way, the feeding locomotive is clamped and fixed on the orientation angle adjusting component 5 through two groups of feeding locomotive fixing components 6, through the bidirectional rotation of the first driving motor 105 and the thread matching of the threaded rod inner thread moving block 104 and the double threaded rod 103, the lifting scissor arm 2 does extension or compression movement, thereby the orientation angle adjusting component 5 does height-adjustable feeding adjustment in the longitudinal direction, through the bidirectional rotation of the third driving motor 403 and the thread matching of the angle adjusting chassis inner thread moving block 511 and the second threaded rod 402, the orientation angle adjusting component 5 is transversely adjusted relative to the first transverse moving adjusting component 4 by a first transverse moving adjustment of the orientation angle adjusting component 5 relative to the second transverse moving adjusting component 4, the adjusting direction of the first transverse moving adjustment is vertical to the adjusting direction of the second transverse moving adjustment by the bidirectional rotation of the second driving motor 304 and the thread matching of the second transverse moving internal thread moving block 404 and the first threaded rod 303, the orientation angle adjusting top disc 501 is rotatably adjusted relative to the orientation angle adjusting chassis 503 by the bidirectional rotation of the fifth driving motor 506 and the meshing of the angle adjusting gear 508 and the arc-shaped rack plate 507, and the feeding orientation angle of the feeding locomotive is adjusted in the longitudinal direction, the transverse direction and the transverse direction of the feeding locomotive is realized while the fixing of the feeding locomotive is realized by the mode, so that the adjustment of the feeding locomotive of the glass melting furnace is fast and easy, the adjusting device of the glass melting furnace charging locomotive can realize the quick adjustment of the glass melting furnace charging locomotive, thereby realizing the purpose of improving the melting quality of the glass melting furnace, improving the working environment of personnel and reducing the labor intensity of the personnel.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an adjusting device to reinforced locomotive in glass melting furnace, includes platform base subassembly (1), its characterized in that: a plurality of groups of lifting scissor arms (2) are arranged on the platform base assembly (1), a first transverse moving adjusting assembly (3) is rotatably arranged at the top of each group of lifting scissor arms (2), a second transverse moving adjusting assembly (4) is arranged on each first transverse moving adjusting assembly (3) in a threaded manner, an orientation angle adjusting assembly (5) is arranged on each second transverse moving adjusting assembly (4) in a threaded manner, and two groups of charging locomotive fixing assemblies (6) are arranged on each orientation angle adjusting assembly (5) in a threaded manner;

the platform base assembly (1) comprises a platform base chassis (101), two chassis supporting lug plates (102) which are opposite in pairs are fixedly arranged at the top of the platform base chassis (101), a double-threaded rod (103) is rotatably arranged between the two chassis supporting lug plates (102), a first driving motor (105) for driving the double-threaded rod (103) to rotate in two directions is fixedly arranged outside one chassis supporting lug plate (102), a movable guide rail wheel (106) is fixedly arranged at the bottom of the platform base chassis (101), and threaded rod internal threads (movable blocks 104) are arranged at two ends of the double-threaded rod (103) in a threaded manner;

the first traverse adjustment assembly (3) comprises a first traverse adjustment chassis (301), first transverse moving supporting lug plates (302) are fixedly arranged at two ends of the top of the first transverse moving adjusting chassis (301), two first threaded rods (303) are rotatably arranged between the two first transverse moving supporting lug plates (302) through bearing seats, two second driving motors (304) for driving the first threaded rods (303) to rotate in two directions are fixedly arranged outside the first transverse moving supporting lug plates (302) at one end, two sides of one end of the bottom of the first transverse moving adjusting chassis (301) are fixedly provided with first rotating lug discs (305), and two sides of the other end of the bottom of the first transverse moving adjusting chassis (301) are both fixedly provided with guide slide bars (306), a guide sliding sleeve (307) is arranged on the guide sliding rod (306) in a sliding manner, and a second rotating ear disc (308) is fixedly arranged at the bottom of the guide sliding sleeve (307);

the second traverse motion adjusting assembly (4) comprises a second traverse motion adjusting chassis (401), two second threaded rods (402) are rotatably arranged in the second traverse motion adjusting chassis (401) through bearing seats, two third driving motors (403) for driving the second threaded rods (402) to rotate in two directions are fixedly arranged on a disc body of the second traverse motion adjusting chassis (401) at one end, and two second traverse motion adjusting internal thread moving blocks (404) are symmetrically and fixedly arranged at the bottom of the second traverse motion adjusting chassis (401);

towards angle adjustment subassembly (5) including towards angle adjustment overhead pan (501), fixed being provided with support post pole (509) in the bottom of towards angle adjustment overhead pan (501), the bottom of support post pole (509) is rotated through rotating bearing frame (510) and is provided with towards angle adjustment chassis (503), towards angle adjustment overhead pan (501) go up symmetric distribution and seted up two chassis direction horizontal slots (502), the bottom at chassis direction horizontal slot (502) both ends is all fixed and is provided with fixed otic placode (504) in angle adjustment chassis, two it is provided with third threaded rod (512), one end to rotate through the bearing frame between the fixed otic placode (504) in angle adjustment chassis the external fixation of fixed otic placode (504) in angle adjustment chassis is provided with drive third threaded rod (512) two-way pivoted fourth driving motor (505), the bottom symmetric distribution towards angle adjustment chassis (503) is fixed and is provided with two angle adjustment chassis internal threads and moves and move The movable block (511) is provided with two fifth driving motors (506) symmetrically distributed and fixed on the edge disc body facing the angle adjusting chassis (503), the edge disc body facing the bottom of the angle adjusting top disc (501) is provided with two arc-shaped rack plates (507) symmetrically distributed and fixed on the edge disc body, and an output shaft rod of each fifth driving motor (506) is fixedly provided with an angle adjusting gear (508) meshed with each arc-shaped rack plate (507);

the feeding locomotive fixing assembly (6) comprises a feeding locomotive clamping and fixing transverse plate (601), and a transverse plate clamping and moving inner thread block (603) is fixedly arranged at the bottom of the feeding locomotive clamping and fixing transverse plate (601) through a transverse plate clamping and supporting plate (602);

when the platform base assembly (1), the lifting scissor arm (2) and the first transverse moving adjusting assembly (3) are assembled for use, two ends of a bottom arm plate of the lifting scissor arm (2) are rotatably connected with side blocks of the threaded rod internal thread moving block (104) through shaft pins, and two ends of the bottom arm plate of the lifting scissor arm (2) are rotatably connected with side blocks of the first rotating lug disc (305) and the second rotating lug disc (308) through shaft pins;

when the first traversing adjusting assembly (3) and the second traversing adjusting assembly (4) are assembled for use, the blocks of the two second traversing adjusting internal thread moving blocks (404) move on the rod bodies of the two first threaded rods (303) in a bidirectional threaded manner;

when the second traverse motion adjusting assembly (4) and the orientation angle adjusting assembly (5) are assembled for use, the blocks of the two internal thread moving blocks (511) of the angle adjusting chassis move on the rod bodies of the two second threaded rods (402) in a bidirectional threaded manner;

when the orientation angle adjusting assembly (5) and the charging locomotive fixing assembly (6) are assembled for use, the block body of the clamping transverse plate moving inner thread block (603) moves on the rod body of the third threaded rod (512) in a bidirectional threaded manner, and the plate body of the clamping transverse plate supporting plate (602) slides on the plate body of the orientation angle adjusting top plate (501) in a guiding manner through the chassis guiding transverse groove (502).

2. The adjusting apparatus for a vehicle for feeding material into a glass melting furnace of claim 1, wherein: through the bidirectional rotation of the fourth driving motor (505) and the threaded fit of the third threaded rod (512) and the clamping transverse plate moving inner threaded block (603), the clamping fixing action of the charging locomotive is closed and the clamping fixing action of the charging locomotive is released by back-to-back separation between the clamping fixing transverse plates (601).

3. The adjusting apparatus for a vehicle for feeding material into a glass melting furnace of claim 1, wherein: through the bidirectional rotation of the fifth driving motor (506) and the meshing of the angle adjusting gear (508) and the arc-shaped rack plate (507), the orientation angle adjusting top disc (501) is rotationally fed and oriented to the orientation angle adjusting bottom disc (503) relatively.

4. The adjusting apparatus for a vehicle for feeding material into a glass melting furnace of claim 1, wherein: the bidirectional rotation of the third driving motor (403) and the thread matching of the angle adjustment chassis internal thread moving block (511) and the second threaded rod (402) enable the orientation angle adjustment assembly (5) to do a first transverse movement adjustment relative to the second transverse movement adjustment assembly (4) in the transverse direction, the bidirectional rotation of the second driving motor (304) and the thread matching of the second transverse movement adjustment internal thread moving block (404) and the first threaded rod (303) enable the orientation angle adjustment assembly (5) to do a second transverse movement adjustment relative to the first transverse movement adjustment assembly (3) in the transverse direction, and the adjustment direction of the first transverse movement is perpendicular to the adjustment direction of the second transverse movement.

5. The adjusting apparatus for a vehicle for feeding material into a glass melting furnace of claim 1, wherein: through the bidirectional rotation of the first driving motor (105) and the threaded matching of the threaded rod internal thread moving block (104) and the double threaded rod (103), the lifting scissor arm (2) is enabled to do stretching or compressing motion, and therefore the orientation angle adjusting component (5) is enabled to do feeding adjustment with adjustable height in the longitudinal direction.