CN211739861U

CN211739861U - Sintering furnace structure of refractory brick

Info

Publication number: CN211739861U
Application number: CN201921561857.5U
Authority: CN
Inventors: 王海荣
Original assignee: Changxing Zhongli Refractory Equipment Co ltd
Current assignee: Changxing Zhongli Refractory Equipment Co ltd
Priority date: 2019-09-19
Filing date: 2019-09-19
Publication date: 2020-10-23
Anticipated expiration: 2029-09-19

Abstract

The utility model discloses a resistant firebrick's fritting furnace structure, comprising a base plate, the top fixedly connected with fritting furnace body of bottom plate, the positive surperficial swing joint of fritting furnace body has the furnace gate, the bottom swing joint of fritting furnace body inner chamber has the base, the top fixedly connected with mounting panel of base, the top swing joint of mounting panel has first loading board, the first bracing piece of the equal fixedly connected with in four corners at first loading board top, first draw-in groove has all been seted up to two relative one sides of first bracing piece around. This practicality is used through the cooperation that sets up bottom plate, mounting panel, first bracing piece, second sleeve pipe, third loading board, places the mechanism, bears mechanism, base, fritting furnace body and furnace gate, has solved the lower and poor problem of processing effect of the lower and processing effect of the fritting furnace structure machining efficiency of current resistant firebrick, and this resistant firebrick's fritting furnace structure possesses the advantage that machining efficiency is high and processing effect is good, is worth promoting.

Description

Sintering furnace structure of refractory brick

Technical Field

The utility model relates to the technical field of refractory brick processing, in particular to a refractory brick sintering furnace structure.

Background

Refractory materials are generally divided into two categories, namely unshaped refractory and shaped refractory. The unshaped refractory material, also called as casting material, is a mixed powder granule composed of various aggregates or aggregates and one or more kinds of adhesives, and when in use, the unshaped refractory material must be matched with one or more kinds of liquids to be stirred uniformly, and has stronger fluidity. The shaped refractory material generally refers to a refractory brick, the shape of which has standard rules and can also be temporarily processed when being built and cut as required;

sintering furnaces refer to specialized equipment that allows powder compacts to be sintered to achieve desired physical, mechanical properties, and microstructures. The sintering furnace is used for drying slurry on the silicon wafer, removing organic components in the slurry and completing sintering of the aluminum back surface field and the grid line.

In the process of processing firebricks, a sintering furnace is needed, the conventional sintering furnace needs to stack a refractory station in an inner cavity of the sintering furnace before processing the firebricks, and the firebricks are arranged together, so that the firebricks stacked in the sintering furnace cannot be fully fired, the firing time needs to be prolonged, the working efficiency is reduced, and meanwhile, the firebricks stacked outside are easy to cause the phenomenon of being excessively fired, thereby reducing the firing effect of the firebricks.

Disclosure of Invention

The invention aims to provide a refractory brick sintering furnace structure which has the advantages of high processing efficiency and good processing effect and solves the problems of low processing efficiency and poor processing effect of the conventional refractory brick sintering furnace structure.

In order to achieve the above purpose, the utility model provides the following technical scheme: a firebrick sintering furnace structure comprises a base, wherein the top of the base is fixedly connected with a sintering furnace body, the front surface of the sintering furnace body is movably connected with a furnace door, the bottom of the inner cavity of the sintering furnace body is movably connected with the base, the top of the base is fixedly connected with a mounting plate, the top of the mounting plate is movably connected with a first bearing plate, four corners of the top of the first bearing plate are fixedly connected with first supporting rods, one side of the front supporting rod and one side of the rear supporting rod, which are opposite to each other, are respectively provided with a first clamping groove, a bearing mechanism is sleeved between the tops of the four first supporting rods and comprises a second bearing plate, four corners of the bottom of the second bearing plate are respectively and fixedly connected with a first sleeve, one side of the front supporting rod and the rear supporting rod, one side of the first sleeve, which are opposite to each other, is fixedly connected with a first shell, the inner cavity, the surface of the first pull rod is sleeved with a first spring, one end of the first pull rod, far away from the first sliding plate, penetrates to the outer side of the first shell and is fixedly connected with a first handle, one side of the first sliding plate, far away from the first pull rod, is fixedly connected with a first clamping block, one side of the first clamping block, far away from the first sliding plate, penetrates through the first sleeve and extends to the inner cavity of the first clamping groove, four corners of the top of the second bearing plate are fixedly connected with second supporting rods, one sides of the front and rear two second supporting rods, which are opposite to each other, are respectively provided with a second clamping groove, a placing mechanism is sleeved between the tops of the four second supporting rods and comprises a third bearing plate, four corners of the bottom of the third bearing plate are respectively and fixedly connected with a second sleeve, one sides of the front and rear two second sleeves, which are opposite to each other, are respectively and are fixedly connected, one side fixedly connected with second pull rod of second slide, the surface cover of second pull rod is equipped with the second spring, the one end that the second slide was kept away from to the second pull rod runs through to the rear side of second casing and fixedly connected with second handle, one side fixedly connected with second fixture block that the second pull rod was kept away from to the second slide, the one end of second fixture block runs through the second sleeve pipe and extends to the inner chamber of second draw-in groove.

Preferably, the four corners of the bottom of the first bearing plate are provided with positioning grooves, and the four corners of the top of the mounting plate are fixedly connected with positioning blocks matched with the positioning grooves for use.

Preferably, the right side of the furnace door is movably connected with the front surface of the sintering furnace body through a mounting frame, and the left side of the front surface of the furnace door is fixedly connected with a handle.

Preferably, the scales are arranged on the opposite sides of the left first supporting rod and the right first supporting rod and on the opposite sides of the left second supporting rod and the right second supporting rod.

Preferably, the top end of the first support rod is movably connected with the inner wall of the first sleeve, and the top end of the second support rod is movably connected with the inner wall of the second sleeve.

Preferably, the number of the bearing mechanisms is a plurality of, the bearing mechanisms are distributed up and down, and mounting holes are formed in the front side and the rear side of the top of the mounting plate.

Preferably, the number of the first clamping grooves and the number of the second clamping grooves are a plurality of, and the first clamping grooves and the second clamping grooves are uniformly distributed on the surfaces of the first supporting rod and the second supporting rod respectively from top to bottom.

A sintering method of a refractory brick sintering furnace comprises the following specific operation steps:

a: the distance between the first bearing plate and the second bearing plate can be adjusted by a user according to the thickness of the refractory bricks, in the process, the user firstly pulls the first handle, the first handle drives the first sliding plate to move through the first pull rod, the first sliding plate drives the first clamping block to be separated from the inner cavity of the first clamping groove, then the bearing mechanism is moved downwards, after the height adjustment is finished, the first clamping block corresponds to the new first clamping groove in position, then the first handle is loosened, the first spring drives the first sliding plate to reset, the first sliding plate drives the first clamping block to enter the inner cavity of the new first clamping groove, so that the position of the first sleeve is fixed, and the phenomenon of up-down movement is avoided;

b: then, adjusting the distance between the third bearing plate and the second bearing plate, in the process, a user firstly pulls the second handle, the second handle drives the second sliding plate to move through the second pull rod, the second sliding plate drives the second clamping block to be separated from the inner cavity of the second clamping groove, then the placing mechanism moves downwards, after the height adjustment is finished, the second clamping block corresponds to the new second clamping groove in position, then the second handle is loosened, the second spring drives the second sliding plate to reset, and the second sliding plate drives the second clamping block to enter the inner cavity of the new second clamping groove, so that the position of the second sleeve is fixed, and the phenomenon of up-and-down movement is avoided;

c: the spacing adjustment mode between bearing mechanism and the bearing mechanism is the same with above-mentioned step, the resistant firebrick that user's shell will need to fire afterwards puts respectively at first loading board, the top of second loading board and third loading board, avoided too much resistant firebrick directly to pile up together, thereby influence the firing of resistant firebrick, move the inner chamber to the fritting furnace body with the base afterwards, close the furnace gate fire can, the user can be according to the size of fritting furnace body inner space, install new bearing mechanism additional, be convenient for put more resistant firebricks, with this firing efficiency that can improve resistant firebrick, after firing the completion, it can be able to take out resistant firebrick.

Compared with the prior art, this practical beneficial effect as follows:

1. this practicality is used through the cooperation that sets up base, mounting panel, first bracing piece, second sleeve pipe, third loading board, places the mechanism, bears mechanism, base, fritting furnace body and furnace gate, has solved the lower and poor problem of processing effect of the lower and processing effect of the fritting furnace structure machining efficiency of current resistant firebrick, and this resistant firebrick's fritting furnace structure possesses the advantage that machining efficiency is high and processing effect is good, is worth promoting.

2. The positioning block and the positioning groove are arranged, so that the stability of the connection between the mounting plate and the first bearing plate is improved, and the phenomenon that the first bearing plate displaces is avoided;

by arranging the mounting holes, the mounting plate is convenient to mount with the base together through the mounting holes by the matching of bolts;

by setting the scales, a user can conveniently and visually check the up-and-down movement distance of the first sleeve and the second sleeve;

the mounting frame is arranged, so that the furnace door and the sintering furnace body can be conveniently mounted together;

the handle is arranged, so that a user can conveniently open or close the oven door;

the sintering furnace is convenient to be installed with the ground by arranging the bottom plate;

the installation of the first bearing plate is facilitated by arranging the installation plate;

the furnace door is arranged, so that the effect of sealing the inlet and the outlet of the sintering furnace body is achieved;

through setting up first loading board, second loading board and third loading board, be convenient for resistant firebrick carries out the layering and puts, avoids resistant firebrick to pile up together.

Drawings

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

FIG. 2 is a front partial cross-sectional view of a partial structure of the present invention;

FIG. 3 is a cross-sectional view of the first carrier plate of the present invention;

FIG. 4 is a side cross-sectional view of a portion of the present invention;

FIG. 5 is a partial cross-sectional view of a second support bar according to the present invention;

fig. 6 is a side sectional view of a partial structure of the present invention.

In the figure: the device comprises a base plate 1, a mounting plate 2, a mounting hole 3, a positioning block 4, a first supporting rod 5, a second sleeve 6, a third bearing plate 7, a placing mechanism 8, a bearing mechanism 9, a second supporting rod 10, a second bearing plate 11, a first sleeve 12, a first bearing plate 13, a base 14, a sintering furnace body 15, a furnace door 16, a positioning groove 17, a first clamping groove 18, a scale 19, a first clamping block 20, a first shell 21, a first handle 22, a first pull rod 23, a first spring 24, a first sliding plate 25, a second clamping groove 26, a second sliding plate 27, a second spring 28, a second pull rod 29, a second handle 30, a second shell 31 and a second clamping block 32.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments obtained by persons skilled in the art based on the embodiments in the present application without any creative work belong to the protection scope of the present application.

In the description of the present application, it is to be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present application and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the practical description, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "provided", "connected", and the like are to be construed broadly, such as "connected", whether fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those skilled in the art.

In the present invention, the bottom plate 1, the mounting plate 2, the mounting hole 3, the positioning block 4, the first support rod 5, the second bushing 6, the third loading plate 7, the placing mechanism 8, the bearing mechanism 9, the second support rod 10, the second loading plate 11, the first bushing 12, the first loading plate 13, the base 14, the sintering furnace body 15, the furnace door 16, the positioning slot 17, the first clamping slot 18, the scale 19, the first clamping block 20, the first housing 21, the first handle 22, the first pull rod 23, the first spring 24, the first sliding plate 25, the second clamping slot 26, the second sliding plate 27, the second spring 28, the second pull rod 29, the second handle 30, the second housing 31, and the second clamping block 32 are all universal standard components or components known to those skilled in the art, and the structure and principle of the components are known to those skilled in the art through technical manuals or through conventional experimental methods.

Referring to fig. 1-6, a firebrick fritting furnace structure comprises a bottom plate 1, a fritting furnace body 15 fixedly connected to the top of the bottom plate 1, a furnace door 16 movably connected to the front surface of the fritting furnace body 15, a base 14 movably connected to the bottom of the inner cavity of the fritting furnace body 15, a mounting plate 2 fixedly connected to the top of the base 14, a first supporting plate 13 movably connected to the top of the mounting plate 2, first supporting rods 5 fixedly connected to four corners of the top of the first supporting plate 13, first slots 18 respectively formed on opposite sides of the front and rear first supporting rods 5, a supporting mechanism 9 sleeved between the tops of the four first supporting rods 5, the supporting mechanism 9 comprising a second supporting plate 11, first sleeves 12 fixedly connected to four corners of the bottom of the second supporting plate 11, a first housing 21 fixedly connected to opposite sides of the front and rear first sleeves 12, a first slide plate 25 movably connected to the inner cavity of the first housing 21, a first pull rod 23 is fixedly connected to one side of a first sliding plate 25, a first spring 24 is sleeved on the surface of the first pull rod 23, one end of the first pull rod 23, which is far away from the first sliding plate 25, penetrates to the outer side of a first shell 21 and is fixedly connected with a first handle 22, a first fixture block 20 is fixedly connected to one side of the first sliding plate 25, which is far away from the first pull rod 23, one side of the first fixture block 20, which is far away from the first sliding plate 25, penetrates through a first sleeve 12 and extends to an inner cavity of a first clamping groove 18, second support rods 10 are fixedly connected to four corners of the top of a second bearing plate 11, second clamping grooves 26 are respectively formed in the opposite sides of the front and rear two second support rods 10, a placing mechanism 8 is sleeved between the tops of the four second support rods 10, the placing mechanism 8 comprises a third bearing plate 7, second sleeves 6 are fixedly connected to four corners of the bottom of the third bearing plate 7, second shells 31 are fixedly, a second sliding plate 27 is movably connected to an inner cavity of the second housing 31, a second pull rod 29 is fixedly connected to one side of the second sliding plate 27, a second spring 28 is sleeved on the surface of the second pull rod 29, one end, far away from the second sliding plate 27, of the second pull rod 29 penetrates through the rear side of the second housing 31 and is fixedly connected with a second handle 30, a second clamping block 32 is fixedly connected to one side, far away from the second pull rod 29, of the second sliding plate 27, and one end of the second clamping block 32 penetrates through the second sleeve 6 and extends to an inner cavity of the second clamping groove 26;

positioning grooves 17 are formed in four corners of the bottom of the first bearing plate 13, and positioning blocks 4 matched with the positioning grooves 17 for use are fixedly connected to four corners of the top of the mounting plate 2;

the right side of the furnace door 16 is movably connected with the front surface of the sintering furnace body 15 through a mounting frame, and the left side of the front surface of the furnace door 16 is fixedly connected with a handle;

scales 19 are arranged on the opposite sides of the left first supporting rod 5 and the right first supporting rod 10 and on the opposite sides of the left second supporting rod 10 and the right second supporting rod 10;

the top end of the first support rod 5 is movably connected with the inner wall of the first sleeve 12, and the top end of the second support rod 10 is movably connected with the inner wall of the second sleeve 6;

the number of the bearing mechanisms 9 is a plurality, the bearing mechanisms are distributed up and down, and the front side and the rear side of the top of the mounting plate 2 are both provided with mounting holes 3;

the number of the first clamping grooves 18 and the number of the second clamping grooves 26 are a plurality, and the first clamping grooves and the second clamping grooves are respectively and uniformly distributed on the surfaces of the first supporting rod 5 and the second supporting rod 10 from top to bottom;

by arranging the positioning block 4 and the positioning groove 17, the stability of the connection between the mounting plate 2 and the first bearing plate 13 is improved, and the phenomenon that the first bearing plate 13 displaces is avoided;

by arranging the mounting holes 3, the mounting plate 2 is convenient to mount with the base 14 through the matching of the mounting holes 3 and bolts;

by arranging the scales 19, a user can conveniently and visually check the up-and-down movement distance of the first sleeve 12 and the second sleeve 6;

the mounting frame is arranged, so that the furnace door 16 and the sintering furnace body 15 can be conveniently mounted together;

by providing a handle, it is convenient for a user to open or close the oven door 16;

the bottom plate 1 is arranged, so that the sintering furnace and the ground can be conveniently installed together;

the installation of the first bearing plate 13 is facilitated by arranging the installation plate 2;

the furnace door 16 is arranged to seal the inlet and outlet of the sintering furnace body 15;

through setting up first loading board 13, second loading board 11 and third loading board 7, be convenient for resistant firebrick carries out the layering and puts, avoids resistant firebrick to pile up together.

a: a user can adjust the distance between the first bearing plate 13 and the second bearing plate 11 according to the thickness of the refractory bricks, in the process, the user firstly pulls the first handle 22, the first handle 22 drives the first sliding plate 25 to move through the first pull rod 23, the first sliding plate 25 drives the first fixture block 20 to be separated from the inner cavity of the first clamping groove 18, then the bearing mechanism 9 is moved downwards, after the height adjustment is finished, the first fixture block 20 corresponds to the new position of the first clamping groove 18, then the first handle 22 is loosened, the first spring 24 drives the first sliding plate 25 to reset, the first sliding plate 25 drives the first fixture block 20 to enter the inner cavity of the new first clamping groove 18, so that the position of the first sleeve 12 is fixed, and the phenomenon of up-and-down movement is avoided;

b: then, the distance between the third bearing plate 7 and the second bearing plate 11 is adjusted, in this process, a user pulls the second handle 30 first, the second handle 30 drives the second sliding plate 27 to move through the second pull rod 29, the second sliding plate 27 drives the second clamping block 32 to be separated from the inner cavity of the second clamping groove 26, then the placing mechanism 8 moves downwards, after the height adjustment is completed, the second clamping block 32 corresponds to the new position of the second clamping groove 26, then the second handle 30 is released, the second spring 28 drives the second sliding plate 27 to reset, the second sliding plate 27 drives the second clamping block 32 to enter the inner cavity of the new second clamping groove 26, so that the position of the second sleeve 6 is fixed, and the phenomenon of up-and-down movement is avoided;

c: the distance adjusting mode between the bearing mechanism 9 and the bearing mechanism 9 is the same as the steps, then the firebricks to be fired are respectively placed at the tops of the first bearing plate 13, the second bearing plate 11 and the third bearing plate 7 by the shell of a user, the direct accumulation of too many firebricks is avoided, the firing of the firebricks is influenced, then the base 14 is moved to the inner cavity of the sintering furnace body 15, the furnace door 16 is closed for firing, the user can additionally install a new bearing mechanism 9 according to the size of the space in the sintering furnace body 15, more firebricks are convenient to place, the firing efficiency of the firebricks can be improved, and after the firing is finished, the firebricks can be taken out.

In summary, the following steps: this firebrick's fritting furnace structure is through setting up bottom plate 1, mounting panel 2, first bracing piece 5, second sleeve 6, third loading board 7, placing mechanism 8, bearing mechanism 9, base 14, fritting furnace body 15 and furnace gate 16's cooperation and using, has solved the lower and poor problem of processing effect of current firebrick's fritting furnace structure machining efficiency.

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. A firebrick sintering furnace structure, includes bottom plate (1), its characterized in that: the furnace comprises a bottom plate (1), a sintering furnace body (15) is fixedly connected to the top of the bottom plate (1), a furnace door (16) is movably connected to the front surface of the sintering furnace body (15), a base (14) is movably connected to the bottom of an inner cavity of the sintering furnace body (15), a mounting plate (2) is fixedly connected to the top of the base (14), a first bearing plate (13) is movably connected to the top of the mounting plate (2), first supporting rods (5) are fixedly connected to four corners of the top of the first bearing plate (13), first clamping grooves (18) are respectively formed in one side, opposite to the front and the back first supporting rods (5), a bearing mechanism (9) is sleeved between the tops of the four first supporting rods (5), the bearing mechanism (9) comprises a second bearing plate (11), first sleeves (12) are respectively and fixedly connected to four corners of the bottom of the second bearing plate (11), and first shells (21) are respectively and fixedly connected to one side, opposite to, a first sliding plate (25) is movably connected to an inner cavity of the first shell (21), a first pull rod (23) is fixedly connected to one side of the first sliding plate (25), a first spring (24) is sleeved on the surface of the first pull rod (23), one end, far away from the first sliding plate (25), of the first pull rod (23) penetrates through the outer side of the first shell (21) and is fixedly connected with a first pull handle (22), a first clamping block (20) is fixedly connected to one side, far away from the first sliding plate (25), of the first clamping block (20) penetrates through the first sleeve (12) and extends to an inner cavity of the first clamping groove (18), second supporting rods (10) are fixedly connected to four corners of the top of the second bearing plate (11), and second clamping grooves (26) are formed in opposite sides of the front and back second supporting rods (10), a placing mechanism (8) is sleeved between the tops of the four second support rods (10), the placing mechanism (8) comprises a third bearing plate (7), the four corners of the bottom of the third bearing plate (7) are fixedly connected with second sleeves (6), one sides of the front second sleeve and the rear second sleeve opposite to the first sleeve (6) are fixedly connected with second shells (31), an inner cavity of each second shell (31) is movably connected with a second sliding plate (27), one side of each second sliding plate (27) is fixedly connected with a second pull rod (29), the surface of each second pull rod (29) is sleeved with a second spring (28), one end, far away from the second sliding plate (27), of each second pull rod (29) penetrates through the rear side of the corresponding second shell (31) and is fixedly connected with a second pull handle (30), one side, far away from the second pull rod (29), of each second sliding plate (27) is fixedly connected with a second clamping block (32), one end of the second clamping block (32) penetrates through the second sleeve (6) and extends to the inner cavity of the second clamping groove (26).

2. The sintering furnace structure of refractory bricks according to claim 1, characterized in that: constant head tank (17) have all been seted up in the four corners of first loading board (13) bottom, the equal fixedly connected with in four corners at mounting panel (2) top is with locating piece (4) that constant head tank (17) cooperation was used.

3. The sintering furnace structure of refractory bricks according to claim 1, characterized in that: the right side of the furnace door (16) is movably connected with the front surface of the sintering furnace body (15) through a mounting frame, and the left side of the front surface of the furnace door (16) is fixedly connected with a handle.

4. The sintering furnace structure of refractory bricks according to claim 1, characterized in that: scales (19) are arranged on the opposite sides of the left first supporting rod and the right first supporting rod (5) and the opposite sides of the left second supporting rod and the right second supporting rod (10).

5. The sintering furnace structure of refractory bricks according to claim 1, characterized in that: the top end of the first support rod (5) is movably connected with the inner wall of the first sleeve (12), and the top end of the second support rod (10) is movably connected with the inner wall of the second sleeve (6).

6. The sintering furnace structure of refractory bricks according to claim 1, characterized in that: the number of bearing mechanism (9) is a plurality of, and distributes about being, mounting hole (3) have all been seted up to both sides around mounting panel (2) top.

7. The sintering furnace structure of refractory bricks according to claim 1, characterized in that: the number of the first clamping grooves (18) and the number of the second clamping grooves (26) are a plurality, and the first clamping grooves and the second clamping grooves are uniformly distributed on the surfaces of the first supporting rod (5) and the second supporting rod (10) from top to bottom respectively.