CN218787730U - Quick pin-connected panel thermotechnical furnace body - Google Patents

Abstract

The utility model provides a rapid assembled thermotechnical furnace body, which relates to a thermotechnical furnace, wherein a positioning plate (10) is arranged below a base (1) to realize the positioning of a foundation, a head end plate (2) and a tail end plate (8) are placed on the positioning plate (10) to realize the longitudinal positioning, and an upper bent plate (3) and a lower bent plate (4) are arranged between the head end plate (2) and the tail end plate (8); splicing grooves are formed in the head end plate (2) and the tail end plate (8), splicing bulges are formed in the transmission box (5), and the transmission box (5) is quickly positioned on the upper bending plate (3) and the lower bending plate (4) through the splicing grooves and the splicing bulges; the heating box passes through groove structure and sets up on last bent plate (3) and bent plate (4) down, and this application can realize quick location, assemble fast, realizes standardized operation, and a whole set of thermotechnical furnace does not need whole thermotechnical furnace body concatenations moreover, reduces the requirement to the place size when assembling greatly.

Description

Quick pin-connected panel thermotechnical furnace body

Technical Field

The utility model relates to a thermotechnical furnace, in particular to a quick pin-connected panel thermotechnical furnace body.

Background

The development of the building ceramic industry and the battery material needs a large number of thermotechnical furnace bodies, particularly the lithium battery industry, positive and negative electrode materials of the furnace bodies need to be sintered through a kiln, the novel kiln is generally more than 50 meters and has large demand, the requirement on the precision of the furnace bodies is high, and the manufacturing and installation speed of the furnace bodies is high.

Taking a thermotechnical furnace body required by a lithium battery as an example, the thermotechnical furnace body has the total length of over 50 meters generally, and is formed by sequentially connecting about 2 meters and 1 section of furnace body, wherein each section of furnace body is made of steel, and a hearth is required to be cut by using a heat-insulating material in the furnace body. In order to ensure the manufacturing precision of the traditional manufacturing method, the manufacturing process is as follows:

1. welding the bases of each section of furnace body and sequentially arranging the bases into a straight line, leaving the thickness of two end plates between the bases of the front section and the rear section of furnace body, and adjusting the screw rods on the bases to be horizontal to all the bases

2. The first furnace body head end plate and the tail end plate are assembled with the base, then an upper bent plate, a lower bent plate, a transmission box, an upper heating box and a lower heating box are sequentially assembled, and the positions of all parts need to be adjusted manually.

3. And (3) connecting the head end plate of the next furnace body with the tail end plate of the previous furnace body, and repeating the content in the step 2 to sequentially complete the assembly of the subsequent furnace bodies.

4. And adjusting and detecting the assembly precision of the whole set of furnace body and then welding.

5. The precision is detected again after the welding is finished, and each furnace body is separated and made into high-temperature resistant paint

6. And (5) sequentially connecting the furnace bodies for the second time to build the furnace integrally.

7. Each furnace body is separated for the second time and is packed and shipped separately.

8. The furnace bodies are connected for the third time at the user position.

In the above 3 connections, the conventional method requires a large amount of adjustment time.

The factory assembly debugging and the subsequent factory assembly of the thermotechnical furnace body require the adjustment of each part for many times, thereby spending a great deal of time, causing low assembly efficiency and unclear assembly standard; in addition, the thermal furnaces are required to be completely assembled together during assembly, and the required occupied space is large.

SUMMERY OF THE UTILITY MODEL

The utility model provides a quick pin-connected panel thermotechnical furnace body, its purpose is in order that the thermotechnical furnace body of solution can't assemble fast, take up an area of the great problem in space when assembling.

In order to achieve the above object, an embodiment of the present invention provides a rapid assembly type thermotechnical furnace body, including:

a quick pin-connected panel thermotechnical furnace body is characterized by comprising:

the base is formed by splicing a plurality of channel steels into a rectangular body, and positioning plates are arranged on the left and right channel steels forming the base;

the head end plate and the tail end plate are arranged on the left side and the right side of the base and are longitudinally positioned in a manner of being erected on the positioning plate, first assembling holes are formed in the head end plate and the tail end plate, mounting protruding areas are further formed in the front and back directions of the head end plate and the tail end plate, assembling grooves are formed in the mounting protruding areas in the protruding directions, second assembling holes are formed in the mounting protruding areas, positioning pieces are further arranged on opposite surfaces of the head end plate and the tail end plate, and the head end plate and the tail end plate are respectively provided with four positioning pieces;

the upper bending plate and the lower bending plate are arranged between the head end plate and the tail end plate and are positioned by the positioning piece;

the transmission box is arranged at the joint of the upper bending plate and the lower bending plate, and is provided with an assembling bulge matched with the assembling groove;

the upper heating box and the lower heating box are respectively arranged on the upper bending plate and the lower bending plate, and the upper bending plate and the lower bending plate are correspondingly provided with groove structures used for positioning the upper heating box and the lower heating box.

Preferably, the first assembling holes are uniformly arranged on the head end plate and the tail end plate.

Preferably, the second assembling holes are uniformly arranged in the mounting protruding area, at least two hinge hole bolts are mounted in the first assembling holes and the second assembling holes, and fastening bolts are mounted in the rest first assembling holes and the rest second assembling holes.

Preferably, the first assembling hole is closer to the outer edge of the head end plate or the tail end plate than the positioning piece.

Preferably, the length of the positioning plate extending out of the left and right side channel steel is less than or equal to the thickness of the head end plate and the tail end plate.

Preferably, the groove structure comprises grooves arranged on the upper bending plate and the lower bending plate and protrusions arranged on the upper heating box and the lower heating box, and the grooves and the protrusions are matched to position the heating boxes.

Preferably, a spiral foot margin is arranged below the base.

The above technical scheme of the utility model has following beneficial effect:

in the application, a positioning plate is arranged below a base to realize positioning of a foundation, a head end plate and a tail end plate are placed on the positioning plate to realize longitudinal positioning, an upper bent plate and a lower bent plate are positioned between the head end plate and the tail end plate, assembling grooves are formed in the head end plate and the tail end plate, assembling bulges are formed in a transmission box, and the transmission box is quickly positioned on the upper bent plate and the lower bent plate through the assembling grooves and the assembling bulges; the heating box passes through groove structure and sets up on last bent plate and lower bent plate, and quick location can be realized to this application, can assemble fast without the help of other measuring equipment when dispatching from the factory and installing to the factory, realizes standardized operation, need not whole thermotechnical furnace body concatenation at a whole set of thermotechnical furnace in addition, only need several thermotechnical furnace bodies alone form several sections thermotechnical furnaces can, the requirement to the place size when assembling that significantly reduces.

Drawings

FIG. 1 is a schematic structural view of a single section of a thermal furnace body;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

FIG. 3 is an enlarged schematic view of portion B of FIG. 1;

FIG. 4 is an enlarged schematic view of portion C of FIG. 1;

fig. 5 is a schematic structural view of the head end plate.

[ description of reference ]

1-base, 2-head end plate, 3-upper bent plate, 4-lower bent plate, 5-transmission box, 6-upper heating box, 7-lower heating box, 8-tail end plate, 9-spiral foot, 10-positioning plate, 11-first assembling hole, 12-second assembling hole and 13-positioning piece.

Detailed Description

In order to make the technical problems, technical solutions and advantages to be solved by the present invention clearer, the following detailed description will be given with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-5, the embodiment of the utility model provides a quick pin-connected panel thermotechnical furnace body, including base 1, base 1 is formed by the concatenation of a plurality of channel-section steels to the opening of channel-section steel sets up outwards, and a plurality of channel-section steels concatenations form the rectangle, are provided with locating plate 10 on the channel-section steel of the rectangle left and right sides, and locating plate 10 sets up in the opening of channel-section steel. A head end plate 2 and a tail end plate 8 are respectively arranged at the left side and the right side of the base 1, and the head end plate 2 and the tail end plate 8 have the same structure. The head end plate 2 and the tail end plate 8 are both provided with a first assembling hole 11. The head end plate 2 and the tail end plate 8 form a mounting convex area in the front-back direction, an assembling groove is arranged in the convex direction of the mounting convex area, and a second assembling hole 12 is arranged in the mounting convex area.

Positioning pieces 13 are respectively arranged on the opposite surfaces of the head end plate 2 and the tail end plate 8, four positioning pieces 13 are arranged on the head end plate 2, and the four positioning pieces 13 are arranged in a rectangular array. The end plate 8 is also provided with four positioning elements 13, and the four positioning elements 13 are arranged in a rectangular array. The two positioning elements 13 located in the front direction of the head end plate 2 and the two positioning elements 13 located in the front direction of the tail end plate 8 are located in a first plane, and the first plane is perpendicular to both the base 1 and the head end plate 2. The two positioning elements 13 behind the head plate 2 and the two positioning elements 13 behind the tail plate 8 are located in a second plane, and the second plane is perpendicular to the base 1 and the head plate 2 at the same time, that is, the positioning elements 13 can form a virtual rectangular body, and the first plane and the second plane are two parallel planes in the virtual rectangular body. Preferably, the first assembling holes 11 are closer to the outer edge of the head end plate 2 or the end plate 8 than the positioning members 13.

Be provided with between head end plate 2 and the tail end plate 8 and go up bent plate 3 and bent plate 4 down, go up bent plate 3 and bent plate 4 and realize the location through setting element 13 to be connected with head end plate 2 and tail end plate 8 through the welded mode.

The transmission box 5 is arranged at the joint of the upper bent plate 3 and the lower bent plate 4, the edge of the transmission box 5 is provided with an assembling bulge matched with the assembling groove, and the transmission box 5 is positioned by assembling the bulge and the assembling groove and ensures that the transmission box 5 is attached to the upper bent plate 3 and the lower bent plate 4. At least one group of assembling bulges and assembling grooves are arranged.

An upper heating box 6 is arranged on the upper bent plate 3, a lower heating box 7 is arranged on the lower bent plate 4, the upper heating box 6 and the lower heating box 7 are identical in structure, the upper bent plate 3 and the lower bent plate 4 are identical in structure, and the heating boxes and the bent plates are positioned through groove structures.

This application can be quick with each part concatenation of thermotechnical furnace body together to form effectual standardized operation. Meanwhile, when a plurality of thermotechnical furnace bodies are connected end to end, all the thermotechnical furnace bodies do not need to be spliced together, only a plurality of thermotechnical furnace bodies are spliced into a plurality of sections of thermotechnical furnace bodies, and finally the plurality of sections of thermotechnical furnace bodies are connected to form the required length at the position of the thermotechnical furnace to be used.

Further, the first assembling holes 11 are uniformly distributed on the head end plate 2 and the tail end plate 8, and at least four first assembling holes 11 are respectively arranged on the head end plate 2 and the tail end plate 8. The second assembling holes 12 are uniformly distributed in the mounting convex areas, and at least one second assembling hole 12 is arranged in each mounting convex area.

Furthermore, at least two hinge hole bolts are installed in the first assembling hole 11 and the second assembling hole 12, and fastening bolts are used in the other first assembling hole 11 and the second assembling hole 12. The reamed hole bolt can play a role in positioning and fastening. Preferably, the second assembling holes 12 are internally provided with hinge hole bolts.

The groove structure comprises grooves arranged on the upper bending plate 3 and the lower bending plate 4 and protrusions arranged on the upper heating box 6 and the lower heating box 7, and the grooves are matched with the protrusions to form positioning.

Preferably, the length that locating plate 10 stretches out the channel-section steel is less than head end plate 2 and 8 thicknesses of tail end board for thermotechnical furnace body multisection can not take place to interfere between the locating plate 10 when end to end connection, prevents the not tight condition of laminating of head end plate 2 and tail end board 8 from appearing.

Furthermore, a screw anchor 9 is arranged below the base 1, and the height of the thermotechnical furnace body is adjusted through the screw anchor 9, so that the bases 1 of adjacent thermotechnical furnace bodies are positioned on the same horizontal plane.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. A quick pin-connected panel thermotechnical furnace body is characterized by comprising:

the base (1) is a rectangular body formed by splicing a plurality of channel steels, and positioning plates (10) are arranged on the left and right channel steels forming the base (1);

the head end plate (2) and the tail end plate (8) are arranged on the left side and the right side of the base (1) and are longitudinally positioned in a mode of being erected on the positioning plate (10), first assembling holes (11) are formed in the head end plate (2) and the tail end plate (8), an installing protruding area is further formed in the front-back direction of the head end plate (2) and the tail end plate (8), assembling grooves are formed in the installing protruding area in the protruding direction, second assembling holes (12) are formed in the installing protruding area, positioning pieces (13) are further arranged on the opposite faces of the head end plate (2) and the tail end plate (8), and four positioning pieces (13) are respectively arranged on the head end plate (2) and the tail end plate (8);

the upper bending plate (3) and the lower bending plate (4) are arranged between the head end plate (2) and the tail end plate (8) and are positioned by a positioning piece (13);

the transmission box (5) is arranged at the joint of the upper bending plate (3) and the lower bending plate (4), an assembling bulge is arranged on the transmission box (5), and the assembling bulge is matched with the assembling groove;

go up heating box (6) and heating box (7) down, set up respectively on last bent plate (3) and lower bent plate (4), go up bent plate (3) and lower bent plate (4) and correspond to be provided with the groove structure who is used for fixing a position to go up heating box (6) and heating box (7) down.

2. The fast assembled thermal furnace body according to claim 1, characterized in that: the first assembling holes (11) are uniformly distributed on the head end plate (2) and the tail end plate (8).

3. The fast assembled thermotechnical furnace body according to claim 2, wherein: the second is assembled hole (12) even and is arranged in the installation bellying district, first hole (11) of assembling and second are assembled and are installed two at least hinge hole bolt in hole (12), and the fastening bolt is installed in hole (12) is assembled to other first holes of assembling (11) and second.

4. The fast assembled thermal furnace body according to claim 3, characterized in that: the first assembling hole (11) is closer to the outer edge of the head end plate (2) or the tail end plate (8) than the positioning piece (13).

5. The fast assembled thermal furnace body according to claim 1, characterized in that: the length of the positioning plate (10) extending out of the left and right channel steel is less than or equal to the thickness of the head end plate (2) and the tail end plate (8).

6. The fast assembled thermal furnace body according to claim 1, characterized in that: the groove structure comprises grooves arranged on the upper bending plate (3) and the lower bending plate (4) and protrusions arranged on the upper heating box (6) and the lower heating box (7), and the grooves are matched with the protrusions to position the heating boxes.

7. The fast assembled thermal furnace body according to claim 1, characterized in that: and a spiral ground foot (9) is arranged below the base (1).

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