CN208269660U - LTC nanometer micropore insulating fire brick - Google Patents

Abstract

The utility model discloses a kind of LTC nanometer micropore insulating fire bricks, including the first refractory brick, one side contacts of first refractory brick have the second refractory brick, there are two connecting plates close to the fixed installation of the side of the second refractory brick for first refractory brick, second refractory brick is opened up close to the side of the first refractory brick there are two link slot, connecting plate is adapted with corresponding link slot, the side that two connecting plates are located remotely from each other offers sliding groove, sliding panel is slidably fitted in sliding groove, two sliding panel sides close to each other are welded with limit plate, limiting slot is offered on the two sides inner wall of sliding groove, the two sides of limit plate extend respectively in corresponding limiting slot.The utility model structure is simple, easy for installation, economical and practical, by ball and sliding panel, convenient for the combination of the first refractory brick and the second refractory brick, and by screw rod and transverse slat, releases the combination of the first refractory brick and the second refractory brick.

Description

LTC nanometer micropore insulating fire brick

Technical field

The utility model relates to refractory brick technical field more particularly to a kind of LTC nanometer micropore insulating fire bricks.

Background technique

Clay insulating refractory block is manufactured using advanced technologies, its main feature is that: uniform texture, mechanical strength Greatly, dimensional accuracy height, the low, long service life of pyroconductivity etc., are widely used in blast funnace hot blast stove, coke oven, heating furnace, boiler, tunnel The various Thermal Equipment insulating layers such as road kiln or liner, can save energy 30% or more, be one of ideal energy-saving and heat-insulating materials, but mesh Be not easy to be combined between two preceding refractory brick, anabolic process is comparatively laborious, therefore we have proposed LTC nanometer micropore every Hot refractory brick is for solving the above problems.

Utility model content

Purpose of the utility model is to solve disadvantage existing in the prior art, and the LTC nanometer micropore proposed every Hot refractory brick.

To achieve the goals above, the utility model adopts the technical scheme that

LTC nanometer micropore insulating fire brick, including the first refractory brick, a side contacts of first refractory brick have second resistance to Firebrick, the first refractory brick are fixedly mounted close to the side of the second refractory brick there are two connecting plate, and the second refractory brick is resistance to close to first The side of firebrick is opened up there are two link slot, and connecting plate is adapted with corresponding link slot, what two connecting plates were located remotely from each other Side offers sliding groove, and sliding panel is slidably fitted in sliding groove, and two sliding panel sides close to each other are welded with Limit plate offers limiting slot on the two sides inner wall of sliding groove, and the two sides of limit plate extend respectively to corresponding limiting slot Interior, two limit plates side close to each other is welded with multiple springs, multiple springs on the same limit plate it is same One end is welded on the side inner wall of sliding groove, and the side that two sliding panels are located remotely from each other, which rolls, is equipped with ball, and two Shifting chute is offered on the side inner wall that link slot is located remotely from each other, the side that two sliding panels are located remotely from each other extends respectively to phase In corresponding shifting chute, movable plate is slidably fitted in shifting chute, two movable plate sides close to each other offer ball Slot, ball are adapted with ball grooves, and shifting chute is far from offering rectangular channel, two rectangular channels on the side inner wall of the first refractory brick Rotation slot is offered on side inner wall close to each other, offers rotation on the side inner wall that two rectangular channels are located remotely from each other Hole is rotatably equipped with the same screw rod in corresponding rotation slot and rotation hole, and the outside screw of screw rod is arranged with transverse slat, transverse slat Side close to the first refractory brick is mutually welded with movable plate, and the placing groove of side setting opening is offered on the inner wall of rotation hole.

Preferably, the quantity of the spring on the same limit plate is three to five, and is located on the same limit plate Three to five springs be equidistantly spaced setting.

Preferably, side and rectangular channel side inner wall far from rectangle channel opening of the transverse slat far from the first refractory brick is sliding Dynamic connection.

Preferably, the side inner wall sliding that the two sides of the limit plate are located remotely from each other with corresponding two limiting slots respectively Connection.

Preferably, sliding block is installed on the outside of the screw rod in rotation slot, the inner wall of rotation slot is equipped with endless glide, And sliding block is slidably connected with endless glide.

Preferably, sealing ring is installed on the side wall of the shifting chute, and is slidably connected on the inside of sliding panel and sealing ring.

Compared with prior art, the utility model has the beneficial effects that

Pass through the first refractory brick, the second refractory brick, connecting plate, link slot, sliding panel, limit plate, spring, ball, movement Slot, movable plate, ball grooves, rectangular channel, transverse slat, rotation hole, rotation slot, screw rod and placing groove match, and connecting plate is aligned and is connected Access slot, so that connecting plate is caught in link slot, ball is rolled on the inner wall of link slot at this time, when ball is moved to movement At the position of slot, for spring since the elastic force of itself drives limit plate to be moved, limit plate drives sliding panel to be moved, so that Sliding panel is caught in shifting chute, and ball is embedded in ball grooves, convenient for the combination of the first refractory brick and the second refractory brick, when needing to solve When except a combination thereof, only need rotary screw rod, screw rod is threadedly coupled with transverse slat, band motion plate moved, transverse slat drive movable plate into Row movement, movable plate drive ball to be moved, so that ball removal shifting chute, the first refractory brick of releasing and the second refractory brick Combination.

The utility model structure is simple, easy for installation, economical and practical, by ball and sliding panel, is convenient for the first refractory brick The combination of the first refractory brick and the second refractory brick is released and by screw rod and transverse slat with the combination of the second refractory brick.

Detailed description of the invention

Fig. 1 be the utility model proposes LTC nanometer micropore insulating fire brick structural schematic diagram；

Fig. 2 be the utility model proposes LTC nanometer micropore insulating fire brick part A structural schematic diagram.

In figure: 1 first refractory brick, 2 second refractory brick, 3 connecting plates, 4 link slots, 5 sliding grooves, 6 sliding panels, 7 limit plates, 8 limiting slots, 9 springs, 10 balls, 11 shifting chutes, 12 movable plates, 13 ball grooves, 14 rectangular channels, 15 transverse slats, 16 rotation holes, 17 turns Dynamic slot, 18 screw rods, 19 placing grooves.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

Referring to Fig.1-2, LTC nanometer micropore insulating fire brick, including the first refractory brick 1, a side contacts of the first refractory brick 1 There is the second refractory brick 2, there are two connecting plate 3, the second fire resistings close to the fixed installation of the side of the second refractory brick 2 for the first refractory brick 1 Brick 2 is opened up close to the side of the first refractory brick 1 there are two link slot 4, and connecting plate 3 is adapted with corresponding link slot 4, and two The side that connecting plate 3 is located remotely from each other offers sliding groove 5, and sliding panel 6, two 6 phases of sliding panel are slidably fitted in sliding groove 5 Mutually close side is welded with limit plate 7, and limiting slot 8, the two sides of limit plate 7 are offered on the two sides inner wall of sliding groove 5 It extends respectively in corresponding limiting slot 8, two limit plates 7 side close to each other is welded with multiple springs 9, is located at same The same end of multiple springs 9 on one limit plate 7 is welded on the side inner wall of sliding groove 5, and two sliding panels 6 are mutually remote From side roll ball 10 be installed, offer shifting chute 11 on the side inner wall that two link slots 4 are located remotely from each other, two The side that a sliding panel 6 is located remotely from each other extends respectively to be slidably fitted with movement in shifting chute 11 in corresponding shifting chute 11 Plate 12, two movable plates 12 side close to each other offer ball grooves 13, and ball 10 is adapted with ball grooves 13, shifting chute Rectangular channel 14 is offered on the 11 side inner walls far from the first refractory brick 1, on two rectangular channels 14 side inner wall close to each other Rotation slot 17 is offered, offers rotation hole 16 on the side inner wall that two rectangular channels 14 are located remotely from each other, corresponding turn It is rotatably equipped with the same screw rod 18 in dynamic slot 17 and rotation hole 16, the outside screw of screw rod 18 is arranged with transverse slat 15, transverse slat 15 Side close to the first refractory brick 1 is welded with 12 phase of movable plate, and putting for side setting opening is offered on the inner wall of rotation hole 16 Slot 19 is set, the first refractory brick 1, the second refractory brick 2, connecting plate 3, link slot 4, sliding panel 6, limit plate 7, spring 9, ball are passed through 10, shifting chute 11, movable plate 12, ball grooves 13, rectangular channel 14, transverse slat 15, rotation hole 16, rotation slot 17, screw rod 18 and placement Slot 19 matches, and connecting plate 3 is directed at link slot 4, so that connecting plate 3 is caught in link slot 4, ball 10 is in link slot 4 at this time Inner wall on rolled, when ball 10 is moved at the position of shifting chute 11, spring 9 drives limit plate due to the elastic force of itself 7 are moved, and limit plate 7 drives sliding panel 6 to be moved, so that sliding panel 6 is caught in shifting chute 11, ball 10 is embedded in ball In slot 13, convenient for the combination of the first refractory brick 1 and the second refractory brick 2, when needing to release a combination thereof, rotary screw rod 18 is only needed, Screw rod 18 is threadedly coupled with transverse slat 15, and band motion plate 15 is moved, and transverse slat 15 drives movable plate 12 to be moved, movable plate 12 It drives ball 10 to be moved, so that ball 10 removes shifting chute 11, releases the combination of the first refractory brick 1 and the second refractory brick 2, The utility model structure is simple, easy for installation, economical and practical, by ball 10 and sliding panel 6, convenient for the first refractory brick 1 and the The combination of two refractory brick 2, and by screw rod 18 and transverse slat 15, release the combination of the first refractory brick 1 and the second refractory brick 2.

In the utility model, the quantity of the spring 9 on the same limit plate 7 is three to five, and is located at same The equidistantly interval setting of three to five springs 9 on limit plate 7, side of the transverse slat 15 far from the first refractory brick 1 and rectangular channel 14 The side inner wall being open far from rectangular channel 14 is slidably connected, and the two sides of limit plate 7 are mutual with corresponding two limiting slots 8 respectively Separate side inner wall is slidably connected, and the outside of the screw rod 18 in rotation slot 17 is equipped with sliding block, the inner wall of rotation slot 17 It is equipped with endless glide, and sliding block is slidably connected with endless glide, and sealing ring, and sliding panel are equipped on the side wall of shifting chute 11 6 be slidably connected on the inside of sealing ring, by the first refractory brick 1, the second refractory brick 2, connecting plate 3, link slot 4, sliding panel 6, Limit plate 7, spring 9, ball 10, shifting chute 11, movable plate 12, ball grooves 13, rectangular channel 14, transverse slat 15, rotation hole 16, rotation Slot 17, screw rod 18 and placing groove 19 match, and connecting plate 3 is directed at link slot 4, so that connecting plate 3 is caught in link slot 4, this When ball 10 rolled on the inner wall of link slot 4, when ball 10 is moved at the position of shifting chute 11, spring 9 due to from The elastic force of body drives limit plate 7 to be moved, and limit plate 7 drives sliding panel 6 to be moved, so that sliding panel 6 is caught in shifting chute In 11, ball 10 is embedded in ball grooves 13, convenient for the combination of the first refractory brick 1 and the second refractory brick 2, when needing to release a combination thereof When, rotary screw rod 18 is only needed, screw rod 18 is threadedly coupled with transverse slat 15, and band motion plate 15 is moved, and transverse slat 15 drives movable plate 12 are moved, and movable plate 12 drives ball 10 to be moved, so that ball 10 removes shifting chute 11, release the first refractory brick 1 With the combination of the second refractory brick 2, the utility model structure is simple, easy for installation, economical and practical, by ball 10 and sliding panel 6, Convenient for the combination of the first refractory brick 1 and the second refractory brick 2, and by screw rod 18 and transverse slat 15, the first refractory brick 1 and the are released The combination of two refractory brick 2.

Working principle: it is rolled at this time in use, connecting plate 3 is directed at link slot 4 so that connecting plate 3 is caught in link slot 4 Pearl 10 is rolled on the inner wall of link slot 4, when ball 10 is moved at the position of shifting chute 11, spring 9 due to itself Elastic force drives limit plate 7 to be moved, so that limit plate 7 is slided on the inner wall of limiting slot 8, limit plate 7 drives sliding Plate 6 is moved, so that sliding panel 6 is caught in shifting chute 11, ball 10 is embedded in ball grooves 13, is convenient for 1 He of the first refractory brick The combination of second refractory brick 2 only needs rotary screw rod 18 when needing to release a combination thereof, and screw rod 18 is threadedly coupled with transverse slat 15, band Motion plate 15 is moved, and transverse slat 15 drives movable plate 12 to be moved, and movable plate 12 drives ball 10 to be moved, so that rolling Pearl 10 removes shifting chute 11, releases the combination of the first refractory brick 1 and the second refractory brick 2.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1.LTC nanometer micropore insulating fire brick, including the first refractory brick (1), which is characterized in that first refractory brick (1) One side contacts have the second refractory brick (2), and there are two connect for side fixed installation of the first refractory brick (1) close to the second refractory brick (2) Fishplate bar (3), the second refractory brick (2) are opened up close to the side of the first refractory brick (1) there are two link slot (4), connecting plate (3) and phase Corresponding link slot (4) is adapted, and the side that two connecting plates (3) are located remotely from each other offers sliding groove (5), sliding groove (5) It is inside slidably fitted with sliding panel (6), two sliding panel (6) sides close to each other are welded with limit plate (7), sliding groove (5) Two sides inner wall on offer limiting slot (8), the two sides of limit plate (7) extend respectively in corresponding limiting slot (8), two A limit plate (7) side close to each other is welded with multiple springs (9), the multiple springs being located on the same limit plate (7) (9) the same end is welded on the side inner wall of sliding groove (5), and the side that two sliding panels (6) are located remotely from each other rolls peace Equipped with ball (10), offered shifting chute (11) on the side inner wall that two link slots (4) are located remotely from each other, two sliding panels (6) side being located remotely from each other extends respectively in corresponding shifting chute (11), is slidably fitted with movable plate in shifting chute (11) (12), two movable plate (12) sides close to each other offer ball grooves (13), and ball (10) is mutually fitted with ball grooves (13) Match, for shifting chute (11) far from offering rectangular channel (14) on the side inner wall of the first refractory brick (1), two rectangular channels (14) are mutual It offers on close side inner wall rotation slot (17), is offered on the side inner wall that two rectangular channels (14) are located remotely from each other It is rotatably equipped with the same screw rod (18) in rotation hole (16), corresponding rotation slot (17) and rotation hole (16), screw rod (18) Outside screw be arranged with transverse slat (15), transverse slat (15) is mutually welded close to the side of the first refractory brick (1) with movable plate (12), turn The placing groove (19) of side setting opening is offered on the inner wall of dynamic hole (16).

2. LTC nanometer micropore insulating fire brick according to claim 1, which is characterized in that be located at the same limit plate (7) On the quantity of spring (9) be three to five, and between three to five springs (9) being located on the same limit plate (7) are equidistant Every setting.

3. LTC nanometer micropore insulating fire brick according to claim 1, which is characterized in that the transverse slat (15) is far from the The side of one refractory brick (1) is slidably connected with rectangular channel (14) far from the side inner wall of rectangular channel (14) opening.

4. LTC nanometer micropore insulating fire brick according to claim 1, which is characterized in that the two sides of the limit plate (7) The side inner wall being located remotely from each other respectively with corresponding two limiting slots (8) is slidably connected.

5. LTC nanometer micropore insulating fire brick according to claim 1, which is characterized in that be located in rotation slot (17) Sliding block is installed, the inner wall of rotation slot (17) is equipped with endless glide, and sliding block and endless glide are slided on the outside of screw rod (18) Connection.

6. LTC nanometer micropore insulating fire brick according to claim 1, which is characterized in that the side of the shifting chute (11) Sealing ring is installed on wall, and is slidably connected on the inside of sliding panel (6) and sealing ring.