CN217594580U - Reaction device for producing flame-retardant heat-insulating material - Google Patents

Abstract

The utility model provides a reaction unit for production of fire-retardant insulation material relates to processing response device technical field, including unloading pipe and reaction box, unloading pipe both sides be equipped with respectively into the hopper with the reaction box, unloading pipe both sides are equipped with the bending frame, bending frame one side is equipped with the side section of thick bamboo, side section of thick bamboo one side is equipped with the push rod, the cover is equipped with the cover on the push rod and moves the piece, one side is equipped with first cylinder in the side section of thick bamboo, the cover move the piece with be equipped with the spring beam between the side section of thick bamboo, side section of thick bamboo both sides are rotated and are equipped with the elasticity commentaries on classics piece, the cover moves a both sides and rotates and be equipped with the bull stick, be equipped with between the elasticity commentaries on classics piece and pushes away the frame, it is equipped with the slim piece to push away frame both sides, be equipped with the ejector pad between the slim piece, it is equipped with the second cylinder to push away to be equipped with the frame one side rotation and be equipped with the rotor plate, rotor plate one side is equipped with the stria. The utility model discloses rational in infrastructure, the installation effect is good.

Description

Reaction device for producing flame-retardant heat-insulating material

Technical Field

The utility model belongs to the technical field of processing response device, concretely relates to reaction unit for production of fire-retardant insulation material.

Background

The flame-retardant heat-insulating material is a material with flame-retardant and heat-insulating capabilities and is widely applied in the prior art. The flame-retardant heat-insulating material is produced by adopting a production box in the production process, namely, raw materials are required to be added into the production box for production. In the prior art, when the flame-retardant heat-insulating material is produced, the feeding quantity in the reaction device cannot be controlled by feeding, so that raw materials are wasted or the product quality is unqualified, and the production cost of the flame-retardant heat-insulating material is increased, so that the reaction device for producing the flame-retardant heat-insulating material by controlling feeding is needed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model aims at providing a reaction unit for production of flame-retardant insulation materials.

The utility model provides a following technical scheme:

a reaction device for producing flame-retardant heat-insulating materials comprises a blanking pipe and a reaction box, wherein a feeding hopper and the reaction box are respectively arranged on two sides of the blanking pipe, a bending frame is arranged on two sides of the blanking pipe, a side barrel is arranged on one side of the bending frame, a push rod is arranged on one side of the side barrel, a sleeve moving block is sleeved on the push rod, a first air cylinder is arranged on one side in the side barrel and connected with the push rod, a spring rod is arranged between the sleeve moving block and the side barrel, elastic rotating sheets are rotatably arranged on two sides of the side barrel, rotating rods are rotatably arranged on two sides of the sleeve moving block and connected with the rotating rods in a rotating manner, a push frame is arranged between the elastic rotating sheets, the utility model discloses a blanking device, including push frame, push plate, straight-bar, curb plate, gear, sliding plate top, push frame both sides wall are equipped with the fritter, be equipped with the ejector pad between the fritter, the ejector pad with the push rod links to each other, be equipped with the second cylinder in the push frame, second cylinder one side is equipped with the straight-bar, push frame one side is rotated and is equipped with the commentaries on classics board, commentaries on classics board one side is equipped with the striae, the striae with the straight-bar slides and links to each other, push away and pass between the frame the unloading pipe links to each other, unloading pipe one side is equipped with the curb plate, the curb plate top is rotated and is equipped with the sliding plate, the sliding plate with the unloading pipe links to each other, the sliding plate top slides and is equipped with the long rail that slides with the unloading pipe links to each other.

Preferably, a bottom plate is arranged on one side of the reaction box, an air blower is arranged at the top of the bottom plate, an air pipe is arranged on one side of the air blower and connected with the reaction box, and a control valve is arranged on the air pipe.

Preferably, a device door is arranged on one side of the reaction box, a precipitation box is arranged at the bottom of the reaction box, and a discharge port is arranged on one side of the precipitation box.

Preferably, reaction box one side is equipped with the air exhauster, the air exhauster top is equipped with the pipe of buckling, pipe one side of buckling is equipped with the gas treater.

Preferably, the two sides of the top of the feeding hopper are provided with feeding holes.

Preferably, an arc-shaped spring is arranged between the side barrel and the elastic rotating piece.

Preferably, a friction block is arranged on the inner side of the elastic rotating piece.

The utility model has the advantages that: the utility model relates to a stable in structure, it removes to drive the push rod through first cylinder, the push rod removes and drives cover shifting block and remove, the pulling spring beam when cover shifting block removes, the stability of push rod and cover shifting block removal has been increased, cover shifting block removes the bull stick rotation that drives its both sides, the bull stick rotation drives the elasticity rotor and rotates, push away the frame this moment and is loosened, the ejector pad of push rod one side is fixed by the thin piece and is pushed away in the frame, the ejector pad drives and pushes away the frame and remove in the unloading pipe, the frame that pushes away of both sides meets, the gear drives the sliding plate and meets with unloading pipe opposite side towards unloading intraductal removal, the sliding plate opposite side moves along the slip long rail, the stability that the sliding plate removed has been increased, put into the reaction material from going into the hopper, enter into the unloading pipe, the reaction material enters into on pushing away the frame this moment, the second cylinder drives the straight-bar and promotes the rotor rotation, rotor slope is convenient for the reaction material to go into under the sliding plate, the efficiency of reaction material whereabouts has been increased, the sliding plate under the sliding plate, the sliding plate open this moment, fall into in the reaction box, push away the frame closure and carry out the unloading, the next time material, the controllability of reaction material has been increased.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

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

fig. 2 is an enlarged schematic view of the position a of the present invention.

Labeled as: 1. a feeding hole, 2, a feeding hopper, 3, a discharging pipe, 4, a reaction box, 5, a settling box, 6, a bending frame, 7, a side barrel, 8, a push rod, 9, a first cylinder, 10, a spring rod, 11, a sleeve moving block, 12, a rotating rod, 13, an elastic rotating sheet, 14, an arc spring, 15, a friction block, 16, a pushing frame, 17, a pushing block, 18, a thin block, 19, a second cylinder, 20, a straight rod, 21, a thin groove, 22, a rotating plate, 23, a sliding long rail, 24, a sliding plate, 25, a gear, 26, a blower, 27, a control valve, 28, an air pipe, 29, a device door, 30, an exhaust port, 31, an exhaust fan, 32, a bent pipe and 33, and a gas processor.

Detailed Description

As shown in fig. 1-2, the reaction device for producing flame retardant and thermal insulation material of the present invention comprises a feeding pipe 3 and a reaction box 4, wherein a hopper 2 and the reaction box 4 are respectively disposed on both sides of the feeding pipe 3, a bending frame 6 is disposed on both sides of the feeding pipe 3, a side tube 7 is disposed on one side of the bending frame 6, a push rod 8 is disposed on one side of the side tube 7, a sleeve moving block 11 is sleeved on the push rod 8, a first cylinder 9 is disposed on one side inside the side tube 7, the first cylinder 9 is connected to the push rod 8, a spring rod 10 is disposed between the sleeve moving block 11 and the side tube 7, elastic rotating plates 13 are rotatably disposed on both sides of the side tube 7, rotating rods 12 are rotatably disposed on both sides of the sleeve moving block 11, the elastic rotating plates 13 are rotatably connected to the rotating rods 12, a push frame 16 is disposed between the elastic rotating plates 13, the discharging device is characterized in that two side walls of the pushing frame 16 are provided with thin blocks 18, a pushing block 17 is arranged between the thin blocks 18, the pushing block 17 is connected with the pushing rod 8, a second air cylinder 19 is arranged in the pushing frame 16, a straight rod 20 is arranged on one side of the second air cylinder 19, a rotating plate 22 is rotatably arranged on one side of the pushing frame 16, a thin groove 21 is arranged on one side of the rotating plate 22, the thin groove 21 is slidably connected with the straight rod 20, the pushing frame 16 penetrates through the discharging pipe 3 to be connected, a side plate is arranged on one side of the discharging pipe 3, a gear 25 is rotatably arranged on the top of the side plate, a sliding plate 24 is rotatably arranged on one side of the gear 25, the sliding plate 24 is connected with the discharging pipe 3, a sliding long rail 23 is slidably arranged on the top of the sliding plate 24, and the sliding long rail 23 is connected with the discharging pipe 3.

Specifically, as shown in fig. 1-2, the device comprises a blanking tube 3 and a reaction box 4, a feeding hopper 2 and the reaction box 4 are respectively arranged at two sides of the blanking tube 3, a bending frame 6 is arranged at two sides of the blanking tube 3, a side tube 7 is arranged at one side of the bending frame 6, a push rod 8 is arranged at one side of the side tube 7, a sleeve moving block 11 is sleeved on the push rod 8, a first cylinder 9 is arranged at one inner side of the side tube 7, the first cylinder 9 is connected with the push rod 8, a spring rod 10 is arranged between the sleeve moving block 11 and the side tube 7, elastic rotating sheets 13 are rotatably arranged at two sides of the side tube 7, rotating rods 12 are rotatably arranged at two sides of the sleeve moving block 11, the elastic rotating sheets 13 are rotatably connected with the rotating rods 12, a pushing frame 16 is arranged between the elastic rotating sheets 13, thin blocks 18 are arranged on two side walls of a push frame 16, push blocks 17 are arranged between the thin blocks 18, the push blocks 17 are connected with push rods 8, second air cylinders 19 are arranged in the push frame 16, straight rods 20 are arranged on one sides of the second air cylinders 19, rotating plates 22 are arranged on one sides of the push frame 16 in a rotating mode, thin grooves 21 are formed in one sides of the rotating plates 22, the thin grooves 21 are connected with the straight rods 20 in a sliding mode, the push frame 16 is connected with a blanking pipe 3 in a penetrating mode, side plates are arranged on one sides of the blanking pipe 3, gears 25 are arranged on the tops of the side plates in a rotating mode, sliding plates 24 are arranged on one sides of the gears 25 in a rotating mode, the sliding plates 24 are connected with the blanking pipe 3, sliding long rails 23 are arranged on the tops of the sliding plates 24 in a sliding mode, and the sliding long rails 23 are connected with the blanking pipe 3. The push rod 8 is driven to move through the first air cylinder 9, the push rod 8 drives the sleeve moving block 11 to move, the spring rod 10 is pulled when the sleeve moving block 11 moves, the moving stability of the push rod 8 and the sleeve moving block 11 is improved, the sleeve moving block 11 drives the rotating rods 12 on two sides of the sleeve moving block to rotate, the rotating rods 12 drive the elastic rotating pieces 13 to rotate, the pushing frame 16 is loosened at the moment, the pushing block 17 on one side of the push rod 8 is fixed in the pushing frame 16 through the fine block 18, the pushing block 17 drives the pushing frame 16 to move in the blanking pipe 3, the pushing frames 16 on two sides are connected, the gear 25 drives the sliding plate 24 to move towards the blanking pipe 3 to be connected with the other side of the blanking pipe 3, the other side of the sliding plate 24 moves along the sliding long rail 23, the moving stability of the sliding plate 24 is improved, reaction materials are put into the blanking pipe 2 and enter the blanking pipe 3, the reaction materials enter the pushing frame 16 at the moment, the pushing frame 16 is moved away, the second air cylinder 19 drives the straight rod 20 to push the rotating plate 22 to rotate, the rotating plate 22 is inclined to facilitate the reaction materials to be put into the sliding plate 24, the reaction box is controlled and the reaction materials is increased, and the controllability of the reaction box 4, and the reaction materials is increased.

Specifically, as shown in fig. 1-2, a bottom plate is disposed on one side of the reaction chamber 4, a blower 26 is disposed on the top of the bottom plate, an air duct 28 is disposed on one side of the blower 26, the air duct 28 is connected to the reaction chamber 4, and a control valve 27 is disposed on the air duct 28. The blower 26 blows air into the reaction box 4 through an air pipe 28, so that the reaction in the reaction box 4 is fully performed, and the control valve 27 controls the air speed. The device door 29 is arranged on one side of the reaction box 4, the sedimentation box 5 is arranged at the bottom of the reaction box 4, the discharge port 30 is arranged on one side of the sedimentation box 5, the device door 29 is convenient for taking out a finished product after reaction, and the discharge port 30 is convenient for discharging sediments in the sedimentation box 5. An exhaust fan 31 is arranged on one side of the reaction box 4, a bent pipe 32 is arranged on the top of the exhaust fan 31, a gas processor 33 is arranged on one side of the bent pipe 32, and the exhaust fan 31 keeps the air in the reaction box 4 to circulate with the outside and processes the air through the gas processor 33. Feed inlet 1 is equipped with on 2 top both sides of going into the hopper, and the unloading is convenient for to feed inlet 1. An arc spring 14 is arranged between the side barrel 7 and the elastic rotary piece 13, and the arc spring 14 is convenient for increasing the rotating stability of the elastic rotary piece 13. The inner side of the elastic rotary piece 13 is provided with a friction block 15, and the friction block 15 is convenient for the elastic rotary piece 13 to clamp the rotary frame 16.

The utility model discloses a theory of operation is: the utility model discloses a blanking pipe 3 and reaction box 4, it removes to drive push rod 8 through first cylinder 9, push rod 8 removes and drives cover shift block 11 and remove, pulling spring beam 10 when cover shift block 11 removes, the stability that push rod 8 and cover shift block 11 removed has been increased, cover shift block 11 removes and drives the bull stick 12 rotation of its both sides, bull stick 12 rotates and drives elasticity rotor 13 and rotate, push away frame 16 this moment and has been loosened, push away block 17 of push rod 8 one side is fixed in pushing away frame 16 by slim block 18, push away block 17 drives and pushes away frame 16 and remove in blanking pipe 3, the frame 16 that pushes away of both sides meets, gear 25 drives sliding plate 24 and meets with blanking pipe 3 opposite side towards blanking pipe 3 intraductal removal, sliding plate 24 opposite side moves along slip long rail 23, the stability that sliding plate 24 removed has been increased, put into the reaction material from going into hopper 2, enter into blanking pipe 3, the reaction material enters into pushing away on frame 16 this moment, will push away frame 16 and put aside, second cylinder 19 drives straight-bar 20 and promotes the rotating plate 22 and rotates, the tilting of being convenient for the reaction material is gone into the reaction box 24, the efficiency of opening this moment has increased the reaction box and has once gone into the reaction box under the sliding plate and has gone into the closed reaction box 16.

To sum up, the utility model relates to a stable in structure, it removes to drive the push rod through first cylinder, the push rod removes and drives cover shifting block and remove, the pulling spring beam when cover shifting block removes, the stability of push rod and cover shifting block removal has been increased, cover shifting block removes and drives the bull stick rotation of its both sides, the bull stick rotation drives the rotation of elasticity rotor, push away the frame this moment and is loosened, the ejector pad of push rod one side is fixed in pushing away the frame by the slim block, the ejector pad drives and pushes away the frame and removes in the unloading pipe, the frame that pushes away of both sides meets, the gear drives the sliding plate and moves towards the unloading intraductal removal and meets with the unloading pipe opposite side, the sliding plate opposite side moves along the slip long rail, the stability that the sliding plate removed has been increased, put into the reaction material from going into the hopper, get into the unloading pipe, the reaction material gets into on pushing away the frame this moment, the second cylinder drives the straight-bar and pushes away the rotating plate rotation this moment, the slope of rotating plate is convenient for the reaction material to drop into on the sliding plate, the efficiency that the reaction material falls has been increased, open the sliding plate this moment, fall into the reaction material, fall into the reaction box, push away is closed and is loaded on next time.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described above, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A reaction unit for production of flame-retardant heat-insulating materials is characterized in that: the blanking device comprises a blanking pipe and a reaction box, wherein a hopper and the reaction box are respectively arranged on two sides of the blanking pipe, bending frames are arranged on two sides of the blanking pipe, a side barrel is arranged on one side of the bending frame, a push rod is arranged on one side of the side barrel, a sleeve moving block is sleeved on the push rod, a first air cylinder is arranged on one side in the side barrel, the first air cylinder is connected with the push rod, a spring rod is arranged between the sleeve moving block and the side barrel, elastic rotating pieces are arranged on two sides of the side barrel in a rotating mode, rotating rods are arranged on two sides of the sleeve moving block in a rotating mode, the elastic rotating pieces are connected with the rotating rods in a rotating mode, a pushing frame is arranged between the elastic rotating pieces, thin blocks are arranged on two side walls of the pushing frame, a pushing block is arranged between the thin blocks and connected with the push rod, a second air cylinder is arranged in the pushing frame, a straight rod is arranged on one side of the second air cylinder, a rotating plate arranged on one side of the pushing frame, a rotating plate, a straight rod is arranged on one side of the sliding plate, a sliding rail is connected with a sliding plate, a sliding rail is arranged on one side of the sliding plate, and a sliding rail, and a sliding plate is arranged on the sliding rail, and a sliding plate, and a sliding rail is arranged on the sliding plate, and connected with a sliding plate, and a sliding rail.

2. The reaction device for producing the flame-retardant and heat-insulating material according to claim 1, wherein: the reaction box is characterized in that a bottom plate is arranged on one side of the reaction box, an air blower is arranged at the top of the bottom plate, an air pipe is arranged on one side of the air blower and connected with the reaction box, and a control valve is arranged on the air pipe.

3. The reaction device for producing the flame-retardant heat-insulating material according to claim 1, wherein: the device is characterized in that a device door is arranged on one side of the reaction box, a precipitation box is arranged at the bottom of the reaction box, and a discharge port is arranged on one side of the precipitation box.

4. The reaction device for producing the flame-retardant and heat-insulating material according to claim 1, wherein: reaction box one side is equipped with the air exhauster, the air exhauster top is equipped with the pipe of buckling, it is equipped with the gas treater to buckle a tub one side.

5. The reaction device for producing the flame-retardant and heat-insulating material according to claim 1, wherein: and feed inlets are formed in two sides of the top of the feed hopper.

6. The reaction device for producing the flame-retardant heat-insulating material according to claim 1, wherein: an arc-shaped spring is arranged between the side cylinder and the elastic rotating sheet.

7. The reaction device for producing the flame-retardant heat-insulating material according to claim 1, wherein: and a friction block is arranged on the inner side of the elastic rotating piece.

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