CN211374260U - Coke thermal reaction sample preparation device - Google Patents

Abstract

The utility model relates to a coke heat reactivity system appearance device belongs to metallurgical industry coke experimental facilities technical field. The technical scheme is as follows: casing (1) is confined box structure, first baffle (14) level is fixed in the box, cut apart into first half and lower half with the box, first half of box is for smashing room (30), it smashes to be equipped with in room (30) crushing axle (11), the vertical lower half of fixing at the box of second baffle (18), cut into first half and right half with the lower half of box, right half is forming chamber (50), slider (4) and casing (1) and second baffle (18) sliding connection are passed through respectively to the both sides of support (6), stripper plate (16) are fixed on first baffle (14) through electric telescopic handle (15). The utility model has the advantages that: the large materials can be crushed into uniform granularity, and the large materials are extruded into experimental samples with the same size, so that the experimental accuracy is improved.

Description

Coke thermal reaction sample preparation device

Technical Field

The utility model relates to a coke heat reactivity system appearance device belongs to metallurgical industry coke experimental facilities technical field.

Background

The metallurgical coke heat reactivity is an important quality index of the coke for the blast furnace, along with the large-scale smelting of the blast furnace, the accuracy of the metallurgical coke heat performance plays a crucial role in the blast furnace condition, but the difference exists in the size of the grain size uniformity and the lump degree of the experimental sample of the existing metallurgical coke heat reactivity, so that the experimental result is inaccurate, and therefore, the coke heat reactivity sample preparation device is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a coke heat reactivity system appearance device can break into even granularity with bold material to extrude into the unanimous experimental sample of size, improve the degree of accuracy of experiment, solve the problem that exists among the background art.

The technical scheme of the utility model is that:

a coke thermal reaction sample preparation device comprises a shell, a spring, a sliding block, a support, a second discharge hole, crushing teeth, a feed hole, a crushing shaft, a crushing motor, a first discharge hole, a first partition plate, an electric telescopic rod, an extrusion plate, a second partition plate, a forming box, a feed hole, a crushing chamber, a storage chamber and a forming chamber, wherein the shell is of a closed box body structure; the vertical lower half at the box of fixing of second baffle, cut into half left and half right with the lower half of box, half left is the storing room, half right is the shaping room, the shaping room is equipped with first dodge gate, the storing room is equipped with the second dodge gate, the bottom of shaping room is equipped with the spring, the support sets up on the spring, the both sides of support are respectively through slider and casing and second baffle sliding connection, the shaping box sets up on the support, the stripper plate passes through electric telescopic handle to be fixed on first baffle, the stripper plate is located the shaping box directly over, stripper plate and shaping box phase-match, the shaping room is equipped with the pan feeding mouth, the second discharge gate of crushing room and the pan feeding mouth intercommunication of shaping room.

The feed inlet department of shaping room is equipped with the striker plate, and the shaping box is located the below of striker plate.

The striker plate is fixed on the shell and is obliquely arranged towards the forming box.

And sliding seats are respectively fixed on the shell and the second partition plate corresponding to the two sides of the support, and sliding grooves matched with the sliding blocks are formed in the sliding seats.

And the support is provided with a limiting plate matched with the forming box.

The feed inlet of crushing room is located the top of crushing room, and first discharge gate and second discharge gate are located the bottom of crushing room.

And inserting plates are arranged in the first discharge hole and the second discharge hole of the crushing chamber.

Handles are arranged on the first movable door and the second movable door.

A plurality of third partition plates which are horizontally arranged up and down are arranged in the storage chamber.

The utility model has the advantages that:

(1) the utility model is provided with the grinding motor, the grinding shaft and the grinding teeth, the grinding shaft is driven to rotate by the rotation of the grinding motor, and the grinding shaft can drive the grinding teeth to rotate while rotating, thereby achieving the purpose of grinding materials;

(2) the utility model is provided with the electric telescopic rod and the extrusion plate, after the material enters the forming box, the extrusion plate is driven to move downwards by controlling the extension of the electric telescopic rod, thereby achieving the purpose of pressing and forming the material, and ensuring that the size of each sample participating in the experiment is the same, thereby improving the precision of the experiment;

(3) the utility model discloses set up the spring between support and casing, can play absorbing effect, avoid stripper plate and shaping box rigid contact, improved sample shaping rate, slider, spout and slide can ensure the stationarity of support in the up-and-down motion process to the quality of sample has been ensured.

Drawings

Fig. 1 is a sectional view of the present invention;

fig. 2 is a front view of the present invention.

In the figure: the device comprises a shell 1, a spring 2, a chute 3, a sliding block 4, a limiting plate 5, a support 6, a material baffle 7, a second discharge hole 8, crushing teeth 9, a feed inlet 10, a crushing shaft 11, a crushing motor 12, a first discharge hole 13, a first partition plate 14, an electric telescopic rod 15, an extrusion plate 16, a third partition plate 17, a second partition plate 18, a sliding seat 19, a forming box 20, a second movable door 21, a handle 22, a first movable door 23, a feeding hole 24, a crushing chamber 30, a storage chamber 40 and a forming chamber 50.

Detailed Description

The invention will be further explained by way of example with reference to the accompanying drawings.

Referring to the attached drawings 1-2, a coke thermal reaction sample preparation device comprises a shell 1, a spring 2, a slide block 4, a support 6, a second discharge hole 8, crushing teeth 9, a feed port 10, a crushing shaft 11, a crushing motor 12, a first discharge hole 13, a first partition plate 14, an electric telescopic rod 15, an extrusion plate 16, a second partition plate 18, a forming box 20, a feed port 24, a crushing chamber 30, a storage chamber 40 and a forming chamber 50, wherein the shell 1 is of a closed box structure, the first partition plate 14 is horizontally fixed in the box body to divide the box body into an upper half part and a lower half part, the upper half part of the box body is the crushing chamber 30, the crushing shaft 11 is arranged in the crushing chamber 30, a plurality of crushing teeth 9 are uniformly arranged on the crushing shaft 11, two ends of the crushing shaft 11 are rotatably connected to the shell 1, the crushing motor 12 is in driving connection with the crushing shaft 11, the crushing chamber 30 is provided with one feed, the two discharge ports are respectively a first discharge port 13 and a second discharge port 8; the vertical lower half at the box of fixing of second baffle 18, cut into half left and half right with the lower half of box, half left is storing chamber 40, half right is forming chamber 50, forming chamber 50 is equipped with first dodge gate 23, storing chamber 40 is equipped with second dodge gate 21, the bottom of forming chamber 50 is equipped with spring 2, support 6 sets up on spring 2, the both sides of support 6 are respectively through slider 4 and casing 1 and second baffle 18 sliding connection, forming box 20 sets up on support 6, stripper plate 16 passes through electric telescopic handle 15 to be fixed on first baffle 14, stripper plate 16 is located forming box 20 directly over, stripper plate 16 and forming box 20 phase-match, forming chamber 50 is equipped with pan feeding mouth 24, smash the second discharge gate 8 of room 30 and the pan feeding mouth 24 intercommunication of forming chamber 50.

In this embodiment, referring to fig. 1 and 2, a second movable door 21 is movably connected to a left lower end of a front surface of a housing 1 through a hinge, a first movable door 23 is movably connected to a right lower end of the front surface of the housing 1 through a hinge, handles 22 are fixedly mounted on a left end of the front surface of the first movable door 23 and a right end of the front surface of the second movable door 21, a first partition 14 is fixedly connected to an upper end of an inner cavity of the housing 1, a first discharge hole 13 is formed in a corresponding position on a left side of the housing 1 and on a top of the first partition 14, a second discharge hole 8 is formed in a corresponding position on a right side of the housing 1 and on a top of the first partition 14, insertion plates are inserted into inner surfaces of the second discharge hole 8 and the first discharge hole 13, a tail end of the second discharge hole 8 extends to a lower end of the housing 1, a striker plate 7 is fixedly connected to the inner, the inclination of the material baffle 7 is thirty percent to forty-five percent, the right end of the bottom of the first clapboard 14 is movably connected with an extrusion plate 16 through an electric telescopic rod 15, after the material enters a forming box 20, the electric telescopic rod 15 is controlled to extend through an external controller, the electric telescopic rod 15 can drive the extrusion plate 16 to move downwards while extending, thereby achieving the purpose of press forming the material, so that each sample participating in the experiment has the same size, the accuracy of the experiment is improved, a second clapboard 18 is fixedly connected between the left end of the bottom of the first clapboard 14 and the left end of the bottom of the inner cavity of the shell 1, a third clapboard 17 is fixedly connected between the left side of the second clapboard 18 and the right side of the inner cavity of the shell 1, the number of the third clapboards 17 is two to four, and the lower ends of the right side of the second clapboard 18 and the right side of the inner cavity of the shell 1 are both provided with a sliding seat 19 of a, the right end of the bottom of the inner cavity of the shell 1 is movably connected with a support 6 through a spring 2, the spring 2 can play a role in shock absorption, hard contact between an extrusion plate 16 and a forming box 20 is avoided, the forming box 20 is placed at the top of the support 6, a limiting plate 5 is fixedly connected to the top of the support 6 and positioned at the left, the rear and the right ends of the forming box 20, sliding blocks 4 in sliding connection with sliding grooves 3 are arranged on the left side and the right side of the support 6, the stability of the support 6 in the up-and-down movement process can be guaranteed, the quality of a sample is guaranteed, a crushing motor 12 is fixedly installed at the upper end of the left side of the shell 1, a crushing shaft 11 with crushing teeth 9 is arranged on an output shaft of the crushing motor 12, the crushing motor 12 can be opened through an external controller, the crushing motor 12 can drive the crushing shaft 11 to rotate while rotating, the crushing, thereby reach and carry out kibbling purpose to the material, feed inlet 10 has been seted up to the right-hand member at 1 top of casing, and the left end at feed inlet 10 top has the apron through hinge swing joint

The electric telescopic rod 15 is a telescopic device commonly used in the field, the model of an external controller is DATA-7311, and meanwhile, two terminals of the external controller are connected with a power plug through a lead.

The section of crushing tooth 9 is acute angle type, and the even welding of a plurality of crushing teeth 9 is on smashing axle 11, plays and carries out kibbling effect to the material.

The coke thermal reaction sample preparation device comprises the following specific use steps:

A. crushing: the material is put into the shell 1 from the feed inlet 10 and is crushed by the crushing motor 12, the crushing shaft 11 and the crushing teeth 9;

B. standby: taking out the inserting plate on the inner surface of the first discharge hole 13, and discharging the crushed material from the first discharge hole 13;

C. aggregate: taking out the inserting plate on the inner surface of the second discharge hole 8, and enabling the crushed material to flow into the forming box 20 from the second discharge hole 8;

D. preparing a sample: controlling the electric telescopic rod 15 to move downwards to enable the extrusion plate 16 to be in contact with the materials in the forming box 20;

E. taking materials: the first movable door 23 is opened by the handle 22, the forming box 20 is taken out from the surface of the support 6, and the product which is pressed and formed in the forming box 20 is poured out.

Claims (9)

1. The utility model provides a coke heat reactivity system appearance device which characterized in that: comprises a shell (1), a spring (2), a slide block (4), a support (6), a second discharge hole (8), crushing teeth (9), a feed inlet (10), a crushing shaft (11), a crushing motor (12), a first discharge hole (13), a first clapboard (14), an electric telescopic rod (15), an extrusion plate (16), a second clapboard (18), a forming box (20), a feeding hole (24), a crushing chamber (30), a storage chamber (40) and a forming chamber (50), wherein the shell (1) is of a closed box structure, the first clapboard (14) is horizontally fixed in the box body and divides the box body into an upper half part and a lower half part, the upper half part of the box body is the crushing chamber (30), the crushing shaft (11) is arranged in the crushing chamber (30), a plurality of crushing teeth (9) are uniformly arranged on the crushing shaft (11), two ends of the crushing shaft (11) are rotatably connected on the shell (1), the crushing motor (12) is in driving connection with the crushing shaft (11), the crushing chamber (30) is provided with a feeding hole (10) and two discharging holes, and the two discharging holes are respectively a first discharging hole (13) and a second discharging hole (8); the vertical lower half at the box that fixes of second baffle (18), cut into half left and half right with the lower half of box, half left side is storing chamber (40), half right is forming chamber (50), forming chamber (50) are equipped with first dodge gate (23), storing chamber (40) are equipped with second dodge gate (21), the bottom of forming chamber (50) is equipped with spring (2), support (6) set up on spring (2), slider (4) and casing (1) and second baffle (18) sliding connection are passed through respectively to the both sides of support (6), forming box (20) set up on support (6), stripper plate (16) are fixed on first baffle (14) through electric telescopic handle (15), stripper plate (16) are located forming box (20) directly over, stripper plate (16) and forming box (20) phase-match, forming chamber (50) are equipped with pan feeding mouth (24), second discharge gate (8) and the pan feeding mouth (24) intercommunication of forming chamber (50) of crushing chamber (30).

2. The coke thermal reaction sample preparation device according to claim 1, wherein: a material baffle plate (7) is arranged at a feeding hole (24) of the forming chamber (50), and the forming box (20) is positioned below the material baffle plate (7).

3. The coke thermal reaction sample preparation device according to claim 2, wherein: the striker plate (7) is fixed on the shell (1), and the striker plate (7) is obliquely arranged towards the forming box (20).

4. The coke thermal reaction sample preparation device according to claim 1, wherein: sliding seats (19) are respectively fixed on the shell (1) and the second partition plate (18) corresponding to the two sides of the support (6), and sliding grooves (3) matched with the sliding blocks (4) are formed in the sliding seats (19).

5. The coke thermal reaction sample preparation device according to claim 1 or 4, wherein: and a limiting plate (5) matched with the forming box (20) is arranged on the support (6).

6. The coke thermal reaction sample preparation device according to claim 1, wherein: the feed inlet (10) of the crushing chamber (30) is positioned at the top of the crushing chamber (30), and the first discharge outlet (13) and the second discharge outlet (8) are positioned at the bottom of the crushing chamber (30).

7. The coke thermal reaction sample preparation device according to claim 1 or 6, wherein: inserting plates are arranged in the first discharging hole (13) and the second discharging hole (8) of the crushing chamber (30).

8. The coke thermal reaction sample preparation device according to claim 1, wherein: handles (22) are arranged on the first movable door (23) and the second movable door (21).

9. The coke thermal reaction sample preparation device according to claim 1, wherein: a plurality of third partition plates (17) which are horizontally arranged up and down are arranged in the storage chamber (40).

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