CN218893701U - Detection device for blast furnace production - Google Patents

Abstract

The utility model provides a detection device for blast furnace production, which belongs to the technical field of blast furnace production equipment and comprises a feeding piece connected to a blast furnace body in a conical manner, wherein a material guiding mechanism for guiding blast furnace materials is arranged between the feeding piece and the blast furnace body; the material guiding mechanism comprises vibration assemblies connected to two sides of the blast furnace body, and a control switch assembly connected between the feeding piece and the inner wall of the blast furnace body and used for starting the vibration assemblies to work; according to the utility model, whether the material is blocked in the feeding member can be detected by the arrangement of the control switch assembly, on the one hand, the vibration motor can be electrified in the blocking process of the feeding member, so that the vibration motor is started, vibration generated by the vibration motor is transmitted to the feeding member through the vibration rod and the vibration block, the feeding member is vibrated under the action of the vibration, the positions of the material in the feeding member are changed under the action of the vibration, and therefore the material slides, and the problem that the material is blocked in the feeding member is solved.

Description

Detection device for blast furnace production

Technical Field

The utility model relates to the technical field of blast furnace production equipment, in particular to a detection device for blast furnace production.

Background

At present, in the use of the blast furnace, materials are required to be added into the blast furnace, when the materials move into the blast furnace, the materials can cause the blockage of a material inlet of the blast furnace due to different sizes of the materials, but under the condition that the materials are blocked, the blast furnace is too high, the blast furnace needs time to be processed in a manual cleaning mode, and the processing effect of the mode is lower, so that the detection device for the production of the blast furnace is provided for solving the problems.

Disclosure of Invention

In view of the above, the utility model provides a detection device for blast furnace production, which can detect whether a material is blocked in a feeding member or not on one hand, and can drive the position of the material in the feeding member to move under the action of a vibrating motor in the blocking process of the feeding member on the other hand, so as to solve the problem of blocking the material in the feeding member.

In order to solve the technical problems, the utility model provides a detection device for blast furnace production, which comprises a feeding piece connected to a blast furnace body in a conical manner, wherein a material guiding mechanism for guiding blast furnace materials is arranged between the feeding piece and the blast furnace body;

the material guiding mechanism comprises vibration assemblies connected to two sides of the blast furnace body, and a control switch assembly connected between the feeding piece and the inner wall of the blast furnace body and used for starting the vibration assemblies to work;

rectangular holes are formed in two sides of the feeding piece, the control switch assembly comprises a rotating plate movably connected inside the rectangular holes, and the control switch assembly further comprises a fixing frame connected to the inner wall of the blast furnace body and corresponding to the rotating plate.

Further, the vibration assembly comprises a vibration motor connected to the outer side of the blast furnace body, one end of the vibration motor is connected with a vibration rod penetrating through the blast furnace body, and one end of the vibration rod is connected with a vibration block in contact with the outer side of the feeding piece.

Further, the rotating plate comprises a first connecting plate, a second connecting plate and a third connecting plate which are integrally formed, wherein the first connecting plate and the second connecting plate are bent, the second connecting plate and the third connecting plate are vertically arranged, the inside of the rectangular hole is connected with a supporting rod, and the supporting rod is located between the first connecting plate and the second connecting plate and penetrates through the first connecting plate and the second connecting plate.

Further, a first mounting groove is formed between the first connecting plate and the second connecting plate, a torsion spring is connected between the first mounting groove and the supporting rod, a first electric contact block is connected to the fixing frame, and a second electric contact block corresponding to the first electric contact block is connected to one side of the third connecting plate.

Further, a second mounting groove is formed in one end, far away from the second connecting plate, of the first connecting plate, a connecting rod is connected to the inside of the second mounting groove, and a rotating roller is connected to the connecting rod.

Further, the third connecting plate is obliquely arranged on one side, close to the first electric contact block.

Further, the first electric contact block is connected with the positive electrode of the vibration motor through a control circuit, the second electric contact block is connected with the negative electrode of the vibration motor through a control circuit, and the starting of the vibration motor is realized through the contact of the first electric contact block and the second electric contact block.

The technical scheme of the utility model has the following beneficial effects:

1. whether the material is blocked in the feeding piece can be detected by utilizing the setting of the control switch assembly, and on the other hand, the feeding piece is electrified in the blocking process, so that the vibrating motor is started, vibration generated by the vibrating motor is transmitted to the feeding piece through the vibrating rod and the vibrating block, the feeding piece is also vibrated under the action of vibration, the position of the material in the feeding piece is changed under the action of vibration, and therefore the material slides, and the problem that the material is blocked in the feeding piece is solved.

2. The first electric contact block on the rotating plate is driven to be contacted with the second electric contact block on the fixing frame under the state that the material is blocked by utilizing the cooperation among the first connecting plate, the second connecting plate and the third connecting plate, so that the energizing of the vibrating motor is realized.

3. The torsion springs can enable the rotating plate to automatically reset after rotating, so that the rotating plate and the fixing frame are separated.

4. In order to reduce the friction between the material and the rotating plate, a rotating roller is connected to the first connecting plate, wherein one side of the third connecting plate is provided with an inclined surface in order to make the second electric contact block better contact with the first electric contact block.

Drawings

FIG. 1 is a schematic cross-sectional view of a feed element structure of the present utility model;

FIG. 2 is an enlarged schematic view of the structure of FIG. 1A according to the present utility model;

FIG. 3 is a schematic side cross-sectional view of a feed element structure of the present utility model;

fig. 4 is a schematic cross-sectional view of the rotating plate structure of the present utility model.

In the figure: 1. a blast furnace body; 2. a feed member; 3. a vibration motor; 4. a vibrating rod; 5. a vibrating block; 6. a rectangular hole; 7. a rotating plate; 71. a first connection plate; 72. a second connecting plate; 73. a third connecting plate; 8. a fixing frame; 9. a first electrical contact block; 10. a second electrical contact block; 12. a support rod; 13. a first mounting groove; 14. a torsion spring; 15. a second mounting groove; 16. a connecting rod; 17. and (5) rotating the roller.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to fig. 1 to 4 of the embodiments of the present utility model. It will be apparent that the described embodiments are some, but not all, embodiments of the utility model. All other embodiments, which are obtained by a person skilled in the art based on the described embodiments of the utility model, fall within the scope of protection of the utility model.

Example 1

As shown in fig. 1-3: the detection device for the blast furnace production comprises a feeding piece 2 which is connected to a blast furnace body 1 in a conical shape, wherein a material guiding mechanism for guiding blast furnace materials is arranged between the feeding piece 2 and the blast furnace body 1;

the material guiding mechanism comprises vibration components connected to two sides of the blast furnace body 1, and a control switch component connected between the feeding piece 2 and the inner wall of the blast furnace body 1 and used for starting the vibration components to work;

rectangular holes 6 are formed in two sides of the feeding piece 2, the control switch assembly comprises a rotating plate 7 movably connected inside the rectangular holes 6, and the control switch assembly further comprises a fixing frame 8 connected to the inner wall of the blast furnace body 1 and corresponding to the rotating plate 7.

The vibration subassembly is including connecting the vibrating motor 3 in the blast furnace body 1 outside, and the one end of vibrating motor 3 is connected with the vibrating rod 4 that runs through blast furnace body 1, and the one end of vibrating rod 4 is connected with the vibrating piece 5 that contacts with the feed piece 2 outside.

In this embodiment, whether the material is blocked in feed piece 2 can be detected on the one hand to the setting of utilizing control switch subassembly, on the other hand feed piece 2 is in the jam in-process, can make vibrating motor 3 electrified to make vibrating motor 3 start, make vibrating motor 3 produce vibration and transmit to feed piece 2 through vibrating rod 4 and vibrating piece 5 on, make feed piece 2 also produce vibration under the effect of vibration, the position of material in the feed piece 2 changes under the effect of vibration, thereby make the material slide between the material, solve the condition that the material is blocked in feed piece 2.

Example two

As shown in fig. 2 and 4, it is different from the first embodiment in that: the rotating plate 7 comprises a first connecting plate 71, a second connecting plate 72 and a third connecting plate 73 which are integrally formed, the first connecting plate 71 and the second connecting plate 72 are bent, the second connecting plate 72 and the third connecting plate 73 are vertically arranged, the supporting rod 12 is connected to the inside of the rectangular hole 6, and the supporting rod 12 is located between the first connecting plate 71 and the second connecting plate 72 and penetrates through the first connecting plate and the second connecting plate.

A first mounting groove 13 is formed between the first connecting plate 71 and the second connecting plate 72, a torsion spring 14 is connected between the first mounting groove 13 and the supporting rod 12, a first electric contact block 9 is connected to the fixing frame 8, and a second electric contact block 10 corresponding to the first electric contact block 9 is connected to one side of the third connecting plate 73.

In this embodiment, the first electrical contact block 9 on the rotating plate 7 is driven to contact with the second electrical contact block 10 on the fixed frame 8 in a state where the material is blocked by using the cooperation between the first connecting plate 71, the second connecting plate 72 and the third connecting plate 73, so that the energization of the vibration motor 3 is realized.

The torsion spring 14 is arranged to enable the rotating plate 7 to automatically reset after rotating, so that the rotating plate 7 and the fixing frame 8 are separated.

Example III

As shown in fig. 1, 2 and 4, it is different from the second embodiment in that: the first connecting plate 71 is kept away from the one end of second connecting plate 72 and has been seted up second mounting groove 15, and the inside of second mounting groove 15 is connected with connecting rod 16, is connected with the live-action roller 17 on the connecting rod 16.

The third connection plate 73 is arranged obliquely near one side of the first electrical contact block 9.

The first electric contact block 9 is connected with the positive electrode of the vibration motor 3 through a control circuit, the second electric contact block 10 is connected with the negative electrode of the vibration motor 3 through a control circuit, and the starting of the vibration motor 3 is realized through the contact of the first electric contact block 9 and the second electric contact block 10.

In this embodiment, in order to reduce the friction between the material and the rotating plate 7, the rotating roller 17 is connected to the first connecting plate 71, wherein one side of the third connecting plate 73 is provided as an inclined surface in order to bring the second electrical contact block 10 into better contact with the first electrical contact block 9.

The working method of the utility model comprises the following steps:

the material enters the blast furnace body 1 through the feeding piece 2, when the material flows in the feeding piece 2 to cause blockage, the gravity of the material gradually extrudes towards the first connecting plate 71, when the first connecting plate 71 is flush with the inner wall of the feeding piece 2, the second electric contact block 10 on the third connecting plate 73 is contacted with the first electric contact block 9 on the fixing frame 8, then the vibrating motor 3 is started, the vibrating motor 3 vibrates, the vibrating rod 4 and the vibrating block 5 are transmitted to the feeding piece 2, the feeding piece 2 also vibrates under the action of vibration, the position of the material in the feeding piece 2 changes under the action of vibration, so that the materials slide, and the problem that the material is blocked in the feeding piece 2 is solved.

In the present utility model, unless explicitly specified and defined otherwise, for example, it may be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intermediaries, or in communication with each other or in interaction with each other, unless explicitly defined otherwise, the meaning of the terms described above in this application will be understood by those of ordinary skill in the art in view of the specific circumstances.

While the foregoing is directed to the preferred embodiments of the present utility model, it will be appreciated by those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present utility model, and such modifications and adaptations are intended to be comprehended within the scope of the present utility model.

Claims (7)

1. Detection device is used in blast furnace production, including connecting feed piece (2) that the toper set up on blast furnace body (1), its characterized in that: a material guiding mechanism for guiding blast furnace materials is arranged between the feeding piece (2) and the blast furnace body (1);

the material guiding mechanism comprises vibration assemblies connected to two sides of the blast furnace body (1), and a control switch assembly connected between the feeding piece (2) and the inner wall of the blast furnace body (1) and used for starting the vibration assemblies to work;

rectangular holes (6) are formed in two sides of the feeding piece (2), the control switch assembly comprises a rotating plate (7) movably connected inside the rectangular holes (6), and the control switch assembly further comprises a fixing frame (8) connected to the inner wall of the blast furnace body (1) and corresponding to the rotating plate (7).

2. The blast furnace production inspection device according to claim 1, wherein: the vibration assembly comprises a vibration motor (3) connected to the outer side of the blast furnace body (1), one end of the vibration motor (3) is connected with a vibration rod (4) penetrating through the blast furnace body (1), and one end of the vibration rod (4) is connected with a vibration block (5) in contact with the outer side of the feeding piece (2).

3. The blast furnace production inspection device according to claim 1, wherein: the rotating plate (7) comprises a first connecting plate (71), a second connecting plate (72) and a third connecting plate (73) which are integrally formed, wherein the first connecting plate (71) and the second connecting plate (72) are bent, the second connecting plate (72) and the third connecting plate (73) are vertically arranged, the inside of the rectangular hole (6) is connected with a supporting rod (12), and the supporting rod (12) is located between the first connecting plate (71) and the second connecting plate (72) and penetrates through the first connecting plate and the second connecting plate.

4. The detecting device for blast furnace production according to claim 3, wherein: a first mounting groove (13) is formed between the first connecting plate (71) and the second connecting plate (72), a torsion spring (14) is connected between the first mounting groove (13) and the supporting rod (12), a first electric contact block (9) is connected on the fixing frame (8), and a second electric contact block (10) corresponding to the first electric contact block (9) is connected on one side of the third connecting plate (73).

5. The detecting device for blast furnace production according to claim 3, wherein: the one end that second connecting plate (72) was kept away from to first connecting plate (71) has seted up second mounting groove (15), the internal connection of second mounting groove (15) has connecting rod (16), be connected with rotor (17) on connecting rod (16).

6. The detecting device for blast furnace production according to claim 4, wherein: the third connecting plate (73) is obliquely arranged near one side of the first electric contact block (9).

7. The detecting device for blast furnace production according to claim 4, wherein: the first electric contact block (9) is connected with the positive electrode of the vibration motor (3) through a control circuit, the second electric contact block (10) is connected with the negative electrode of the vibration motor (3) through a control circuit, and the starting of the vibration motor (3) is realized through the contact of the first electric contact block (9) and the second electric contact block (10).

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