CN220854399U - Slag receiving structure for refractory brick heat-resistant test equipment - Google Patents

Abstract

The utility model discloses a slag receiving structure for refractory brick heat-resistant testing equipment, which is characterized in that a slag receiving mechanism which covers a circuit at the bottom of the heat-resistant testing equipment and is used for collecting refractory brick slag is arranged between a heating furnace and a cooling water tank, the slag receiving mechanism comprises a collecting plate, supporting legs and a collecting tank, the collecting plate is arranged between the heating furnace and the cooling water tank, the bottom of the collecting plate is uniformly distributed with the supporting legs, one end of the upper surface of the collecting plate is provided with an opening, the collecting tank is clamped and installed in the opening, the notch of the collecting tank and the upper surface of the collecting plate are positioned on the same plane, lifting handles are arranged on two sides of the notch of the collecting tank, and a collecting net bag used for collecting refractory brick slag is arranged in the cooling water tank; the utility model not only can separate and protect the line between the heating furnace and the cooling water tank to avoid the damage of the high-temperature refractory brick slag to the line, but also can collect and process the refractory brick slag conveniently and efficiently, thereby providing powerful guarantee for safe and effective heat resistance test of the refractory brick.

Description

Slag receiving structure for refractory brick heat-resistant test equipment

Technical Field

The utility model relates to the technical field of refractory brick production, in particular to a slag receiving structure for refractory brick heat resistance testing equipment.

Background

In the production and processing process of the refractory bricks, in order to ensure the heat-resistant effect of the refractory bricks, at present, a heat-resistant test device shown in the attached drawing 1 of the specification is generally adopted when the refractory bricks are subjected to heat-resistant test, the heat-resistant test device comprises a heating furnace 1 and a cooling water tank 4, a track 3 is arranged between the heating furnace 1 and the cooling water tank 4, a turnover fixture 5 is arranged on the track 3, when the refractory bricks are subjected to heat-resistant test, the refractory bricks are clamped by the turnover fixture 5 and are repeatedly sent into the heating furnace 1 and the cooling water tank 4, the heat-resistant effect of the refractory bricks is detected by repeatedly heating and cooling the refractory bricks, a large number of fragments are generated by the refractory bricks in the repeated heating and cooling process of the refractory bricks, and in order to ensure the safety of the heat-resistant test, the conventional heat-resistant test device is provided with a slag receiving plate 2 for receiving slag of the refractory bricks at the furnace mouth of the heating furnace 1;

However, in the actual use process of the heat-resistant test equipment, as the slag receiving plate 2 can only perform slag receiving treatment on the furnace mouth of the heating furnace 1, a large amount of refractory brick fragments fall into the interval between the heating furnace 1 and the cooling water tank 4 in the moving process of the overturning clamp, the bottom of the interval between the heating furnace 1 and the cooling water tank 4 is often paved with a circuit of the heat-resistant test equipment, and after the refractory brick fragments at high temperature fall into the interval, the circuit is burnt and damaged, so that a great potential safety hazard exists, and the subsequent cleaning of the refractory brick fragments is inconvenient; in addition, in the cooling process of the refractory bricks in the cooling water tank 4, refractory brick fragments fall into the cooling water tank 4, so that great inconvenience is brought to the cleaning work of subsequent workers.

Disclosure of utility model

In order to overcome the defects in the background art, the utility model discloses a slag receiving structure for refractory brick heat-resistant test equipment, which not only can separate and protect a line between a heating furnace and a cooling water tank and prevent high-temperature refractory brick slag from damaging the line, but also can conveniently and efficiently collect and treat the refractory brick slag, thereby providing powerful guarantee for safe and effective heat-resistant test of refractory bricks.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

The utility model provides a refractory brick heat-resisting test equipment is with connecing sediment structure, include the heat-resisting test equipment who comprises heating furnace, a track, cooling trough and upset anchor clamps, be equipped with between heating furnace and the cooling trough and cover heat-resisting test equipment bottom circuit, and be used for collecting refractory brick broken bits connect sediment mechanism, connect sediment mechanism includes collecting plate, landing leg and collecting vat, be equipped with the collecting plate between heating furnace and the cooling trough, collecting plate bottom evenly distributed has several landing legs, collecting plate upper portion face one end is equipped with the opening, the collecting vat is installed to the card in the opening, the notch of collecting vat is in the coplanar with collecting plate upper portion face, collecting vat notch both sides all are equipped with and carry the handle, be equipped with the collection string bag that is used for collecting refractory brick broken bits in the cooling trough.

Further, one end of the collecting plate adjacent to the heating furnace is higher than the other end of the collecting plate adjacent to the cooling water tank.

Further, the opening is provided at the lower end of the collecting plate.

Further, the two sides of the upper surface of the collecting plate are respectively provided with a side plate arranged along the length direction of the collecting plate, and a scraping plate which can slide along the length direction of the collecting plate and is used for scraping and collecting refractory brick slag is arranged between the two corresponding side plates.

Further, ribs are arranged on opposite surfaces of the two side plates along the length direction of the collecting plate, two ends of the scraping plate respectively collide with the adjacent side plates, and bayonets matched with the ribs are arranged at the ends of the scraping plate.

Further, the cross section of curb plate is right triangle-shaped structure, and the inclined plane of two curb plates sets up relatively.

Further, the lifting handles on two sides of the notch of the collecting tank are respectively parallel to and in conflict with the inclined surfaces of the adjacent side plates.

Further, the size of collecting the string bag and the internal diameter looks adaptation of cooling trough, collect string bag upper portion both sides and all articulate and be connected with the handle.

Compared with the prior art, the utility model has the beneficial effects that: through setting up collecting plate and collecting vat for the resistant firebrick is in carrying out the heating cooling process repeatedly, and the collecting plate can collect resistant firebrick disintegrating slag, avoids high temperature resistant firebrick disintegrating slag to produce the burning down to the lower part circuit, and detachable collecting vat is convenient for collect the processing to the resistant firebrick disintegrating slag on the collecting plate intensively;

By arranging the scraping plate, a worker can scrape the refractory brick slag on the surface of the collecting plate into the collecting tank conveniently, and convenience is provided for cleaning the subsequent refractory brick slag;

By arranging the side plates of the right triangle structure, the refractory brick slag falling on the two sides of the collecting plate can roll along the inclined surface of the side plate towards the middle part of the collecting plate, so that convenience is provided for subsequent collecting and cleaning;

Through setting up the lift handle that is parallel and contradicted with the curb plate, utilize the lift handle can realize the spacing card of collecting vat keep off, not only avoid the collecting vat to drop from the opening, but also can guarantee that collecting vat notch and collecting plate upper portion face are in the coplanar;

The collection net bags are arranged, so that the refractory brick slag in the cooling water tank can be collected and cleaned;

The utility model not only can separate and protect the line between the heating furnace and the cooling water tank to avoid the damage of the high-temperature refractory brick slag to the line, but also can collect and process the refractory brick slag conveniently and efficiently, thereby providing powerful guarantee for safe and effective heat resistance test of the refractory brick.

Drawings

FIG. 1 is a schematic diagram of a heat resistance test apparatus;

FIG. 2 is a schematic diagram of the structure of the present utility model;

FIG. 3 is a schematic diagram of a slag receiving mechanism according to the present utility model;

FIG. 4 is a schematic view of a collecting plate structure according to the present utility model;

FIG. 5 is a schematic view of the structure of the scraper of the present utility model;

Fig. 6 is a schematic view of the structure of the collecting net bag of the present utility model.

In the figure: 1. a heating furnace; 2. a slag receiving plate; 3. a track; 4. a cooling water tank; 5. turning over the clamp; 6. a slag receiving mechanism; 7. collecting the net bag; 8. a scraper; 9. a side plate; 10. a collection plate; 11. a collection tank; 12. a lifting handle; 13. a support leg; 14. a rib; 15. an opening; 16. a bayonet; 17. a handle.

Detailed Description

In the description, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "front", "rear", "left", "right", etc., the drawings merely correspond to the drawings of the present utility model, and in order to facilitate description of the present utility model, it is not necessary to indicate or imply that the apparatus or element to be referred to has a specific azimuth.

Referring to fig. 1-6 of the specification, the present utility model provides a technical scheme:

The first embodiment of the invention is a slag receiving structure for refractory brick heat-resistant testing equipment, which comprises heat-resistant testing equipment consisting of a heating furnace 1, a track 3, a cooling water tank 4 and a turnover clamp 5, wherein a slag receiving mechanism 6 which covers a circuit at the bottom of the heat-resistant testing equipment and is used for collecting refractory brick slag is arranged between the heating furnace 1 and the cooling water tank 4, the slag receiving mechanism 6 comprises a collecting plate 10, supporting legs 13 and a collecting tank 11, the collecting plate 10 is arranged between the heating furnace 1 and the cooling water tank 4, the size of the collecting plate 10 is matched with the interval size between the heating furnace 1 and the cooling water tank 4, a plurality of supporting legs 13 are uniformly distributed at the bottom of the collecting plate 10, the circuit of the bottom of the heat-resistant testing equipment can be effectively prevented from being pressed by the supporting legs 13, one end of the upper surface of the collecting plate 10 is provided with an opening 15, the collecting tank 11 is arranged in a clamping way in the opening 15, the notch of the collecting tank 11 is on the same plane as the upper surface of the collecting plate 10, lifting handles 12 are arranged at two sides of the notch of the collecting tank 11, a collecting net 7 used for collecting the refractory brick slag is arranged in the cooling water tank 4, the size is matched with the size of the cooling water tank 4, and the inner diameter of the collecting net 7 is matched with the size of the cooling water tank 4, and two sides of the lifting handles are connected with the lifting handles 17;

In the process of carrying out refractory brick heat resistance test, the turnover fixture 5 clamps refractory bricks and repeatedly puts the refractory bricks into the heating furnace 1 and the cooling water tank 4 for heating and cooling treatment, in the process of repeatedly testing the refractory bricks, the refractory bricks can generate a large number of fragments, the fragments directly fall onto the collecting plate 10 and in the collecting net bag 7 in the cooling water tank 4, staff can push the refractory bricks fragments on the collecting plate 10 into the collecting tank 11, and the collecting tank 11 and the collecting net bag 7 can be lifted through the lifting handle 12 and the lifting handle 17 respectively to clean the refractory bricks fragments.

In the second embodiment, in order to facilitate the staff to push the firebrick fragments on the collecting plate 10 into the collecting tank 11, one end of the collecting plate 10 adjacent to the heating furnace 1 is higher than the other end of the collecting plate 10 adjacent to the cooling water tank 4, the opening 15 is arranged at the lower end of the collecting plate 10, two sides of the upper surface of the collecting plate 10 are respectively provided with side plates 9 arranged along the length direction of the collecting plate 10, a scraping plate 8 which can slide along the length direction of the collecting plate 10 and is used for scraping and collecting the firebrick fragments is arranged between the two corresponding side plates 9, in order to ensure the stable and convenient sliding of the scraping plate 8, the opposite surfaces of the two side plates 9 are respectively provided with a convex rib 14 arranged along the length direction of the collecting plate 10, and two ends of the scraping plate 8 are respectively in contact with the adjacent side plates 9, and the end parts of the scraping plate 8 are provided with bayonets 16 matched with the convex ribs 14;

when the refractory brick fragments on the collecting plate 10 are cleaned, a worker only needs to push the scraping plate 8 to slide along the convex edges 14, and the scraping plate 8 can conveniently and quickly push the refractory brick fragments into the collecting tank 11, so that great convenience is provided for subsequent cleaning;

In order to realize the clamping and placing of the collecting groove 11 and the opening 15, the notch of the collecting groove 11 and the upper surface of the collecting plate 10 are guaranteed to be in the same plane, the cross sections of the side plates 9 are of right triangle structures, the inclined surfaces of the two side plates 9 are oppositely arranged, and the lifting handles 12 on the two sides of the notch of the collecting groove 11 are respectively parallel to and props against the inclined surfaces of the adjacent side plates 9;

Through carrying the conflict of handle 12 with curb plate 9 inclined plane, can realize the spacing card that keeps off collecting vat 11, avoid collecting vat 11 to drop from opening 15, in addition, when resistant firebrick fragment drops to collecting plate 10 upper portion face both sides, the inclined plane of curb plate 9 can make the resistant firebrick fragment that drops in collecting plate both sides roll towards the collecting plate middle part along the slope of curb plate, for follow-up collection clearance is convenient.

The utility model has not been described in detail in the prior art, and it is apparent to those skilled in the art that the utility model is not limited to the details of the above-described exemplary embodiments, but that the utility model can be embodied in other specific forms without departing from the spirit or essential characteristics thereof; the above-described embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (8)

1. The utility model provides a refractory brick heat-resisting test equipment is with connecing sediment structure, includes the heat-resisting test equipment that comprises heating furnace (1), track (3), cooling trough (4) and upset anchor clamps (5), its characterized in that: be equipped with between heating furnace (1) and cooling trough (4) and cover heat-resisting test equipment bottom circuit, and be used for carrying out the sediment mechanism (6) that connects of collecting to resistant firebrick broken bits, connect sediment mechanism (6) including collecting plate (10), landing leg (13) and collecting vat (11), be equipped with collecting plate (10) between heating furnace (1) and cooling trough (4), collecting plate (10) bottom evenly distributed has several landing leg (13), collecting plate (10) upper portion face one end is equipped with opening (15), install collecting vat (11) in the card put in opening (15), the notch of collecting vat (11) is in the coplanar with collecting plate (10) upper portion face, collecting vat (11) notch both sides all are equipped with and carry pull handle (12), be equipped with in cooling trough (4) and be used for carrying out collection string bag (7) of collecting resistant firebrick broken bits.

2. The slag receiving structure for refractory brick heat resistance test equipment according to claim 1, wherein: one end of the collecting plate (10) adjacent to the heating furnace (1) is higher than the other end of the collecting plate (10) adjacent to the cooling water tank (4).

3. The slag receiving structure for refractory brick heat resistance test equipment according to claim 2, wherein: an opening (15) is provided at the lower end of the collecting plate (10).

4. The slag receiving structure for refractory brick heat resistance test equipment according to claim 2, wherein: the two sides of the upper surface of the collecting plate (10) are respectively provided with a side plate (9) arranged along the length direction of the collecting plate (10), and a scraping plate (8) which can slide along the length direction of the collecting plate (10) and is used for scraping and collecting refractory brick slag is arranged between the two corresponding side plates (9).

5. The slag receiving structure for refractory brick heat resistance test equipment according to claim 4, wherein: the opposite surfaces of the two side plates (9) are respectively provided with a convex rib (14) arranged along the length direction of the collecting plate (10), two ends of the scraping plate (8) are respectively abutted against the adjacent side plates (9), and the end parts of the scraping plate are provided with bayonets (16) matched with the convex ribs (14).

6. The slag receiving structure for refractory brick heat resistance test equipment according to claim 4, wherein: the cross section of the side plates (9) is of a right triangle structure, and inclined surfaces of the two side plates (9) are arranged oppositely.

7. The slag receiving structure for refractory brick heat resistance testing equipment according to claim 6, wherein: the lifting handles (12) on two sides of the notch of the collecting groove (11) are respectively parallel to and in contact with the inclined surfaces of the adjacent side plates (9).

8. The slag receiving structure for refractory brick heat resistance test equipment according to claim 1, wherein: the size of the collecting net bag (7) is matched with the inner diameter of the cooling water tank (4), and handles (17) are hinged to two sides of the upper portion of the collecting net bag (7).