CN214596938U - Fire control device for fire disaster laboratory - Google Patents

Abstract

The utility model relates to a conflagration laboratory fire control unit, including first base block and second base block, first spout and second spout have been seted up to first base block upper surface top-down, third spout and fourth spout have been seted up to second base block upper surface top-down, install the first party steel-pipe column of being connected with first spout slides on the first base block, install the second square steel-pipe column of being connected with third spout slides on the second base block, be fixed with the square steel-pipe beam between first party steel-pipe column and the second square steel-pipe column, install fire control mechanism on the square steel-pipe beam, install the drive assembly who orders about first party's steel-pipe column along the extending direction removal of first spout in the second spout. The utility model discloses in, put out a fire to the scene of a fire in the laboratory for the staff is convenient for, the staff only needs to order about first party steel-pipe column through drive assembly and removes to scene of a fire department along the extending direction of first spout, is favorable to the staff in time to put out a fire the operation, has reduced the water waste phenomenon.

Description

Fire control device for fire disaster laboratory

Technical Field

The utility model relates to a fire control unit technical field, concretely relates to conflagration laboratory fire control unit.

Background

Need to burn the test to different objects in the conflagration laboratory, certain safe risk has, need reliable fire control unit, and need put out a fire to the test scene after the burning test finishes, traditional fire control unit is foam extinguisher or fire hydrant in the conflagration laboratory, need the manual work to operate, the operation complexity is higher, the temperature is higher and can produce harmful gas in the experiment, the manual work closely puts out a fire and has certain danger, and the efficiency of putting out a fire receives operating personnel's technical level's influence, the efficiency uncertainty of putting out a fire is great, influence the effect of putting out a fire, there is the potential safety hazard.

The utility model discloses a laboratory fire control unit is disclosed in the chinese utility model patent of grant bulletin number CN 212522781U, the power distribution box comprises a box body, separate through the baffle in the box and be equipped with reservoir and working bin, and be fixed with the controller on one side outer wall of box, install smoke transducer on a side of controller respectively, bee calling organ, and the controller bottom is provided with the auxiliary tank of welding on the box outer wall, the box is installed on a side top of controller dorsad with the inside communicating water injection pipe in reservoir, roof one side of working bin is provided with the transmission pipe, the roof opposite side of working bin is installed and is driven transmission pipe pivoted motor, it has the fall way to peg graft in the transmission pipe, the top of fall way has cup jointed first nozzle.

The inventor considers that the technical scheme has the following defects: when the fire extinguishing device is used, water in the water storage bin is sprayed out from the first nozzle to extinguish a fire, the fire extinguishing device is difficult to move, a worker only can increase the water pressure in a pressurizing mode, so that the fire is extinguished through the water sprayed out from the first nozzle, and the phenomenon of water resource waste is caused to a greater degree in the mode.

SUMMERY OF THE UTILITY MODEL

In order to facilitate the removal of the fire-fighting mechanism, the fire-fighting water source is close to the fire scene, so as to reduce the phenomenon of water resource waste, the utility model provides a fire-fighting device in fire laboratory.

The utility model provides a pair of conflagration laboratory fire control unit adopts following technical scheme:

the utility model provides a conflagration laboratory fire control unit, includes first base block and second base block, first spout and second spout have been seted up in proper order to first base block upper surface top-down, third spout and fourth spout have been seted up in proper order to second base block upper surface top-down, the extending direction of first spout, second spout, third spout, fourth spout is unanimous, install the first party steel-pipe column of being connected with first spout slides on the first base block, install the second square steel-pipe column of being connected with the third spout slides on the second base block, be fixed with square steel-pipe beam between first party steel-pipe column and the second square steel-pipe column, install fire control mechanism on the square steel-pipe beam, install the drive assembly who orders about first party steel-pipe column and remove along the extending direction of first spout in the second spout.

The utility model discloses further set up to, drive assembly include with the fixed motor of the lateral wall of first party steel-pipe column one side, with the gear of the output shaft end fixing of motor and with the fixed and gear engagement's of second spout inner wall rack, the axial of gear is perpendicular with the extending direction of first spout, the length direction of rack is parallel with the extending direction of first spout.

The utility model is further arranged in that the lower end of the first square steel pipe column is provided with a first power-assisted assembly, the first power-assisted assembly comprises a first movable block fixed with the lower end of the first square steel pipe column and a first roller rotatably arranged at the bottom of the first movable block, and the bottom wall in the second chute is provided with a first track in rolling connection with the first roller; the second power assisting assembly is mounted at the lower end of the second square steel pipe column and comprises a second movable block fixed to the lower end of the second square steel pipe column and a second roller rotatably mounted at the bottom of the second movable block, and a second track in rolling connection with the second roller is formed in the inner bottom wall of the fourth sliding groove.

The utility model discloses further set up to, the rack is fixed with the interior roof of second spout.

The utility model discloses further set up to, fire control mechanism is including setting up in the water supply installation of first party steel-pipe column one side and the feed pipe that communicates with the water supply installation, the one end of feed pipe passes the position that first party steel-pipe column lateral wall is close to its bottom, the other end of feed pipe passes the position that first party steel-pipe column lateral wall is close to its top and extends to in the square steel tubular beam, fixed and the intercommunication has the shower head on the feed pipe lateral wall in the square steel tubular beam, the shower head passes the square steel tubular beam lateral wall.

The utility model discloses further set up as, all install first protection component on first party steel-pipe column and the second square steel-pipe column, first protection component includes the first fire prevention heated board that fits on first party steel-pipe column or the lateral wall of second square steel-pipe column, run through on the first fire prevention heated board and be provided with the first bolt of being connected with first fire prevention heated board rotation, first bolt and first party steel-pipe column lateral wall or the lateral wall threaded connection of second square steel-pipe column; the square steel tube beam is provided with a second protection assembly, the second protection assembly comprises a second fireproof insulation board arranged on the square steel tube beam and a second bolt which is arranged on the second fireproof insulation board in a penetrating mode and is connected with the second fireproof insulation board in a rotating mode, and the second bolt is in threaded connection with the square steel tube beam.

The utility model discloses further set up to, still install the subassembly that induced drafts on the square steel tubular beam, the subassembly that induced drafts is including setting up in the suction fan of second square steel tubular column one side and the tuber pipe fixed and the intercommunication with the air intake of suction fan, the lateral wall of second square steel tubular column one side is passed to the one end of tuber pipe, the other end of tuber pipe passes the position that second square steel tubular column lateral wall is close to its top and extends to in the square steel tubular beam, the tuber pipe is connected with collection petticoat pipe through the connecting pipe, the connecting pipe passes square steel tubular beam diapire.

The utility model discloses further set up to, the strengthening rib has all been welded to corner between square steel tubular beams tip and first party steel-pipe column and the second square steel-pipe column.

To sum up, the utility model discloses a following at least one useful technological effect:

1. in the utility model, in order to facilitate the fire extinguishing of the worker on the fire scene in the laboratory, the worker only needs to drive the first square steel pipe column to move along the extending direction of the first chute through the driving assembly, so that the square steel pipe beam and the second square steel pipe column synchronously move, thereby facilitating the worker to move the fire fighting mechanism to the fire scene, being beneficial to the timely fire extinguishing operation of the worker, and reducing the water waste phenomenon;

2. in the utility model, after the suction fan works, harmful smoke dust generated in the fire scene can be pumped away through the air pipe and the smoke collecting hood, the probability of the worker absorbing the harmful smoke dust is reduced, and the experimental safety is improved;

3. the utility model discloses in, the strengthening rib has all been welded to corner between square steel tubular beam tip and the first party steel-pipe column and the second square steel-pipe column to this has strengthened the stability of first party steel-pipe column, second square steel-pipe column and square steel tubular beam in the use.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present invention;

fig. 2 is a schematic view of the connection structure between the square steel pipe beam and the second protection assembly of the present invention.

Description of reference numerals: 1. a first base block; 11. a first chute; 12. a second chute; 2. a second base block; 21. a third chute; 22. a fourth chute; 3. a first steel pipe column; 4. a second square steel pipe column; 5. a square steel tubular beam; 6. a fire-fighting mechanism; 61. a water supply device; 62. a water supply pipe; 63. a shower head; 7. a drive assembly; 71. a motor; 72. a gear; 73. a rack; 8. a first power assist assembly; 81. a first movable block; 82. a first roller; 9. a second boost assembly; 91. a second movable block; 92. a second roller; 10. a first protection component; 101. a first fireproof insulation board; 102. a first bolt; 111. a second protection component; 1111. a second fireproof insulation board; 1112. a second bolt; 112. an air suction assembly; 1121. a suction fan; 1122. an air duct; 1123. a smoke collecting hood; 113. and (5) reinforcing ribs.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1-2, a fire fighting device for a fire disaster laboratory comprises a first base block 1 and a second base block 2, wherein a first chute 11 and a second chute 12 are sequentially arranged on the upper surface of the first base block 1 from top to bottom, a third chute 21 and a fourth chute 22, a first chute 11 and a second chute 12 are sequentially arranged on the upper surface of the second base block 2 from top to bottom, the extension directions of the third chute 21 and the fourth chute 22 are consistent, a first square steel pipe column 3 connected with the first chute 11 in a sliding mode is installed on the first base block 1, a second square steel pipe column 4 connected with the third chute 21 in a sliding mode is installed on the second base block 2, a square steel pipe beam 5 is fixed between the first square steel pipe column 3 and the second square steel pipe column 4, a fire-fighting mechanism 6 is installed on the square steel pipe beam 5, and a driving assembly 7 driving the first square steel pipe column 3 to move along the extension direction of the first chute 11 is installed in the second chute 12. For the scene of a fire in the staff to the laboratory put out a fire, the staff only needs to order about first square steel-pipe column 3 through drive assembly 7 and removes along the extending direction of first spout 11 to this makes square steel tubular beam 5 and 4 synchronous motion of second square steel-pipe column, thereby the staff of being convenient for removes fire control mechanism 6 to the scene of a fire department, is favorable to the staff in time to put out a fire the operation, has reduced the water waste phenomenon.

Further, the driving unit 7 includes a motor 71 fixed to a side wall of the first steel pipe column 3, a gear 72 fixed to an output shaft end of the motor 71, and a rack 73 fixed to an inner wall of the second chute 12 and engaged with the gear 72, an axial direction of the gear 72 is perpendicular to an extending direction of the first chute 11, and a longitudinal direction of the rack 73 is parallel to the extending direction of the first chute 11. When the first square steel pipe column 3 needs to be moved, a worker needs to start the first square steel pipe column, the motor 71 works and drives the gear 72 to rotate, and the gear 72 is meshed with the rack 73, so that the gear 72 moves along the length direction of the rack 73, and the motor 71, the first square steel pipe column 3, the square steel pipe beam 5 and the second square steel pipe column 4 all move synchronously, so that the fire fighting mechanism 6 moves to a fire scene.

Further, a first power assisting assembly 8 is mounted at the lower end of the first steel pipe column 3, the first power assisting assembly 8 comprises a first movable block 81 fixed with the lower end of the first steel pipe column 3 and a first roller 82 rotatably mounted at the bottom of the first movable block 81, and a first track (not shown in the figure) connected with the first roller 82 in a rolling manner is formed in the inner bottom wall of the second chute 12; the second assisting assembly 9 is installed at the lower end of the second square steel pipe column 4, the second assisting assembly 9 comprises a second movable block 91 fixed to the lower end of the second square steel pipe column 4 and a second roller 92 rotatably installed at the bottom of the second movable block 91, and a second rail (not shown in the figure) in rolling connection with the second roller 92 is arranged on the inner bottom wall of the fourth chute 22. The lower end of the first square steel pipe column 3 is in rolling connection with the first track through the first idler wheel 82 at the bottom of the first movable block 81, and the lower end of the second square steel pipe column 4 is in rolling connection with the second track through the second idler wheel 92 at the bottom of the second movable block 91, so that the resistance of the first square steel pipe column 3 and the second square steel pipe column 4 in the moving process is reduced.

Further, the rack 73 is fixed with the inner top wall of the second chute 12, so that the probability that sundries are gathered at the latch of the rack 73, and the gear 72 moves along the length direction of the rack 73 is influenced.

Further, fire control mechanism 6 is including setting up in the water supply installation 61 of first party steel-pipe column 3 one side and the feed pipe 62 that communicates with water supply installation 61, the position that first party steel-pipe column 3 lateral wall is close to its bottom is passed to the one end of feed pipe 62, the other end of feed pipe 62 passes first party steel-pipe column 3 lateral wall and is close to the position at its top and extend to in the square steel tubular beam 5, fixed and the intercommunication has shower head 63 on the feed pipe 62 lateral wall in the square steel tubular beam 5, shower head 63 passes the square steel tubular beam 5 lateral wall. After the fire fighting mechanism 6 is moved to the fire scene, the worker can perform the spraying fire extinguishing operation by the water supply pipe 62 and the spray header 63 only by passing through the water supply device 61.

Further, all install first protection component 10 on first party steel-pipe column 3 and the second square steel-pipe column 4, first protection component 10 is including the first fire prevention heated board 101 that pastes on first party steel-pipe column 3 or the 4 lateral walls of second square steel-pipe column, run through on the first fire prevention heated board 101 and be provided with the first bolt 102 of being connected with first fire prevention heated board 101 rotation, first bolt 102 and 3 lateral walls of first party steel-pipe column or the 4 lateral walls threaded connection of second square steel-pipe column. Install second protection subassembly 111 on square steel tubular beam 5, second protection subassembly 111 is including installing second fire prevention heated board 1111 on square steel tubular beam 5 and running through the second bolt 1112 that sets up on second fire prevention heated board 1111 and rotate the connection with second fire prevention heated board 1111, second bolt 1112 and square steel tubular beam 5 threaded connection. First fire prevention heated board 101 has all played good guard action to first side steel-pipe column 3 and second side steel-pipe column 4, and second fire prevention heated board 1111 has played good guard action to square steel tubular beam 5.

Further, still install air suction assembly 112 on the square steel tubular beam 5, air suction assembly 112 is including setting up in suction fan 1121 of second square steel tubular column 4 one side and the tuber pipe 1122 fixed and the intercommunication with the air intake of suction fan 1121, the lateral wall of second square steel tubular column 4 one side is passed to the one end of tuber pipe 1122, the other end of tuber pipe 1122 passes the position that second square steel tubular column 4 lateral wall is close to its top and extends to in the square steel tubular beam 5, tuber pipe 1122 is connected with collection petticoat pipe 1123 through the connecting pipe, the connecting pipe passes square steel tubular beam 5 diapire. After the suction fan 1121 works, harmful smoke and dust generated on a fire scene can be pumped away through the air pipe 1122 and the smoke collecting hood 1123, the probability that workers absorb the harmful smoke and dust is reduced, and the experimental safety is improved.

Furthermore, reinforcing ribs 113 are welded to corners between the end of the square steel tubular beam 5 and the first and second square steel tubular columns 3 and 4. All welded strengthening rib 113 in the corner between 5 tip of square steel tubular beam and first party steel-pipe column 3 and the second square steel-pipe column 4 to this stability of first party steel-pipe column 3, second square steel-pipe column 4 and square steel tubular beam 5 in the use has been strengthened.

The use principle of the embodiment is as follows: in order to facilitate the fire extinguishing of the fire scene in the laboratory by the staff, the staff needs to start, the motor 71 works and drives the gear 72 to rotate, and the gear 72 is meshed with the rack 73, so that the gear 72 moves along the length direction of the rack 73, and the motor 71, the first square steel pipe column 3, the square steel pipe beam 5 and the second square steel pipe column 4 move synchronously, so that the fire-fighting mechanism 6 moves to the fire scene, the fire extinguishing operation is facilitated for the staff to timely extinguish, and the phenomenon of water resource waste is reduced.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (8)

1. The utility model provides a conflagration laboratory fire control unit, characterized by: the fire-fighting concrete column comprises a first base block (1) and a second base block (2), wherein a first sliding groove (11) and a second sliding groove (12) are sequentially formed in the upper surface of the first base block (1) from top to bottom, a third sliding groove (21) and a fourth sliding groove (22) are sequentially formed in the upper surface of the second base block (2) from top to bottom, the extending directions of the first sliding groove (11), the second sliding groove (12), the third sliding groove (21) and the fourth sliding groove (22) are consistent, a first square steel pipe column (3) connected with the first sliding groove (11) in a sliding manner is installed on the first base block (1), a second square steel pipe column (4) connected with the third sliding groove (21) in a sliding manner is installed on the second base block (2), a square steel pipe beam (5) is fixed between the first square steel pipe column (3) and the second square steel pipe column (4), and a fire-fighting mechanism (6) is installed on the square steel pipe beam (5), and a driving assembly (7) for driving the first square steel pipe column (3) to move along the extending direction of the first sliding groove (11) is arranged in the second sliding groove (12).

2. A fire laboratory fire protection device as claimed in claim 1, wherein: the driving assembly (7) comprises a motor (71) fixed to the side wall of one side of the first steel pipe column (3), a gear (72) fixed to the end portion of an output shaft of the motor (71), and a rack (73) fixed to the inner wall of the second sliding chute (12) and meshed with the gear (72), the axial direction of the gear (72) is perpendicular to the extending direction of the first sliding chute (11), and the length direction of the rack (73) is parallel to the extending direction of the first sliding chute (11).

3. A fire laboratory fire protection device as claimed in claim 2, wherein: a first power-assisted assembly (8) is mounted at the lower end of the first square steel pipe column (3), the first power-assisted assembly (8) comprises a first movable block (81) fixed with the lower end of the first square steel pipe column (3) and a first roller (82) rotatably mounted at the bottom of the first movable block (81), and a first track in rolling connection with the first roller (82) is formed in the bottom wall of the second sliding groove (12); second helping hand subassembly (9) is installed to second square steel tubular column (4) lower extreme, second helping hand subassembly (9) include with second square steel tubular column (4) lower extreme fixed second movable block (91) and rotate and install in second gyro wheel (92) of second movable block (91) bottom, the second track of being connected with second gyro wheel (92) roll is seted up to bottom wall in fourth spout (22).

4. A fire laboratory fire protection device as claimed in claim 2, wherein: the rack (73) is fixed with the inner top wall of the second sliding chute (12).

5. A fire laboratory fire protection device as claimed in claim 1, wherein: fire control mechanism (6) are including setting up in water supply installation (61) of first side steel-pipe column (3) one side and feed pipe (62) with feed water installation (61) intercommunication, the one end of feed pipe (62) is passed first square steel-pipe column (3) lateral wall and is close to the position of its bottom, the other end of feed pipe (62) is passed first square steel-pipe column (3) lateral wall and is close to the position of its top and extend to in square steel tubular beam (5), fixed and the intercommunication has shower head (63) on feed pipe (62) lateral wall in square steel tubular beam (5), shower head (63) pass square steel tubular beam (5) lateral wall.

6. A fire laboratory fire protection device as claimed in claim 5, wherein: the first protection component (10) is mounted on each of the first square steel pipe column (3) and the second square steel pipe column (4), each first protection component (10) comprises a first fireproof heat-insulation plate (101) attached to the side wall of the first square steel pipe column (3) or the second square steel pipe column (4), a first bolt (102) rotatably connected with the first fireproof heat-insulation plate (101) penetrates through the first fireproof heat-insulation plate (101), and the first bolt (102) is in threaded connection with the side wall of the first square steel pipe column (3) or the side wall of the second square steel pipe column (4); install second protection subassembly (111) on square steel tubular beam (5), second protection subassembly (111) including install second fire prevention heated board (1111) on square steel tubular beam (5) and run through second bolt (1112) that set up on second fire prevention heated board (1111) and rotate with second fire prevention heated board (1111) and be connected, second bolt (1112) and square steel tubular beam (5) threaded connection.

7. A fire laboratory fire protection device as claimed in claim 5, wherein: still install on square steel tubular beam (5) and induced draft subassembly (112), induced draft subassembly (112) including set up in suction fan (1121) of second square steel tubular column (4) one side and with tuber pipe (1122) that the air intake of suction fan (1121) is fixed and communicate, the lateral wall of second square steel tubular column (4) one side is passed to the one end of tuber pipe (1122), the other end of tuber pipe (1122) passes second square steel tubular column (4) lateral wall and is close to the position at its top and extend to in square steel tubular beam (5), tuber pipe (1122) are connected with collection petticoat pipe (1123) through the connecting pipe, the connecting pipe passes square steel tubular beam (5) diapire.

8. A fire laboratory fire protection device as claimed in claim 1, wherein: reinforcing ribs (113) are welded at corners between the end part of the square steel pipe beam (5) and the first square steel pipe column (3) and between the end part of the square steel pipe beam and the second square steel pipe column (4).

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