Multifunctional portable hydraulic fire-fighting smoke exhaust fan device
Technical Field
The invention relates to a multifunctional portable hydraulic fire-fighting smoke exhauster device, belonging to the field of fire-fighting facilities.
Background
The fire-fighting facilities refer to fixed facilities such as an automatic fire alarm system, an indoor fire hydrant, an outdoor fire hydrant and the like in a building. The automatic fire fighting facilities are divided into electric system automatic facilities and water system automatic facilities.
The electric fire safety detection is based on modern physical phenomena of heat radiation, acoustic emission, electromagnetic emission and the like in the operation process of electric facilities, adopts international advanced high and new technology instruments and equipment, and combines a traditional inspection method to carry out comprehensive quantitative monitoring on the electric facilities. Therefore, the existence, the danger degree and the accurate position of the electric fire hidden danger can be reflected more comprehensively, scientifically and accurately, and corresponding rectification measures can be provided in time, so that the hidden danger can be eliminated, and the electric fire accident can be avoided.
The smoke exhaust fan is a machine which can rapidly exhaust peculiar smell, high temperature and oil smoke gas generated in the food processing process in a kitchen, and the machine is characterized by good high temperature resistance and high efficiency.
The fan is of a centrifugal fan, an axial flow fan, a centrifugal fan and axial flow air, and the fan is suitable for small and large machines according to the space size and the arrangement condition of the smoke exhaust hood.
However, the smoke exhaust machine in the prior art cannot enable the device to adjust the height of the mobile equipment according to different users during working, cannot fit the users to enable the displacement to be more convenient, and cannot seal the device when not in use, so that the service life of the device cannot be prolonged.
Disclosure of Invention
Aiming at the defects in the prior art, the invention aims to provide a multifunctional portable hydraulic fire-fighting smoke exhauster device to solve the problems that the device cannot adjust the height of mobile equipment according to different users when the smoke exhauster works, the displacement is more convenient due to the incapability of fitting the users, and the service life of the device cannot be prolonged due to the incapability of sealing the device when the smoke exhauster is not used.
In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a multi-functional convenient type water conservancy fire prevention and exhaust fan device, its structure includes: an air supply frame, a device shell, an intelligent regulation spraying smoke exhaust device, a power device, a conveying device, a motor groove, a mounting frame and a movable wheel, the motor groove and the motor groove are fixedly connected into an integrated structure on the left side of the upper surface of the device shell in a welding mode, the mounting rack is positioned at the center of the front surface of the device shell and is fixedly connected with the front surface of the device shell, the air supply rack is positioned on the inner side surface of the mounting rack, the moving wheels are arranged on the lower side surface of the device shell and movably connected together, the intelligent regulation spraying smoke exhaust device is positioned on the rear side surface of the device shell and fixedly installed and connected together and is arranged in the device shell, the power device is arranged on the inner side surface of the upper surface of the motor groove and is connected together by clearance fit, the conveying device is positioned on the right side surface of the power device and is in fit connection with the power device;
the intelligent regulation spraying smoke exhaust device is provided with a movable spraying device, a support regulating device, a movable opening and closing device, an auxiliary stress device, a power regulating device and a jacking pressurizing device;
the device comprises a power adjusting device, a support adjusting device, an auxiliary stress device, a support opening and closing device, a support pressing device, a support spraying device and a movable spraying device, wherein the power adjusting device and the support adjusting device are movably connected and matched together on the bottom side surface in the device, the support adjusting device and the auxiliary stress device are positioned in the center of the upper surface of the power adjusting device, the support adjusting device and the auxiliary stress device are meshed and connected together in a vertical mode, the support adjusting device and the auxiliary stress device are connected into an integrated structure in a hinge connection mode, the movable spraying device and the upper surface of the support pressing device are positioned on the left side surface of the support pressing device and.
Furthermore, the movable spraying device is provided with a pressurizing cabin, a middle rotating wheel, a movable belt, a planetary wheel, a central shaft, a sun wheel, a conveying belt, a gear frame, a blade frame, a connecting support and a water outlet seat.
Further, the wandering star wheels are parallel to each other and are fixedly connected into an integrated structure through a joint support, the sun wheel is positioned on the inner side surfaces of the wandering star wheels, the outer side surfaces of the sun wheel are wrapped by the conveying belt and are connected with the conveying belt in a clearance fit mode, the central shaft is positioned at the central point of the sun wheel and is movably connected with the sun wheel, the water outlet seat is connected with the inner side surfaces of the wandering star wheels in a welded mode, the blade frame is movably connected with the front surface of the sun wheel in a movable mode through the central shaft, the inner side surfaces of the gear frame are provided with two wandering star wheels, the two wandering star wheels are movably connected together in a meshed mode, and the joint support is perpendicular to the upper surface of the pressurizing cabin and is connected with the pressurizing cabin in a.
Further, the support adjusting device is provided with a movable handle, a side link, a support frame, a sliding column, a sliding block, a spring column, a clamping frame and a matched rack, the sliding column and the sliding column are fixedly connected together in a welding mode on the lower surface of the movable handle, the support frame is installed on the upper surface of the sliding block in a hinge connection mode, the sliding block and the sliding column are fixedly connected into an integrated structure, the sliding column wraps the outer side surface of the spring column and is movably connected together, the support frame is fixedly connected with the rack in a matched mode below the side link, the clamping frame is folded and installed on the lower side surface of the side link, and the matched rack is fixedly installed on the lower surface of the spring column.
Furthermore, the movable opening and closing device is provided with a poking rod, a rotating frame, a rotating wheel, a rack, an opening and closing frame, a rotating frame, a gear and a push rod, wherein the rotating frame is connected and installed on the front surface of the rotating wheel in a hinged connection mode, the push rod and the rotating rod are parallel to each other and are fixedly connected into an integrated structure through the poking rod positioned in the centers of the push rod and the rotating rod, the rack is positioned on the front surface of the push rod and is fixedly connected with the push rod, the gear is positioned on the upper surface of the rack, the gear and the rack are meshed and connected together, the rotating frame and the gear are of a concentric structure and form the integrated structure simultaneously, and the opening and closing frame.
Furthermore, the auxiliary stress device is provided with a rotating wheel, a top moving frame, a mounting rod, an auxiliary bracket, a matching wheel frame, a mounting bracket, a rotating seat, a movable column and a joint frame, the mounting rod is movably mounted on the inner side surface of the rotating cluster, the mounting rod and the rotating cluster form an integrated structure, the auxiliary bracket is positioned in the center of the lower surface of the mounting rod and is hinged with the mounting rod, the mounting brackets are positioned on the front and rear side surfaces of the auxiliary bracket and are mechanically connected together, the matching wheel carrier is movably arranged on the inner side surface of the mounting bracket, the joint frame is fixedly arranged on the rear side surface of the mounting rod and is connected with the movable column, the movable column is fixedly connected with the rotating seat, the jacking frame is movably connected with the left surface of the mounting rod, and the jacking frame is connected with the front surface of the rotating wheel in a hinged mode.
Furthermore, the power adjusting device is provided with an adjusting column, an electromagnet, a jacking column, a pressing pad, a bracket, an adjusting rod, a movable block, a matching wheel, a driving wheel, an adjusting seat and an output shaft, the jacking column is arranged on the front surface of the electromagnet and is movably connected with the front surface of the electromagnet, the jacking column is movably connected with the adjusting rod through a pressing pad positioned in front of the jacking column, the adjusting rod wraps the outer side surface of the adjusting column and is embedded into the inner side surface of the adjusting seat, the bracket is movably arranged on the outer side surface of the adjusting column in an up-and-down parallel manner, the movable block is positioned on the front surface of the bracket and is connected with the bracket in a hinge connection way, the movable block is embedded in the driving wheel, the matching wheel is positioned on the lower surface of the driving wheel and is meshed and connected together, the output shaft and the adjusting column are connected into an integrated structure on the same axis through welding.
Furthermore, the jacking and pressurizing device is provided with a matching shaft, a gear set, a gear carrier, a matching wheel, a lifting frame, a rotating seat, mounting blocks, a top plate and a gear slot, wherein the gear set is positioned on the lower surface of the gear slot and fixedly connected with the gear carrier to form an integrated structure, the lifting frame is positioned on the upper surface of the matching wheel and meshed with the gear carrier, the matching wheel is mounted on the upper surface of the gear carrier, the rotating seat is positioned on the upper side surface of the lifting frame and fixedly connected with the upper side surface of the lifting frame, the mounting blocks are perpendicular to the lower surface of the top plate, and the two mounting blocks are parallel to each other, and the lifting frame is.
Advantageous effects
The invention relates to a multifunctional portable hydraulic fire-fighting smoke exhaust ventilator device, which is characterized in that equipment is electrified, then a driving wheel rotates, the driving wheel is meshed with a matching wheel below the equipment, so that power is transmitted out through a movable belt wrapping the matching wheel through the rotation of the matching wheel, a sun wheel rotates under the driving of the movable belt, a planetary wheel positioned on the outer side of the sun wheel rotates under the driving of the sun wheel, a water outlet seat arranged on the planetary wheel annularly sprays water mist under the rotation of the planetary wheel, the spraying efficiency can be improved by the two planetary wheels, the rescue can be faster, when pressurization is needed, a support at the front end of an adjusting column pointed by an adjusting rod is ejected by utilizing a repulsive force generated by the electrification of an electromagnet to eject the support to utilize the support to enable an output shaft to obtain the rotation power of the driving wheel, and then a gear set rotates, the upper matching wheel is clamped at the limit of the tooth socket to rotate and the lifting frame arranged above the matching wheel moves in the jacking mode to ascend and descend, the top plate is ejected out to pressurize and flow out water flow in the pressurizing cabin, after the water flow flows out, power continues to drive the upper rotating wheel through matching shaft transmission, the rotating frame arranged above the rotating wheel can push the poking rod to form a certain angle to enable the rack electric gear arranged above to open and close the opening and closing frame to adjust the water flow to enter and exit, when the rotating wheel moves, the poking rod can be adjusted to move in a labor-saving and better manner according to the size of different people, the sliding column is pulled by the movable handle under the action of inertia to pull the sliding block, the connecting frame on the sliding block can be clamped to clamp the upper rotating wheel arranged below the matching rack, the rotating wheel can push the jacking frame to press a plurality of mounting rods below in the rotating process, the installation pole makes the auxiliary stand of below press down at the spacing of roating seat and moves the installing support, comes adjusting device's removal angle according to the height like this, can the quick travel and laborsaving, just so can reach the induced-draft fan and can make the device can adjust the height of mobile device according to the user of difference when carrying out the work, can agree with the user of service and make the convenience that the displacement is more to thereby can be when not using the purpose that sealing device can't improve the life of device.
Drawings
Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
fig. 1 is a schematic structural diagram of a multifunctional portable hydraulic fire-fighting smoke exhauster device according to the present invention.
Fig. 2 is a schematic structural diagram of the intelligent regulation spraying smoke exhaust device of the invention.
Fig. 3 is a detailed schematic view of the component structure of the intelligent regulation spraying smoke exhaust device.
Fig. 4 is a first schematic view of the intelligent regulation spray fume extractor of the present invention.
Fig. 5 is a schematic view of the intelligent regulation spraying smoke exhaust device of the present invention.
In the figure: an air supply frame-1, a device shell-2, an intelligent regulation spraying smoke exhaust device-3, a power device-4, a conveying device-5, a motor groove-6, a mounting frame-7, a moving wheel-8, a movable spraying device-31, a bracket regulating device-32, a movable opening and closing device-33, an auxiliary stress device-34, a power regulating device-35, a top-moving pressurizing device-36, a pressurizing cabin-311, a transfer wheel-312, a movable belt-313, a free-wheel-314, a central shaft-315, a sun wheel-316, a conveying belt-317, a gear frame-318, a blade frame-319, a connecting bracket-3110, a water outlet seat-3111, a movable handle-321, a connecting rod-322, a supporting frame-323, a sliding column-324, a sliding column, A sliding block-325, a spring column-326, a clamping frame-327, a matching rack frame-328, a poking rod-331, a rotating frame-332, a rotating wheel-333, a rack-334, an opening and closing frame-335, a rotating frame-336, a gear-337, a top rod-338, a rotating wheel-341, a top moving frame-342, a mounting rod-343, an auxiliary bracket-344, a matching wheel frame-345, a mounting bracket-346, a rotating seat-347, a movable column-348, a joint frame-349, a regulating column-351, an electromagnet-352, a top moving column-353, a pressing pad-354, a bracket-355, a regulating rod-356, a movable block-357, a matching wheel-358, a driving wheel-359, a regulating seat-3510, an output shaft-3511, a matching shaft-361, a poking rod-331, a rotating, Gear set-362, gear carrier-363, cooperation wheel-364, lifting rack-365, rotating seat-366, mounting block-367, top plate-368 and tooth groove-369.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.
Referring to fig. 1-5, the present invention provides a technical solution of a multifunctional portable hydraulic fire-fighting smoke exhauster device: the structure includes: an air supply frame 1, a device shell 2, an intelligent regulation spraying smoke exhaust device 3, a power device 4, a conveying device 5, a motor groove 6, a mounting frame 7 and a moving wheel 8, the motor groove 6 is positioned at the left side of the upper surface of the device shell 2 and fixedly connected into an integrated structure in a welding mode, the mounting bracket 7 is located at the center of the front surface of the device housing 2 and is fixedly coupled thereto, the air supply frame 1 is arranged on the inner side surface of the mounting frame 7, the moving wheels 8 are arranged on the lower side surface of the device shell 2 and are movably connected together, the intelligent regulation spraying smoke exhaust device 2 is positioned on the rear side surface of the device shell 2, is fixedly installed and connected together and is arranged in the device shell 2, the power device 4 is arranged on the inner side surface of the upper surface of the motor groove 6 and is connected together by clearance fit, the conveying device 5 is positioned on the right side surface of the power device 4 and is in fit connection with the power device 4;
the intelligent regulation spraying smoke exhaust device 3 is provided with a movable spraying device 31, a support adjusting device 32, a movable opening and closing device 33, an auxiliary stress device 34, a power adjusting device 35 and a jacking pressurizing device 36;
the power adjusting device 35 is movably connected and matched with the bottom side surface of the device, the jacking and pressurizing device 36 is positioned in the center of the upper surface of the power adjusting device 35 and is meshed and connected together, the support adjusting device 32 and the auxiliary force-bearing device 34 are vertically vertical and are connected into an integrated structure in a hinge connection mode, the movable opening and closing device 33 is positioned on the left side surface of the jacking and pressurizing device 36 and is embedded into the jacking and pressurizing device 36, the movable spraying device 31 and the upper surface of the jacking and pressurizing device 36 are simultaneously connected with the jacking and pressurizing device 36 in a penetrating way, the movable spraying device 31 is provided with a pressurizing chamber 311, a transfer wheel 312, a movable belt 313, a planetary wheel 314, a central shaft 315, a sun wheel 316, a conveying belt 317, a gear frame 318, a blade frame 319, a connecting support 3110 and a water outlet seat 3111, the planetary wheels 314 are parallel to each other and are fixedly connected into an integrated structure through a connecting support 3110, the sun wheel 316 is located on the inner side surface of the planetary wheel 314 and is engaged with the sun wheel 316 to form an integrated structure, the conveying belt 317 wraps the outer side surface of the sun wheel 316 and is connected with the sun wheel 316 in a clearance fit mode, the central shaft 315 is located at the central point of the sun wheel 316 and is movably connected with the sun wheel 316, the water outlet seat 3111 is connected with the inner side surface of the planetary wheel 314 in a penetrating mode and is welded together, the blade frame 319 is movably mounted on the front surface of the sun wheel 316 through the central shaft 315 and is movably connected with the front surface of the sun wheel 316, the inner side surface of the gear frame 318 is provided with two planetary wheels 314 which are movably connected together in a meshing mode, the connecting support 3110 is perpendicular to the upper surface of the pressurizing cabin 311 and is connected with the pressurizing cabin 311 in a penetrating mode, and the support adjusting device 32 is provided, The sliding handle 321 comprises a sliding column 324, a sliding block 325, a spring column 326, a clamping frame 327 and a matching rack frame 328, the sliding column 324 and the sliding column 324 are fixedly connected together in a welding mode on the lower surface of the movable handle 321, the supporting frame 323 is installed on the upper surface of the sliding block 325 in a hinge connection mode, the sliding block 325 and the sliding column 324 are fixedly connected into an integrated structure, the sliding column 324 wraps the outer side surface of the spring column 326 and is movably connected together, the supporting frame 323 is fixedly connected with the matching rack frame 328 through a connecting frame rod 322 located at the front end of the supporting frame 323 and located below the supporting frame 323, the clamping frame 327 is installed on the lower side surface of the connecting frame rod 322 in a folding mode, the matching rack frame 328 is fixedly installed on the lower surface of the spring column 326, the movable opening and closing device 33 is provided with a poking rod 331, a rotating frame 332, a rotating wheel, A top bar 338, the rotating frame 332 is connected and installed on the front surface of the rotating wheel 333 by a hinge connection, the top bar 338 and the rotating bar 332 are parallel to each other and are fixedly connected into an integrated structure by a shifting bar 331 located at the center of the top bar 338, the rack 334 is located on the front surface of the top bar 338 and is fixedly connected with the top bar 338, the gear 337 is located on the upper surface of the rack 334 and is engaged and connected together, the rotating frame 336 and the gear 337 are concentric structures and are simultaneously formed into an integrated structure, the opening and closing frame 335 is located on the front surface of the rotating frame 336 and is hinged together, the auxiliary force-receiving device 34 is provided with a rotating wheel 341, a top moving frame 342, a mounting bar 343, an auxiliary bracket 344, a matching wheel frame 345, a mounting bracket 346, a rotating base 347, a movable column 348 and a joint frame 349, the mounting bar 343 is movably installed on the inner side surface of, the auxiliary bracket 344 is located at the center of the lower surface of the mounting rod 343 and is hinged to the mounting rod 343, the mounting bracket 346 is located on the front and rear side surfaces of the auxiliary bracket 344 and is mechanically connected to the same, the engaging wheel frame 345 is movably mounted on the inner side surface of the mounting bracket 346, the engaging frame 349 is fixedly mounted on the rear side surface of the mounting rod 343 and is connected to the movable post 348, the movable post 348 is fixedly connected to the rotating seat 347, the ejecting frame 342 is movably connected to the left side surface of the mounting rod 343, the ejecting frame 342 is connected to the front surface of the rotating wheel 341 by means of a hinge connection, the power adjusting device 35 is provided with an adjusting post 351, an electromagnet 352, an ejecting post 353, a pressing pad 354, a bracket 355, an adjusting rod 356, a movable block 357, an engaging wheel 358, a driving wheel 359, an adjusting seat 3510 and an output shaft 3511, the ejecting post 353 is movably connected to the front surface of the electromagnet 352, the jacking cylinder 353 is movably connected with an adjusting rod 355 through a pressing pad 354 positioned in front of the jacking cylinder, the adjusting rod 355 wraps the outer side surface of the adjusting cylinder 351 and is embedded into the inner side surface of the adjusting seat 3510, the support 356 is movably arranged on the outer side surface of the adjusting cylinder 351 in an up-and-down parallel mode, the movable block 357 is positioned on the front surface of the support 355 and is connected with the support 355 through a hinge connection mode, the movable block 357 is embedded into the interior of the driving wheel 359, the matching wheel 358 is positioned on the lower surface of the driving wheel 359, the two parts are meshed and connected together, the output shaft 3511 and the adjusting cylinder 351 are connected into an integrated structure on the same axis through welding, the jacking and pressurizing device 36 is provided with a matching shaft 361, a gear set 362, a gear carrier 363, a matching wheel 364, a lifting frame 365, a rotating seat 366, a mounting block 367, a top plate 368 and a tooth groove 369, the gear set 362 is positioned, the lifting frame 365 is positioned on the upper surface of the matching wheel 364 and is meshed and connected together, the matching wheel 364 is arranged on the upper surface of the gear frame 363, the rotating seat 366 is positioned on the upper side surface of the lifting frame 365 and is fixedly connected together, the mounting blocks 367 are perpendicular to the lower surface of the top plate 368, the two mounting blocks 367 are parallel to each other, and the lifting frame 365 is fixedly connected with the top plate 368 through the mounting blocks 367 positioned on the upper surface of the lifting frame 365.
The power adjusting device 35 of the present invention refers to a power component device that outputs and adjusts power.
When the device is used, after the device is powered on, the driving wheel 359 rotates, the driving wheel 359 is meshed with the lower matching wheel 358, so that power is transmitted out through the movable belt 313 wrapping the matching wheel 358 through the rotation of the matching wheel 358, at the moment, the sun wheel 316 rotates under the drive of the movable belt 313, the planetary wheel 314 positioned outside the sun wheel rotates under the drive of the sun wheel 313, the water outlet seat 3111 arranged on the planetary wheel 314 annularly sprays water mist under the rotation of the planetary wheel 314, the spraying efficiency can be improved by the two planetary wheels 314, so that rescue can be faster, when pressurization is needed, the support 355 at the front end of the adjusting column 351, which is pointed by pushing the adjusting rod 356 out, is pushed by the repulsive force generated by the electrification of the electromagnet 352, so that the output shaft 3511 obtains the rotation power of the driving wheel 359 by the support 355, therefore, the gear set 362 rotates, the upper matching wheel 364 is clamped and rotated at the limit of the tooth slot 369, the lifting frame 365 arranged above the matching wheel 364 moves to ascend and descend in a jacking way, the top plate 368 ejects out to pressurize and flow water in the pressurizing cabin 311, after the water flows out, power is continuously transmitted by the matching shaft 361 to drive the upper rotating wheel 333 to rotate, the rotating frame 332 above the rotating wheel 333 pushes the poking rod 331 to form a certain angle so that the upper rack 334 is electrically driven by the gear 337 to open and close the opening and closing frame 335 to adjust the water flow, when the water flows, the angle can be adjusted according to the sizes of different people to save labor and better move, the sliding column 324 is pulled by the action of inertia to pull the sliding block 325, and the connecting rod 322 on the sliding block is clamped so that the lower matching rack 328 clamps the upper rotating wheel 341, the rotating wheel 341 pushes the top movable frame 342 to press the lower mounting rod 343 in the rotating process, and the mounting rod 343 is limited by the rotating seat 347 so that the lower auxiliary bracket 344 presses the mounting bracket 346, thus the moving angle of the device can be adjusted according to the height, and the device can be moved quickly and is labor-saving.
The invention solves the problems that the device can not adjust the height of the mobile equipment according to different users when the smoke exhauster works, the device can not be matched with the users to enable the displacement to be more convenient, and the device can not be sealed when the smoke exhauster is not used, so that the service life of the device can not be prolonged.
While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention 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. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.