Multifunctional integrated fire-fighting equipment
Technical Field
The invention relates to the technical field of fire fighting, in particular to multifunctional integrated fire fighting equipment.
Background
Fire-fighting equipment is the machine that is arranged in conflagration to put out a fire as the name implies, and at present, most markets, mines, schools etc. all are equipped with fire-fighting equipment to play the prevention in dry weather, because the article under the irradiation of sun, take place the phenomenon of catching a fire, can be timely eliminate it, thereby can effectually avoid causing big fire because of the small fire, cause the problem of a large amount of materials by the burning to take place, but prior art has following defect:
when a wood factory catches fire, whether oil or wood catches fire cannot be timely judged in the first time, when water liquid fire fighting equipment is dragged out, when the oil storage tank catches fire, once water is poured onto oil fire, the oil fire is splashed everywhere by the floating of the water, the burning range is enlarged, the contact area of the fire and air is increased, the fire burns more and more vigorously, and therefore the fire disaster is easy to well happen.
Summary of the invention
Technical problem to be solved
Aiming at the defects of the prior art, the invention provides multifunctional integrated fire fighting equipment, which solves the problems that when a wood factory catches fire, whether oil or wood catches fire cannot be judged timely at the first time, and when water liquid fire fighting equipment is dragged out, once water is poured onto the oil fire when an oil storage tank catches fire, the water flows to float and bring burning oil to flee everywhere, the combustion range is expanded, the contact area between the fire and air is increased, the fire is more and more vigorous, and the fire is easy to burn and cause a great accident.
(II) technical scheme
In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a multi-functional integrated fire-fighting equipment, its structure includes conveyer pipe, control valve, liquid storage pot, universal wheel carrier, connecting pipe standing groove, watch-dog, handrail frame, connecting end seat, the connecting end seat passes through the conveyer pipe and is connected with the liquid storage pot, the control valve is installed in the liquid storage pot upper end, universal wheel carrier upper end welds in the liquid storage pot lower extreme, the watch-dog embedding is installed in connecting pipe standing groove front end, handrail frame mechanical connection is in the liquid storage pot below, the connecting pipe standing groove is installed in handrail frame inboard and through the bolt fastening, the liquid storage pot includes stock solution mechanism, circulator, protective housing, stock solution mechanism installs inside protective housing, the circulator runs through in the protective housing right side, the circulator is installed in stock solution mechanism middle part and fixed connection.
Preferably, stock solution mechanism includes foam chamber, one-way discharge orifice, liquid chamber, through-hole, foam filling hole, slip ring, liquid filling hole, one-way discharge orifice is equipped with two altogether, and imbeds respectively and install on foam chamber and liquid chamber, and one-way discharge orifice outer loop is connected with foam chamber, liquid chamber through the electric welding simultaneously, the through-hole is located between foam chamber and the liquid chamber, foam filling hole and foam chamber casting moulding as an organic whole, liquid chamber and liquid filling hole casting moulding as an organic whole, the slip ring is equipped with threely altogether, and with foam chamber, liquid chamber fixed connection, the slip ring is the ring structure.
Preferably, the one-way flow hole includes magnetism suction disc, buffer spring, support shell, fender ball, the magnetism suction disc welds mutually with support shell upper end, the magnetism suction disc is connected with the fender ball through buffer spring, buffer spring is located inside the support shell, the magnetism suction disc is the ring structure, the magnetism suction disc upper end is scribbled oily one side rubber layer, and is anodal magnetism.
Preferably, the rotator includes bearing frame, axis of rotation, carousel, the axis of rotation is installed inside the bearing frame, and with bearing frame inner circle fixed connection, the axis of rotation embedding is installed and is connected through the electric welding in the carousel left side, the axis of rotation is the cylinder structure.
Preferably, the carousel includes grab handle, fixed disk, mount, the grab handle embedding is installed in the fixed disk right side, the fixed disk is integrative casting shaping with the mount, the fixed disk is the cylinder structure.
As preferred, protective housing includes guide frame groove, magnetism spread groove, connection port, shell, spacing fixture block, fixed disk lid, magnetism spread groove embedding is installed in the shell upper end, the guide frame groove is equipped with three altogether, and welds mutually with the shell inner wall, connection port and shell are integrated into one piece casting, the fixed disk lid is installed in the shell right side, spacing fixture block is equipped with two altogether, and installs respectively in the shell right side, one deck rubber has been paintd to magnetism spread groove lower extreme, and is the negative pole magnetism.
(III) advantageous effects
The invention provides a multifunctional integrated fire fighting device. The method has the following beneficial effects:
1. according to the invention, the sliding ring and the guide frame groove are arranged, and the sliding ring and the guide frame groove are matched with each other, so that the rotating track of the liquid storage mechanism can be controlled, and the phenomenon that the rotating track of the liquid storage mechanism is changed to cause that the one-way flow hole cannot be effectively matched and butted with the magnetic connecting groove is avoided.
2. According to the invention, the rotator is arranged, the fixed disc is driven to rotate by rotating the handle, so that the rotating shaft rotates around the bearing seat, the foam chamber rotates upwards, the magnetic connecting groove is matched and butted with the magnetic suction plate, after the butting is finished, the control valve is started, the foam in the foam chamber is extracted through the suction pump on the connecting end seat, the fire source is sprayed on the connecting pipeline guided by the port, the fire source is extinguished, the oil fire source can be effectively extinguished, and the problem that the fire on the oil liquid is accidentally sprinkled through a water source when the fire is extinguished is solved, so that the fire is expanded.
Drawings
FIG. 1 is a schematic structural diagram of a multifunctional integrated fire fighting device according to the present invention;
FIG. 2 is a front view of the reservoir of the present invention;
FIG. 3 is a front view of the liquid storage mechanism of the present invention;
FIG. 4 is a schematic perspective view of a liquid storage mechanism according to the present invention;
FIG. 5 is a schematic structural view of a one-way orifice in elevation in accordance with the present invention;
FIG. 6 is a front view of the rotator of the present invention;
FIG. 7 is a perspective structural view of the turntable according to the present invention;
FIG. 8 is a front view of the protective housing of the present invention;
fig. 9 is a three-dimensional structural schematic diagram of the protective housing of the present invention.
In the figure: a delivery pipe-1, a control valve-2, a liquid storage tank-3, a universal wheel carrier-4, a connecting pipe placing groove-5, a monitor-6, a handrail frame-7, a connecting end seat-8, a liquid storage mechanism-31, a rotator-32, a protective shell-33, a foam chamber-311, a one-way flow hole-312, a liquid chamber-313, a through hole-314, a foam injection hole-315, a sliding ring-316, a liquid injection hole-317, a magnetic suction plate-31A, a buffer spring-31B, a bracket shell-31C, a baffle ball-31D, a bearing seat-321, a rotating shaft-322, a rotating disc-323, a hand grip-32A, a fixed disc-32B, a fixed frame-32C, a guide frame groove-331, a magnetic connecting groove-332, a magnetic connecting groove, A connecting port-333, a shell-334, a limit fixture block-335 and a fixed disc cover-336.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1 to 9, an embodiment of the present invention provides a multifunctional integrated fire fighting apparatus, which includes a conveying pipe 1, a control valve 2, a liquid storage tank 3, a universal wheel frame 4, a connecting pipe placement groove 5, a monitor 6, a handrail frame 7, and a connecting end seat 8, wherein the connecting end seat 8 is connected to the liquid storage tank 3 through the conveying pipe 1, the control valve 2 is installed at the upper end of the liquid storage tank 3, the upper end of the universal wheel frame 4 is welded at the lower end of the liquid storage tank 3, the monitor 6 is embedded in the front end of the connecting pipe placement groove 5, the handrail frame 7 is mechanically connected to the lower side of the liquid storage tank 3, the connecting pipe placement groove 5 is installed inside the handrail frame 7 and fixed by bolts, the liquid storage tank 3 includes a liquid storage mechanism 31, a rotator 32, and a protective casing 33, the liquid storage mechanism 31 is installed inside the protective casing 33, the rotator 32 is installed in the middle of the liquid storage mechanism 31 and is fixedly connected with the liquid storage mechanism.
The liquid storage mechanism 31 includes a foam chamber 311, two unidirectional flow holes 312, a liquid chamber 313, a through hole 314, a foam injection hole 315, a sliding ring 316 and a liquid injection hole 317, the number of the unidirectional flow holes 312 is two, the two unidirectional flow holes are respectively embedded and installed on the foam chamber 311 and the liquid chamber 313, an outer ring of the unidirectional flow holes 312 is connected with the foam chamber 311 and the liquid chamber 313 through electric welding, the through hole 314 is arranged between the foam chamber 311 and the liquid chamber 313, the foam injection hole 315 and the foam chamber 311 are integrally cast, the liquid chamber 313 and the liquid injection hole 317 are integrally cast, the sliding ring 316 is three, and is fixedly connected with the foam chamber 311 and the liquid chamber 313, the sliding ring 316 is in a circular ring structure, and when the foam chamber 311 and the liquid chamber 313 rotate under the external force, the sliding ring 316 can limit the foam chamber 311 and the liquid chamber 313, so as to avoid the foam chamber 311, liquid, The liquid chamber 313 is misaligned during rotation.
The one-way flow hole 312 comprises a magnetic suction plate 31A, a buffer spring 31B, a support shell 31C and a baffle ball 31D, the upper ends of the magnetic suction plate 31A and the support shell 31C are welded, the magnetic suction plate 31A is connected with the baffle ball 31D through the buffer spring 31B, the buffer spring 31B is located inside the support shell 31C, the magnetic suction plate 31A is of a circular ring structure, the upper end of the magnetic suction plate 31A is coated with an oil side rubber layer and is of positive magnetism, and the buffer spring 31B is matched with the baffle ball 31D, so that the flow of the foam chamber 311 and the flow of the liquid chamber 313 can be controlled, and the flow in the foam chamber 311 and the flow in the liquid chamber 313 are in a sealing effect under the effect of no external force.
Wherein, circulator 32 includes bearing frame 321, axis of rotation 322, carousel 323, axis of rotation 322 is installed inside bearing frame 321, and with bearing frame 321 inner ring fixed connection, axis of rotation 322 embedding is installed and is connected through the electric welding on the left of carousel 323, axis of rotation 322 is the cylinder structure, bearing frame 321 can reduce axis of rotation 322 when rotatory, to the produced frictional force of protective housing 33 to cause axis of rotation 322 and protective housing 33 inner wall to produce the problem of wearing and tearing and take place.
Wherein, carousel 323 includes hand grab handle 32A, fixed disk 32B, mount 32C, hand grab handle 32A embedding is installed on fixed disk 32B right side, fixed disk 32B is integrative casting shaping with mount 32C, fixed disk 32B is the cylinder structure, when assembling, installs fixed frame 32C embedding in protective housing 33 left side to play and carry out the fixed effect of activity to axis of rotation 322.
The protective shell 33 includes a guide frame groove 331, magnetic connecting grooves 332, connecting ports 333, a shell 334, a limiting fixture block 335, and a fixed disk cover 336, the magnetic connecting grooves 332 are embedded in the upper end of the shell 334, the guide frame grooves 331 are three in number and welded to the inner wall of the shell 334, the connecting ports 333 and the shell 334 are cast integrally, the fixed disk cover 336 is installed on the right side of the shell 334, the limiting fixture blocks 335 are two in number and are installed on the right side of the shell 334 respectively, a layer of rubber is coated on the lower end of the magnetic connecting grooves 332 and is of negative magnetism, the magnetic connecting grooves 332 are used for matching and butting with the magnetic attraction plate 31A, when the rubber layer at the lower end of the magnetic connecting grooves 332 and the rubber layer at the upper end of the magnetic attraction plate 31A are in contact with each other, the sealing effect can be improved, and the magnetic attraction plate 31A and the magnetic connecting, can adsorb each other to improve the fixity of connecting hole.
The specific working process is as follows:
when a fire occurs in a wood factory, and when a worker pushes fire fighting equipment to the fire factory, by observing what substances are ignited by the fire source, when the ignited substances are found to be oil, the rotator 32 is controlled, the handle 32A is rotated to drive the fixed disk 32B to rotate, so that the rotating shaft 322 rotates around the bearing seat 321, the liquid storage mechanism 31 fixed on the rotating shaft 322 rotates accordingly, the foam chamber 311 rotates upwards, the magnetic connecting groove 332 is matched and butted with the magnetic suction plate 31A, and when a rubber layer at the lower end of the magnetic connecting groove 332 is contacted with a rubber layer at the upper end of the magnetic suction plate 31A, the sealing effect can be improved, meanwhile, the magnetic suction plate 31A and the magnetic connecting groove 332 are both magnetic and can be mutually adsorbed, so that the fixing property of the connecting holes is improved, after the connection is finished, the control valve 2 is started, and the internal foam is extracted through the suction pump on the connecting end seat 8, when the wood is found to be on fire, the fixed disc 32B is driven to rotate reversely by the reverse hand-holding handle 32A, the liquid chamber 313 is rotated upwards, the magnetic connecting groove 332 is matched and butted with the magnetic suction plate 31A, when the wood is completely butted, the internal water source is pumped by the pump on the connecting end seat 8 by starting the control valve 2, the fire source is sprayed on the connecting pipeline guided by the port to extinguish the fire source on the wood, the sliding ring 316 is matched with the guide frame groove 331, the rotating track of the liquid storage mechanism 31 can be controlled, the phenomenon that the rotating track of the liquid storage mechanism 31 is changed to cause that the one-way flow hole 312 cannot be effectively matched and butted with the magnetic connecting groove 332 is avoided, and the buffer spring 31B is matched with the baffle ball 31D, therefore, the flow rates of the foam chamber 311 and the liquid chamber 313 can be controlled so that the flow rates in the foam chamber 311 and the liquid chamber 313 are sealed without the application of external force.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.