阅读说明：本技术 一种消防系统增压设备 (Supercharging equipment of fire extinguishing system ) 是由 刘国祥 于 2021-06-01 设计创作，主要内容包括：本发明涉及消防系统领域,更具体的说是一种消防系统增压设备。可以实现对消防系统设备的增压。包括动力组件、双向离合组件、调节组件、增压组件,随着单向转盘四的转动,通过带动着单向转盘三进行间断式的动力输出,进而带动着圈线辊子转动,进而使得圈线辊子带动着连接线运动,进而在驱动弹簧弹力作用下,使得内端活塞下移,进而将活塞套管中的空气压入喷水设备,为防止喷水设备爆裂,进而内端活塞每次下移的较小的距离；同时,随着单向转盘三反转,进而通过单向转盘三带动着圈线辊子快速反转,进而实现快速吸气过程。(The invention relates to the field of fire fighting systems, in particular to a supercharging device of a fire fighting system. The pressurization of the fire fighting system equipment can be realized. The device comprises a power component, a bidirectional clutch component, an adjusting component and a pressurizing component, wherein the unidirectional turntable is driven to carry out intermittent power output by three along with the rotation of the unidirectional turntable, so that a coil roller is driven to rotate, the coil roller drives a connecting wire to move, an inner end piston moves downwards under the action of the elastic force of a driving spring, air in a piston sleeve is pressed into water spraying equipment, and the inner end piston moves downwards at each time by a smaller distance in order to prevent the water spraying equipment from bursting; meanwhile, along with the three-way reversing of the one-way turntable, the coil roller is driven to quickly reverse through the three-way turntable, and then the quick air suction process is realized.)

1. The utility model provides a fire extinguishing system supercharging equipment, includes power component (1), two-way clutch module (2), adjusting part (3), pressure boost subassembly (4), its characterized in that: the power assembly (1) is connected with the bidirectional clutch assembly (2), the adjusting assembly (3) is connected with the supercharging assembly (4), and the adjusting assembly (3) is connected with the bidirectional clutch assembly (2).

2. A fire fighting system pressurization device as recited in claim 1, wherein: the power assembly (1) comprises a floor (1-1), an input motor (1-2), a first driving disc (1-3), a second driving disc (1-4), a first support (1-5), a first limiting support (1-6), an adjusting driving disc (1-7), a manual rotating rod (1-8), a driving straight tooth (1-9), a middle-end driving wheel (1-10), a driving wheel rotating rod (1-11), a rotating rod support (1-12), an arc-shaped limiting rod (1-13), a driving limiting rod (1-14) and a driving limiting rod boss (1-15), wherein the input motor (1-2) is fixedly connected with the floor (1-1), the first driving disc (1-3) is fixedly connected with an output shaft of the input motor (1-2), a first driving disc (1-3) is rotationally connected with a floor (1-1), a second driving disc (1-4) is rotationally connected with the floor (1-1), the first driving disc (1-3) is connected with the second driving disc (1-4) through a middle-end driving wheel (1-10), a rotating rod (1-11) of the driving wheel is fixedly connected with a rotating rod bracket (1-12), the middle-end driving wheel (1-10) is rotationally connected with a rotating rod (1-11) of the driving wheel, an arc-shaped limiting rod (1-13) is fixedly connected with the rotating rod bracket (1-12), a driving limiting rod (1-14) is fixedly connected with the rotating rod bracket (1-12), a boss (1-15) of the driving limiting rod is fixedly connected with the driving limiting rod (1-14), and the rotating rod bracket (1-12) is slidably connected with a first limiting bracket (1-6), a first limiting support (1-6) is fixedly connected with a floor (1-1), an adjusting driving disc (1-7) is fixedly connected with a driving limiting rod (1-14), the adjusting driving disc (1-7) is rotatably connected with a first driving disc (1-3), a manual rotating rod (1-8) is rotatably connected with the floor (1-1), a driving straight tooth (1-9) is fixedly connected with the manual rotating rod (1-8), and the driving straight tooth (1-9) is in meshing transmission with the adjusting driving disc (1-7).

3. A fire fighting system pressurization device as recited in claim 1, wherein: the bidirectional clutch component (2) comprises a clutch support (2-1), a clutch transmission belt I (2-2), a clutch plate I (2-3), a clutch plate II (2-4), a clutch plate sliding rod I (2-5), a clutch push spring I (2-6), a one-way turntable I (2-7), a one-way clamping groove I (2-8), a one-way turntable III (2-9), a clutch transmission belt II (2-10), a one-way turntable II (2-11), a one-way turntable I (2-12), a clutch plate IV (2-13), a clutch plate III (2-14), a clutch push spring II (2-15), a clutch plate sliding rod II (2-16), a one-way clamping groove II (2-17), a one-way clamping rod II (2-18), a one-way clamping rod push spring II (2-19), A one-way clamping rod I (2-20) and a one-way clamping rod I (2-21), wherein the clutch plate I (2-3) is matched and connected with a clutch plate II (2-4), a clutch plate slide rod I (2-5) is in sliding connection with the clutch plate II (2-4), a clutch push spring I (2-6) is in sleeve connection with the clutch plate slide rod I (2-5), the clutch plate slide rod I (2-5) is in rotating connection with a clutch bracket (2-1), a one-way rotary disc IV (2-7) is fixedly connected with the clutch plate slide rod I (2-5), the clutch push spring I (2-6) is arranged between the clutch plate II (2-4) and the clutch bracket (2-1), the one-way rotary disc III (2-9) is in rotating connection with the one-way rotary disc IV (2-7), a one-way clamping groove I (2-8) is arranged on the one-way rotary disc IV (2-7), the one-way clamping rod I (2-20) is connected with the one-way clamping groove I (2-8) in a matched mode, the one-way clamping rod I (2-20) is connected with the one-way turntable I (2-7) in a sliding mode, the one-way clamping rod I (2-21) is arranged between the one-way clamping rod I (2-20) and the one-way turntable I (2-7), the clutch transmission belt II (2-10) is connected between the one-way turntable III (2-9) and the one-way turntable II (2-11), the one-way turntable II (2-11) is connected with the one-way turntable I (2-12) in a rotating mode, the one-way turntable I (2-12) is connected with the clutch support (2-1) in a rotating mode, the one-way clamping groove II (2-17) is arranged on the one-way turntable II (2-11), the one-way clamping rod II (2-18) is connected with the one-way clamping groove II (2-17) in a matched mode, a one-way clamping rod II (2-18) is connected with the one-way rotating disc I (2-12) in a sliding way, a one-way clamping rod pushing spring II (2-19) is arranged between the one-way clamping rod II (2-18) and the one-way rotating disc I (2-12), a clutch plate sliding rod II (2-16) is fixedly connected with the one-way rotating disc I (2-12), a clutch pushing spring II (2-15) is connected with the clutch plate sliding rod II (2-16) in a sleeved way, a clutch plate IV (2-13) is connected with the clutch plate sliding rod II (2-16) in a sliding way, a clutch pushing spring II (2-15) is arranged between the clutch plate IV (2-13) and a clutch bracket (2-1), a clutch plate III (2-14) is connected with the clutch plate IV (2-13) in a matching way, one end of a clutch transmission belt I (2-2) is connected with the clutch plate III (2-14), the clutch support (2-1) is fixedly connected with the floor (1-1), the driving disc II (1-4) is fixedly connected with the clutch plate I (2-3), and the clutch transmission belt I (2-2) is connected with the driving disc II (1-4).

4. A fire fighting system pressurization device as recited in claim 1, wherein: the adjusting assembly (3) comprises a hexagonal rod (3-1), a driving push rod (3-2), a driving slider (3-3), a driving swing rod (3-4), an inner end clamping groove A (3-5), a terminal (3-6), an inner end clamping rod A (3-7) and an inner end clamping rod push spring A (3-8), the driving push rod (3-2) is contacted with the hexagonal rod (3-1), the driving slider (3-3) is fixedly connected with the driving push rod (3-2), the driving swing rod (3-4) is in sliding connection with the driving slider (3-3), the inner end clamping groove A (3-5) is arranged on the driving swing rod (3-4), the terminal (3-6) is fixedly connected with the driving swing rod (3-4), the inner end clamping rod A (3-7) is in matching connection with the clamping groove A (3-5), the inner end clamping rod A (3-7) is connected with the driving slider (3-3) in a sliding mode, the inner end clamping rod pushing spring A (3-8) is arranged between the inner end clamping rod A (3-7) and the driving slider (3-3), the hexagonal rod (3-1) is fixedly connected with the clutch plate I (2-3), and the driving swing rod (3-4) is rotatably connected with the support I (1-5).

5. A fire fighting system pressurization device as recited in claim 1, wherein: the pressurizing assembly (4) comprises a coiling roller (4-1), a connecting wire (4-2), a piston sleeve (4-3), an air suction sleeve (4-4), an upper end cover (4-5), a lower end cover (4-6), a one-way plug (4-7), a one-way plug tension spring (4-8), a one-way plug (4-9), a one-way plug tension spring (4-10), an inner end piston (4-11) and a driving spring (4-12), wherein the connecting wire (4-2) is connected with the coiling roller (4-1), the inner end piston (4-11) is fixedly connected with the connecting wire (4-2), the inner end piston (4-11) is slidably connected with the piston sleeve (4-3), and the air suction sleeve (4-4) is fixedly connected with the piston sleeve (4-3), an upper end cover (4-5), the lower end cover (4-6) is fixedly connected with the piston sleeve (4-3), the one-way plug I (4-7) is in sliding connection with the air suction sleeve (4-4), the one-way plug tension spring I (4-8) is arranged and fixedly connected between the one-way plug I (4-7) and the air suction sleeve (4-4), the one-way plug II (4-9) is in sliding connection with the lower end cover (4-6), the one-way plug tension spring II (4-10) is arranged and fixedly connected between the one-way plug II (4-9) and the lower end cover (4-6), the coiling roller (4-1) is fixedly connected with the one-way turntable III (2-9), and the driving spring (4-12) is arranged between the inner end piston (4-11) and the upper end cover (4-5).

6. A fire fighting system pressurization device as recited in claim 1, wherein: the lower end covers (4-6) are externally connected with water spraying equipment.

Technical Field

The invention relates to the field of fire fighting systems, in particular to a supercharging device of a fire fighting system.

Background

The supercharging equipment of the fire fighting system is a common equipment in the field of fire fighting systems, but the function of the supercharging equipment of the general fire fighting system is single.

Disclosure of Invention

The invention aims to provide a fire fighting system supercharging device which can realize supercharging of fire fighting system devices.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a fire extinguishing system supercharging equipment, includes power component, two-way clutch assembly, adjusting part, pressure boost subassembly, power component is connected with two-way clutch assembly, and adjusting part is connected with pressure boost subassembly, and adjusting part is connected with two-way clutch assembly.

As a further optimization of the technical scheme, the invention relates to a fire fighting system supercharging device, wherein a power component comprises a floor, an input motor, a first driving disc, a second driving disc, a first bracket, a first limit bracket, an adjusting driving disc, a manual rotating rod, a driving straight tooth, a middle-end driving wheel, a rotating rod of a driving wheel, a rotating rod bracket, an arc-shaped limiting rod, a driving limiting rod and a boss of the driving limiting rod, wherein the input motor is fixedly connected with the floor, the first driving disc is fixedly connected with an output shaft of the input motor, the first driving disc is rotatably connected with the floor, the second driving disc is rotatably connected with the floor, the first driving disc is connected with the second driving disc through the middle-end driving wheel, the rotating rod of the driving wheel is fixedly connected with the rotating rod bracket, the arc-shaped limiting rod is fixedly connected with the rotating rod bracket, the driving limiting rod is fixedly connected with the rotating rod bracket, and the boss of the driving limiting rod is fixedly connected with the driving limiting rod, the rotating rod support is connected with the first limiting support in a sliding mode, the first limiting support is fixedly connected with a floor, the adjusting driving disc is fixedly connected with the driving limiting rod and is rotationally connected with one driving disc, the manual rotating rod is rotationally connected with the floor, the driving straight teeth are fixedly connected with the manual rotating rod, and the driving straight teeth are in meshing transmission with the adjusting driving disc.

As a further optimization of the technical scheme, the invention relates to a fire fighting system supercharging device, wherein a bidirectional clutch component comprises a clutch bracket, a first clutch transmission belt, a first clutch plate, a second clutch plate, a first clutch plate slide bar, a first clutch push spring, a fourth one-way rotary disc, a first one-way clamping groove, a third one-way rotary disc, a second one-way rotary disc, a first one-way rotary disc, a fourth clutch plate, a third clutch plate, a second clutch push spring, a second clutch plate slide bar, a second one-way clamping groove, a second one-way clamping bar push spring, a first one-way clamping bar and a first one-way clamping bar push spring, wherein the first clutch plate is in fit connection with the second clutch plate, the first clutch plate slide bar is in sliding connection with the second clutch plate, the first clutch plate slide bar is in sleeve connection with the first clutch plate slide bar, the first clutch plate slide bar is in rotary connection with the clutch bracket, the fourth one-way clamping groove is in fixed connection with the first clutch plate slide bar, and the first clutch push spring is arranged between the second clutch plate and the clutch bracket, a one-way rotary disc III is rotationally connected with a one-way rotary disc IV, a one-way clamping groove I is arranged on the one-way rotary disc IV, a one-way clamping rod I is matched and connected with the one-way clamping groove I, the one-way clamping rod I is connected with the one-way rotary disc IV in a sliding way, a one-way clamping rod push spring I is arranged between the one-way clamping rod I and the one-way rotary disc IV, a clutch transmission belt II is connected between the one-way rotary disc III and the one-way rotary disc II, the one-way rotary disc II is rotationally connected with the one-way rotary disc II, the one-way clamping groove II is arranged on the one-way rotary disc II, the one-way clamping rod II is matched and connected with the one-way clamping groove II, the one-way clamping rod II is connected with the one-way rotary disc I in a sliding way, the clutch plate slide rod II is fixedly connected with the one-way rotary disc I, the clutch plate slide rod II is connected with the clutch plate slide rod II in a sleeve way, and the clutch plate slide rod II is connected with the clutch plate slide rod II in a sliding way, the clutch pushing spring II is arranged between the clutch plate IV and the clutch support, the clutch plate III is connected with the clutch plate IV in a matching mode, one end of the clutch transmission belt I is connected with the clutch plate III, the clutch support is fixedly connected with the floor, the driving disc II is fixedly connected with the clutch plate I, and the clutch transmission belt I is connected with the driving disc II.

As a further optimization of the technical scheme, the fire fighting system supercharging device comprises an adjusting assembly, wherein the adjusting assembly comprises a hexagonal rod, a driving push rod, a driving slider, a driving swing rod, an inner end clamping groove a, a terminal, an inner end clamping rod a and an inner end clamping rod pushing spring a, the driving push rod is in contact with the hexagonal rod, the driving slider is fixedly connected with the driving push rod, the driving swing rod is in sliding connection with the driving slider, the inner end clamping groove a is formed in the driving swing rod, the terminal is fixedly connected with the driving swing rod, the inner end clamping rod a is in matched connection with the inner end clamping groove a, the inner end clamping rod a is in sliding connection with the driving slider, the inner end clamping rod pushing spring a is arranged between the inner end clamping rod a and the driving slider, the hexagonal rod is fixedly connected with a clutch plate, and the driving swing rod is in rotating connection with a support.

As a further optimization of the technical scheme, the invention provides a supercharging device of a fire fighting system, wherein the supercharging component comprises a loop line roller, a connecting line, a piston sleeve, an air suction sleeve, an upper end cover, a lower end cover, a one-way plug I, a one-way plug tension spring I, a one-way plug II, a one-way plug tension spring II, an inner end piston and a driving spring, the connecting line is connected with the loop line roller, the inner end piston is fixedly connected with the connecting line, the inner end piston is slidably connected with the piston sleeve, the air suction sleeve is fixedly connected with the piston sleeve, the upper end cover and the lower end cover are fixedly connected with the piston sleeve, the one-way plug I is slidably connected with the air suction sleeve, the one-way plug tension spring I is arranged and fixedly connected between the one-way plug I and the air suction sleeve, the one-way plug II is slidably connected with the lower end cover, the one-way plug II is arranged and fixedly connected between the one-way plug II and the lower end cover, the coil roller is fixedly connected with the one-way turntable III, and the driving spring is arranged between the inner end piston and the upper end cover.

As a further optimization of the technical scheme, the lower end cover of the supercharging equipment of the fire fighting system is externally connected with water spraying equipment.

The supercharging equipment of the fire fighting system has the beneficial effects that:

according to the fire fighting system supercharging equipment, with the rotation of the one-way turntable four, the three-way turntable is driven to carry out intermittent power output, so that the coil roller is driven to rotate, the coil roller drives the connecting wire to move, the inner end piston moves downwards under the elastic force of the driving spring, air in the piston sleeve is pressed into the water spraying equipment, and the inner end piston moves downwards at each time by a smaller distance in order to prevent the water spraying equipment from bursting; meanwhile, along with the three-way reversing of the one-way turntable, the coil roller is driven to quickly reverse through the three-way turntable, and then the quick air suction process is realized.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a first schematic structural diagram of the power assembly 1 of the present invention;

FIG. 4 is a schematic structural diagram II of the power assembly 1 of the present invention;

FIG. 5 is a third schematic structural view of the power assembly 1 of the present invention;

FIG. 6 is a fourth schematic structural view of the power assembly 1 of the present invention;

FIG. 7 is a first structural schematic diagram of the bi-directional clutch assembly 2 of the present invention;

FIG. 8 is a second structural schematic view of the bi-directional clutch assembly 2 of the present invention;

FIG. 9 is a first schematic view of the structure of the adjusting assembly 3 of the present invention;

FIG. 10 is a second schematic structural view of the adjusting assembly 3 of the present invention;

FIG. 11 is a first schematic view of the construction of the pressurizing assembly 4 of the present invention;

fig. 12 is a schematic structural diagram of the supercharging assembly 4 of the present invention.

In the figure: a power assembly 1; 1-1 of a floor; inputting a motor 1-2; a first driving disc 1-3; driving discs II 1-4; 1-5 of a first bracket; 1-6 parts of a limiting bracket I; adjusting a driving disc 1-7; 1-8 of a manual rotating rod; 1-9 of driving straight teeth; a middle-end transmission wheel 1-10; 1-11 of a rotating rod of a driving wheel; 1-12 of a rotating rod bracket; 1-13 of an arc-shaped limiting rod; driving the limiting rods 1-14; driving the limiting rod boss 1-15; a bidirectional clutch assembly 2; a clutch support 2-1; a first clutch transmission belt 2-2; 2-3 of a clutch plate I; 2-4 of a clutch plate II; 2-5 of a clutch plate slide bar; a clutch push spring I is 2-6; 2-7 parts of a unidirectional rotating disc; 2-8 of a one-way clamping groove I; 2-9 parts of a unidirectional rotating disc; 2-10 of a clutch transmission belt II; 2-11 parts of a one-way turntable; 2-12 parts of a one-way turntable; clutch plates four 2-13; clutch plates three 2-14; a clutch push spring II 2-15; a clutch plate sliding rod II 2-16; 2-17 of a one-way clamping groove II; 2-18 of a one-way clamping rod II; a second one-way clamping rod push spring 2-19; 2-20 parts of a one-way clamping rod I; a one-way clamping rod push spring I2-21; an adjustment assembly 3; a hexagonal rod 3-1; a driving push rod 3-2; 3-3 of a driving slider; 3-4 of a driving swing rod; the inner end is provided with a clamping groove A3-5; terminals 3-6; the inner end clamping rod A3-7; the inner end clamping rod push spring A3-8; a pressurizing assembly 4; a loop roller 4-1; a connecting line 4-2; a piston sleeve 4-3; 4-4 of a suction sleeve; 4-5 parts of an upper end cover; 4-6 parts of a lower end cover; 4-7 of a one-way plug; 4-8 of a one-way plug tension spring I; 4-9 parts of a one-way plug II; 4-10 of a one-way plug tension spring II; inner end pistons 4-11.

Detailed Description

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

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 12, and a supercharging device of a fire fighting system includes a power assembly 1, a bidirectional clutch assembly 2, an adjusting assembly 3, and a supercharging assembly 4, where the power assembly 1 is connected to the bidirectional clutch assembly 2, the adjusting assembly 3 is connected to the supercharging assembly 4, and the adjusting assembly 3 is connected to the bidirectional clutch assembly 2.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-12, and the embodiment will be further described, wherein the power assembly 1 includes a floor 1-1, an input motor 1-2, a first driving disk 1-3, a second driving disk 1-4, a first bracket 1-5, a first limiting bracket 1-6, an adjusting driving disk 1-7, a manual rotating rod 1-8, a straight driving tooth 1-9, a middle-end driving wheel 1-10, a rotating rod 1-11, a rotating rod bracket 1-12, an arc-shaped limiting rod 1-13, a driving limiting rod 1-14, and a boss 1-15 of the driving limiting rod, the input motor 1-2 is fixedly connected with the floor 1-1, the first driving disk 1-3 is fixedly connected with an output shaft of the input motor 1-2, the first driving disk 1-3 is rotatably connected with the floor 1-1, a driving disc II 1-4 is rotatably connected with a floor 1-1, a driving disc I1-3 is connected with a driving disc II 1-4 through a middle end driving wheel 1-10, a driving wheel rotating rod 1-11 is fixedly connected with a rotating rod support 1-12, a middle end driving wheel 1-10 is rotatably connected with a driving wheel rotating rod 1-11, an arc limiting rod 1-13 is fixedly connected with a rotating rod support 1-12, a driving limiting rod 1-14 is fixedly connected with a rotating rod support 1-12, a driving limiting rod boss 1-15 is fixedly connected with a driving limiting rod 1-14, a rotating rod support 1-12 is slidably connected with a limiting support 1-6, a limiting support I1-6 is fixedly connected with a floor 1-1, and a regulating driving disc 1-7 is fixedly connected with a driving limiting rod 1-14, an adjusting driving disk 1-7 is rotatably connected with a driving disk I1-3, a manual rotating rod 1-8 is rotatably connected with a floor 1-1, a driving straight tooth 1-9 is fixedly connected with the manual rotating rod 1-8, and the driving straight tooth 1-9 is meshed with the adjusting driving disk 1-7 for transmission.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 12, and the present embodiment further describes the first embodiment, where the bidirectional clutch assembly 2 includes a clutch bracket 2-1, a clutch transmission belt one 2-2, a clutch plate one 2-3, a clutch plate two 2-4, a clutch plate slide bar one 2-5, a clutch push spring one 2-6, a one-way rotary disk four 2-7, a one-way slot one 2-8, a one-way rotary disk three 2-9, a clutch transmission belt two 2-10, a one-way rotary disk two 2-11, a one-way rotary disk one 2-12, a clutch plate four 2-13, a clutch plate three 2-14, a clutch push spring two 2-15, a clutch plate slide bar two 2-16, a one-way slot two 2-17, a one-way clamping bar two 2-18, a one-way clamping bar push spring two 2-19, a clutch plate slide bar two 2-8, a one-way clamping bar two 2-11, a one-12, a clutch plate slide bar push spring, a clutch plate slide bar two-13, a clutch plate slide bar 2-14, a clutch plate push spring, a clutch plate push, A one-way clamping rod I2-20 and a one-way clamping rod push spring I2-21, wherein the clutch plate I2-3 is matched and connected with a clutch plate II 2-4, a clutch plate slide rod I2-5 is in sliding connection with the clutch plate II 2-4, a clutch push spring I2-6 is in sleeve connection with the clutch plate slide rod I2-5, the clutch plate slide rod I2-5 is in rotating connection with a clutch bracket 2-1, a one-way rotary disc IV 2-7 is fixedly connected with the clutch plate slide rod I2-5, the clutch push spring I2-6 is arranged between the clutch plate II 2-4 and the clutch bracket 2-1, a one-way rotary disc III 2-9 is in rotating connection with a one-way rotary disc IV 2-7, a one-way clamping groove I2-8 is arranged on the one-way rotary disc IV 2-7, and a one-way clamping rod I2-20 is matched and connected with a one-way clamping groove I2-8, one-way clamping rod I2-20 is in sliding connection with one-way rotating disc II 2-7, one-way clamping rod push spring I2-21 is arranged between one-way clamping rod I2-20 and one-way rotating disc IV 2-7, clutch transmission belt II 2-10 is connected between one-way rotating disc III 2-9 and one-way rotating disc II 2-11, one-way rotating disc II 2-11 is in rotating connection with one-way rotating disc I2-12, one-way rotating disc I2-12 is in rotating connection with clutch bracket 2-1, one-way clamping groove II 2-17 is arranged on one-way rotating disc II 2-11, one-way clamping rod II 2-18 is in matching connection with one-way clamping groove II 2-17, one-way clamping rod II 2-18 is in sliding connection with one-way rotating disc I2-12, one-way clamping rod push spring II 2-19 is arranged between one-way clamping rod II 2-18 and one-12, the clutch plate slide bar II 2-16 is fixedly connected with the one-way rotating disc I2-12, the clutch push spring II 2-15 is in sleeve connection with the clutch plate slide bar II 2-16, the clutch plate IV 2-13 is in sliding connection with the clutch plate slide bar II 2-16, the clutch push spring II 2-15 is arranged between the clutch plate IV 2-13 and the clutch support 2-1, the clutch plate III 2-14 is in matched connection with the clutch plate IV 2-13, one end of the clutch transmission belt I2-2 is connected with the clutch plate III 2-14, the clutch support 2-1 is fixedly connected with the floor 1-1, the driving disc II 1-4 is fixedly connected with the clutch plate I2-3, and the clutch transmission belt I2-2 is connected with the driving disc II 1-4.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 12, and the embodiment further describes the first embodiment, where the adjusting assembly 3 includes a hexagonal rod 3-1, a driving push rod 3-2, a driving slider 3-3, a driving swing rod 3-4, an inner end clamping groove A3-5, a terminal 3-6, an inner end clamping rod A3-7, and an inner end clamping rod push spring A3-8, the driving push rod 3-2 contacts with the hexagonal rod 3-1, the driving slider 3-3 is fixedly connected with the driving push rod 3-2, the driving swing rod 3-4 is slidably connected with the driving slider 3-3, an inner end clamping groove A3-5 is disposed on the driving swing rod 3-4, the terminal 3-6 is fixedly connected with the driving swing rod 3-4, and an inner end clamping rod A3-7 is connected with an inner end clamping groove A3-5, the inner end clamping rod A3-7 is connected with the driving slider 3-3 in a sliding mode, the inner end clamping rod push spring A3-8 is arranged between the inner end clamping rod A3-7 and the driving slider 3-3, the hexagonal rod 3-1 is fixedly connected with the clutch plate I2-3, and the driving swing rod 3-4 is connected with the support I1-5 in a rotating mode.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1-12, and the embodiment further describes a first embodiment, where the pressure boost assembly 4 includes a loop wire roller 4-1, a connection wire 4-2, a piston sleeve 4-3, a suction sleeve 4-4, an upper end cap 4-5, a lower end cap 4-6, a one-way plug first 4-7, a one-way plug tension spring first 4-8, a one-way plug second 4-9, a one-way plug tension spring second 4-10, an inner end piston 4-11, and a driving spring 4-12, the connection wire 4-2 is connected with the loop wire roller 4-1, the inner end piston 4-11 is fixedly connected with the connection wire 4-2, the inner end piston 4-11 is slidably connected with the piston sleeve 4-3, the suction sleeve 4-4 is fixedly connected with the piston sleeve 4-3, the upper end cover 4-5 and the lower end cover 4-6 are fixedly connected with the piston sleeve 4-3, the one-way plug I4-7 is in sliding connection with the air suction sleeve 4-4, the one-way plug tension spring I4-8 is arranged and fixedly connected between the one-way plug I4-7 and the air suction sleeve 4-4, the one-way plug II 4-9 is in sliding connection with the lower end cover 4-6, the one-way plug tension spring II 4-10 is arranged and fixedly connected between the one-way plug II 4-9 and the lower end cover 4-6, the loop wire roller 4-1 is fixedly connected with the one-way turntable III 2-9, and the driving spring 4-12 is arranged between the inner end piston 4-11 and the upper end cover 4-5;

with the swinging of the driving swing rod 3-4 in the next period, the hexagonal rod 3-1 is further rotated again, and the hexagonal rod 3-1 drives the one-way turntable 2-7 to perform intermittent power output; then, with the rotation of the one-way turntable four 2-7, the three one-way turntable three 2-9 is driven to carry out discontinuous power output, so that the coil roller 4-1 is driven to rotate, the coil roller 4-1 drives the connecting wire 4-2 to move, the inner end piston 4-11 is driven to move downwards under the action of the elastic force of the driving spring 4-12, the air in the piston sleeve 4-3 is pressed into the water spraying equipment, and the inner end piston 4-11 moves downwards at each time by a small distance to prevent the water spraying equipment from bursting; meanwhile, the coil roller 4-1 is driven to rotate reversely by the unidirectional rotating disc III 2-9 along with the reverse rotation of the unidirectional rotating disc III 2-9, so that the rapid air suction process is realized.

The sixth specific implementation mode:

the present embodiment is described below with reference to fig. 1 to 12, and the present embodiment further describes the first embodiment, and the lower end caps 4 to 6 are externally connected with a water spraying device.

The invention relates to a supercharging device of a fire fighting system, which has the working principle that:

when the device is used, the input motor 1-2 is started, the input motor 1-2 drives the driving disc I1-3 to rotate, the driving disc I1-3 drives the middle-end driving wheel 1-10 to move, the middle-end driving wheel 1-10 drives the driving disc II 1-4 to move, and power output is performed through the driving disc II 1-4; meanwhile, the manual rotating rod 1-8 is rotated manually, the driving straight teeth 1-9 are driven to rotate by the manual rotating rod 1-8, the adjusting driving disk 1-7 is driven to rotate by the driving straight teeth 1-9, the driving limiting rods 1-14 are driven to move by the adjusting driving disk 1-7, the rotating rod supports 1-12 are driven to move by the driving limiting rods 1-14, the rotating rod supports 1-11 of the driving wheel are driven to move by the rotating rod supports 1-12, the rotating rod 1-11 of the driving wheel is driven to move, the middle-end driving wheel 1-10 is driven to move by the rotating rod 1-11 of the driving wheel, and the output speed of the driving disk II 1-4 is changed; the driving disc II 1-4 rotates to drive the clutch plate I2-3 to move, the clutch plate II 2-4 is driven to move through the clutch plate I2-3, the clutch plate II 2-4 drives the clutch plate sliding rod I2-5 to move, the clutch plate sliding rod I2-5 drives the one-way rotating disc IV 2-7 to move, the one-way clamping groove I2-8 is matched and connected with the one-way clamping rod I2-20, the one-way rotating disc III 2-9 is driven to rotate, and power output of single steering is facilitated; meanwhile, when the direction of the power output by the input motor 1-2 is changed, the clutch transmission belt I2-2 is driven to move by the driving disc II 1-4 through the transmission relationship disclosed above, the clutch plate III 2-14 is driven to move by the clutch transmission belt I2-2, the clutch plate IV 2-13 is driven to move by the clutch plate III 2-14, the clutch plate sliding rod II 2-16 is driven to move by the clutch plate IV 2-13, the one-way rotary disc I2-12 is driven to move by the clutch plate sliding rod II 2-16, the one-way clamping groove II 2-17 is connected with the one-way clamping rod II 2-18 in a matching manner, the one-way rotary disc II 2-11 is driven to rotate, and the clutch transmission belt II 2-10 is driven to move by the one-way rotary disc II 2-11, then the clutch transmission belt II 2-10 drives the one-way turntable III 2-9 to rotate reversely; meanwhile, with the rotation of the one-way turntable four 2-7, the hexagonal rod 3-1 is driven to rotate through the one-way turntable four 2-7, but with the rotation of the hexagonal rod 3-1, under the obstruction of the driving push rod 3-2, the hexagonal rod 3-1 is further enabled to stop for a period of time discontinuously when rotating for a certain angle, and with the swing of the driving swing rod 3-4 in the next period, the hexagonal rod 3-1 is further enabled to rotate again, and then the one-way turntable four 2-7 is driven through the hexagonal rod 3-1 to carry out discontinuous power output; then, with the rotation of the one-way turntable four 2-7, the three one-way turntable three 2-9 is driven to carry out discontinuous power output, so that the coil roller 4-1 is driven to rotate, the coil roller 4-1 drives the connecting wire 4-2 to move, the inner end piston 4-11 is driven to move downwards under the action of the elastic force of the driving spring 4-12, the air in the piston sleeve 4-3 is pressed into the water spraying equipment, and the inner end piston 4-11 moves downwards at each time by a small distance to prevent the water spraying equipment from bursting; meanwhile, the coil roller 4-1 is driven to rotate reversely by the unidirectional rotating disc III 2-9 along with the reverse rotation of the unidirectional rotating disc III 2-9, so that the rapid air suction process is realized.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.