CN114920081A

CN114920081A - Fire control cable coiling apparatus for building

Info

Publication number: CN114920081A
Application number: CN202210640503.XA
Authority: CN
Inventors: 王武英
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-06-08
Filing date: 2022-06-08
Publication date: 2022-08-19

Abstract

The invention relates to a cable winding device, in particular to a fire-fighting cable winding device for a building. The invention provides a fire-fighting cable winding device for buildings, which can quickly wind up, improve the winding efficiency and reduce the manual strength. The invention provides a fire-fighting cable winding device for a building, which comprises a first support frame, a first material guide pipe, a motor, a first rotating shaft, a second rotating shaft, an opposite gear set and the like, wherein the first material guide pipe is arranged in the middle of the top of the first support frame, the motor is installed on the upper side of the first support frame, the first rotating shaft is longitudinally and symmetrically arranged on the upper side inside the first support frame in a rotating mode, the second rotating shaft is longitudinally and symmetrically arranged in the middle of the inner side of the first support frame in a rotating mode, and the opposite gear set is arranged between the two first rotating shafts. According to the fire-fighting wire winding device, the rotating mechanism is arranged, people place the winding reel on the rotating mechanism, then people start the motor, so that the motor output shaft rotates to drive the rotating mechanism to operate, the fire-fighting wire is wound, and the winding effect is achieved.

Description

Fire control cable coiling apparatus for building

Technical Field

The invention relates to a cable winding device, in particular to a fire-fighting cable winding device for buildings.

Background

The building refers to an asset formed by artificial construction, belongs to the category of fixed assets, and comprises two categories of houses and structures, wherein the houses refer to engineering buildings for people to live, work, study, produce, manage, entertain, store articles and perform other social activities, the buildings are distinguished from the buildings, and the structures refer to engineering buildings except the houses, such as enclosing walls, roads, dams, wells, tunnels, water towers, bridges, chimneys and the like.

RVS electric wires are all called flexible electric wires for copper-core polyvinyl chloride insulation twisted connection, twisted-pair multi-strand flexible wires, twisted-pair wires are short called flexible wires, fire-fighting wires are used in fire-fighting systems, the wire is called fire-fighting wires, along with social progress and continuous improvement of living standard of people, production modes of various industries are changed greatly, economic development of technological innovation and important motive power of social progress are provided, the changes provide new challenges for traditional wire winding modes of wire winding structures, the existing wire winders wind wires manually, not only is the efficiency of manual wire winding low, but also a wire spool cannot adjust the size of a winding radius of the wire winder according to the length and the weight of the wire, if the length of the wire is long and the weight is heavy, the weight is heavy after winding, a large amount of manual physical force is required to be consumed, the wire winder is not easy to move, and the size of the winder after winding is also large, it is inconvenient to transfer and store.

Therefore, the fire-fighting cable winding device for the building, which can quickly take up the fire-fighting cable, improve the winding efficiency and reduce the manual labor, needs to be designed.

Disclosure of Invention

In order to overcome the defects of physical power consumption and low efficiency of the conventional manual wire rewinding, the invention has the technical problems that: the fire-fighting cable winding device for the building is capable of rapidly winding, improving winding efficiency and reducing manual strength.

The technical implementation scheme of the invention is as follows: the utility model provides a fire control cable is around package for building, including first support frame, first passage, including a motor, an end cap, a controller, and a cover plate, first pivot, the second pivot, subtend gear train, the delivery wheel, first belt subassembly, rotary mechanism and straining mechanism, be equipped with first passage in the middle of the first support frame top, the motor is installed to first support frame upside, the inside upside longitudinal symmetry rotary type of first support frame is equipped with first pivot, first pivot and motor output shaft, the inboard middle part longitudinal symmetry rotary type of first support frame is equipped with the second pivot, be equipped with subtend gear train between two first pivots, two first pivot middle parts all are equipped with the delivery wheel, be connected with first belt subassembly between the first pivot and the second pivot of homonymy, the inside rotary mechanism that is equipped with of first support frame, be equipped with straining mechanism on the rotary mechanism.

In a preferred embodiment of the invention, the rotating mechanism comprises second supporting frames, trays and second belt assemblies, the second supporting frames are arranged on two sides inside the first supporting frame, the trays are rotatably arranged in the middle of the two second supporting frames, and the second belt assemblies are connected between the trays and the second rotating shafts.

In a preferred embodiment of the present invention, the fastening mechanism comprises a first supporting column, a clamping plate and a first torsion spring, the first supporting column is disposed in the middle of the tray, two clamping plates are rotatably disposed on the upper portion of the first supporting column, two first torsion springs are wound on the upper portion of the first supporting column, and two ends of the first torsion springs are respectively connected to the first supporting column and the clamping plate.

In a preferred embodiment of the present invention, the tray further comprises an auxiliary material clamping mechanism, the auxiliary material clamping mechanism comprises third supporting frames, bottom plates, movable blocks and first springs, the third supporting frames are respectively arranged at the inner sides of the two trays, the bottom plates are respectively arranged at two sides of the two third supporting frames, the movable blocks are respectively arranged at the inner sides of the two bottom plates in a sliding manner, and the first springs are connected between the movable blocks and the bottom plates.

In a preferred embodiment of the present invention, the device further comprises a guiding mechanism, the guiding mechanism comprises a fourth supporting frame, a twist bar, a first baffle, a second material guiding pipe, a third belt assembly, a first straight gear and a gear lacking wheel, the fourth supporting frame is arranged on the rear wall of the inner upper side of the first supporting frame, the twist bar is rotatably arranged on the rear wall of the inner upper side of the first supporting frame, the first baffle is symmetrically arranged on the rear wall of the inner upper side of the first supporting frame, the second material guiding pipe is arranged on the twist bar in a threaded manner, the first straight gear is arranged on the twist bar, the gear lacking wheel is rotatably arranged on the twist bar, the gear lacking wheel is intermittently engaged with the first straight gear, and the third belt assembly is connected between the gear lacking wheel and the second rotating shaft.

In a preferred embodiment of the invention, the protection device further comprises a protection mechanism, the protection mechanism comprises a second support column, a second baffle, a support plate, a second torsion spring, a wedge block, a first slide rail, a movable rod and a second spring, the second support column is arranged on each of two sides of the first support column, the second baffle is rotatably arranged in the middle of each of the two second support columns, the support plate is arranged on each of the upper sides of the first support columns, the second torsion springs are wound on each of the upper and lower sides of each of the two second support columns, two ends of each of the second torsion springs are respectively connected with the second baffle and the second support column, the wedge block is arranged on each of the upper sides of the rear walls of the two second baffle plates, the first slide rail is arranged at the top end of each of the two second support columns, the movable rod is slidably arranged in the middle of the two first slide rails, the second springs are wound on the two first slide rails, and two ends of the second springs are respectively connected with the first slide rails and the movable rod.

In a preferred embodiment of the present invention, the cutting device further comprises a cutting mechanism, the cutting mechanism comprises a second slide rail, a blade, a third support column, a third rotation shaft, a second spur gear, a first spur gear rack and a second spur gear rack, the second slide rail is arranged in the middle of the upper side in the first support frame, the blades are arranged on both sides of the second slide rail in a sliding manner, the third support column is arranged on the upper side of each of the two second support frames, the third rotation shaft is arranged on each of the two third support columns, the second spur gear is arranged on the lower side of each of the two third rotation shafts, the first spur gear rack is arranged on the outer side of the upper portion of each of the two blades, the second spur gear rack is arranged in the middle of each of the two movable rods, and the second spur gear rack and the first spur gear rack are both meshed with the second spur gear.

In a preferred embodiment of the invention, the second belt assembly is comprised of two pulleys, one on the tray and the other on the second shaft, and a belt wound between the two pulleys.

Compared with the prior art, the invention has the following advantages: 1. according to the fire-fighting wire winding machine, the rotating mechanism is arranged, people put the winding reel on the rotating mechanism, then people start the motor, so that the motor output shaft rotates to drive the rotating mechanism to operate, and then the fire-fighting wire is wound, and the winding effect is achieved;

2. according to the invention, the fastening mechanism is arranged, so that the fire-fighting line head is placed in the fastening mechanism to be clamped by people, and the phenomenon that the winding effect cannot be realized in the process of winding the fire-fighting line by the winding reel is avoided, and the winding fire-fighting line is further influenced;

3. the auxiliary material clamping mechanism is arranged, and the bobbin is clamped through the operation of the auxiliary material clamping mechanism, so that the bobbin is more stable;

4. according to the invention, the guide mechanism is arranged, and the motor output shaft rotates to drive the guide mechanism to operate, so that the guide mechanism drives the fire line to move left and right, and the fire line is uniformly wound;

5. the protection mechanism is arranged, and the protection mechanism operates to prevent people from being injured in the wire winding process, so that the protection effect can be achieved;

6. according to the fire-fighting line cutting device, the cutting mechanism is arranged, so that people push the protection mechanism, and the protection mechanism drives the cutting mechanism, so that the cutting mechanism automatically cuts a fire-fighting line without manual cutting.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic perspective view of the rotating mechanism of the present invention.

Fig. 4 is a perspective view of the fastening mechanism of the present invention.

Fig. 5 is a schematic perspective view of the auxiliary material clamping mechanism of the present invention.

Fig. 6 is a schematic perspective view of the guide mechanism of the present invention.

Fig. 7 is an enlarged perspective view of part a of the present invention.

Fig. 8 is a perspective view of a first part of the protection mechanism of the present invention.

Fig. 9 is a perspective view of a second part of the protection mechanism of the present invention.

Fig. 10 is a perspective view of the cutting mechanism of the present invention.

Fig. 11 is an enlarged schematic perspective view of part B of the present invention.

The parts are labeled as follows: 1. the device comprises a first support frame, a second support frame, a first guide pipe, a motor, a first rotating shaft, a second gear train, a second rotating shaft, a third rotating shaft, a third supporting shafts, a second supporting shafts, a third supporting shafts, the cutting device comprises a movable rod 138, a second spring 14, a cutting mechanism 141, a second sliding rail 142, a blade 143, a third supporting column 144, a third rotating shaft 145, a second straight gear 146, a first straight rack 147 and a second straight rack.

Detailed Description

It is to be noted that, in the case of the different described embodiments, identical components are provided with the same reference numerals or the same component names, wherein the disclosure contained in the entire description can be transferred to identical components having the same reference numerals or the same component names in a meaningful manner. The positional references selected in the description, such as for example up, down, sideways, etc., also refer to the directly described and illustrated figures and are to be interpreted as meaning to a new position when the position is changed.

Referring to fig. 1-11, a fire-fighting cable winding device for buildings comprises a first support frame 1, a first material guiding pipe 2, a motor 3, a first rotating shaft 4, a second rotating shaft 5, an opposite gear set 6, a feeding wheel 7, a first belt component 8, a rotating mechanism 9 and a fastening mechanism 10, wherein the first material guiding pipe 2 for discharging is arranged in the middle of the top of the first support frame 1, the motor 3 is fixedly installed on the right wall of the upper side of the first support frame 1 through a bolt, the first rotating shaft 4 is longitudinally and symmetrically arranged on the upper side inside the first support frame 1, the first rotating shaft 4 on the front side is connected with an output shaft of the motor 3, the second rotating shaft 5 is longitudinally and symmetrically arranged in the middle of the inside of the first support frame 1, the opposite gear set 6 is arranged between the right sides of the two first rotating shafts 4, the opposite gear set 6 is composed of two gears, the feeding wheel 7 is welded on the middle of the two first rotating shafts 4, a first belt component 8 is connected between the left sides of the first rotating shaft 4 and the second rotating shaft 5 on the same side, the first belt component 8 is composed of two belt pulleys and a belt, one belt pulley is arranged on the first rotating shaft 4, the other belt pulley is arranged on the second rotating shaft 5, the belt is wound between the two belt pulleys, a rotating mechanism 9 is arranged on the right side inside the first support frame 1, and a fastening mechanism 10 is arranged on the rotating mechanism 9.

The rotating mechanism 9 comprises a second support frame 91, a tray 92 and a second belt assembly 93, the second support frame 91 is welded on the left side and the right side inside the first support frame 1, the tray 92 used for clamping a bobbin is arranged in the middle of the two second support frames 91 in an equal rotating mode, and the second belt assembly 93 is connected between the tray 92 on the right side and the second rotating shaft 5.

The clasping mechanism 10 comprises a first supporting column 101, a clamping plate 102 and a first torsion spring 103, wherein the first supporting column 101 is arranged in the middle of the left tray 92, the two clamping plates 102 for clamping the thread ends are rotatably arranged on the right side of the upper part of the first supporting column 101, the two clamping plates 102 are matched with each other, the two first torsion springs 103 are wound on the right side of the upper part of the first supporting column 101, and two ends of the first torsion spring 103 are respectively connected with the first supporting column 101 and the clamping plate 102.

Still including supplementary card material mechanism 11, supplementary card material mechanism 11 is including third support frame 111, bottom plate 112, movable block 113 and first spring 114, and third support frame 111 has all been welded to two tray 92 inboards, and the equal rigid coupling in both sides has bottom plate 112 around two third support frames 111, and two bottom plate 112 inboards all slidingtype are equipped with the movable block 113 that is used for fixed bobbin, are connected with first spring 114 between movable block 113 and the bottom plate 112.

The device also comprises a guide mechanism 12, the guide mechanism 12 comprises a fourth support frame 121, a twist rod 122, a first baffle 123, a second material guide pipe 124, a third belt component 125, a first straight gear 126 and a missing gear 127, the fourth support frame 121 is welded on the inner upper side rear wall of the first support frame 1, the twist rod 122 for guiding is rotatably arranged on the inner upper side rear wall of the first support frame 1, the twist rod 122 is rotatably connected with the fourth support frame 121, the first baffle 123 is vertically and symmetrically arranged on the inner upper side rear wall of the first support frame 1, the second material guide pipe 124 is threadedly arranged on the left side of the twist rod 122, the first straight gear 126 is arranged at the left end of the twist rod 122, a rotating frame is rotatably arranged at the front side of the left end of the twist rod 122, the missing gear 127 is rotatably arranged in the front side of the rotating frame, the missing gear 127 is intermittently meshed with the first straight gear 126, the third belt component 125 is connected between the missing gear 127 and the second rotating shaft 5, the third belt unit 125 is composed of two pulleys, one of which is provided on the third shaft 127 and the other of which is provided on the second shaft 5, and a belt wound between the two pulleys.

The protection mechanism 13 comprises a second support column 131, a second baffle 132, a support plate 133, a second torsion spring 134, a wedge 135, a first slide rail 136, a movable rod 137 and a second spring 138, wherein the second support column 131 is welded on the left side and the right side of the front part of the first support frame 1, the support plate 133 is arranged on the upper side of the front part of the first support frame 1, the second baffle 132 with a protection function is arranged in the middle of the two second support columns 131 in a rotating mode, the second torsion springs 134 are wound on the upper side and the lower side of the two second support columns 131, two ends of the second torsion spring 134 are respectively connected with the second baffle 132 and the second support columns 131, the first slide rail 136 is arranged at the top ends of the two second support columns 131, the wedge 135 for clamping is welded on the upper side of the rear wall of the two second baffles 132, the movable rod 137 is arranged in a sliding mode in the middle of the two first slide rails 136, and the movable rod 137 is in contact fit with the wedge 135, the two first sliding rails 136 are wound with second springs 138, and two ends of each second spring 138 are respectively connected with the first sliding rails 136 and the movable rods 137.

The fire fighting equipment further comprises a cutting mechanism 14, the cutting mechanism 14 comprises a second slide rail 141, blades 142, third supporting columns 143, third rotating shafts 144, second spur gears 145, first spur racks 146 and second spur racks 147, the second slide rail 141 is welded in the middle of the inner upper side of the first supporting frame 1, the third supporting columns 143 are arranged on the upper sides of the two second supporting frames 91, the blades 142 used for cutting fire fighting lines are arranged on the left and right sides of the second slide rail 141 in a sliding mode, the first spur racks 146 are arranged on the outer sides of the upper portions of the two blades 142, the third rotating shafts 144 are arranged on the front sides of the two third supporting columns 143 in a rotating mode, the second spur gears 145 are arranged on the lower sides of the two third rotating shafts 144, the second spur racks 147 are arranged on the rear sides of the middle portions of the two movable rods 137, and the second spur racks 147 and the first spur gears 146 are meshed with the second spur gears 145.

The second belt assembly 93 is composed of two pulleys, one of which is provided on the tray 92 and the other of which is provided on the second rotating shaft 5, and a belt wound between the two pulleys.

When people need to wind and unwind the fire-fighting cable, people can use the fire-fighting cable winding device for buildings, firstly people put the fire-fighting cable in the first material guiding pipe 2, then people put the fire-fighting cable head on the feeding wheel 7, then people put the reel on the rotating mechanism 9, at the moment, people wind the fire-fighting cable head on the reel, then people clamp the fire-fighting cable head through the fastening mechanism 10, people start the motor 3, the rotation of the output shaft of the motor 3 can drive the first rotating shaft 4 to rotate, so as to drive the opposite gear set 6 to rotate, so as to drive the fire-fighting cable to move downwards, so as to realize the guiding function, meanwhile, the rotation of the first rotating shaft 4 can drive the first belt assembly 8 to drive the second rotating shaft 5 to rotate, so as to drive the rotating mechanism 9 and the fastening mechanism 10 to rotate, so as to drive the reel to rotate and wind the fire-fighting cable, when the reel is fully wound with the fire-fighting cable, the bobbin can't continue to receive and wind the fire line, and people cut the fire line with the cutting knife this moment, and when people still need continue to receive and wind surplus fire line, people repeated above-mentioned operation, after people accomplished to receive and wind the fire line, when people need not the use, people closed motor 3 can.

People put the bobbin between two trays 92, and then press from both sides tight bobbin through tray 92, people can twine the end of a thread on the bobbin this moment, and when second pivot 5 rotated, second pivot 5 rotated and can drive the transmission of second belt assembly 93 to drive tray 92 and rotate, and then drive the bobbin and rotate and receive the line, and then realized receiving the effect around the fire line, need not the manual receipts of people and wind the fire line.

When people twine the fire line at the bobbin, people promote splint 102 to the outside, first torsion spring 103 is deformed, people put into two splint 102 with the fire line head this moment in the middle of, put back in the middle of line head to two splint 102 when people, people loosen splint 102, because first torsion spring 103 resets, so can drive the inboard motion of splint 102, make splint 102 press from both sides tight fire line head, avoid receiving around the fire line process, the fire line head swift out, and then unable realization is received wire wound's effect, when tray 92 rotates simultaneously, tray 92 rotates and can drive first support post 101, splint 102 and first torsion spring 103 all rotate, and then supplementary bobbin is received and is wound the fire line.

When people put the bobbin between two trays 92, bobbin and the 113 contacts of movable block to drive 113 lateral motion of movable block, first spring 114 is compressed, when people accomplish to place the bobbin between two trays 92, because first spring 114 resets, so can drive 113 motion of movable block to the inside side of movable block, make 113 tight bobbins that press from both sides of movable block, prevent that the bobbin from falling down receiving the wire winding in-process, and then realized the effect that presss from both sides tight bobbin more.

When people pass the fire-fighting thread head on the feeding wheel 7, people pass the fire-fighting thread head through the second guide pipe 124, when the second rotating shaft 5 rotates, the second rotating shaft 5 rotates and can drive the transmission of the third belt assembly 125, thereby driving the gear lacking 127 to rotate, because the gear lacking 127 and the intermittent meshing of the first gear 126, so can drive the intermittent rotation of the first gear 126, thereby drive the knurl rod 122 to rotate, and then drive the second guide pipe 124 to move left and right, and then drive the fire-fighting thread to move left and right, avoid the bobbin to wind around the fire-fighting thread in-process, the fire-fighting thread winding is uneven, and further the effect of guiding is realized.

People can outside pulling movable rod 137, second spring 138 is compressed, make movable rod 137 not block wedge 135, second torsional spring 134 that is in deformation state resets, so can drive the outside swing of second baffle 132, first support frame 1 is opened, people can take out the fire line that winds this moment, when people still need wind the fire line, people fire line and bobbin once more put into first support frame 1, after people put away fire line and bobbin, people promote second baffle 132 to the inboard, deformation of second torsional spring 134, people loosen movable rod 137 this moment, because second spring 138 resets, so can drive movable rod 137 and move to the inboard, make movable rod 137 block wedge 135, and then close first support frame 1, and then begin to wind fire line work, then can avoid winding the fire line process, reach people.

When the movable rod 137 moves to the outside, the movable rod 137 moves to the outside and can drive the second spur rack 147 to move to the outside, because the second spur rack 147 and the first spur rack 146 are all meshed with the second spur gear 145, so the second spur gear 145 can be driven to rotate, thereby the first spur rack 146 is driven to move to the inside, and further the blade 142 is driven to move to the inside, so the blade 142 cuts a fire line, and further the effect of automatically cutting the fire line is realized, time and labor are saved, when the movable rod 137 moves to the inside, the movable rod 137 moves to the inside and can drive the second spur rack 147 to move to the inside and reset, thereby the second spur gear 145 is driven to rotate reversely, and further the first spur rack 146 is driven to move to the outside and reset, and further the blade 142 is driven to move to the outside and reset.

While the disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims and their equivalents. Accordingly, the scope of the present disclosure should not be limited to the above-described embodiments, but should be defined not only by the appended claims, but also by equivalents thereof.

Claims

1. A fire-fighting cable winding device for buildings is characterized by comprising a first support frame (1), a first material guide pipe (2), a motor (3), a first rotating shaft (4), a second rotating shaft (5), an opposite gear set (6), a feeding wheel (7), a first belt component (8), a rotating mechanism (9) and a fastening mechanism (10), wherein the first material guide pipe (2) is arranged in the middle of the top of the first support frame (1), the motor (3) is installed on the upper side of the first support frame (1), the first rotating shaft (4) is longitudinally and symmetrically arranged on the upper side inside the first support frame (1) in a rotating mode, the first rotating shaft (4) is connected with an output shaft of the motor (3), the second rotating shaft (5) is longitudinally and symmetrically arranged in the middle of the inner side of the first support frame (1), the opposite gear set (6) is arranged between the two first rotating shafts (4), the feeding wheel (7) is arranged in the middle of the two first rotating shafts (4), a first belt assembly (8) is connected between the first rotating shaft (4) and the second rotating shaft (5) on the same side, a rotating mechanism (9) is arranged inside the first support frame (1), and a fastening mechanism (10) is arranged on the rotating mechanism (9).

2. The fire-fighting cable winding device for the building as defined in claim 1, wherein the rotating mechanism (9) comprises second supporting frames (91), trays (92) and second belt assemblies (93), the second supporting frames (91) are respectively arranged at two sides of the interior of the first supporting frame (1), the trays (92) are respectively rotatably arranged at the middle parts of the two second supporting frames (91), and the second belt assemblies (93) are connected between the trays (92) and the second rotating shaft (5).

3. The fire-fighting cable winding device for the building according to claim 2, wherein the fastening mechanism (10) comprises a first support column (101), clamping plates (102) and first torsion springs (103), the first support column (101) is arranged in the middle of the tray (92), the two clamping plates (102) are rotatably arranged on the upper portion of the first support column (101), the two first torsion springs (103) are wound on the upper portion of the first support column (101), and two ends of the first torsion springs (103) are respectively connected with the first support column (101) and the clamping plates (102).

4. The fire-fighting cable winding device for the building according to claim 3, characterized by further comprising an auxiliary material clamping mechanism (11), wherein the auxiliary material clamping mechanism (11) comprises third supporting frames (111), bottom plates (112), movable blocks (113) and first springs (114), the third supporting frames (111) are arranged on the inner sides of the two trays (92), the bottom plates (112) are arranged on the two sides of the two third supporting frames (111), the movable blocks (113) are arranged on the inner sides of the two bottom plates (112) in a sliding manner, and the first springs (114) are connected between the movable blocks (113) and the bottom plates (112).

5. The fire-fighting cable winding device for the building according to claim 4, characterized by further comprising a guide mechanism (12), wherein the guide mechanism (12) comprises a fourth support frame (121), a twist rod (122), a first baffle (123), a second material guiding pipe (124), a third belt component (125), a first straight gear (126) and a missing gear (127), the fourth support frame (121) is arranged on the rear wall of the inner upper side of the first support frame (1), the twist rod (122) is rotatably arranged on the rear wall of the inner upper side of the first support frame (1), the first baffle (123) is vertically and symmetrically arranged on the rear wall of the inner upper side of the first support frame (1), the second material guiding pipe (124) is arranged on the twist rod (122) in a threaded manner, the first straight gear (126) is arranged on the twist rod (122), the missing gear (127) is rotatably arranged on the twist rod (122), and the missing gear (127) is intermittently meshed with the first straight gear (126), a third belt component (125) is connected between the third gear (127) and the second rotating shaft (5).

6. The fire-fighting cable winding device for the building according to claim 5, characterized by further comprising a protection mechanism (13), wherein the protection mechanism (13) comprises a second support column (131), a second baffle (132), a support plate (133), a second torsion spring (134), a wedge block (135), a first slide rail (136), a movable rod (137) and a second spring (138), the second support column (131) is arranged on both sides of the first support column (1), the second baffle (132) is rotatably arranged in the middle of the two second support columns (131), the support plate (133) is arranged on the upper side of the first support column (1), the second torsion spring (134) is wound on both upper and lower sides of the two second support columns (131), both ends of the second torsion spring (134) are respectively connected with the second baffle (132) and the second support column (131), the wedge block (135) is arranged on the upper side of the rear wall of the second baffle (132), two second support columns (131) top all are equipped with first slide rail (136), and two first slide rail (136) middle parts are slidingtype and are equipped with movable rod (137), all around on two first slide rail (136) second spring (138), and the both ends of second spring (138) are connected with first slide rail (136) and movable rod (137) respectively.

7. The fire-fighting cable winding device for the building according to claim 6, characterized by further comprising a cutting mechanism (14), wherein the cutting mechanism (14) comprises a second slide rail (141), blades (142), third support columns (143), third rotating shafts (144), second spur gears (145), first spur racks (146) and second spur racks (147), the second slide rail (141) is arranged in the middle of the upper side in the first support frame (1), the blades (142) are arranged on both sides of the second slide rail (141) in a sliding manner, the third support columns (143) are arranged on the upper sides of the two second support frames (91), the third rotating shafts (144) are arranged on both the third support columns (143) in a rotating manner, the second spur gears (145) are arranged on the lower sides of the two third rotating shafts (144), the first spur racks (146) are arranged on the outer sides of the upper portions of the two blades (142), the second spur racks (147) are arranged in the middle of the two movable rods (137), the second spur rack (147) and the first spur rack (146) are both meshed with the second spur gear (145).

8. A fire-fighting cable winder for buildings according to claim 2, characterized in that the second belt assembly (93) is composed of two pulleys, one on the tray (92) and the other on the second shaft (5), and a belt wound between the two pulleys.