1. The utility model provides a clamp type thing networking basic station hoisting machine, characterized by, including bracing piece (1), fixing base (2), two-way motor (3), lift by crane subassembly (4), prevent inclining subassembly (5) and basic station clamping component (6), bracing piece (1) is installed on the sling cart, fixing base (2) are linked in bracing piece (1) upper portion, two-way motor (3) are installed on fixing base (2), it locates on two-way motor (3) to lift by crane subassembly (4), prevent inclining subassembly (5) and locate on lifting by crane subassembly (4), basic station clamping component (6) are located on lifting by crane subassembly (4).

2. The clamping type Internet of things base station hoisting machine as claimed in claim 1, wherein the hoisting assembly (4) comprises a bidirectional shaft (41), a rotating disc (42), a steel wire rope (43), a moving plate (44), movable rollers (45), a hoisting seat (46), a pulling rod (47) and a hoisting plate (48), the bidirectional shaft (41) is arranged on the bidirectional motor (3), the rotating disc (42) is connected to one end of the bidirectional shaft (41), the steel wire rope (43) is connected to the rotating disc (42) in a connecting mode, the steel wire rope (43) winds the rotating disc (42), the moving plate (44) is connected to the fixed seat (2) in a sliding mode, the steel wire rope (43) penetrates through the moving plate (44), the moving plate (44) is connected with a pair of movable rollers (45) in a rotating mode, the movable rollers (45) are in contact with the steel wire rope (43), the hoisting seat (46) is connected to the other end of the steel wire rope (43) in a sleeving mode, and two pairs of sliding grooves are formed in the hoisting seat (46), two pairs of pulling rods (47) are connected on the hanging seat (46) in a sliding way, and a hanging plate (48) is fixedly connected between the four pulling rods (47) together.

3. The clamping type Internet of things base station hoisting machine as claimed in claim 2, wherein the anti-tilting assembly (5) comprises a mounting seat (51), a rotating rod (52), a rotating disk (53), a torsion spring (54) and a limiting rope (55), the mounting seat (51) is connected to the top of the moving plate (44), the rotating rod (52) is rotatably connected to the mounting seat (51), the rotating disk (53) is connected to the rotating rod (52), a pair of torsion springs (54) is connected between the rotating disk (53) and the mounting seat (51), the limiting rope (55) is connected to the rotating disk (53), the limiting rope (55) winds around the rotating disk (53), the limiting rope (55) penetrates through the moving plate (44), and the other end of the limiting rope (55) is connected with the hoisting seat (46).

4. The clamping type Internet of things base station hoisting machine as claimed in claim 3, wherein the base station clamping assembly (6) comprises fixed convex rods (61), transverse mounting plates (62), clamping plates (63), fixed push plates (64) and compression springs (65), the fixed convex rods (61) are symmetrically connected to the hoisting base (46), the transverse mounting plates (62) are fixedly connected between the pull rods (47) on the same side together, the clamping plates (63) are connected to the transverse mounting plates (62) in a sliding manner, the fixed push plates (64) are connected to the clamping plates (63), and a pair of compression springs (65) are connected between the clamping plates (63) and the transverse mounting plates (62).

5. The clamping type Internet of things base station hoisting machine of claim 4, characterized by further comprising a hanging platform moving assembly (7), wherein the hanging platform moving assembly (7) is arranged on the hoisting assembly (4), the hanging platform moving assembly (7) comprises a connecting lifting rod (71), a fixed grooved rod (72), a moving rack (73), an extrusion spring (74) and a power gear (75), the fixed seat (2) is slidably connected with the connecting lifting rod (71), the connecting lifting rod (71) is in contact with the hanging seat (46), the top of the moving plate (44) is connected with the fixed grooved rod (72), the fixed grooved rod (72) is slidably connected with a moving rack (73), the moving rack (73) is in contact with the connecting lifting rod (71), the moving rack (73) is in contact with the fixed seat (2), the extrusion spring (74) is connected between the moving rack (73) and the fixed grooved rod (72), the power gear (75) is coupled to the other end of the bidirectional shaft (41).

6. The clamping type Internet of things base station hoisting machine according to claim 5, characterized by further comprising a base station push-out assembly (8), wherein the base station push-out assembly (8) is arranged on the hoisting assembly (4), the base station push-out assembly (8) comprises an L-shaped frame (81), a fixed rack (82), a rotating shaft (83), a rotating pinion (84), a rotating gearwheel (85), a sliding rack (86) and a push rod (87), the moving plate (44) is connected with the L-shaped frame (81), the bottom of the fixed seat (2) is connected with the fixed rack (82), the L-shaped frame (81) is rotatably connected with the rotating shaft (83), the rotating pinion (84) is connected with the rotating gearwheel (83), the rotating pinion (84) is meshed with the fixed rack (82), the rotating gearwheel (85) is connected with the rotating shaft (83), and the sliding rack (86) is slidably connected with the L-shaped frame (81), the sliding rack (86) is meshed with the rotating big gear (85), and the sliding rack (86) is connected with a push rod (87).

Background

The base station generally refers to a mobile communication base station, and is an interface device for accessing the mobile device to the internet. The base station has the main function of providing wireless coverage, namely ensuring that a mobile phone can keep a signal at any time and any place in the moving process, and has a positioning function, and can directly position by using code information sent by a network base station. With the development of mobile communication network services towards datamation and packetization, the development trend of mobile communication base stations is also towards broadband and large-coverage construction of IP.

When the base station is built, a worker is required to install equipment on the communication base station, the equipment comprises power supply equipment, base station equipment, transmission equipment and the like, the existing installation method needs the person to climb to the base station at a proper height, the equipment needing to be installed is required to be taken when climbing, the equipment needing to be installed on the base station is very heavy, the person is very inconvenient to take the equipment to a high place, the equipment is easy to hold unstably, certain potential safety hazards exist, and the equipment is not favorable for installation.

Disclosure of Invention

Based on this, it is necessary to provide a clamping type internet of things base station hoisting machine which can automatically hoist the equipment to be installed so as to install the equipment and automatically clamp the equipment to be hoisted so as to prevent the equipment from deviating, so as to solve the problem that potential safety hazards exist when people manually bring the equipment to a high place in the background art.

The technical scheme is as follows: the utility model provides a clamping type thing networking base station hoisting machine, includes bracing piece, fixing base, two-way motor, lifts by crane the subassembly, prevents inclining subassembly and base station clamping component, and the bracing piece is installed on the sling cart, and the fixing base is linked on bracing piece upper portion, and two-way motor installs on the fixing base, lifts by crane the subassembly and locates on the two-way motor, prevents inclining the subassembly and locates on the subassembly that lifts by crane, and base station clamping component locates on the subassembly that lifts by crane.

As the improvement of the scheme, the lifting assembly comprises a bidirectional shaft, a rotating disc, a steel wire rope, a movable plate, movable rollers, a lifting seat, a pulling rod and a lifting plate, the bidirectional shaft is arranged on a bidirectional motor, one end of the bidirectional shaft is connected with the rotating disc, the steel wire rope is connected to the rotating disc in a coupling mode, the steel wire rope winds the rotating disc, the movable plate is connected to a fixed seat in a sliding mode, the steel wire rope penetrates through the movable plate, the movable plate is connected with a pair of the movable rollers in a rotating mode, the movable rollers are in contact with the steel wire rope, the other end of the steel wire rope is connected with the lifting seat in a sleeved mode, two pairs of sliding grooves are formed in the lifting seat, the two pairs of the pulling rods are connected to the lifting seat in a sliding mode, and the lifting plate is fixedly connected between the four pulling rods.

As an improvement of the scheme, the anti-tilting assembly comprises a mounting seat, a rotary rod, a rotary disk, a torsion spring and a limiting rope, the mounting seat is connected to the top of the movable plate, the rotary rod is rotatably connected to the mounting seat, the rotary rod is connected to the rotary disk in a connected mode, the torsion spring is connected between the rotary disk and the mounting seat, the limiting rope is connected to the rotary disk, the limiting rope winds the rotary disk, penetrates through the movable plate, and the other end of the limiting rope is connected with the hanging seat.

As the improvement of the scheme, the base station clamping assembly comprises a fixed convex rod, a transverse mounting plate, a clamping plate, a fixed push plate and a compression spring, the fixed convex rod is symmetrically connected to the hanging seat, the transverse mounting plate is fixedly connected between the pulling rods on the same side, the clamping plate is connected to the transverse mounting plate in a sliding mode, the fixed push plate is connected to the clamping plate in a connecting mode, and the compression spring is connected between the clamping plate and the transverse mounting plate.

As an improvement of the scheme, the device further comprises a hanging platform moving assembly, the hanging platform moving assembly is arranged on the hanging assembly, the hanging platform moving assembly comprises a connecting lifting rod, a fixed groove rod, a moving rack, an extrusion spring and a power gear, the fixed seat is connected with the connecting lifting rod in a sliding mode, the connecting lifting rod is in contact with the hanging seat, the top of the moving plate is connected with the fixed groove rod, the fixed groove rod is connected with a moving rack in a sliding mode, the moving rack is in contact with the connecting lifting rod and in contact with the fixed seat, the extrusion spring is connected between the moving rack and the fixed groove rod, and the power gear is connected to the other end of the bidirectional shaft.

As the improvement of above-mentioned scheme, still including basic station release subassembly, basic station release subassembly is located on the subassembly that lifts by crane, basic station release subassembly is including L shape frame, fixed rack, the axis of rotation, the rotation pinion, the rotation gear wheel, slip rack and push rod, it has L shape frame to link on the movable plate, the fixed rack is linked to the fixing base bottom, the last rotation type of L shape frame is connected with the axis of rotation, the rotation pinion that links on the axis of rotation, the rotation pinion meshes with fixed rack, the rotation gear wheel that links on the axis of rotation, the slip rack that links on the L shape frame, slip rack and the meshing of rotation gear wheel, the last link of slip rack has the push rod.

The invention has the following advantages:

through the cooperation of fixed push pedal and compression spring for equipment on the fixed push pedal is tight with the hanging plate is pressed from both sides, can prevent that equipment on the hanging plate from dropping in order to reduce the probability that the accident takes place at the in-process that is promoted, can restrict the position of restriction rope simultaneously through the movable plate, prevents restriction rope and device off normal on it, further makes equipment on the hanging plate promoted steadily, has reached and can be pressed from both sides the tight effect in order to prevent that it from taking place off normal with the equipment that needs promote automatically.

The push rod promotes the equipment that needs on the hanger plate to install on the basic station and moves towards the direction that is close to the basic station, and the staff of being convenient for takes off equipment, has reduced staff's high altitude construction's risk, has reached and can be pushed equipment to the staff so that the staff takes off the effect of equipment automatically.

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 hoisting assembly of the present invention.

Fig. 4 is a perspective view of the anti-tilt assembly of the present invention.

Fig. 5 is a schematic perspective view of a base station clamp assembly according to the present invention.

Fig. 6 is a perspective view of the moving assembly of the hanging platform of the present invention.

Fig. 7 is a schematic perspective view of a base station push-out assembly according to the present invention.

Number designation in the figures: 1-support bar, 2-fixed base, 3-two-way motor, 4-lifting component, 41-two-way shaft, 42-rotating disc, 43-steel wire rope, 44-moving plate, 45-moving roller, 46-lifting base, 47-pulling bar, 48-lifting plate, 5-anti-tilting component, 51-mounting base, 52-rotating bar, 53-rotating disc, 54-torsion spring, 55-limiting rope, 6-base station clamping component, 61-fixed convex bar, 62-transverse mounting plate, 63-clamping plate, 64-fixed push plate, 65-compression spring, 7-lifting platform moving component, 71-connecting lifting bar, 72-fixed grooved bar, 73-moving rack, 74-extrusion spring, 75-power gear, 8-base station push-out component, 81-L-shaped frame, 82-fixed rack, 83-rotating shaft, 84-rotating pinion, 85-rotating bull gear, 86-sliding rack and 87-push rod.

Detailed Description

The standard parts used in the invention can be purchased from the market, the special-shaped parts can be customized according to the description and the description of the attached drawings, and the specific connection mode of each part adopts the conventional means of mature bolts, rivets, welding, sticking and the like in the prior art, and the detailed description is not repeated.

Example 1

The utility model provides a clamping type thing networking base station hoisting machine, as shown in fig. 1-7, including the bracing piece 1, fixing base 2, two-way motor 3, lift by crane subassembly 4, prevent inclining subassembly 5 and base station clamping component 6, bracing piece 1 installs on the sling cart, fixing base 2 couples in bracing piece 1 upper portion, two-way motor 3 installs on fixing base 2, two-way motor 3 is used for driving two-way axle 41 and the device rotation on it, lift by crane subassembly 4 and locate two-way motor 3, lift by crane subassembly 4 and be used for promoting the equipment that needs to promote steadily, prevent inclining subassembly 5 and locate on lift by crane subassembly 4, prevent inclining subassembly 5 and be used for further making equipment on hanger plate 48 steadily promote, base station clamping component 6 locates on lift by crane subassembly 4, base station clamping component 6 is used for pressing from both sides the equipment on hanger plate 48 tightly.

The hoisting component 4 comprises a bidirectional shaft 41, a rotating disc 42, a steel wire rope 43, a moving plate 44, a movable roller 45, a hoisting seat 46, a pulling rod 47 and a hoisting plate 48, the bidirectional shaft 41 is arranged on the bidirectional motor 3, one end of the bidirectional shaft 41 is connected with the rotating disc 42, the rotating disc 42 is used for releasing the steel wire rope 43, the steel wire rope 43 is connected to the rotating disc 42, the steel wire rope 43 is used for pulling the hoisting seat 46 and the upper device thereof to move upwards, the steel wire rope 43 winds on the rotating disc 42, the moving plate 44 is connected to the fixed seat 2 in a sliding way, the moving plate 44 is used for limiting the position of the limiting rope 55, the steel wire rope 43 passes through the moving plate 44, the moving plate 44 is connected with a pair of movable rollers 45 in a rotating way, the movable rollers 45 limit the steel wire rope 43, the movable rollers 45 are in contact with the steel wire rope 43, the other end of the steel wire rope 43 is connected with the hoisting seat 46 in a sleeve way, two pairs of sliding grooves are formed in the hoisting seat 46, the hoisting seat 46 is connected with the pulling rod 47 in a sliding way, the four pulling rods 47 are fixedly connected with a hanging plate 48.

The anti-tilting assembly 5 comprises a mounting seat 51, a rotating rod 52, a rotating disk 53, a torsion spring 54 and a limiting rope 55, the mounting seat 51 is connected to the top of the moving plate 44, the rotating rod 52 is connected to the mounting seat 51 in a rotating mode, the rotating disk 53 is connected to the rotating rod 52 in a connecting mode, a pair of torsion springs 54 is connected between the rotating disk 53 and the mounting seat 51, the limiting rope 55 is connected to the rotating disk 53, the limiting rope 55 is always in a tensioned state through the matching of the rotating disk 53, the torsion springs 54 and the limiting rope 55, the limiting rope 55 winds around the rotating disk 53, the limiting rope 55 penetrates through the moving plate 44, and the other end of the limiting rope 55 is connected with the hanging seat 46.

The base station clamping assembly 6 comprises a fixed convex rod 61, a transverse mounting plate 62, a clamping plate 63, a fixed push plate 64 and a compression spring 65, the fixed convex rod 61 is symmetrically connected to the hanging seat 46, the fixed convex rod 61 is used for supporting the fixed push plate 64, the transverse mounting plate 62 is fixedly connected between the pull rods 47 on the same side, the clamping plate 63 is connected to the transverse mounting plate 62 in a sliding mode, the clamping plate 63 is used for clamping equipment on the hanging plate 48, the fixed push plate 64 is connected to the clamping plate 63 in a connecting mode, the compression spring 65 is connected between the clamping plate 63 and the transverse mounting plate 62, and the equipment on the hanging plate 48 is clamped by the clamping plate 63 through the matching of the fixed push plate 64 and the compression spring 65.

Firstly, the operator drives the sling cart to locate the equipment beside the base station, manually controls the bidirectional motor 3 to rotate clockwise, so that the bidirectional shaft 41 and the upper device thereof rotate clockwise, so that the rotating disc 42 releases the wire rope 43, the hanging seat 46 and the devices thereon move downwards under the action of the gravity of the hanging seat and the traction force of the wire rope 43, through the friction between the movable roller 45 and the wire rope 43, the movable roller 45 can rotate in the opposite direction, the wire rope 43 is limited, when the hanger plate 48 contacts with the ground, the hanger base 46 and the device thereon continue to move downwards, the hanger plate 48 and the device thereon stop moving under the block of the ground, so that the fixed protruding rod 61 no longer abuts against the fixed push plate 64, the compressed compression spring 65 will be reset, the clamping plates 63 will move in the direction away from each other, the bi-directional motor 3 is then manually controlled to stop operation and the personnel then place the equipment to be installed on the base station on top of the hanger plate 48.

The bidirectional motor 3 is controlled by hand to rotate reversely, the bidirectional shaft 41 and the device thereon rotate reversely, so that the rotating disc 42 winds the steel wire rope 43, the steel wire rope 43 pulls the hanging seat 46 and the device thereon to move upwards, so that the equipment on the hanging plate 48 is lifted, because the equipment needing to be installed on the base station has heavy weight, the equipment automatically lifts the equipment needing to be installed, the problem that the danger coefficient is high when people manually lift the equipment to a high place is avoided, in the process, the fixed protruding rod 61 pushes the fixed push plate 64 and the device thereon to move towards each other, and the compression spring 65 is compressed, by the cooperation of the fixed push plate 64 and the compression spring 65, the clamping plate 63 clamps the equipment on the hanger plate 48, the equipment on the hanger plate 48 can be prevented from falling down during the lifting process to reduce the probability of accidents, and the effect of automatically clamping the equipment to be lifted to stably lift the equipment is achieved.

In the process of the up-and-down movement of the hanging seat 46 and the device thereon, the limiting rope 55 is always in a tensioned state through the matching of the rotating disc 53, the torsion spring 54 and the limiting rope 55, the position of the limiting rope 55 can be limited through the moving plate 44, the limiting rope 55 and the device thereon are prevented from deviating, and the hanging seat 46 and the device thereon cannot deviate, so that the hanging seat 46 and the device thereon stably ascend and descend, further, equipment on the hanging plate 48 is stably lifted, and the probability of accidents is reduced.

Example 2

On the basis of the embodiment 1, as shown in fig. 6, the device further comprises a hanging platform moving assembly 7, the hanging platform moving assembly 7 is arranged on the lifting assembly 4, the hanging platform moving assembly 7 comprises a connecting lifting rod 71 and a fixed slot rod 72, the lifting device comprises a movable rack 73, an extrusion spring 74 and a power gear 75, wherein a connecting lifting rod 71 is connected on the fixed base 2 in a sliding mode, the connecting lifting rod 71 is used for pushing the movable rack 73 to move upwards, the connecting lifting rod 71 is in contact with the hanging base 46, the top of the movable plate 44 is connected with a fixed groove rod 72, the fixed groove rod 72 is connected with a movable rack 73 in a sliding mode, the movable rack 73 is in contact with the connecting lifting rod 71, the movable rack 73 is in contact with the fixed base 2, the extrusion spring 74 is connected between the movable rack 73 and the fixed groove rod 72, the extrusion spring 74 is used for driving the movable rack 73 to reset, the power gear 75 is connected to the other end of the bidirectional shaft 41, and the power gear 75 is used for driving the movable rack 73 and the upper device thereof to move towards the direction close to the base station.

The base station pushing assembly 8 is arranged on the hoisting assembly 4, the base station pushing assembly 8 is used for pushing equipment to workers to conveniently take the equipment down, the base station pushing assembly 8 comprises an L-shaped frame 81, a fixed rack 82, a rotating shaft 83, a rotating pinion 84, a rotating large gear 85, a sliding rack 86 and a push rod 87, the L-shaped frame 81 is connected to the moving plate 44, the L-shaped frame 81 is used for pulling the rotating shaft 83 and the upper device to move towards the direction close to the base station, the fixed rack 82 is connected to the bottom of the fixed seat 2, the rotating pinion 84 and the upper device thereof can reverse under the action of the fixed rack 82, the rotating shaft 83 is rotatably connected to the L-shaped frame 81, the rotating pinion 84 is connected to the rotating shaft 83, the rotating pinion 84 is meshed with the fixed rack 82, the rotating large gear 85 is connected to the rotating shaft 83, and the rotating large gear 85 is used for driving the sliding rack 86 and the upper device thereof to move towards the direction close to the base station, the L-shaped frame 81 is connected with a sliding rack 86 in a sliding mode, the sliding rack 86 is meshed with the rotating large gear 85, a push rod 87 is connected to the sliding rack 86, and the push rod 87 is used for pushing equipment to be installed so that a worker can take the equipment down conveniently.

When the hanging seat 46 and the devices thereon continue to move upward, the hanging seat 46 pushes the connecting lifting rod 71 upward, the connecting lifting rod 71 pushes the moving rack 73 upward, the pressing spring 74 is compressed accordingly, then the moving rack 73 is engaged with the power gear 75, and the power gear 75 drives the moving rack 73 and the devices thereon to move toward the base station.

Meanwhile, the L-shaped frame 81 can pull the rotating shaft 83 and the device on the rotating shaft to move towards the direction close to the base station, under the action of the fixed rack 82, the rotating pinion 84 and the device on the rotating pinion can rotate reversely, the rotating gearwheel 85 can drive the sliding rack 86 and the device on the sliding rack to move towards the direction close to the base station, so that the push rod 87 pushes equipment needing to be installed on the base station on the hanging plate 48 to move towards the direction close to the base station, at the moment, a worker is located at the position, needing to install the equipment, on the high position of the base station through climbing, the push rod 87 pushes the equipment needing to be installed, the worker can conveniently take the equipment off the equipment, the risk of high-place operation of the worker is reduced, and then the worker installs the equipment on the base station, and the effect that the worker can automatically push the equipment to the worker so that the worker can take off the equipment is achieved.

The manual control bidirectional motor 3 rotates clockwise, the power gear 75 drives the movable rack 73 and the device thereon to reset, the hanging seat 46 resets, the hanging seat 46 does not push the connecting lifting rod 71 any more, the connecting lifting rod 71 does not push the movable rack 73 any more, the movable rack 73 resets to an initial position under the reset action of the extrusion spring 74, the connecting lifting rod 71 resets accordingly, the L-shaped frame 81 drives the rotating shaft 83 and the device thereon to reset, the sliding rack 86 and the device thereon reset by rotating the large gear 85, finally, the manual control bidirectional motor 3 is turned off, and the equipment to be installed can be lifted again by repeating the operations.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.