Disclosure of Invention
The invention aims to provide a high-strength labor protection shoe which can overcome the defects in the prior art.
According to the high-strength safety shoe, the left side is provided with a battery for storing electric power when the front side is seen, the right side is provided with a bracket, the high-strength safety shoe comprises a shoe, a power cavity is arranged in the shoe, a power generation cavity is arranged in the right wall of the power cavity, the battery is fixedly arranged in the right wall of the power generation cavity, a power generation device for generating electric power is arranged in the power generation cavity, a power device for driving the power generation device to rotate to generate electric power is arranged in the power cavity, ten groups of brackets are arranged in the shoe, a containing cavity is arranged in each bracket, locking racks which are symmetrical up and down and can slide are arranged in each containing cavity, each bracket is provided with a lower locking groove for matching the locking racks in the adjacent brackets, a locking device for driving the locking racks to slide left and right is arranged in each containing cavity, and the ten groups of brackets are connected in series to form a whole, improve overall structure intensity, it is equipped with the drive chamber to accomodate the intracavity roof, be equipped with in the drive chamber and be used for the drive arrangement of locking device work, be equipped with in the drive chamber roof and trigger the chamber, it is equipped with the trigger device who is used for detecting whether there is heavy object striking state to trigger the intracavity.
Preferably, the power device comprises a sliding plate arranged in the upper side wall and the lower side wall of the power cavity, one end of the sliding plate, which is close to the power cavity, is provided with a power rack so as to provide power required by the power generation, a driving shaft is arranged in the power cavity, the rear end of the driving shaft is provided with a driving gear meshed with the power rack, the front end of the driving shaft is provided with a driving pulley, a driven shaft is arranged in the power cavity, the rear end of the driven shaft is provided with a power generation bevel gear used for driving the power generation device to rotate, the front end of the driven shaft is provided with a driven pulley, and a power generation belt is arranged; the power generation device comprises an accelerating shaft arranged in a power generation cavity, a forward bevel gear which is positioned in the power cavity and is meshed with the power generation bevel gear is arranged on the outer wall of the accelerating shaft, the forward bevel gear can be further driven to rotate forward of the accelerating shaft, a reverse bevel gear which is positioned in the power cavity and is meshed with the power generation bevel gear is arranged on the outer wall of the accelerating shaft, the reverse bevel gear can be further driven to rotate reversely, an inner gear ring which is positioned in the power generation cavity is arranged at the right end of the accelerating shaft, a power generation shaft is arranged in the power generation cavity, a sun gear is arranged at the left end of the power generation shaft, a planetary gear is arranged between the sun gear and the inner gear ring in a transmission mode, a permanent magnet used for providing a magnetic induction line.
Preferably, the driving device comprises a driving shaft arranged in the driving cavity, the bottom end of the driving shaft is in power connection with a motor fixedly arranged in the bottom wall of the driving cavity, a driving gear is arranged at the top end of the driving shaft, a transmission shaft is arranged in the driving cavity, a one-way bevel gear is arranged at the top end of the transmission shaft, a right bevel gear arranged in the accommodating cavity is arranged at the bottom end of the transmission shaft, and a driven gear which is arranged in the driving cavity and is meshed with the driving gear is arranged on the outer wall of the transmission shaft.
Preferably, the locking device comprises a reciprocating gear arranged in the accommodating cavity and used for driving the locking rack to slide left and right, a reciprocating shaft with the rear end fixedly connected with the reciprocating gear is arranged in the accommodating cavity, an auxiliary bevel gear meshed with the positive bevel gear is arranged at the front end of the reciprocating shaft, a recovery cavity is arranged in the bottom wall of the trigger cavity, an accommodating groove is arranged in the bottom wall of the recovery cavity, a sliding locking block is arranged in the accommodating groove, an upper locking groove is arranged in the right wall of the accommodating groove and further matched with the adjacent locking block so as to fix the upper part of the adjacent bracket into a whole, a pressure spring is elastically arranged between one end of the locking block close to the upper locking groove and one end of the accommodating groove close to the upper locking groove, an accommodating shaft is arranged in the driving cavity, a driven bevel gear meshed with the one-way bevel gear is arranged at the front end of the accommodating shaft so as to drive the accommodating shaft to rotate, accomodate a rear end and be equipped with first reel, first reel with connect through accomodating the rope between the locking piece, and then drive the locking piece horizontal slip.
Preferably, the triggering device comprises a triggering plate which is arranged in the triggering cavity in a sliding manner, a reset spring is elastically arranged between the triggering plate and the triggering cavity and close to the end wall of one side of the power cavity, a triggering rack is arranged at one end of the triggering plate close to the triggering cavity, a limiting cavity is arranged in one side wall of the triggering cavity close to the accommodating groove, a limiting block which can slide and is clamped with the locking block is arranged in the limiting cavity, so that the sliding of the locking block can be limited, a jacking spring is elastically arranged between one end of the limiting block close to the triggering cavity and one end of the limiting cavity close to the triggering cavity, a triggering shaft is arranged in the recovery cavity, a second reel is arranged at the rear end of the triggering shaft, the second reel is connected with the limiting block through a limiting rope, so that the limiting block is driven to slide up and down, and the left and, the front end of the trigger shaft is provided with a trigger gear meshed with the trigger rack, so that the trigger shaft is driven to rotate, a third reel is arranged in the recovery cavity, the third reel is connected with the limiting rope, a slidable top plate is arranged in the upper lock groove, a synchronizing groove is formed in one end wall, close to the lock block, of the top plate, a synchronizing rack fixedly connected with the top plate is arranged in the synchronizing groove, a pushing spring is elastically arranged between the synchronizing rack and the synchronizing groove, a synchronizing gear meshed with the synchronizing rack is arranged in the recovery cavity, and the synchronizing gear is connected with the third reel through belt power, so that ten groups of locking devices in the support can be guaranteed to act simultaneously, and the feet of workers can be protected timely.
The invention has the beneficial effects that: the device has the advantages of simple structure, convenience in operation and maintenance, is convenient for the feet of personnel to bend in the walking process, improves the walking comfort level, can form integrated protection in collision, and improves the protection strength, so the device has higher use and popularization values.
Detailed Description
The present invention will be described in detail with reference to the drawings, wherein for the convenience of description, the following orientations are defined as follows: the front, rear, left, and right described below correspond to the up-down direction of the projection relationship of fig. 1 itself.
As shown in fig. 1-4, a high-strength safety shoe with a battery 13 for storing electric power on the left side and a bracket 14 on the right side as seen from the front side, wherein the high-strength safety shoe comprises a shoe 11, a power chamber 31 is arranged in the shoe 11, a power generation chamber 39 is arranged in the right wall of the power chamber 31, the battery 13 is fixedly arranged in the right wall of the power generation chamber 39, a power generation device 100 for generating electric power is arranged in the power generation chamber 39, a power device 200 for driving the power generation device 100 to rotate to generate electric power is arranged in the power chamber 31, ten sets of brackets 14 are arranged in the shoe 11 in an array, a receiving chamber 62 is arranged in the bracket 14, locking racks 76 which are symmetrical up and down and can slide are arranged in the receiving chamber 62, the bracket 14 is provided with a lower locking groove 77 for matching with the locking racks 76 in the adjacent bracket 14, a locking device 300 for driving the locking racks 76 to slide left and right is arranged in the receiving chamber 62, ten groups of the supports 14 are connected in series to form a whole, the strength of the whole structure is improved, a driving cavity 66 is arranged in the top wall of the containing cavity 62, a driving device 400 used for driving the locking device 300 to work is arranged in the driving cavity 66, a triggering cavity 48 is arranged in the top wall of the driving cavity 66, and a triggering device 500 used for detecting whether a heavy object impact state exists or not is arranged in the triggering cavity 48.
Beneficially, the power device 200 includes sliding plates 15 disposed in the upper and lower side walls of the power cavity 31, one end of the sliding plate 15 close to the power cavity 31 is provided with a power rack 16 to provide power required for the power generation, a driving shaft 19 is disposed in the power cavity 31, a driving gear 17 engaged with the power rack 16 is disposed at the rear end of the driving shaft 19, a driving pulley 18 is disposed at the front end of the driving shaft 19, a driven shaft 35 is disposed in the power cavity 31, a power generation bevel gear 33 for driving the power generation device 100 to rotate is disposed at the rear end of the driven shaft 35, a driven pulley 34 is disposed at the front end of the driven shaft 35, and a power generation belt 30 is disposed between the driven pulley 34 and the driving pulley 18; the power generation device 100 comprises an accelerating shaft 44 arranged in the power generation cavity 39, a forward bevel gear 32 which is arranged in the power cavity 31 and meshed with the power generation bevel gear 33 is arranged on the outer wall of the accelerating shaft 44, so as to drive the accelerating shaft 44 to rotate forward, a reverse bevel gear 36 which is positioned in the power cavity 31 and meshed with the power generation bevel gear 33 is arranged on the outer wall of the accelerating shaft 44, so as to drive the reverse bevel gear 36 to rotate reversely, the right end of the accelerating shaft 44 is provided with an inner gear ring 41 positioned in the power generation cavity 39, a power generation shaft 40 is arranged in the power generation cavity 39, a sun gear 43 is arranged at the left end of the power generation shaft 40, a planetary gear 42 is arranged between the sun gear 43 and the inner gear ring 41 in a transmission manner, a permanent magnet 38 for providing magnetic induction lines is arranged at the right end of the power generation shaft 40, and a coil 37 for generating current is arranged in the power generation cavity 39.
Advantageously, the driving device 400 includes a driving shaft 68 disposed in the driving chamber 66, a bottom end of the driving shaft 68 is in power connection with a motor 69 fixedly disposed in a bottom wall of the driving chamber 66, a driving gear 67 is disposed at a top end of the driving shaft 68, a driving shaft 85 is disposed in the driving chamber 66, a one-way bevel gear 71 is disposed at a top end of the driving shaft 85, a right bevel gear 78 disposed in the receiving chamber 62 is disposed at a bottom end of the driving shaft 85, and a driven gear 70 disposed in the driving chamber 66 and engaged with the driving gear 67 is disposed on an outer wall of the driving shaft 85.
Advantageously, the locking device 300 includes a reciprocating gear 79 disposed in the receiving cavity 62 for driving the locking rack 76 to slide left and right, a reciprocating shaft 81 having a rear end fixedly connected to the reciprocating gear 79 is disposed in the receiving cavity 62, a secondary bevel gear 80 engaged with the spur bevel gear 78 is disposed at a front end of the reciprocating shaft 81, a recovery cavity 52 is disposed in a bottom wall of the trigger cavity 48, a receiving groove 83 is disposed in a bottom wall of the recovery cavity 52, a sliding locking block 57 is disposed in the receiving groove 83, an upper locking groove 58 is disposed in a right wall of the receiving groove 83 and further engaged with the adjacent locking block 57 to fix an upper portion of the adjacent bracket 14 as a whole, a pressure spring 84 is elastically disposed between one end of the locking block 57 close to the upper locking groove 58 and one end of the receiving groove 83 close to the upper locking groove 58, a receiving shaft 73 is disposed in the driving cavity 66, and a driven bevel gear 72 engaged with the one-way bevel gear 71 is disposed at a front end of the receiving shaft 73, the storage shaft 73 is further driven to rotate, a first reel 74 is provided at the rear end of the storage shaft 73, the first reel 74 is connected to the lock block 57 via a storage string 75, and the lock block 57 is further driven to slide left and right.
Beneficially, the triggering device 500 includes a triggering plate 45 slidably disposed in the triggering cavity 48, a return spring 47 is elastically disposed between the triggering plate 45 and an end wall of the triggering cavity 48 close to one side of the power cavity 31, a triggering rack 46 is disposed at one end of the triggering plate 45 close to the triggering cavity 48, a limiting cavity 55 is disposed in the accommodating groove 83 close to one side wall of the triggering cavity 48, a limiting block 56 slidably engaged with the locking block 57 is disposed in the limiting cavity 55, so as to limit the locking block 57 from sliding, a pressing spring 54 is elastically disposed between one end of the limiting block 56 close to the triggering cavity 48 and one end of the limiting cavity 55 close to the triggering cavity 48, a triggering shaft 50 is disposed in the recovering cavity 52, a second reel 51 is disposed at a rear end of the triggering shaft 50, and the second reel 51 is connected to the limiting block 56 through a limiting rope 53, the limiting block 56 is further driven to slide up and down, so as to control the lock block 57 to slide left and right, the front end of the trigger shaft 50 is provided with a trigger gear 49 engaged with the trigger rack 46, so as to drive the trigger shaft 50 to rotate, the recovery cavity 52 is internally provided with a third reel 64, the third reel 64 is connected with the limiting rope 53, the upper lock groove 58 is internally provided with a slidable top plate 59, one end wall of the top plate 59, which is close to the lock block 57, is provided with a synchronous groove 86, the synchronous groove 86 is internally provided with a synchronous rack 60 fixedly connected with the top plate 59, a pushing spring 61 is elastically arranged between the synchronous rack 60 and the synchronous groove 86, the recovery cavity 52 is internally provided with a synchronous gear 63 engaged with the synchronous rack 60, the synchronous gear 63 is in power connection with the third reel 64 through a belt 65, so as to ensure that ten sets of locking devices 300 in the bracket 14 act simultaneously, the feet of the workers are protected in time.
In the initial state, the locking block 57 is completely located in the receiving groove 83, and the locking rack 76 is completely located in the receiving cavity 62;
when the device is used, in the walking process of a person, the sliding plate 15 slides up and down to drive the driving gear 17 to rotate through the power rack 16, and then the driving gear 17 drives the permanent magnet 38 to rotate through the driving shaft 19, the driving belt pulley 18, the driven belt pulley 34, the driven shaft 35, the power generation bevel gear 33, the forward bevel gear 32 or the reverse bevel gear 36, the acceleration shaft 44, the inner gear ring 41, the planetary gear 42, the sun gear 43 and the power generation shaft 40, so that the permanent magnet 38 and the coil 37 move relatively to generate electric energy and the electric energy is stored in the battery 13;
when the feet of a person are impacted, the trigger plate 45 slides downwards, the trigger gear 49 is driven to rotate by the trigger rack 46, the limit block 56 is driven to slide upwards by the trigger shaft 50 and the second reel 51 and is separated from the lock block 57, the lock block 57 slides towards the direction far away from the accommodating groove 83 and is matched with the upper lock groove 58 in the adjacent bracket 14, the top plate 59 is driven to slide towards the direction close to the synchronous groove 86, the third reel 64 is driven to rotate by the synchronous gear 63 and the belt 65, the limit block 56 in the adjacent bracket 14 is driven to slide upwards by the limit rope 53, the lock block 57 in the adjacent bracket 14 slides, meanwhile, the motor 69 works positively, and drives the locking rack 76 to slide towards the direction far away from the accommodating cavity 62 by the driving shaft 68, the driving gear 67, the driven gear 70, the transmission shaft 85, the positive bevel gear 78, the auxiliary bevel gear 80, the reciprocating shaft 81 and the reciprocating gear 79, engages the lower locking groove 77 of the adjacent bracket 14;
when the person releases the protection, the motor 69 works in the reverse direction and drives the locking rack 76 to slide in the direction approaching the storage cavity 62 through the driving shaft 68, the driving gear 67, the driven gear 70, the transmission shaft 85, the spur bevel gear 78, the auxiliary bevel gear 80, the reciprocating shaft 81 and the reciprocating gear 79, and meanwhile, the transmission shaft 85 drives the locking block 57 to slide in the direction approaching the storage groove 83 through the driven gear 70, the driven bevel gear 72, the storage shaft 73, the first reel 74 and the storage rope 75.
The invention has the beneficial effects that: the device has the advantages of simple structure, convenience in operation and maintenance, is convenient for the feet of personnel to bend in the walking process, improves the walking comfort level, can form integrated protection in collision, and improves the protection strength, so the device has higher use and popularization values.
The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.