阅读说明：本技术 拳击格斗攻防转换反应速度训练机 (Boxing fighting attack and defense conversion reaction speed training machine ) 是由 晏国清 于 2021-09-30 设计创作，主要内容包括：本发明公开了拳击格斗攻防转换反应速度训练机,包括底座、站桩和主机,站桩和主机分别设置在底座上的两侧,站桩上设置有若干空心的充气假肢,充气假肢为具有弹性的可收缩结构,主机内设置有空气压缩机,每个充气假肢的内腔与空气压缩机之间均通过充气管连通,充气管上设置有电磁充气阀,在电磁充气阀与充气假肢之间的充气管上设置有泄气口,泄气口上设置有电磁泄气阀,主机上设置有控制器,空气压缩机、电磁充气阀和电磁泄气阀分别通过导线与控制器连接。本发明能模拟组合拳击技法,具有对练功能,训练效果好,具有显著的经济价值和社会价值。(The invention discloses a boxing fighting attack and defense conversion reaction speed training machine which comprises a base, a station pile and a host, wherein the station pile and the host are respectively arranged on two sides of the base, a plurality of hollow inflatable artificial limbs are arranged on the station pile, the inflatable artificial limbs are of an elastic retractable structure, an air compressor is arranged in the host, an inner cavity of each inflatable artificial limb is communicated with the air compressor through an inflation tube, an electromagnetic inflation valve is arranged on the inflation tube, an air release opening is formed in the inflation tube between the electromagnetic inflation valve and the inflatable artificial limbs, an electromagnetic air release valve is arranged on the air release opening, a controller is arranged on the host, and the air compressor, the electromagnetic inflation valve and the electromagnetic air release valve are respectively connected with the controller through leads. The invention can simulate the combined boxing skill, has the function of sparring, has good training effect and obvious economic and social values.)

1. Boxing fighting attack and defense conversion reaction speed trainer, which is characterized by comprising a base (1), a station pile (2) and a host (3), wherein the station pile (2) and the host (3) are respectively arranged at two sides of the base (1), a plurality of hollow inflatable artificial limbs (4) are arranged on the station pile (2), the inflatable artificial limbs (4) are of an elastic contractible structure, an air compressor (5) is arranged in the host (3), an inner cavity of each inflatable artificial limb (4) is communicated with the air compressor (5) through an inflation tube (6), an electromagnetic inflation valve (7) is arranged on the inflation tube (6), an air leakage opening (8) is arranged on the inflation tube (6) between the electromagnetic inflation valve (7) and the inflatable artificial limbs (4), an electromagnetic valve (9) is arranged on the air leakage opening (8), a controller (10) is arranged on the host (3), the air compressor (5), the electromagnetic inflation valve (7) and the electromagnetic deflation valve (9) are respectively connected with the controller (10) through leads.

2. A boxing fighting attack and defense conversion reaction speed training machine as claimed in claim 1, wherein the standing pile (2) sequentially comprises an artificial leather layer (11), an elastic layer (12), a plastic wrapping layer (13) and a steel pipe (14) from outside to inside, a framework is arranged in the steel pipe (14), and the lower end of the framework is connected with the base (1).

3. The boxing fighting attack and defense conversion reaction speed training machine as claimed in claim 2, wherein the air outlet end of the air inflation pipe (6) extends into the steel pipe (14) from the lower part of the station pile (2) and then sequentially penetrates through the steel pipe (14), the plastic wrapping layer (13), the elastic layer (12) and the artificial leather layer (11) to be communicated with the inner cavity of the corresponding air inflation artificial limb (4).

4. The boxing fighting attack and defense conversion reaction speed training machine is characterized in that the framework comprises a vertical shaft (15) and a plurality of groups of support rods (16), the groups of support rods (16) are arranged at intervals from top to bottom, a top plate (17) is arranged at the top of the standing pile (2), a bottom plate (18) is arranged at the bottom of the standing pile, the upper end of the vertical shaft (15) is connected with the top plate (17), the lower end of the vertical shaft is connected with the bottom plate (18), one end of each support rod (16) is connected with the vertical shaft (15), and the other end of each support rod is connected with a steel pipe (14).

5. The boxing fighting attack and defense conversion reaction speed training machine according to claim 4, characterized in that the standing pile (2) is of a split structure and comprises an upper section (19) and a lower section (20) which are identical in structure, and the upper section (19) and the lower section (20) are rotationally connected through a rotating mechanism (21).

6. The boxing fighting attack and defense conversion reaction speed training machine according to claim 5, wherein the rotating mechanism (21) comprises a motor (22), a connecting rod (23), a sliding block (24) and a sliding way (25), a mounting hole (26) and a waist-shaped hole (27) are sequentially processed on the sliding way (25) along the length direction of the sliding way (25), the sliding block (24) is slidably mounted in the waist-shaped hole (27), the motor (22) is mounted in the steel pipe (14) of the lower section (20), one end of the connecting rod (23) is fixedly connected with an output shaft of the motor (22), the other end of the connecting rod is rotatably connected with the sliding block (24), the vertical shaft (15) comprises an upper shaft and a lower shaft, the upper shaft is positioned in the upper section (19), the lower shaft is positioned in the lower section (20), a connecting piece (28) is arranged between the upper shaft and the lower shaft, the upper end of the lower shaft is fixedly connected with the connecting piece (28), the lower end of the upper shaft is rotatably connected with a connecting piece (28), and the upper shaft is fixedly arranged in the mounting hole (26).

7. A boxing fighting attack and defense conversion reaction speed training machine as claimed in claim 1, wherein the bottom of the standing pile (2) is connected with the base (1) through a plurality of bolts (29), and a damping spring (30) is arranged on the bolt (29) between the bottom of the standing pile (2) and the base (1).

8. The boxing fighting attack and defense conversion reaction speed training machine is characterized in that a sliding groove (31) is formed in the base (1) in the length direction of the base (1), a moving block (32) is connected in the sliding groove (31) in a sliding mode, the bottom of the standing pile (2) is fixed to the moving block (32), an air cylinder (33) is installed in the sliding groove (31) close to one side of the main machine (3), the end portion of a piston rod of the air cylinder (33) is fixedly connected with the moving block (32), return springs (34) are arranged on two sides of the air cylinder (33), one end of each return spring (34) is fixedly connected with the side wall of the sliding groove (31), and the other end of each return spring is fixedly connected with the moving block (32).

9. The boxing fighting attack and defense transformation reaction speed training machine as claimed in claim 8, wherein a guide groove (35) is formed in the bottom of the sliding groove (31) along the length direction of the sliding groove (31), and a protrusion in sliding fit with the guide groove (35) is arranged at the bottom of the moving block (32).

10. A boxing fighting attack and defense conversion reaction speed training machine as claimed in claim 1, wherein a balancing weight (36) is arranged at the end of the inflatable artificial limb (4).

Technical Field

The invention relates to the technical field of fitness and sports training instruments, in particular to a boxing fighting attack and defense conversion reaction speed training machine.

Background

With the improvement of living standard of people, more and more people pursue high-quality life, and entertainment and fitness exercise manners such as running, taiji, boxing fighting, physical training, body shape training and the like are favored by people, wherein the boxing fighting exercise is popular among many people with the functions of body building, attack and defense, abreaction and the like, but as the boxing fighting exercise is a double-person fighting exercise, people are required to carry out the training, and for boxing enthusiasts who do not have time to go to a gymnasium and cannot find opponents at home, if only depending on rope skipping, dumb bells, barbells, sandbags, boxing targets or ball losing exercises, the training effect and the exercise experience can be influenced due to the lack of interactivity, and special auxiliary training instruments are needed for the situation. At present, most of auxiliary instruments used for boxing fighting training are of fixed structures, such as simple instruments like hanging sandbags, vertical sandbags and speed balls without kinetic energy, although some boxing training machines are also provided, most of the auxiliary instruments have the problem of single function, do not have the function of simulating movement, cannot perform teaching training of various combined boxing techniques such as punching and hooking, and cannot achieve good sparring effect. Therefore, it is objective to develop a boxing training machine which can simulate combined boxing skills, has a sparring function and has good training effect and response speed conversion of fighting and attacking.

Disclosure of Invention

The invention aims to provide a boxing fighting attack and defense conversion reaction speed training machine which can simulate a combined boxing skill, has a sparring function and has a good training effect.

The invention aims to realize the purpose, the device comprises a base, a standing pile and a host, wherein the standing pile and the host are respectively arranged on two sides of the base, a plurality of hollow inflatable artificial limbs are arranged on the standing pile, the inflatable artificial limbs are of an elastic retractable structure, an air compressor is arranged in the host, an inner cavity of each inflatable artificial limb is communicated with the air compressor through an inflation tube, an electromagnetic inflation valve is arranged on the inflation tube, an air release port is arranged on the inflation tube between the electromagnetic inflation valve and the inflatable artificial limbs, an electromagnetic air release valve is arranged on the air release port, a controller is arranged on the host, and the air compressor, the electromagnetic inflation valve and the electromagnetic air release valve are respectively connected with the controller through leads.

Further, the standing pile sequentially comprises an artificial leather layer, an elastic layer, a plastic wrapping layer and a steel pipe from outside to inside, a framework is arranged in the steel pipe, and the lower end of the framework is connected with the base.

Furthermore, the air outlet end of the air inflation pipe extends into the steel pipe from the lower part of the station pile and then sequentially penetrates through the steel pipe, the plastic wrapping layer, the elastic layer and the artificial leather layer to be communicated with the inner cavity of the corresponding air inflation artificial limb.

Further, the skeleton includes vertical axis and multiunit vaulting pole, and multiunit vaulting pole from the top down interval arrangement stands the top of stake and is provided with the roof, and the bottom is provided with the bottom plate, and the upper end and the roof of vertical axis are connected, and the lower extreme is connected with the bottom plate, and the one end and the vertical axis of vaulting pole are connected, and the other end is connected with the steel pipe.

Furthermore, the standing pile is of a split structure and comprises an upper section and a lower section which are identical in structure, and the upper section and the lower section are rotationally connected through a rotating mechanism.

Further, slewing mechanism includes the motor, the connecting rod, slider and slide, the length direction along the slide has processed mounting hole and waist shape hole in proper order on the slide, slider slidable mounting is downthehole at the waist, the motor is installed in the steel pipe of hypomere, the one end of connecting rod and the output shaft fixed connection of motor, the other end rotates with the slider to be connected, the vertical axis includes upper shaft and lower shaft, the upper shaft is located the upper segment, the lower shaft is located the hypomere, be provided with the connecting piece between upper shaft and the lower shaft, the upper end and the connecting piece fixed connection of lower shaft, the lower extreme and the connecting piece of upper shaft rotate to be connected, upper shaft fixed mounting is in the mounting hole.

Furthermore, the bottom of the standing pile is connected with the base through a plurality of bolts, and a damping spring is arranged on the bolt between the bottom of the standing pile and the base.

Furthermore, a sliding groove is formed in the base along the length direction of the base, a moving block is connected in the sliding groove in a sliding mode, the bottom of the standing pile is fixed to the moving block, an air cylinder is installed in the sliding groove close to one side of the host, the end portion of a piston rod of the air cylinder is fixedly connected with the moving block, reset springs are arranged on the two sides of the air cylinder, one end of each reset spring is fixedly connected with the side wall of the sliding groove, and the other end of each reset spring is fixedly connected with the moving block.

Furthermore, a guide groove is machined in the bottom of the sliding groove along the length direction of the sliding groove, and a protrusion in sliding fit with the guide groove is arranged at the bottom of the moving block.

Furthermore, the end part of the inflatable artificial limb is provided with a balancing weight.

Before the invention is put into use, inflatable artificial limbs of corresponding types and quantity are arranged on a standing pile according to requirements, then corresponding control commands are input into a controller according to training requirements of the boxing fighting, an air compressor, an electromagnetic inflation valve and an electromagnetic deflation valve are controlled by the controller to work, when the device is operated, the corresponding electromagnetic inflation valve is opened and the corresponding electromagnetic deflation valve is closed, the air compressor is started, compressed air is conveyed to an inner cavity of the corresponding inflatable artificial limb through an inflation pipe by the air compressor, the inflatable artificial limb is propped up and bounced under the action of air pressure to form corresponding boxing attacking actions, after the actions are finished, the electromagnetic inflation valve is closed, the electromagnetic deflation valve is opened, and when the inflatable artificial limb is stopped to inflate due to elasticity, under the effect of elastic contraction, the air in the inflatable artificial limb is discharged from the air leakage port after passing through the inflation tube, the inflatable artificial limb is contracted and reset to wait for next inflation and expansion, so that the operation of inflation and air leakage is performed on each inflatable artificial limb under the interaction of the air compressor, the electromagnetic inflation valve and the electromagnetic air leakage valve, thereby simulating various boxing combined boxing methods, having the sparring function, being capable of training the strength, the reaction speed, the boxing opportunity, the accuracy and the like of people, and further achieving a better training effect. The invention can simulate the combined boxing skill, has the function of sparring, has good training effect and obvious economic and social values.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of an air compressor 5 and an air-filling pipe 6 according to the present invention;

fig. 3 is a schematic view of the construction of a standing pile 2 according to the invention;

FIG. 4 is a schematic structural view of a rotating mechanism 21 according to the present invention;

in the figure: 1-base, 2-standing pile, 3-main machine, 4-inflatable prosthesis, 5-air compressor, 6-inflatable tube, 7-electromagnetic inflatable valve, 8-air outlet, 9-electromagnetic air outlet valve, 10-controller, 11-artificial leather layer, 12-elastic layer, 13-plastic wrapping layer, 14-steel tube, 15-vertical shaft, 16-stay bar, 17-top plate, 18-bottom plate, 19-upper section, 20-lower section, 21-rotating mechanism, 22-motor, 23-connecting rod, 24-slide block, 25-slide way, 26-mounting hole, 27-waist-shaped hole, 28-connecting piece, 29-bolt, 30-damping spring, 31-slide way, 32-moving block, 33-air cylinder, 34-a return spring, 35-a guide groove and 36-a balancing weight.

Detailed Description

The present invention is further described with reference to the drawings, but the present invention is not limited thereto in any way, and any modification or improvement based on the present invention is within the protection scope of the present invention.

As shown in figures 1-4, the invention comprises a base 1, a standing pile 2 and a main machine 3, in order to save cost, the base 1 can be made of a hollow plastic box body and fixed by a steel-structured bracket, in order to improve the stability of the whole training machine in use and prevent the training machine from displacement or shaking, and in order to improve the anti-hitting capability of the training machine, weight-increasing materials with high weight, high density and the like such as water, iron sand and the like can be filled in the hollow box body, the standing pile 2 is of the existing structure and is used for installing an inflatable artificial limb 4, the standing pile 2 and the main machine 3 are respectively arranged at two sides of the base 1, a plurality of hollow inflatable artificial limbs 4 are arranged on the standing pile 2, the inflatable artificial limbs 4 are of an elastic contractible structure, the inflatable artificial limbs 4 can be formed by using a rubber material through compression molding, after inflation, various boxing fighting postures can be simulated, and under the condition of no pressure gas inside, the sagging and contractible state can be kept under the action of the self elasticity, the inflatable boxing ring can be changed into various boxing forms after being inflated, and the specific boxing forms and the number can be determined according to the requirements in practical use, for example, the boxing glove can adopt a hand boxing shape, a leg fighting shape and a matched inflatable artificial limb 4 shape according to the boxing fighting combination, an air compressor 5 is arranged in the main machine 3, the air compressor 5 is the existing equipment, used for inflating the inflatable artificial limbs 4, the inner cavity of each inflatable artificial limb 4 is communicated with the air compressor 5 through an inflation tube 6, an electromagnetic inflation valve 7 is arranged on the inflation tube 6, an air release opening 8 is formed in an inflation tube 6 between the electromagnetic inflation valve 7 and the inflatable artificial limb 4, an electromagnetic air release valve 9 is arranged on the air release opening 8, a controller 10 is arranged on the host machine 3, and the air compressor 5, the electromagnetic inflation valve 7 and the electromagnetic air release valve 9 are respectively connected with the controller 10 through leads.

Before the inflatable artificial limbs 4 are put into use, the inflatable artificial limbs 4 of corresponding types and quantity are arranged on the standing piles 2 according to needs, then corresponding control commands are input into the controller 10 according to training requirements of boxing fighting, the controller 10 controls the movement of the air compressor 5, the electromagnetic inflation valves 7 and the electromagnetic deflation valves 9, when the inflatable artificial limbs 4 are operated, the corresponding electromagnetic inflation valves 7 are opened and the corresponding electromagnetic deflation valves 9 are closed, the air compressor 5 is started, the air compressor 5 transmits compressed air to the inner cavities of the corresponding inflatable artificial limbs 4 through the inflation pipes 6, at the moment, the inflatable artificial limbs 4 are propped up and bounced under the action of air pressure to form corresponding boxing actions, after the actions are finished, the electromagnetic inflation valves 7 are closed, the electromagnetic inflation valves 9 are opened, and the inflatable artificial limbs 4 have elasticity, when stopping aerifing, under the effect of elastic shrinkage, the air in the inflatable artificial limb 4 is discharged from disappointing mouth 8 behind gas tube 6, accomplish the pressure release in the inflatable artificial limb 4, inflatable artificial limb 4 contracts to reset and waits to aerify next and props greatly, analogize with this, under air compressor 5, the interact of electromagnetism inflation valve 7 and electromagnetism bleeder valve 9, aerify and lose heart the operation to each inflatable artificial limb 4, thereby simulate various boxing combination boxing, have the sparring effect, can train people's strength, reaction rate, go out boxing opportunity and accuracy etc., thereby reach better training effect.

In the invention, the number of the inflatable artificial limbs 4 can be 3-12, and can also be more according to the requirement; through the program setting of the control mainboard in the controller, the action sequence of each inflatable artificial limb 4 can be combined at will, the time for each inflatable artificial limb 4 to bounce and maintain the action after being inflated can be controlled respectively, and various combined actions in the boxing fighting process can be simulated based on various postures preset by the inflatable artificial limbs 4, so that a better training effect is realized. For example, the preset posture of the prosthesis No. 01 is a straight punch, the preset posture of the prosthesis No. 02 is a lower hook, and the preset posture of the prosthesis No. 03 is a kicking. The controller is used for controlling the opening time of the electromagnetic valve, so that the fist can be directly punched, then the fist is hooked, and then the leg is kicked; or firstly hooking a fist down and then punching the fist straight, and then kicking legs; or kicking the leg first and then punching the fist straight, and then hooking the fist down, and the like. Meanwhile, the interval time between each action can be controlled, for example, after the straight punch is performed, the lower punch is taken out at the interval of 1 second, and the lower punch can also be taken out at the interval of 0.5 second, so that the requirements of the athletes with different levels on response speed training can be met. Similarly, according to the number of the arranged inflatable artificial limbs 4, the motion sequences of all the artificial limbs can be randomly arranged and combined through the controller, and the interval time between the motions can be randomly adjusted.

Stake 2 of standing includes artificial leather layer 11, elastic layer 12, plastic wrap layer 13 and steel pipe 14 from outside to inside in proper order, is provided with the skeleton in the steel pipe 14, and the lower extreme and the base 1 of skeleton are connected, through the setting of elastic layer 12, can prevent that the training person from beating the stake 2 of standing and be injured to play the effect of absorbing the impact force, flexible materials such as the optional sponge of elastic layer 12.

The air outlet end of the inflation tube 6 extends into the steel tube 14 from the lower part of the station pile 2 and then sequentially penetrates through the steel tube 14, the plastic wrapping layer 13, the elastic layer 12 and the artificial leather layer 11 to be communicated with the inner cavity of the corresponding inflatable artificial limb 4, so that the inflation tube 6 is hidden inside the station pile 2, messy field pipelines caused by the external arrangement of the inflation tube 6 are avoided, the appearance cleanness of the training machine is improved, the effect of protecting the inflation tube 6 can be achieved, and the inflation tube 6 is prevented from being damaged.

The skeleton includes vertical axis 15 and multiunit vaulting pole 16, and multiunit vaulting pole 16 from the top down interval is arranged, and the top of standing stake 2 is provided with roof 17, and the bottom is provided with bottom plate 18, and vertical axis 15's upper end is connected with roof 17, and the lower extreme is connected with bottom plate 18, and the one end and the vertical axis 15 of vaulting pole 16 are connected, and the other end is connected with steel pipe 14. The vertical shaft 15 is a central shaft of the framework and is connected with the steel pipe 14 through a plurality of groups of support rods 16, so that the whole standing pile 2 is connected into a whole, the standing pile 2 is ensured to have better rigidity, and the standing pile 2 has longer service life.

Stake 2 of standing is split type structure, including the same upper segment 19 and hypomere 20 of structure, rotates through slewing mechanism 21 between upper segment 19 and the hypomere 20 and is connected, through split type and slewing mechanism 21's structural design for upper segment 19 can rotate, and artificial limb 4 is aerifyd in the cooperation, and simulation boxing combination technique that can be more lifelike accomplishes more complicated boxing fighting action, thereby improves the training effect of training machine.

The rotating mechanism 21 comprises a motor 22, a connecting rod 23, a sliding block 24 and a sliding way 25, the motor 22 is an existing device and can be purchased on the market, a mounting hole 26 and a waist-shaped hole 27 are sequentially processed on the sliding way 25 along the length direction of the sliding way 25, the sliding block 24 is slidably mounted in the waist-shaped hole 27, the motor 22 is mounted in the steel pipe 14 of the lower section 20, one end of the connecting rod 23 is fixedly connected with an output shaft of the motor 22, the other end of the connecting rod is rotatably connected with the sliding block 24, the vertical shaft 15 comprises an upper shaft and a lower shaft, the upper shaft is located in the upper section 19, the lower shaft is located in the lower section 20, a connecting piece 28 is arranged between the upper shaft and the lower shaft, the upper end of the lower shaft is fixedly connected with the connecting piece 28, the lower end of the upper shaft is rotatably connected with the connecting piece 28, and the upper shaft is fixedly mounted in the mounting hole 26. The operating principle of the rotating mechanism 21 is: the motor 22 drives the connecting rod 23 to rotate, the connecting rod 23 drives the sliding block 24 to slide in the waist-shaped hole 27 in the sliding way 25, the end part of the sliding way 25 is also fixed on the upper shaft due to the fixed position of the motor 22, the sliding rod 23 forces the sliding way 25 to rotate by taking the upper shaft as the center of a circle when sliding in the waist-shaped hole 27, and the sliding way 25 is driven to swing in the continuous rotation process of the motor 22, so that the upper shaft is driven to rotate back and forth left and right within a certain angle range.

The bottom of the standing pile 2 is connected with the base 1 through a plurality of bolts 29, damping springs 30 are arranged on the bolts 29 between the bottom of the standing pile 2 and the base 1, when the standing pile 2 is impacted, the impact is transmitted to the damping springs 30 at the bottom of the standing pile 2, and the damping springs 30 can absorb and reduce the impact and vibration.

Processing along base 1's length direction on base 1 has spout 31, sliding connection has movable block 32 in spout 31, the bottom of stake 2 of standing is fixed on movable block 32, install cylinder 33 in the spout 31 that is close to host computer 3 one side, the tailpiece of the piston rod portion and movable block 32 fixed connection of cylinder 33, the both sides of cylinder 33 are provided with reset spring 34, reset spring 34's one end and spout 31's lateral wall fixed connection, the other end and movable block 32 fixed connection, in order to reach better training effect, cylinder 33 has been set up, cylinder 33 can drive movable block 32 back-and-forth movement, thereby drive stake 2 back-and-forth movements of standing, thereby various boxing technique of simulation that can be better, better attack and defense effect has, improve the training effect. The cylinder 33 is a single-acting cylinder, only one cavity can be used for inputting compressed air, movement in one direction is achieved, the piston rod can be used for pushing the moving block 32 to move forwards, the moving block 32 stops moving when reaching the front end of the sliding groove 31, the cylinder 33 is closed at the moment, the moving block 32 moves backwards under the rebounding effect of the return spring 34, the cylinder 33 is reset, the standing pile 2 can move forwards and backwards in the mode, and the attacking and retreating actions are completed by matching with the inflatable artificial limb 4. In order to save cost, the moving block 32 can be made of a hollow plastic box body, in order to improve the stability of the moving block 32 in use and prevent the moving block from displacement or shaking, and in order to improve the anti-impact capability of the training machine, weight-increasing materials such as water, iron sand and the like with high weight and high density can be filled in the hollow box body.

The standing pile 2 is fixed on the moving block 32 and moves back and forth along with the moving block 32, in order to prevent the moving block 32 from displacing and shaking in the sliding groove 31, a guide groove 35 is machined in the bottom of the sliding groove 31 along the length direction of the sliding groove 31, a protrusion in sliding fit with the guide groove 35 is arranged at the bottom of the moving block 32, the guide groove 35 can be arranged into a dovetail shape, the guiding and positioning effects are achieved, and the moving stability of the moving block 32 in the sliding groove 31 can be guaranteed.

The tip of inflatable artificial limb 4 is provided with balancing weight 36, inflatable artificial limb 4 stops to aerify and open the time of electromagnetism bleeder valve 9, gas wherein can dwindle gradually under the elastic shrinkage of inflatable artificial limb 4 self, but this process is comparatively slow, in the training process, training effect may be influenced, consequently, set up balancing weight 36 at the tip of inflatable artificial limb 4, balancing weight 36 can fall rapidly under self action of gravity, and take inflatable artificial limb 4 to fall, extrude the gas in the inflatable artificial limb 4 fast simultaneously, from the use that does not influence the training machine.

In order to improve the fidelity of the simulation, a human-shaped head rubber prosthesis may be provided above the standing pile 2. In order to obtain a good training effect, various sensors, such as a pressure sensor, a counting sensor and the like in the prior art, can be arranged at any position of each area of the inflatable artificial limb 4, the standing pile 2, the humanoid head rubber prosthesis and the like to obtain the times of target positions of the trainees in unit time, the force of hitting a receptor and the like during training of the trainees, so that the attack and defense conversion reaction speed and the hitting capacity of the trainees facing various combined punches are evaluated.