CN212593870U - Ejection mechanism and indoor football shooting training device - Google Patents

Abstract

The utility model provides an ejection mechanism sets up in indoor football shooting trainer for play the football in the goal with the training person when shooting the training and launch training person, a serial communication port, include: one end of the ball receiving guide rail is used for receiving a football kicked into a goal by a trainer; the marble guide rail is communicated with the ball receiving guide rail; the ejection unit is used for sequentially receiving the football from the ball receiving guide rail and ejecting the football along the ball ejecting guide rail; and a steering unit which steers the pinball guide rail and sequentially receives a plurality of soccer balls rolled out from the ball catching guide rail and respectively launches the plurality of soccer balls in different directions onto a training line which is parallel to the face of the goal entrance and is spaced apart from the goal by a predetermined distance.

Description

Ejection mechanism and indoor football shooting training device

Technical Field

The utility model belongs to the technical field of sport equipment, concretely relates to ejection mechanism and location ball trainer.

Background

In the case of soccer training, a large amount of training is required for the athlete to continue to achieve good results. The positioning ball shooting is related to any ball, goal ball, corner ball, nodding ball, middle ring opening ball and the like in the football, and is a basic skill which requires long-term continuous training for a trainer.

The traditional training mode of the accuracy of the location ball is as follows: by using the small goal or hanging the tire on the large goal, the trainer can continuously kick the football to the predetermined position in the small goal or in the tire to complete the training.

However, this training method is relatively backward, requires the trainer to pick up the ball back and forth, and consumes much physical strength and time of the trainer, resulting in low training efficiency. In addition, there is a training mode of collecting and serving balls by special personnel, and the trainer does not need to pick up the balls back and forth by self, but more labor is consumed.

To improve the conditions for football training, some large clubs have been provided with dynamic football emitters that automatically emit the football to the trainee. However, such soccer emitters are complex and expensive to construct, often require installation in specialized fields, and have high threshold levels. Simultaneously, these football emitters often also can only be followed the fixed orbit and launched a fixed position with the football, only can make the training of training person form rigidity's muscle memory like this, and can't temper different positions, different angle shoot ability, consequently can not promote training person's football level well.

SUMMERY OF THE UTILITY MODEL

For solving the above-mentioned problem, provide one kind and can follow a plurality of not equidirectional transmission football and can comprehensively promote training person's football horizontally ejection mechanism and indoor football shoot trainer, the utility model discloses a following technical scheme:

the utility model provides an ejection mechanism sets up in indoor football shooting trainer for play the football in the goal with the training person when shooting the training and launch training person, a serial communication port, include: one end of the ball receiving guide rail is used for receiving a football kicked into a goal by a trainer; the marble guide rail is communicated with the ball receiving guide rail; the ejection unit is used for sequentially receiving the football from the ball receiving guide rail and ejecting the football along the ball ejecting guide rail; and a steering unit which steers the pinball guide rail and sequentially receives a plurality of soccer balls rolled out from the ball catching guide rail and respectively launches the plurality of soccer balls in different directions onto a training line which is parallel to the face of the goal entrance and is spaced apart from the goal by a predetermined distance.

The utility model provides an ejection mechanism can also have such technical characteristic, and wherein, ejection unit is including the drive assembly who is used for carrying out the ejection subassembly that launches and this ejection subassembly of drive, and ejection subassembly includes: the push rod extends out of the marble guide rail from the inside of the marble guide rail along the length direction of the marble guide rail; the push plate is arranged at one end of the push rod, which is positioned in the marble guide rail; the push block is arranged at one end of the push rod, which is positioned outside the marble guide rail; the elastic piece is connected to one side of the push block, which is far away from the marble guide rail; the driving component is used for driving the push rod to eject the football so as to finish ejection.

The utility model provides an ejection mechanism can also have such technical characteristic, and wherein, drive assembly includes: the driving block is arranged opposite to the push block; and the driving motor drives the driving block to move so that the driving block drives the push block to move, the elastic piece is compressed, the driving block is separated from the push block after the elastic piece is compressed, the elastic piece is reset to generate elasticity, and the push block is pushed and drives the push rod to move so as to realize ejection.

The utility model provides an ejection mechanism can also have such technical characteristic, and wherein, drive assembly still has: the limiting seat is arranged at one side position of the elastic piece and provided with a first inclined plane inclined towards the direction of the elastic piece, the push block comprises a connecting seat connected with the elastic piece and a sliding piece capable of sliding relative to the connecting seat, the sliding piece is provided with a tip capable of abutting against the driving block, the surface of the driving block far away from the tip is a second inclined plane matched with the first inclined plane, the elastic piece is compressed under the driving block, and the first inclined plane abuts against the second inclined plane to enable the sliding piece to move and separate from the driving block.

The utility model provides an ejection mechanism can also have such technical characteristic, wherein, is equipped with the extension spring that length direction and gleitbretter's moving direction are unanimous and are used for resetting it after the gleitbretter removes between gleitbretter and connecting seat.

The utility model provides an ejection mechanism, can also have such technical characteristic, wherein, driving motor still drives the driver block and removes and reset after the driver block breaks away from the ejector pad, the driver block includes the drive seat of being connected with driving motor and fixes the driver plate on this drive seat, the driver plate is equipped with thereby can with the drive round pin of this tip butt to the tip extension of gleitbretter, the in-process drive round pin that drives the driver block and the tip butt of gleitbretter can drive the ejector pad and remove at driving motor drive driver block removal compression elastic component, the drive round pin is three with this inclined plane two phase fit's inclined plane towards the surface of inclined plane two, when making the driver block reset under driving motor's drive, inclined plane three makes the gleitbretter remove and allow the driver block to reset to the position that the driver pin crossed the gleitbretter to the direction of keeping away from the driver block.

The utility model provides an ejection mechanism can also have such technical characteristic, wherein, the fixed guide post that is provided with on the connecting seat, the moving direction who sets up length direction and this gleitbretter on the gleitbretter is unanimous and with guide post matched with guiding hole for the moving direction of gleitbretter is mutually perpendicular with the moving direction of ejector pad.

The utility model provides an ejection mechanism can also have such technical characteristic, and wherein, the junction of catching the ball guide rail and marble guide rail is equipped with the groove of stopping the ball, and the one end that the ball guide rail kept away from the groove of stopping the ball is higher than the one end that is located the groove of stopping the ball department.

The utility model provides an ejection mechanism can also have such technical characteristic, and wherein, the steering unit includes: the mounting hole is formed in one side of the marble guide rail; the steering motor is arranged in the mounting hole, a motor shaft of the steering motor faces the bottom of the marble guide rail and is provided with a gear, the turntable is arranged at the bottom of the marble guide rail, and teeth meshed with the gear are arranged on the peripheral side of the turntable, so that when the steering motor works, the gear is matched with the teeth and drives the marble guide rail to complete steering.

The utility model also provides an indoor football shooting trainer, a serial communication port, include: a goal, comprising a goal entrance; the goal collecting port is arranged on the goal and is used for collecting the football kicked into the goal by the trainer; the ejection mechanism is used for sequentially receiving a plurality of football balls rolled out from the goal collecting opening and ejecting the football balls to a training line which is parallel to the surface of the goal entrance and is separated from the goal by a preset distance; and an infrared irradiation part for irradiating the training line on the ground in front of the goal.

Utility model with the functions and effects

According to the utility model discloses a shooting mechanism and indoor football training device that shoots, owing to have and connect ball guide rail, marble guide rail and launch the unit, this launch the unit and can carry out the shoot training for the training person along marble guide rail transmission with training person to the football in the goal to realize the automatic transmission of football. Further, since the steering unit for rotating the pinball guide rail is provided, the soccer ball during each shooting training is respectively launched in different directions onto the training line parallel to the face of the goal entrance and spaced apart from the goal by a predetermined distance, thereby allowing the trainee to run back and forth along the training line and kick the soccer ball into the goal along different angles. Through the ejection mechanism, on one hand, the goal-hitting ability of a trainer at a preset distance from a goal can be effectively exercised, and on the other hand, the reaction ability and the ball-catching ability of the trainer on a shot football can be well exercised, so that the football level of the trainer is comprehensively improved.

Drawings

FIG. 1 is a schematic structural view of a training device for a location ball according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a goal main frame according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an ejection mechanism according to an embodiment of the present invention;

fig. 4 is a second schematic structural diagram of the ejection mechanism according to the first embodiment of the present invention;

fig. 5 is a schematic structural diagram of an ejection unit according to an embodiment of the present invention;

fig. 6 is a partial enlarged view at a of fig. 5;

fig. 7 is a schematic view of an installation structure of a frame and a driving assembly according to an embodiment of the present invention;

fig. 8 is an exploded view of a rotary structure according to a first embodiment of the present invention;

FIG. 9 is a reference view of the first training device for a location ball according to an embodiment of the present invention;

FIG. 10 is a schematic view of an indoor football shooting training apparatus according to a second embodiment of the present invention;

FIG. 11 is a second structural diagram of an indoor football shooting training device according to a second embodiment of the present invention;

fig. 12 is a side view of a goal in a second embodiment of the present invention;

FIG. 13 is a sectional view A-A of FIG. 12;

fig. 14 is a schematic view of the size of the goal in the second embodiment of the present invention; and

fig. 15 is a reference view of the second embodiment of the present invention showing an indoor football shooting training apparatus in use.

Detailed Description

In order to make the technical means, creation features, achievement purpose and efficacy of the utility model easy to understand, the following embodiment and the accompanying drawings are combined to specifically describe the positioning ball training device of the utility model.

< example one >

As a first aspect, the present embodiment provides a training device for locating a football, which is a training device for indoor football shooting, and includes an ejection mechanism and a goal main frame, wherein the goal main frame is enclosed by a net pocket to form a goal, the ejection mechanism includes a ball receiving guide rail for receiving a football kicked into the goal by a trainer, a ball ejecting track communicated with the ball receiving guide rail, an ejection unit for sequentially receiving the football from the ball receiving guide rail and ejecting the football along the ball ejecting guide rail, and a steering unit for steering the ball ejecting guide rail, and under cooperation of the steering unit, the ball ejecting guide rail sequentially receives a plurality of football rolled from the ball receiving guide rail and ejects the football along different directions onto a training line parallel to a plane of the goal entrance and separated from the goal by a predetermined distance.

The ejection unit comprises an ejection assembly and a driving assembly, the ejection assembly comprises a push rod and a push plate, the push rod extends to the marble guide rail from the marble guide rail along the length direction of the marble guide rail, the push plate is arranged at one end of the push rod positioned in the marble guide rail, the push block is arranged at one end of the push rod positioned in the marble guide rail, and the elastic part is connected to one side of the push block away from the marble guide rail.

The driving assembly is further arranged on the driving block opposite to the pushing block, the driving motor drives the driving block to move, the driving block drives the pushing block to move, so that the elastic piece is compressed, and when the driving block is separated from the pushing block, the push rod is pushed out by the elastic piece.

The driving assembly is further provided with a limiting seat arranged at one side position of the elastic piece, the limiting seat is provided with a first inclined surface inclined towards the direction of the elastic piece, the push block comprises a connecting seat connected with the elastic piece and a sliding sheet capable of sliding relative to the connecting seat, the sliding sheet is provided with an end part capable of being abutted to the driving block, and the surface of the end part far away from the driving block is a second inclined surface matched with the first inclined surface.

Further set up to be equipped with the extension spring that length direction is unanimous and be used for its restoration after the gleitbretter removes with the moving direction of gleitbretter between gleitbretter and connecting seat.

The driving block comprises a driving seat connected with the driving motor and a driving sheet fixed on the driving seat, the driving sheet is provided with a driving pin extending towards the end part of the sliding sheet and capable of being abutted against the end part, and the surface of the driving pin facing the inclined plane II is an inclined plane III matched with the inclined plane.

Further set up to, the fixed guide post that is provided with on the connecting seat, set up length direction on the gleitbretter unanimous and with guide post matched with guiding hole with the moving direction of this gleitbretter.

The marble unit further comprises a transmission assembly, the transmission assembly is provided with a lead screw, the length direction of the lead screw is consistent with the moving direction of the push block, a driving block is movably arranged at one end of the lead screw, a driving wheel is fixed at the other end of the lead screw, a driving wheel is arranged on a driving shaft of a driving motor, and a driving belt is sleeved between the driving wheel and the driving wheel.

The ball catching guide rail is further arranged to be provided with a ball stopping groove at the joint of the ball catching guide rail and the marble guide rail, and one end of the ball catching guide rail, which is far away from the ball stopping groove, is higher than one end of the ball stopping guide rail, which is positioned at the ball stopping groove.

The steering unit comprises a mounting hole which is arranged at one side of the marble guide rail; the steering motor is arranged in the mounting hole, a motor shaft of the steering motor faces the bottom of the marble guide rail and is provided with a gear, the turntable is arranged at the bottom of the marble guide rail, and teeth meshed with the gear are arranged on the peripheral side of the turntable.

Hereinafter, an indoor soccer shooting training device (i.e., a soccer positioning training device according to the first embodiment) according to a first embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a schematic structural view of a training device for a location ball according to an embodiment of the present invention.

As shown in fig. 1, the soccer training device 2200 is an indoor soccer shooting training device, and includes an ejection mechanism 220 and a goal frame 225.

Fig. 2 is a schematic structural view of a goal main frame according to an embodiment of the present invention.

As shown in fig. 2, the main goal frame 225 is a main goal mounting frame on which a goal 2251 is defined by a net bag, and the main goal frame 225 includes a base 2256, a front support 2257 and a rear support 2258, which are each composed of a plurality of support bars 2254 and a detachable joint 2255.

In this embodiment, the detachable joint 2255 includes a two-way joint, a three-way joint, an elbow joint, etc., and the support bar 2254 is detachably inserted into the mounting hole of the joint.

In addition, in another aspect of the present invention, in order to adjust the height and size of the goal main frame 225, the support rod 2254 may be selectively provided with a retractable rod.

The rear support 2258 is provided with a flexible striking plate 2252, which serves as a rebound restraining plate, to effectively prevent the rebound force of the soccer ball and to better collect the soccer ball.

The center of the flexible striking plate 2252 is provided with a first count sensor 228, which is the goal technique sensor 228 for counting shots.

The upper end of the front support 2257 and the upper end of the rear support 2258 are detachably connected by a plurality of side support 2259, and a net bag 2250 is provided around the side support 2254 to form a goal 2251.

In this embodiment, the opening of the front supporter 2257 serves as a goal entrance through which a trainer may kick a soccer ball into the goal 2251.

The bottom of the goal 2251 is provided with a funnel-shaped collection opening 2253, which collection opening 2253 serves as a kind of goal collection opening, and below the collection opening 2253 is provided the ball guide track 226 of the ejector mechanism 220.

In this embodiment, the string bag 2250, the collection port 2253, the flexible striking plate 2252 and the first counting sensor 228 function as a goal net bag, which is shaped like a rectangular cone. When the trainer kicks the soccer ball into the goal 2251, the soccer ball rolls into the collection opening 2253 under the influence of gravity due to the inclined angle of the net 2250 at the bottom of the goal 2251. Meanwhile, if the football is kicked into the goal with a great force, the football will hit the flexible striking plate 2252 and fall into the bottom of the goal 2251, and will not pop out of the goal 2251 due to the excessive force.

As shown in fig. 1, the ball guide rail 226 is provided with a ball receiving position 2261 located right below the collection opening 2253 for receiving the soccer balls collected by the collection opening 2253.

In this embodiment, the ball guide track 226 extends to one side of the goal 2251, and the ball guide track 226 is disposed obliquely, so that the soccer ball falling into the ball receiving position 2261 slides down to the ejection mechanism 220 by its own gravity.

In addition, in other schemes of the present invention, a motor, a conveyor belt and a transmission shaft may be disposed on the ball guide track 226, and the motor drives the conveyor belt to move through the transmission shaft to reach the goal of conveying the soccer balls.

Fig. 3 is one of the schematic structural diagrams of the ejection mechanism in the embodiment of the present invention.

As shown in fig. 3, the ejection mechanism 220 is configured to sequentially receive a plurality of soccer balls rolled from the goal entrance collection opening and guide the plurality of soccer balls in different directions onto a training line, which is parallel to the plane of the goal entrance and is spaced apart from the goal by a predetermined distance, which may be selected from a range of values of 2-6 m. The trainer can run back and forth along the training line and kick the football into the goal at different positions on the training line.

The ejection mechanism 220 includes a base 221, a passage 2211 provided on the base 221 for a ball to pass through, an ejection unit, and a steering unit.

Passage 2211 is "L" shaped, i.e., has two mutually perpendicular passage portions; hereinafter, a passage portion near the ball guide rail 226 is referred to as a passage portion 22111, and the other is referred to as a passage portion 22112.

In this embodiment, since the ball guide rail 226 communicates with the passage portion 22111, the soccer ball can roll along the ball guide rail 226 directly into the passage portion 22111, and thus the ball guide rail 2211 serves as a ball catching function from the collecting opening 2253, and the passage portion 22111 corresponds to the ball catching function, that is, the ball guide rail 226 and the passage portion 22111 constitute a ball catching guide. Further, the passage portion 22112 functions as a guide for ejecting the soccer ball, that is, corresponds to a kind of pachinko guide, since it completes ejection of the soccer ball in cooperation with an ejection unit described later. The utility model discloses an among other schemes, passageway 2211's shape can be adjusted according to actual conditions, and the contained angle between ball receiving guide rail and the marble guide rail can be adjusted according to actual conditions promptly.

The base 221 on one side of the turn of the L-shaped passage 2211 is provided with a mounting cavity 2217. The mounting cavity 2217 is covered by a cover plate 2218.

Fig. 4 is a second schematic structural view of an ejection mechanism according to an embodiment of the present invention.

When the cover plate 218 is removed, as shown in fig. 4, an ejection assembly, a driving assembly and a transmission assembly are disposed in the mounting cavity 2217, and the ejection assembly, the driving assembly and the transmission assembly serve as an ejection unit for ejecting the soccer ball from the ball catching rail along the ball catching rail.

Fig. 5 is a schematic structural diagram of an ejection unit according to an embodiment of the present invention.

As shown in fig. 4 and 5, the ejection assembly includes a push rod 2221, a push plate 22211, a push block, and an elastic member 2222, wherein the push rod 2221 is disposed at one side of the passage 2211 and extends from the interior of the pinball guide rail to the exterior of the pinball guide rail along the length direction of the pinball guide rail, the inner end of the push rod 2221 located in the installation cavity 2217 is connected with the driving assembly, and the outer end of the push rod 2221 extends out of the installation cavity 2217 and is provided with the push plate 22211, that is, the push plate is disposed at one end of the push rod located in.

The inner end of the push rod 2221 extends into the mounting cavity 2217 and is connected with an elastic piece 2222 and a push block, wherein the push block is arranged at one end of the push rod 2221, which is positioned outside the marble guide rail, and the elastic piece 2222 is connected to one side of the push block, which is far away from the marble guide rail.

The elastic member 2222 is generally a spring. In this embodiment, the length direction of the elastic member 2222 is the same as the length direction of the pachinko guide rail, so that the push rod 2221 can be pushed out in the length direction of the pachinko guide rail when the elastic member 2222 is restored after being compressed.

The driving assembly is used for driving the push rod 2221 to eject the football so as to complete the shooting, and comprises a driving block, a driving motor 2231 and a limiting seat 2212.

The driving block and the pushing block are arranged oppositely, the driving motor 2231 drives the driving block to move so that the driving block drives the pushing block to move, and therefore the elastic part 2222 is compressed, the driving block is separated from the pushing block after the elastic part 2222 is compressed, the elastic part 2222 is reset to generate elastic force, and the pushing block is pushed and drives the pushing rod 2221 to move to achieve ejection.

In this embodiment, one side of the driving block is opposite to the pushing block and drives the pushing block to move, and when the driving block is separated from the pushing block, the pushing rod 2221 is pushed out by the elastic element 2222.

In this embodiment, after the driving motor 2231 works, it can drive the driving block to move, and since the driving block is disposed opposite to the pushing block, the driving block can drive the pushing block to move after touching with the pushing block in the moving process, the pushing block compresses the elastic part 2222 in the moving process, and the elastic part 2222 accumulates a certain elastic force in the deformation process. When the pushing block loses the pushing force of the driving block to the pushing block, the pushing block can be pushed out by the elastic force generated by the reset of the spring (i.e. the elastic part 2222), so that the pushing rod 2221 is pushed forward, and the pushing rod 2221 can shoot out the football in the channel, thereby realizing the process of bouncing the football. The driving motor 2231 drives the push block to control the compression amount of the elastic member 2222, thereby generating elastic force to control the hitting, so that the force of the hitting is controlled, which is much more precise than manual ball serving, and the ball serving efficiency is also high.

In addition, in this embodiment, the joint of the ball catching rail and the pinball rail has a ball stopping slot 22113 for placing the football, so that the football will stop in the ball stopping slot and wait for being hit by the putter 2221 after rolling out from the goal collecting opening. In addition, the end of the pinball guide has an opening so that the soccer ball can be shot to the position of the training line along the pinball guide when being struck by the putter 2221.

The position-limiting seat 2212 is disposed at one side of the elastic element 2222, and has a first inclined surface 22121 inclined toward the elastic element 2222, and the position-limiting seat 2212 is provided with a position-limiting groove 2213 for the driving block to pass through.

The pushing block includes a connecting seat 2223 connected to the pushing rod 2221, a sliding piece 2224 is movably disposed on the connecting seat 2223, and a second inclined surface 22241 is disposed on the sliding piece 2224 corresponding to the first inclined surface 22121 disposed on one side of the limiting seat 2212. Specifically, the sliding piece 2224 has an end portion capable of abutting against the driving block, and a surface of the end portion away from the driving block is a second inclined surface 22241 matched with the first inclined surface 22121.

The driving block includes a driving seat 2232 and a driving piece 2237 provided on the driving seat 2232, a driving pin 22371 is formed on a side of the driving piece 2237 facing the push block, and the driving pin 22371 extends toward an end of the slide piece so as to be able to abut against the end.

The driving pin 22371 is driven by the driving motor 2231 to move, and when the driving pin 22371 contacts the sliding piece 2224, the sliding piece 2224 and the connecting seat 2223 are driven to move, so as to compress the elastic piece 2222 to generate an elastic force. That is, the driving piece 2237 is provided with a driving pin 22371 extending toward and contactable with an end portion of the slide piece 2224, and the driving pin 22371 is contactable with the end portion of the slide piece 2224 to thereby move the push piece in a process in which the driving motor 2231 drives the driving piece to move the compression elastic piece 2222.

Further, when the sliding piece 2224 moves to the position-limiting seat 2212, the driving pin 22371 will enter the position-limiting groove 2213 and continue to move, and the second inclined surface 22241 of the sliding piece 2224 will contact the first inclined surface 22121 on the position-limiting seat 2212, and due to the arrangement of the inclined surfaces, the sliding piece 2224 will move towards the inclined direction of the inclined surfaces, and the sliding piece 2224 will gradually disengage from the driving pin 22371.

Finally, when the sliding piece 2224 is completely separated from the driving pin 22371, the pushing force generated by the driving pin 22371 on the sliding piece 2224 is lost, and the connecting seat 2223 and the sliding piece 2224 move and return under the restoring elastic force of the spring, so that the pushing-out function of the pushing rod 2221 is realized. That is, through the connection seat 2223, the driving block will be separated from the pushing block after the elastic element 2222 is compressed, so that the elastic element 2222 is reset to generate elastic force, and the pushing block is pushed to drive the pushing rod 2221 to move to realize ejection.

In addition, a third inclined surface 22372 is provided on a side of the driving pin 22371 facing the second inclined surface 22241 (i.e., a third inclined surface matching the second inclined surface is provided on a surface of the driving pin 22371 facing the second inclined surface), so that when the driving pin 22371 is reset by the driving motor 2231 and the driving pin 22371 contacts the second inclined surface 22241 on the slide sheet 2224, the slide sheet 2224 can be moved along the inclined surface, which facilitates the resetting of the driving pin 22371. That is, when the driving block is reset by the driving motor 2231, the third inclined surface 22372 contacts the second inclined surface 22241 to move the slide piece 2224 away from the driving block with respect to the connecting seat 2223, thereby allowing the driving block to be reset to a position where the driving pin 22371 passes over the slide piece 2224.

That is, after the driving motor 2231 is driven in the forward direction and makes the driving block drive the pushing block to compress the elastic member 2222 until the pushing block is disengaged from the reset, the driving block is also driven in the reverse direction and is reset. During this reset process, the third inclined surface 22372 of the drive pin 22371 abuts the second inclined surface 22241 of the slide plate 2224 and moves the slide plate 2224 away from the drive block relative to the connecting block, allowing the drive block to reset to a position where the drive pin 22371 clears the slide plate 2224.

In this embodiment, a buffer pad is further disposed between the connecting seat 2223 and the pushing rod 2221, so that the buffer performance of the pushing rod 2221 in the moving process is enhanced, the structure is protected, and the service life is prolonged.

In this embodiment, the aforementioned stopper 2212 is also used as a part of a driving assembly, so that the driving block can be separated from the pushing block after the elastic member 2222 is compressed, so that the pushing block pushes the pushing rod 2221 under the action of the elastic member 2222 and pushes the soccer ball out along the pinball guide.

Fig. 6 is a partially enlarged view of a portion a in fig. 5.

As shown in fig. 6, a first positioning post 22242 is disposed on the sliding piece 2224, a second positioning post 22231 is disposed on the connecting seat 2223, and a tension spring 2225 is disposed between the first positioning post 22242 and the second positioning post 22231 to facilitate the sliding piece to return, wherein when the sliding piece 2224 moves under the action of the position-limiting seat 2212, the tension spring 2225 is in a gradually extended state, and when the sliding piece 2224 loses the thrust force generated by the driving pin 22371, the sliding piece 2224 is pulled back to return under the elastic force of the tension spring.

The sliding piece 2224 is provided with a guide hole 22243 having a length direction consistent with a moving direction of the sliding piece, the connecting seat 2223 is provided with a guide post 22232 matched with the guide hole 22243, the guide post 22232 is located in the guide hole 22243, and a moving stroke of the sliding piece 2224 is controlled within a distance between the guide hole 22243 and the guide post 22232, so that the arrangement can prevent the sliding piece 2224 from being excessively displaced and prevent the tension spring 2225 from excessively deforming to affect the service life.

Fig. 7 is a schematic view of an installation structure of the frame and the driving assembly according to an embodiment of the present invention.

As shown in fig. 5 and 7, the specific mounting structure of the driving assembly is as follows: a frame 2214 is installed in the base 221, the frame 2214 comprises a plurality of fixing plates connected end to form a square frame 2214, and a cross beam 22141 is arranged in the middle of the frame 2214.

The spout 2215 has all been seted up to the medial surface of fixed plate and the both sides of crossbeam 22141, and the both sides of connecting seat 2223 and drive seat 2232 all are provided with the slider 22321 with spout 2215 complex, through the cooperation of slider 22321 with spout 2215, inject the moving direction of connecting seat 2223 and drive seat 2232 between the medial surface of fixed plate and crossbeam 22141, help strengthening the stability of structure and the accurate nature of removal.

The base 221 is movably or fixedly provided with a positioning pin 2216, one end of the elastic element 2222 abuts against the inner end of the pushing rod 2221, and the other end is sleeved on the positioning pin 2216. As shown in fig. 4, in the embodiment of fixing the positioning pin 2216 on the frame 2214, the fixing arrangement has relatively high stability, but the pushing force of the spring is affected by the stroke of the pushing block, and the force of the marble is the elastic force generated by the spring under the stroke every time, so that the marble does not fluctuate too much.

Additionally, in other aspects of the present invention, the positioning pin 2216 can also be movably disposed on the frame, and the specific structure of the movable arrangement can be that a transmission mechanism is added on the positioning pin to push the positioning pin to move on the frame, so as to change the compression amount of the spring (the elastic element 2222) to change the elastic force generated by the spring, thereby realizing the function of hitting the ball with different forces.

As shown in fig. 5, the driving assembly has a screw 2233, a driving wheel 2234, a driving wheel 2235, and a driving belt 2236. The driving block (driving seat 2232) is sleeved on the screw rod 2233, the screw rod 2233 is connected with the driving motor 2231 and rotates under the driving of the driving motor 2231, the surface of the screw rod 2233 is provided with spiral lines, and when the screw rod 2233 rotates, the driving block sleeved on the screw rod can move along the screw rod.

In this embodiment, the driving motor 2231 drives the screw rod 2233 to rotate (as shown in fig. 4) through a transmission device, the driving wheel 2234 is arranged on the driving motor, one end of the screw rod 2233 is connected with a driving wheel 2235, a driving belt 2236 is sleeved between the driving wheel 2235 and the driving wheel 2234, and a transmission function is realized through a belt or a chain, so that the driving motor 2231 can drive the screw rod 2233 to rotate and drive the driving block to move along the length direction of the screw rod 2233.

In other embodiments of the present invention, the screw rod 2233 may also be directly connected to the driving motor 2231 and driven by the driving motor 2231 to rotate; alternatively, the driving motor 2231 may be connected to the screw rod 2233 through a coupling to drive the screw rod 2233 to rotate. If the connection mode of the coupler is adopted, the lead screw 2233 and the motor (the driving motor 2231) are positioned on the same axis, the length of the whole device is lengthened, the motor is not convenient to place, and compared with the connection mode of the transmission device, the structure arrangement is better. In addition, in order to facilitate automatic operation of the motor, a control circuit board 2241 and a power supply 2242 may be installed in the base 21.

In this embodiment, the screw 2233 is disposed parallel to the push rod 2221 as shown in fig. 4.

In other aspects of the present invention, the screw rod 2233 may be inclined. When the screw rod 2233 is obliquely arranged, the driving block 2236 (the driving seat 2232) can be moved in the oblique direction during the moving process, and when the driving block 2236 moves to a certain position, the driving block 2236 can be separated from the pushing block 2226. After the driving block 2236 is separated from the pushing block 2226, the pushing rod 2221 can be pushed out under the action of the elastic element 2222, and the arrangement of the inclined lead screw 2233 can eliminate the arrangement of the limiting seat 2212, thereby simplifying the structure. That is, with such an arrangement, the driving block can directly separate from the pushing block after the elastic element 2222 is compressed, so that the elastic element 2222 is reset to generate elastic force, and the pushing block is pushed and drives the pushing rod to move to realize ejection.

Be provided with the inductor on passageway 2211, after the ball got into the passageway, the inductor senses and can trigger driving motor when the ball reaches the target position and carry out work to hit the ball work, realize the function of automatic batting, reduce the manpower, reduce the human cost, and induction system position response is accurate, efficient.

Fig. 8 is an exploded view of a rotating structure according to a first embodiment of the present invention.

As shown in fig. 8, the specific structure of the rotating structure is as follows: the base 221 is provided with a mounting hole 2219, a steering motor 2271 is arranged in the mounting hole 2219, a motor shaft of the steering motor 2271 penetrates through the base 221 to be connected with a turntable 2272, the base 221 is arranged on the turntable 2272, and the bottom plate 2275 is arranged at the bottom of the turntable 2272. A gear 2273 is connected to the motor shaft of the steering motor 2271, and teeth 2274 meshed with the gear 2273 are arranged on the peripheral side of the rotating disc 2272, so that when the steering motor works, the gear 2273 is matched with the teeth 2274 and drives the marble guide rail to complete steering.

The rotating structures such as the steering motor 2271, the rotating disc 2272, the gear 2273, the teeth 2274 and the bottom plate 2275 form a steering unit, and the steering motor 2271 can drive the marble guide rail and the ejection unit to rotate through the gear 2273 when being started, so that the length direction of the marble guide rail faces different directions, and the football is further ejected to different positions of the training line along the direction.

Fig. 9 is a schematic structural view of an indoor football shooting training device according to an embodiment of the present invention.

As shown in fig. 9, a plurality of training lines B may be provided in front of the goal 2251, parallel to the plane of the goal entrance and spaced a predetermined distance from the goal, the predetermined distance being selectable in the range of 2-6 m. In this embodiment, ejection mechanism can rotate along three predetermined directions at random, and ejection unit launches the football along three directions at random, and the position department on training line B can be led the football to the marble guide rail, and the training person can make a round trip to run along training line B to play the football into the goal in different positions on training line B.

Examples effects and effects

According to the ejection mechanism that this embodiment one provided, have and receive ball guide rail, marble guide rail, ejection unit, the one end of receiving the ball guide rail is located the below that the mouth was collected to the goal, consequently gets into the goal and collects mouthful from the goal and fall into the back of receiving the ball guide rail, ejection unit can shoot the football that the training person shot in the goal for the training person along marble guide rail transmission and carry out the shooting training to realize the automatic transmission of football.

Further, since the steering unit for rotating the pinball guide rail is provided, the soccer ball during each shooting training is respectively launched in different directions onto the training line parallel to the face of the goal entrance and spaced apart from the goal by a predetermined distance, thereby allowing the trainee to run back and forth along the training line and kick the soccer ball into the goal along different angles. Through the ejection mechanism, on one hand, the goal-hitting ability of a trainer at a preset distance from a goal can be effectively exercised, and on the other hand, the reaction ability and the ball-catching ability of the trainer on a shot football can be well exercised, so that the football level of the trainer is comprehensively improved.

In addition, in this embodiment one, because can also carry out random rotation to the ball track through rotating assembly to launch the football for the training person through arbitrary direction, more help the training person to train the ability of kicking the football into the goal from different angles on the training line.

In addition, in this embodiment one, because be equipped with into in the goal and collect mouthful and set up the track of catching the ball below this goal is collected mouthful, consequently can collect the football that is played into the goal by the person of being trained to through this track of catching the ball with football direction ejection mechanism and realize automatic ejection football, thereby saved the time of the person of training's picking up the ball, make it can utilize more time to carry out the training of shooing.

In addition, in this embodiment one, because the drive assembly passes through the drive block and drives the ejector pad and compress the elastic component to the elasticity through the elastic component pushes away the push rod and hits the ball, consequently, the drive assembly realizes the control to the power way when hitting the ball through the compression volume of control elastic component, compares artifical service, and this kind of service mode is required much more accurately, and service efficiency is also high.

In addition, in the first embodiment, since the ejection mechanism ejects the football, the ejection mechanism has a simple structure, so that a trainer can conveniently set indoors and train by using the ejection mechanism, and the trainer can conveniently train the football shooting at any time.

< example two >

Hereinafter, the indoor soccer shooting training apparatus according to the present embodiment will be described in detail with reference to the accompanying drawings.

Fig. 10 is a first schematic structural view of an indoor football shooting training device according to a second embodiment of the present invention, and fig. 11 is a second schematic structural view of an indoor football shooting training device according to a second embodiment of the present invention.

As shown in fig. 10 and 11, the indoor soccer shooting training apparatus 3300 includes a goal mounting frame 331, a goal 332, a goal collecting port 333, an ejection mechanism 334, a goal counting sensor 335 (not shown), a counting display panel 336, and an infrared irradiation part 337.

The goal mounting frame 331 is used to secure the goal 332. The goal mounting frame includes four main support frames 3311, two detachable joints 3312 and four side support bars 3313.

Wherein, two ends of each main supporting frame 3311 respectively extend along a direction perpendicular to the length direction thereof and form two inserting ends 33111, and each detachable joint 3312 has four inserting ends which are matched with the inserting ends 33111 and distributed along a cross. When the two insertion ends 33111 of each main support frame are inserted into the detachable connectors 3312 and assembled, a cuboidal hollow goal mounting frame 331 is formed.

In addition, a pair of main support frames 111 above the front and rear sides and a pair of main support frames 111 below are respectively installed at both ends of each pair of main support frames through two side support rods 3313. In this embodiment, the side support rods 3313 are fixedly connected to the main support frame by screws. In this embodiment, the size of the goal mounting frame 331 is 1.2 m.

Fig. 12 is a side view of a second goal according to an embodiment of the present invention, and fig. 13 is a sectional view taken along line a-a of fig. 12.

As shown in fig. 12 and 13, goal 332 includes a goal inlet 3321 and a goal net pocket 3322 integrally connected to goal inlet 3321. The goal net pocket portion 3322 has an opening portion 33221 which is rectangular and serves as a goal entrance 3321, and a body portion 33222 which is integrally connected to the opening portion 33221.

In this embodiment, the opening portion 33221 extends inwardly in the direction of the entrance of the goal 332 and is shaped like a rectangular trumpet as the outer peripheral surface of the extended opening portion 33221 gradually contracts, and the body portion 33222 extends inwardly in the direction of the entrance from the portion near the opening portion 33221 and gradually expands as the outer peripheral surface of the body portion 33222 expands and gradually contracts after forming a ridge portion 33223, so that the opening portion 33221 and the body portion 33222 form a cavity with a convergent, divergent middle and convergent rear portion, so that when a trainee kicks a soccer ball toward the goal, the trainee can easily enter the body portion 33222 due to the rectangular trumpet shape of the opening portion 33221, and all the soccer balls entering the body portion 33222 cannot easily pop up due to the convergent structure between the opening portion 33221 and the body portion 33222.

Fig. 14 is a schematic view of the size of the goal in the second embodiment of the present invention.

As shown in fig. 14, the area of the outermost opening of the opening portion 33221 is 1.15m × 0.8m, and the area of the opening formed after the contraction (i.e., the contracted structure between the opening portion 33221 and the main body portion 33222) is 0.9m × 0.6 m.

In this embodiment, the goal net pocket portion 3322 and the goal mounting frame 331 are respectively provided with a plurality of mounting holes, and the goal net pocket portion 3322 is fixed on the goal mounting frame 331 by a guy cable (not shown). One end of the guy wire hooks the mounting hole of the goal net pocket 3322 and the other end hooks the mounting hole of the corresponding position on the goal mounting frame 331, so that the goal net pocket 3322 is fixed and pulled open, thereby maintaining the shape and size of the goal opening 3321, the edge 33223 and the like.

Further, the goal net pocket 3322 further includes a ball blocking portion 33224 extending from a bottom of one side of the goal net pocket 3322 to a bottom of the other side thereof and located between the goal entrance 33221 and the goal collecting opening 333, so that even if a force of a soccer ball hitting the goal 332 is excessive, the soccer ball is blocked by the ball blocking portion 33224 to prevent the soccer ball from rolling out of the goal 332.

In this embodiment, the ball stop 33224 is positioned at the junction of the opening 33221 and the body portion 33222 to better block the entry of a soccer ball into the body portion 33222 with a constriction therebetween.

In addition, the ball stopper 33224 extends inward from the junction of the opening part 33221 and the body part 33222 in the entrance direction, that is, its surface facing the goal entrance 3321 has a certain inclination angle, so that when a soccer ball bounces off the body part 33222 and moves out of the body part 33222, the soccer ball can be prevented from rolling out of the goal 332, and the soccer ball hitting the opening part 33221 can smoothly roll into the body part 33222.

In this embodiment, the ball guard 33224 is a long strip that is angled and made of the same material as the pocket of the goal net pocket 3322. The net pocket of the goal net pocket portion 3322 and the ball blocking portion 33224 are made of high-strength polyester silk fabric, so that the goal net pocket portion 3322 and the ball blocking portion 33224 have sufficient strength, the shape of the goal net pocket portion 3322 cannot deform greatly, and the football collecting effect is guaranteed. At the same time, the material also makes the goal wear resistant and not easily damaged.

In addition, the goal net pocket portion 3322 further includes a bounce suppression plate 33225 for suppressing the bounce of a soccer ball launched at the goal entrance 3321, and the bounce suppression plate 33225 is provided on the goal back portion of the goal net pocket portion 3322 opposite to the goal entrance 3321. In this embodiment, the bounce suppression plate 33225 is disposed parallel to the face of the goal entrance 3321.

The goal collecting opening 333 is provided at a lateral lower portion of the goal net pocket 3322.

In this embodiment, as shown in fig. 13, the bottom surface 3322a of the goal net pocket 3322 is inclined toward the goal collecting opening 333, so that the soccer ball entering the body portion 33222 rolls toward the goal collecting opening 333 along the inclination of the bottom surface by gravity, thereby completing the collection of the soccer ball.

In this embodiment, the ball guide mechanism 334 takes the form of the ejection mechanism 220 in the first embodiment. That is, in contrast to the embodiment, the ejection mechanism 220 is not incorporated into the ball guide track 226, but is directly applied as a ball guide mechanism. In the following description, the same components as those in the first embodiment are denoted by the same reference numerals.

In this embodiment, one end of the passage portion 22111 is positioned below the goal collecting opening 333, and the soccer ball falls into the passage portion 22111 when it rolls out of the goal collecting opening 333. That is, the passage portion 22111 of the present embodiment directly functions as a ball catching, which is equivalent to being applied as a ball catching guide alone. In addition, a guide plate 3331 is provided at the goal collecting opening 333, and the outer end of the guide plate 3331 extends to just above the end of the passage portion 22111, so that the soccer ball can more easily drop into the passage portion 22111.

In this embodiment, the structures of the channel portion 22112 and the ball stopping groove 22113 are the same as those of the first embodiment, and the structures and the working principles of the ejection unit (including the ejection assembly, the driving assembly and the transmission assembly) and the steering unit (including the steering motor 2271, the turntable 2272, the gear 2273, the teeth 2274 and the bottom plate 2275) are the same as those of the first embodiment, which are not described herein again.

The goal counting sensor 335 is disposed at any position on the goal mounting frame 331 or the goal net pocket 3322 where a soccer ball entering the goal 332 can be sensed, and is used for counting the number of goals shot into the goal 332.

A count display panel 336 is provided at an easily observable position on the goal mounting frame 331 for displaying the count of the goal count sensor 335. In this embodiment, the counter display panel 336 is provided on the main support frame 3311 at the upper portion of the rear side.

The infrared irradiation part 337 is provided on the goal mounting frame 331 for irradiating the ground in front of the goal 332 and mapping a training line formed by infrared rays so that the trainee can run back and forth along the training line and train kicking.

Fig. 15 is a reference view of the second embodiment of the present invention showing an indoor football shooting training apparatus in use.

As shown in fig. 15, a plurality of training line irradiation distances (three training line irradiation distances D1, D2, and D3 are shown in fig. 14) are preset in the infrared irradiation unit 337, and training lines B1, B2, and B3 are irradiated on the ground at corresponding distances from the goal 332 based on the training line irradiation distances.

In this embodiment, the ejection mechanism 334 randomly rotates in three predetermined directions Q1, Q2, Q3 to randomly eject the ball 339 onto the training line in three directions, allowing the trainer to run back and forth along the training line and kick the ejected ball 339 into the goal 332.

The infrared irradiation part 337 may irradiate only one training line at each training, and allow the trainee to receive the ball 339 ejected from the ejection mechanism 334 only along the training line and complete the soccer shooting. The training line can be randomly irradiated according to the irradiation distance of the training line, so that the trainer can continuously adjust the direction of the trainer and perform the operations of catching and shooting according to the training line, and the training effect is effectively improved.

In the embodiment, the irradiation range of the training line is 2-6M, and in practical application, the irradiation range can be set to be 2/2.5/3/3.5/4.5/5/5.5/6M.

Examples effects and effects

According to the indoor football shooting training device that this embodiment two provided, compare with embodiment one, owing to have the infrared irradiation part, can shine the training line on the bottom surface with goal predetermined distance, cooperate ejection mechanism simultaneously for this ejection mechanism is along different positions of different direction with the football bullet to the training line, consequently, through this mode, the training person need run the ball that connects back and forth on the training line, and shoot the football into the goal from different angles, thereby temper the training person effectively and be at the football shooting ability on the predetermined distance from the goal.

In addition, in the second embodiment, the opening portion of the pocket portion of the goal net extends inwards along the entrance direction of the goal and gradually shrinks along with the outer peripheral surface of the extending opening portion, and the outer peripheral surface of the pocket portion of the goal net gradually expands when the pocket portion extends inwards and gradually shrinks after forming one ridge portion, so that a structure which is easy to allow the football to enter the goal but difficult to roll out is formed, the football kicked towards the goal by a trainer can normally enter the goal, and the goal collecting opening arranged in the goal is more favorable for collecting the football entering the goal. Through the cooperation of the goal structure and the ejection mechanism as the ejection mechanism, the football can be effectively collected and automatically launched when a trainer plays the football in training, the time for picking up the football is further saved for the trainer, and the trainer can use more time for shooting training.

In addition, in the second embodiment, the goal net pocket further includes a ball blocking portion located between the goal entrance and the goal collecting opening, and the ball blocking portion is disposed at a connection portion between the opening portion and the body portion, so that the ball blocking portion can effectively prevent the football entering the goal from rolling out of the goal under the rebounding effect, and the goal collecting opening is further facilitated to collect the football entering the goal.

In addition, in the second embodiment, the size of the whole goal is only 1.2m x 1,2m, the size of the goal is formulated based on the rule of three-person football, and the ball guide mechanism is also an ejection mechanism which is arranged beside the goal and has a smaller size, so that the indoor football shooting device is suitable for small-scale and indoor football training, occupies a small field, can be conveniently arranged in the home of a trainer or other indoor small fields, is convenient for the trainer to carry out the training of positioning the ball anywhere and anytime, and simultaneously avoids the influence of weather on the football training process.

Simultaneously, in this embodiment two, because the holistic size of goal is little goal size, consequently, can let the training person carry out long-term training and finally can play the football into little goal at each angle on the training line, also can make the training person when actually shooting the big goal, can play the predetermined area in the big goal more accurately to promote training person's football level.

In addition, in this embodiment two, the main tributary vaulting pole in the goal installation frame can conveniently be followed removable interface and pull down to save space through piling up when accomodating, consequently be convenient for the training person and install and dismantle indoor football shoot trainer at any time indoor, more be favorable to the training of training person anytime and anywhere carrying out the football.

The above embodiments are merely illustrative of specific embodiments of the present invention, and the present invention is not limited to the description of the above embodiments.

For example, in the second embodiment, the ball guide mechanism rotates randomly in three predetermined directions and performs pinball. In other aspects of the present invention, the ball guiding mechanism can also rotate completely at random, so that the football can be bounced to different positions of the training line at random. Through the mode, the training difficulty of the trainer can be further increased, so that the ball catching capacity of the trainer and the capacity of kicking the football from different angles to the goal along the preset distance can be better exercised, and the football level of the trainer can be effectively improved.

For example, the goal in the first embodiment includes a goal collecting opening arranged at the bottom of the goal, and a ball receiving track for receiving the football and guiding the football to the ejection cabinet is arranged below the goal collecting opening; the goal in the second embodiment includes a goal collecting opening disposed at the bottom of one side of the goal, and the ball receiving guide rail of the ejection mechanism abuts against the goal collecting opening and receives the soccer balls rolled out from the goal collecting opening. The utility model discloses an in other schemes, the goal also can be the goal of arbitrary form, as long as have the goal and collect the mouth, collect the mouth through the goal with the ball guide rail of launching mechanism and this kind of goal and be linked together, can realize carrying out the indoor football shooting trainer of marble along the equidirectional not automatically for the training person accomplishes the training.

For example, the ejection mechanism of the above embodiments may be applied to other types of goals, and as long as the soccer balls shot into the goals can be collected and guided into the ball catching rail (e.g., conveyed by conveyor), the ejection mechanism can eject the soccer balls onto the training line from different angles to allow the trainee to perform shooting training.

Claims (10)

1. An ejection mechanism, which is arranged in an indoor football shooting training device and is used for ejecting a football kicked into a goal by a trainer when shooting training, and is characterized by comprising:

the ball receiving guide rail is used for receiving the football kicked into the goal by the trainer;

the marble guide rail is communicated with the ball receiving guide rail;

the ejection unit is used for sequentially receiving the football from the ball receiving guide rail and ejecting the football along the ball ejecting guide rail; and

and the steering unit is used for steering the marble guide rail, sequentially receiving a plurality of the football rolled out from the ball receiving guide rail and respectively ejecting the football to a training line which is parallel to the surface of the goal entrance and is separated from the goal by a preset distance along different directions.

2. The ejection mechanism of claim 1, wherein:

wherein the ejection unit comprises an ejection assembly for ejecting and a driving assembly for driving the ejection assembly,

the ejection assembly includes:

the push rod extends out of the marble guide rail from the inside of the marble guide rail along the length direction of the marble guide rail;

the push plate is arranged at one end of the push rod, which is positioned in the marble guide rail;

the push block is arranged at one end of the push rod, which is positioned outside the marble guide rail; and

the elastic piece is connected to one side, far away from the marble guide rail, of the push block;

the driving assembly is used for driving the push rod to eject the football so as to finish ejection.

3. The ejection mechanism of claim 2, wherein:

wherein the drive assembly comprises:

the driving block is arranged opposite to the push block; and

the driving motor drives the driving block to move so that the driving block drives the push block to move, and the elastic piece is compressed,

the driving block is separated from the push block after the elastic piece is compressed, so that the elastic piece is reset to generate elastic force, and the push block is pushed and drives the push rod to move to realize ejection.

4. The ejection mechanism of claim 3, wherein:

wherein the drive assembly further has: the limiting seat is arranged at one side of the elastic piece and is provided with a first inclined surface inclining towards the direction of the elastic piece,

the push block comprises a connecting seat connected with the elastic piece and a slide sheet capable of sliding relative to the connecting seat,

the slide sheet is provided with an end part which can be abutted against the driving block, the surface of the end part far away from the driving block is a second inclined plane matched with the first inclined plane,

after the elastic piece is compressed under the driving of the driving block, the first inclined plane is abutted against the second inclined plane, so that the sliding sheet moves to be separated from the driving block.

5. The ejection mechanism of claim 4, wherein:

wherein, be equipped with length direction between gleitbretter with the connecting seat with the moving direction of gleitbretter is unanimous and is used for the extension spring that resets it after the gleitbretter removes.

6. The ejection mechanism of claim 5, wherein:

wherein the driving motor drives the driving block to move and reset after the driving block is separated from the push block,

the driving block comprises a driving seat connected with the driving motor and a driving sheet fixed on the driving seat,

the driving sheet is provided with a driving pin which extends towards the end part of the sliding sheet so as to be abutted against the end part, the driving pin is abutted against the end part of the sliding sheet in the process that the driving motor drives the driving block to move and compress the elastic piece so as to drive the push block to move,

the surface of the driving pin facing the second inclined surface is a third inclined surface matched with the second inclined surface, so that when the driving block is reset under the driving of the driving motor, the third inclined surface is abutted against the second inclined surface, the slide plate moves relative to the connecting seat in the direction away from the driving block, and the driving block is allowed to reset to a position where the driving pin passes over the slide plate.

7. The ejection mechanism of claim 4, wherein:

wherein, a guide post is fixedly arranged on the connecting seat,

the sliding piece is provided with a guide hole, the length direction of the guide hole is consistent with the moving direction of the sliding piece and is matched with the guide post, so that the moving direction of the sliding piece is perpendicular to the moving direction of the push block.

8. The ejection mechanism of claim 1, wherein:

the joint of the ball receiving guide rail and the marble guide rail is provided with a ball stopping groove, and one end of the ball receiving guide rail, which is far away from the ball stopping groove, is higher than one end of the ball stopping groove.

9. The ejection mechanism of claim 1, wherein:

wherein the steering unit includes:

the mounting hole is formed in one side of the marble guide rail;

a steering motor arranged in the mounting hole, a motor shaft of the steering motor faces the bottom of the marble guide rail and is provided with a gear,

the carousel sets up the bottom of marble guide rail, the week side of carousel be equipped with gear engaged with tooth makes turn to motor during operation, the gear matches and drives with tooth the marble guide rail is accomplished and is turned to.

10. An indoor football shooting training device, characterized by, includes:

a goal, comprising a goal entrance;

the goal collecting port is arranged on the goal and is used for collecting the football kicked into the goal by a trainer;

the ejection mechanism is used for sequentially receiving the plurality of football balls rolled out from the goal entrance collecting port and ejecting the plurality of football balls to a training line which is parallel to the plane of the goal entrance and is separated from the goal by a preset distance in different directions; and

an infrared irradiation part for irradiating the training line on the ground in front of the goal,

wherein the ejection mechanism is as claimed in any one of claims 1 to 9.

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