CN108905237B - Ring toy - Google Patents

Abstract

The invention discloses a loop toy, which comprises a base, a loop bar and a loop, wherein the loop bar comprises a main bar and a branch bar, the position of the main rod close to the branch rod is provided with a detection device, the detection device comprises a telescopic component, a magnet block, a reed pipe and a controller electrically connected with the reed pipe, the telescopic component is provided with a fixed end fixed on the main rod and a telescopic end opposite to the fixed end, the distance from the telescopic end to the corresponding branch rod is less than the thickness of the ferrule, the reed pipe is arranged close to the fixed end, the magnet block is arranged on the telescopic assembly in a telescopic mode, the telescopic end is shortened when being impacted by the ferrule, the distance between the reed pipe and the magnet block is reduced, the reed pipe is triggered to be closed, a confirmation signal is sent to the controller, and the controller receives the confirmation signal and determines the position in the ferrule. The loop toy has the automatic scoring function, and is simple in structure and low in cost.

Description

Ring toy

Technical Field

The invention relates to the field of toys, in particular to a loop toy.

Background

The traditional looping toy is only provided with loop bars on a base, and when a looping game is played, the number of the loops of the loop bars in the loop is calculated manually to serve as the score of the game. Therefore, the player needs to throw a turn and score in the game process, great inconvenience is brought to the game process, and the game experience is reduced. Meanwhile, the scoring behavior can disperse the attention of the player, thereby influencing the hit rate of the player when throwing a circle and reducing the confidence of the player.

Disclosure of Invention

The invention aims to provide a loop toy which has an automatic scoring function, and is simple in structure and low in cost.

In order to solve the technical problems, the invention adopts the following technical scheme: the ring toy comprises a base, at least one sleeve rod and at least one ring, wherein the sleeve rod is arranged on the base and comprises a main rod connected with the base, at least one branch rod which is arranged on the main rod in an upward inclined mode, a detection device is arranged at a position, close to the branch rod, of the main rod and comprises a telescopic component, a magnet block, a reed pipe and a controller electrically connected with the reed pipe, the telescopic component is provided with a fixed end fixed on the main rod and a telescopic end opposite to the fixed end, the distance from the telescopic end to the corresponding branch rod is smaller than the thickness of the ring, the reed pipe is arranged close to the fixed end, the magnet block is arranged on the telescopic component in a telescopic mode, when the telescopic end is impacted by the ring, the telescopic component is shortened to enable the distance between the reed pipe and the magnet block to be reduced so as to trigger the reed pipe to be closed and send a confirmation signal to the controller, and the controller judges that the ferrule is sleeved into the corresponding branch rod when receiving the confirmation signal.

Compared with the prior art, the invention has the following beneficial effects: the loop toy is provided with the magnet block and the reed switch on the loop bar, the reed switch is connected with the controller, in the loop throwing game, when the branch bar on the loop bar in the loop is sleeved, the magnet block is triggered to be close to the reed switch and generate an electric signal, and the controller receives the electric signal and scores. Meanwhile, triggering the magnet block to be close to the reed switch requires the ferrule to continuously push the telescopic end of the telescopic assembly, and only when the support rod is separated in the ferrule sleeve, the ferrule can continuously push the telescopic end, so that misjudgment caused by the fact that the ferrule touches the telescopic end under the condition that the ferrule is not used can be effectively avoided, and accurate scoring is further achieved. And moreover, the reed switch is low in price, so that the counting function of the ring-sleeved toy is realized, the production cost is effectively reduced, and the cost performance of the product is improved.

Drawings

FIG. 1 is a perspective view of the snare toy of the present invention;

FIG. 2 is a schematic sectional view taken along line A-A of example 1 of the snare toy of FIG. 1;

FIG. 3 is a schematic cross-sectional view taken along line B-B of the snare toy of FIG. 2;

FIG. 4 is an enlarged schematic view of a branch stem of the snare toy of the present invention;

FIG. 5 is a schematic sectional view taken along line A-A of example 2 of the snare toy of FIG. 1;

FIG. 6 is a schematic sectional view taken along line A-A of example 3 of the snare toy of FIG. 1;

fig. 7 is a sectional view taken along the line a-a of example 4 of the snare toy of fig. 1.

In the figure:

10: a base;

20: a loop bar;

201: a main rod;

2011: a cavity;

2012. 2014: an opening;

2013: a housing part;

202: branch rods are arranged;

2021: a bending section;

203: a blocking member;

30: a ferrule;

401. 501, 601, 701: a telescoping assembly;

4011. 5011, 6011: a fixing member;

4011a, 5011 a: a fixing plate;

4011b, 5011 b: a first pipe body;

6011 a: a support bar;

4012. 5012, 6012, 7012: a movable member;

4012a, 5012 a: a second tube body;

4012b, 5012 b: a push block;

6012 a: a baffle plate;

6012 b: a bump;

7012 a: a top block;

6012c, 7012 b: a connecting rod;

4013. 5013, 6013, 7013: an elastic member;

402. 502, 602, 702: a magnet block;

403. 503, 603, 703: a reed switch;

Detailed Description

The invention provides a loop toy, which mainly aims at the problem that the traditional loop toy cannot automatically score.

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1

Referring to fig. 1 to 3, the snare toy of the present invention includes a base 10, at least one loop bar 20, and at least one snare 30. The loop bar 20 is arranged on the base 10. The loop bar 20 comprises a main bar 201 and at least one branch bar 202, the bottom end of the main bar 201 is connected with the base 10, and the branch bar 202 is arranged on the main bar 201 and the branch bar 202 inclines upwards. The main rod 201 is provided with a detection device, and the detection device is arranged at a position where the main rod 201 is close to the branch rod 202. The detection device comprises a telescopic assembly 401, a magnet block 402, a reed switch 403 and a controller (not shown) electrically connected with the reed switch 403. The telescopic assembly 401 comprises a fixed end and a telescopic end, the fixed end is fixed on the main rod 201, the telescopic end is opposite to the fixed end, and the distance from the telescopic end to the corresponding branch rod 202 is smaller than the thickness of the ferrule 30. The magnet block 402 is disposed on the telescoping end of the telescoping assembly 401. The reed pipe 403 is disposed on the main rod 201 near the fixed end. In other embodiments, the reed switch 403 may be disposed on the telescopic assembly 401 near the fixed end. When the telescopic end is impacted by the ferrule 30, the telescopic assembly 401 shortens to reduce the distance between the reed pipe 403 and the magnet block 402, so as to trigger the reed pipe 403 to close and send a confirmation signal to the controller, and the controller determines that the ferrule 30 is sleeved in the corresponding branch rod 202 when receiving the confirmation signal.

In detail, when the snare toy is used for a snare game, the snare 30 slides down the branch rod 202 on the loop bar 20 in the snare 30 due to the influence of gravity, when the branch rod 202 is put on the loop bar 20. Since the distance from the telescopic end of the telescopic assembly 401 to the branch rod 202 is less than the thickness of the ferrule 30, the ferrule 30 slides down along the branch rod 202 to the position where the branch rod 202 is close to the main rod 201, and then impacts the telescopic end, and generates a continuous thrust on the telescopic end. Under the action of the thrust, the telescopic assembly 401 contracts and drives the magnet block 402 arranged at the telescopic end to move towards the fixed end of the telescopic assembly 401, the distance between the magnet block 402 and the reed pipe 403 arranged at a position close to the fixed end is reduced, the magnet block 402 triggers the reed pipe 403 to close and generate an electric signal, the electric signal is sent to the controller as a confirmation signal, and the controller receives the electric signal and judges that the ferrule 30 is sleeved into the corresponding branch rod 202. If the ferrule 30 is not sleeved on the branch stem 202 of the sleeve rod 20, a continuous thrust on the telescopic end is difficult to form, and the magnet block 402 is not caused to move and trigger the reed on the reed pipe 403 to close, so that misjudgment can be effectively avoided.

Specifically, at least one cavity 2011 is arranged in the main rod 201, and the cavity 2011 is arranged at a position where the main rod 201 is close to the branch rod 202. In the present embodiment, the number of the cavities 2011 is equal to the number of the branch bars 202 disposed on the main bar 201. In other embodiments, the number of cavities 2011 may be less than the number of sub-struts 202, such as multiple sub-struts 202 sharing a cavity 2011. The detection means is arranged within the cavity 2011. By locating the detection device in the cavity 2011, the position is hidden, so that the visual effect of the appearance of the collar toy is not affected; meanwhile, the side wall of the cavity 2011 can protect the detection device, so that the detection device is prevented from being damaged or being collided in the using process, and the service life of the ferrule toy is prolonged. At least one opening 2012 is opened on the sidewall of the cavity 2011, and the opening 2012 is located above the connection position of the main rod 201 and the branch rod 202. In this embodiment, an opening 2012 is formed on a sidewall of the cavity 2011. In other embodiments, a plurality of openings 2012 may be formed in the sidewall of the cavity 2011, as long as the number of the openings 2012 is greater than or equal to the number of the detecting devices disposed in the cavity 2011. The opening 2012 is sized to be greater than or equal to the size of the telescoping end of the telescoping assembly 401 disposed within the cavity 2011, and the telescoping end of the telescoping assembly 401 extends at least partially out of the cavity 2011 from the opening 2012 to ensure that the telescoping end of the telescoping assembly 401 can interact with the collar 30.

Further, referring to fig. 2 and 3, the telescopic assembly 401 includes a fixed part 4011 and a movable part 4012, wherein the fixed part 4011 is fixedly connected to the main rod 201, and the movable part 4012 is movably connected to the fixed part 4011. The one end that the mounting 4011 kept away from the moving part 4012 is the stiff end, the one end that the moving part 4012 kept away from the mounting 4011 is the flexible end. The telescopic assembly 401 further comprises an elastic member 4013, and the elastic member 4013 is located between the fixed end and the telescopic end. Specifically, one end of the elastic element 4013 is connected to the movable element 4012, and the other end of the elastic element 4013 is connected to the main rod 201 or the fixed element 4011. The distance from the moving part 4012 to the branch lever 202 corresponding thereto is smaller than the thickness of the ferrule 30. The magnet block 402 is disposed on the movable element 4012. The reed switch 403 is disposed near the fixing part 4011 of the telescopic assembly 401.

Further, the fixing part 4011 includes a fixing plate 4011a and a first tube 4011b, the fixing plate 4011a is fixedly connected to the main rod 201, and one end of the first tube 4011b is fixedly disposed on a side surface of the fixing plate 4011 a. Specifically, the fixing plate 4011a is vertically arranged in the cavity 2011, and the fixing plate 4011a is fixedly connected with the side wall of the cavity 2011. The first tube 4011b and the fixing plate 4011a are perpendicular to each other. Moving part 4012 includes second body 4012a and ejector pad 4012b, second body 4012a one end with first body 4011b swing joint, the second body 4012a other end with ejector pad 4012b fixed connection. Specifically, the external diameter of second body 4012a with the internal diameter phase-match of first body 4011b, first body 4011b cover is established outside second body 4012a, second body 4012a can follow first body 4011b axial reciprocating motion. An end portion of said push block 4012b opposite to said second body 4012a extends from said opening 2012 to said cavity 2011, said push block 4012b is spaced from its associated branch rod 202 by a distance less than the thickness of said ferrule 30, and said ferrule 30 interacts with said push block 4012b when said ferrule 30 is received within said branch rod 202. The elastic member 4013 is disposed between the push block 4012b and the fixed plate 4011 a. Specifically, one end of the elastic element 4013 is connected to the pushing block 4012b, and the other end of the elastic element 4013 is connected to the fixing plate 4011 a. In other embodiments, the other end of the elastic member 4013 may be connected to the first body 4011 b. Specifically, elastic component 4013 is a spring, elastic component 4013 cover is established first body 4011b with outside second body 4012 a.

Meanwhile, in this embodiment, the magnet block 402 is disposed on the moving element 4012, specifically, the magnet block 402 is disposed in the second tube 4012 a. The reed switch 403 is disposed on the fixing element 4011, specifically, the reed switch 403 is disposed on a side surface of the fixing plate 4011a, the side surface of the fixing plate 4011a is a side surface of the fixing plate 4011a opposite to the first tube 4011b, and a position of the reed switch 403 corresponds to a position of the magnet block 402.

Thus, when the pushing block 4012b on the moving element 4012 is impacted by the ferrule 30, the elastic element 4013 and the moving element 4012 approach to the fixed element 4011 at the same time, so as to drive the magnet block 402 arranged on the second tube 4012a to approach to the reed switch 403 arranged on the fixed plate 4011a, and trigger the reed switch 403 to close to generate an electric signal. Meanwhile, after the ferrule 30 leaves the pushing block 4012b, the elastic element 4013 extends and drives the elastic element 4013 and the movable element 4012 to reset at the same time, the magnet block 402 leaves the reed pipe 403, reeds in the reed pipe 403 are separated, and the electric signal disappears.

Specifically, the controller comprises a power supply and a single chip microcomputer. The single chip microcomputer is used for receiving an electric signal generated when the reed switch 403 is closed and scoring; the power supply is used for supplying power to the single chip microcomputer, and meanwhile, the power supply is electrically connected with the reed switch 403. More specifically, the reed switch 403 is connected to the negative electrode of the power supply at one end and to the positive electrode of the power supply via a load at the other end. The load is a buzzer and/or an indicator light. After the branch rod 201 is sleeved in the ferrule 30, the reed in the reed switch 403 is closed, the circuit is conducted, and the buzzer sounds and/or the indicator light is lighted, so that the interestingness of the shooting game is increased.

Further, the portion of the pushing block 4012b protruding out of the opening 2012 has a downward inclined surface, which may be a downward inclined plane or a downward inclined curved surface. Thus, even if the ferrule 30 falls on the push block 4012b during the ring throwing, the ferrule 30 continues to slide down along the inclined surface of the push block 4012b instead of stopping on the push block 4012 b. In this embodiment, the portion of the pushing block 4012b protruding out of the opening 2012 is hemispherical. In other embodiments, the pushing block 4012b may be a wedge with a triangular or trapezoidal cross section, and the portion of the wedge extending out of the opening 2012 has a plane inclined downward.

Still further, referring to fig. 4, the branch bar 202 is provided with a bent portion 2021, the bent portion 2021 is formed by bending the branch bar 202 to one side, the bent portion 2021 is disposed at a root of the branch bar 202 or a position close to the root, and the root of the branch bar 202 is an end of the branch bar 202 close to the main bar 201. Thus, when the ferrule 30 is sleeved on the branch rod 202, the ferrule 30 slides downwards, and the ferrule firstly acts on the push block 4012b and triggers the reed in the reed pipe 403 to close so as to generate an electric signal, and a controller scores; the ferrule 30 slides downwards continuously, the ferrule 30 slides into the bending part 2021, the ferrule 30 is separated from the pushing block 4012b, the pushing force applied to the pushing block 4012b disappears, the telescopic assembly 401 resets, the magnet block 402 is driven to be away from the reed pipe 403, reeds in the reed pipe 403 are separated, an electric signal disappears, and one scoring is completed. This process is repeated as additional ferrules 30 are placed on the branch bar 202, thereby allowing for the sequential scoring of multiple ferrules 30 on the same branch bar 202 in the set. Preferably, the bend is provided in a U-shape or V-shape to accommodate as many ferrules 30 as possible.

In addition, the branch rod 202 is detachably connected to the main rod 201, which not only facilitates the loop 30 to be taken out from the branch rod 202 after the completion of the looping game, but also does not trigger the detection device to score, thereby ensuring the reliability of the branch. Specifically, the branch rod 202 is connected with the main rod 201 by a screw thread. More specifically, the root of the branch rod 202 is provided with a connecting part (not shown), the cross section of the connecting part is circular, and the outer surface of the connecting part is provided with external threads; meanwhile, a connecting hole (not shown) is formed in the main rod 201, the connecting hole is a blind hole, and an internal thread matched with the external thread on the connecting portion is formed in the inner surface of the connecting hole. After the end of the round-trip game, the ferrule 30 of the branch rod 202 can be taken out by unscrewing the branch rod 202 from the main rod 201. In other embodiments, the branch rod 202 may be inserted into the main rod 201. Specifically, the root of the branch rod 202 is provided with a connecting part (not shown), the cross section of the connecting part is square, rectangular or polygonal, and the polygon includes pentagon, hexagon and the like; meanwhile, a connection hole (not shown) is formed in the main lever 201, the shape of the cross section of the connection hole is identical to the shape of the cross section of the connection part, and the size of the connection hole is matched with the connection part. After the end of the putting game, the ferrule 30 of the branch rod 202 can be taken out by pulling the branch rod 202 out of the main rod 201.

In addition to the branch bar 202 being configured to be removably coupled to the main bar 201, the main bar 20 is also configured to be removably coupled to the base 10. The detachable connection may be a threaded connection or a plug connection, and is not limited herein. Therefore, when the toy with the ferrule is not used, all parts of the toy with the ferrule can be detached and put together, so that the storage space of the toy with the ferrule is saved; at the same time, disassembling the snare toy into smaller units is also more convenient to carry.

Also, a stopper 203 is provided at the tip of the main rod 201, and the stopper 203 is sized to be larger than the diameter of the ferrule 30. Thus, when the ferrule 30 is sleeved on the main rod 201, it will be stopped by the stop piece 203 during the downward sliding/falling process, and will not slide further to the connection between the branch rod 202 and the main rod 201 and trigger the push block 4013 to move, thereby affecting the scoring result. Specifically, in this embodiment, the blocking member 203 is preferably provided as a disk having a diameter larger than that of the ferrule 30, the disk being horizontally provided on the top of the main lever 201. In other embodiments, the stop may be a rod having a length greater than the inner diameter of the ferrule 30, the rod being horizontally disposed on the top of the main rod 201.

Still further, a display screen (not shown) is arranged on the ring-sleeving toy, and the display screen is electrically connected with the controller. The controller can transmit the result to the display screen for displaying after finishing scoring each time, so that the player can master the game score in real time. The display screen is preferably arranged on the base 10.

Similarly, the controller may be connected to a wireless communication module (not shown), and the wireless communication module may synchronize the scoring result of the single chip microcomputer to the mobile terminal in real time, so that the player may directly inquire the game score from the mobile terminal.

Furthermore, according to the design concept of the present invention, when the ferrule 30 is measured, a component force generated by the gravity of the ferrule 30 is required to push the pushing block 4012b, so the weight of the ferrule 30 is not too light. Preferably, the ferrule 30 is provided solid. Preferably, the ferrule 30 is made of plastic, metal, or the like.

Example 2

Referring to fig. 1 and 5, as another embodiment of the snare toy of the present invention, a structure of the detection device is modified based on the above example 1.

Specifically, the telescopic assembly 501 includes a fixing member 5011 and a movable member 5012, the fixing member 5011 is fixedly connected to the main rod 201, and the movable member 5012 is movably connected to the fixing member 5011. The mounting 5011 is kept away from the one end of the moving part 5012 is the fixed end, the moving part 5012 is kept away from the one end of the mounting 5011 is the telescopic end. The telescopic assembly 501 further comprises an elastic member 5013, wherein the elastic member 5013 is located at the fixed end and between the telescopic ends. Specifically, one end of the elastic member 5013 is connected to the movable member 5012, and the other end of the elastic member 5013 is connected to the main lever 201 or the fixed member 5011. The distance of the movable member 5012 from its corresponding branch stem 202 is less than the thickness of the ferrule 30. The movable member 5012 is provided with a magnet block 502. A reed switch 503 is provided adjacent to the fixing member 5011 of the telescopic assembly 501.

More specifically, the fixing member 5011 includes a fixing plate 5011a fixedly connected to the main lever 201, and a first pipe 5011b having one end fixedly disposed on one side surface of the fixing plate 5011 a. Specifically, the fixing plate 5011a is vertically arranged in the cavity 2011, and the fixing plate 5011a is fixedly connected with a side wall of the cavity 2011. The first tube 5011b is perpendicular to the fixing plate 5011 a. The movable member 5012 includes a second tube 5012a and a push block 5012b, one end of the second tube 5012a is movably connected to the first tube 5011b, and the other end of the second tube 5012a is fixedly connected to the push block 5012 b. Specifically, the inner diameter of the second tube 5012a matches the outer diameter of the first tube 5011b, the second tube 5012a is sleeved outside the first tube 5011b, and the second tube 5012a can axially reciprocate along the first tube 5011 b. An end portion of the push block 5012b opposite to the second tube 5012a protrudes from the opening 2012 out of the cavity 2011, and the distance from the push block 5012b to the corresponding branch lever 202 is smaller than the thickness of the ferrule 30, and the ferrule 30 interacts with the push block 5012b when the ferrule 30 is sleeved on the branch lever 202. The elastic member 5013 is disposed between the push block 5012b and the fixing plate 5011 a. Specifically, one end of the elastic member 5013 is connected to the push block 5012b, and the other end of the elastic member 5013 is connected to the fixed plate 5011 a. In another embodiment, one end of the elastic member 5013 may be connected to the second tube 5012a, and the other end may be connected to the fixing plate 5011 a. Specifically, the elastic member 5013 is a spring, and the elastic member 5013 is disposed inside the first tube 5011b and the second tube 5012 a.

Meanwhile, in the present embodiment, the magnet block 502 is disposed on the movable member 5012, specifically, the magnet block 502 is disposed outside the second tube 5012 a. The reed switch 503 is disposed on the fixing member 5011, specifically, the reed switch 503 is disposed on a side surface of the fixing plate 5011a, the side surface of the fixing plate 5011a is a side surface of the fixing plate 5011a opposite to the first tube 5011b, and the position of the reed switch 503 corresponds to the position of the magnet block 502.

Thus, when the push block 5012b of the movable member 5012 is impacted by the ferrule 30, the elastic member 5013 and the movable member 5012 approach the fixed member 5011 at the same time, thereby driving the magnet block 502 disposed on the second tube 5012a to approach the reed switch 503 disposed on the fixed plate 5011a and triggering the reed switch 503 to close to generate an electrical signal. Meanwhile, after the ferrule 30 leaves the push block 5012b, the elastic member 5013 stretches and drives the elastic member 5013 and the movable member 5012 to reset at the same time, the magnet block 502 is far away from the reed pipe 503, the reeds in the reed pipe 503 are separated, and the electric signal disappears.

Example 3

Referring to fig. 1 and 6, as another embodiment of the snare toy of the present invention, a structure of the detection device is modified based on the above embodiment 1.

Specifically, the telescopic assembly 601 includes a fixed member 6011 and a movable member 6012, wherein the fixed member 6011 is fixedly connected to the main rod 201, and the movable member 6012 is movably connected to the fixed member 6011. One end of the fixed member 6011, which is away from the movable member 6012, is the fixed end, and one end of the movable member 6012, which is away from the fixed member 6011, is the telescopic end. The telescopic assembly 601 further includes an elastic member 6013, and the elastic member 6013 is located between the fixed end and the telescopic end. Specifically, one end of the elastic member 6013 is connected to the movable member 6012, and the other end of the elastic member 6013 is connected to the main rod 201 or the fixed member 6011. The distance from the movable member 6012 to the branch rod 202 corresponding thereto is smaller than the thickness of the ferrule 30. The movable member 6012 is provided with a magnet block 602. A reed pipe 603 is provided near the fixing member 6011 of the telescopic assembly 601.

More specifically, the fixing element 6011 includes at least one supporting rod 6011a, and the supporting rod 6011a is fixedly connected to the main rod 201. In this embodiment, the fixing element 6011 includes two support rods 6011a, and the two support rods 6011a are parallel to each other. The bracing piece 6011a level sets up in the cavity 2011, just the both ends of bracing piece 6011a all with the lateral wall fixed connection of cavity 2011, thereby realize bracing piece 6011a with mobile jib 201 fixed connection. In other embodiments, one end of the supporting rod 6011a may be fixedly connected to the sidewall of the cavity 2011, as long as the supporting rod 6011a can be fixed. The movable member 6012 includes a baffle 6012a and a protrusion 6012b, the baffle 6012a is movably connected to the two support rods 6011a, and the protrusion 6012b is disposed on a side surface of the baffle 6012 a. More specifically, the baffle 6012a is vertically disposed relative to the support rod 6011a, and a through hole is disposed on the baffle 6012a and is used for penetrating through the support rod 6011a, so that the baffle 6012a is movably connected to the support rod 6011 a. More specifically, the number of the through holes is equal to the number of the support rods 6011a, the shape of the through holes is consistent with the shape of the cross section of the support rod 6011a, and the size of the through holes is slightly larger than the size of the cross section of the support rod 6011a, so that when the baffle 6012a is movably connected with the support rod 6011a, the baffle 6012a can be stably and flexibly reciprocate along the axial direction of the support rod 6011 a. An end portion of the projection 6012b opposite to the baffle 6012a protrudes from the opening 2012 out of the cavity 2011, and the distance from the projection 6012b to the corresponding branch rod 202 is less than the thickness of the ferrule 30, and the ferrule 30 will interact with the projection 6012b when the ferrule 30 is sleeved on the branch rod 202. One end of the elastic member 6013 is connected to the baffle 6012a, and the other end of the elastic member 6013 is connected to the main rod 201. In other embodiments, the other end of the elastic member 6013 may be connected to the supporting rod 6011 a. Specifically, the elastic member 6013 is a spring, the number of the elastic members 6013 is greater than or equal to 1, in this embodiment, the number of the elastic members 6013 is equal to the number of the supporting rods 6011a, and is also two, and the elastic members 6013 are all sleeved outside the supporting rods 6011 a. In other embodiments, the number of the elastic members 6013 may be greater or less than the number of the support rods 6011a, and the elastic members 6013 may be independently disposed relative to the support rods 6011 a.

Meanwhile, in the present embodiment, the magnet block 602 is disposed on the movable member 6012. Specifically, the movable member 6012 further includes a rigid connecting rod 6012c, the connecting rod 6012c is disposed on a side surface of the baffle 6012a, the side surface of the baffle 6012a is a side surface of the baffle 6012a opposite to the protruding block 6012b, the magnet 602 is disposed on the rigid connecting rod 6012c, and the connecting rod 6012c is disposed to reduce a distance between the magnet 602 and the fixed end, so as to ensure that the magnet 602 can trigger the reed inside the reed pipe 603 to close when the telescopic assembly 601 contracts. The reed pipe 603 is arranged on the main rod 201, specifically, the reed pipe 603 is arranged on the inner side wall of the cavity 2011, and the position of the reed pipe 603 corresponds to the position of the magnet block 602.

Thus, when the protrusion 6012b of the moving member 6012 is impacted by the ferrule 30, the elastic member 6013 and the moving member 6012 approach to the fixed end along the fixed member 6011 at the same time, so as to drive the magnet 602 disposed on the baffle 6012a to approach the reed pipe 603 disposed on the main rod 201, and trigger the reed pipe 603 to close to generate an electrical signal. Meanwhile, after the ferrule 30 leaves the protruding block 6012b, the elastic element 6013 extends and drives the elastic element 6013 and the moving element 6012 to reset at the same time, the magnet 602 is away from the reed pipe 603, the reeds in the reed pipe 603 are separated, and the electrical signal disappears.

Example 4

Referring to fig. 1 and 7, as another embodiment of the snare toy of the present invention, a structure of the main rod 201 and a structure of the detection means are changed based on the above embodiment 1.

Specifically, the main rod 201 is provided with at least one receiving portion 2013, the receiving portion 2013 is opened at a position of the main rod 201 close to the branch bar 202, and in detail, the receiving portion 2013 is arranged above a connection position of the main rod 201 and the branch bar 202. In this embodiment, the number of the receiving portions 2013 is equal to the number of the detection devices. The receiving portion 2013 is formed by inward sinking of the side wall of the main rod 201, and an opening 2014 is formed at one end of the receiving portion 2013, and one end of the receiving portion 2013 opposite to the opening 2014 extends into the main rod 201 and forms a bottom wall of the receiving portion 2013. In other embodiments, the receiving portion 2013 may be a hollow tube disposed on the main rod 201.

Furthermore, the telescopic assembly 701 in the detection device is at least partially arranged in the accommodating part 2013, and the accommodating part 2013 plays a role in supporting and limiting the telescopic assembly 701. The telescopic assembly 701 comprises a movable part 7012 and an elastic part 7013, one end of the elastic part 7013 is connected with the movable part 7012, and the other end of the elastic part 7013 is connected with the bottom wall of the accommodating part 2013, so as to be connected with the main rod 201. One end of the elastic element 7013 connected to the bottom wall of the accommodating portion 2013 forms a fixed end of the telescopic assembly 701, and one end of the movable element 7012 opposite to the elastic element 7013 forms a telescopic end of the telescopic assembly 701. Further, the movable member 7012 includes a top block 7012a, and the top block 7012a is partially disposed in the accommodating portion 2013, and is supported and limited by an inner side wall of the accommodating portion 2013. The size of the top block 7012a is smaller than or equal to the size of the accommodating portion 2013, so that the top block 7012a can move back and forth along the inner side wall of the accommodating portion 2013 in the accommodating portion 2013. Another portion of the top block 7012a extends from the opening 2014 to the receiving portion 2013 and is exposed outside the main rod 201, and the distance from the top block 7012a to the corresponding branch rod 202 is smaller than the thickness of the ferrule 30, so that the ferrule 30 interacts with the top block 7012a when the ferrule 30 is inserted into the branch rod 202. The elastic component 7013 is specifically a spring, and one end of the elastic component 7013 is connected to the top block 7012 a.

Meanwhile, in the present embodiment, a magnet block 702 is provided on the movable member 7012. Specifically, the movable member 7012 further includes a rigid connecting rod 7012b, the connecting rod 7012b is disposed on a side surface of the top block 7012a, the side surface of the top block 7012a is a side surface of the top block 7012a corresponding to the bottom wall of the accommodating portion 2013, the magnet block 702 is disposed on the rigid connecting rod 7012b, and the connecting rod 7012b is disposed to reduce a distance between the magnet block 702 and the fixed end. A reed switch 703 is further disposed on the main rod 201. Specifically, the reed pipe 703 is disposed at the bottom of the housing portion 2013 and embedded in the main rod 201, and the position of the reed pipe 703 corresponds to the position of the magnet block 702.

Thus, when the top block 7012a of the movable element 7012 is impacted by the ferrule 30, the elastic element 7013 and the movable element 7012 approach the fixed end along the inner side wall of the accommodating portion 2013 at the same time, so as to drive the magnet block 702 arranged on the movable element 7012 to approach the reed pipe 703 arranged on the main rod 201, and trigger the reed pipe 703 to close to generate an electrical signal. Meanwhile, after the ferrule 30 leaves the movable part 7012, the elastic part 7013 extends and drives the elastic part 7013 and the movable part 7012 to reset at the same time, the magnet block 702 is far away from the reed pipe 703, reeds in the reed pipe 703 are separated, and an electric signal disappears.

The above embodiments are merely exemplary for better understanding the present invention to those skilled in the art, and should not be construed as limiting the scope of the present invention. Any equivalent alterations or modifications made on the basis of the design concept disclosed in the present invention are within the scope of the protection of the present invention.

Claims (5)

1. The utility model provides a lasso toy, its characterized in that, it includes the base, at least one sets up loop bar and at least one lasso on the base, the loop bar include with mobile jib, at least one tilt up setting that the base is connected are in branch pole on the mobile jib, the mobile jib is close to the position of branch pole and is provided with detection device, detection device include flexible subassembly, magnet piece, tongue tube and with the controller that the tongue tube electricity is connected, flexible subassembly has one and is fixed in the stiff end of mobile jib and the flexible end relative with the stiff end, the distance of flexible end to the branch pole that corresponds rather than is less than the thickness of lasso, the magnet piece set up in flexible serve, the tongue tube is close to the stiff end sets up, flexible end by when the lasso strikes, flexible subassembly shortens to make the tongue tube with distance between the magnet piece diminishes thereby triggers the tongue tube closes and send the affirmation to the controller sends the affirmation Confirming a signal, wherein the controller judges that the ferrule is sleeved into the corresponding branch rod if receiving the confirmation signal; the detection device is arranged in the cavity and enables the telescopic end to be exposed out of the opening; the telescopic assembly comprises a fixed part fixed on the main rod and a movable part movably connected with the fixed part, one end of the fixed part, which is far away from the movable part, is the fixed end, one end of the movable part, which is far away from the fixed part, is the telescopic end, and the telescopic assembly also comprises an elastic part positioned between the fixed end and the telescopic end;

the fixed part comprises a fixed plate fixedly connected with the main rod and a first pipe body fixedly arranged on the fixed plate, the movable part comprises a second pipe body movably connected with the first pipe body and a push block connected with the second pipe body and capable of being exposed from the opening, and the elastic part is arranged between the push block and the fixed plate; the first tube body is partially sleeved outside the second tube body, the elastic piece is sleeved outside the first tube body and the second tube body, the magnet block is arranged in the second tube body, and the reed switch is arranged on the fixing plate corresponding to the magnet block; the second pipe body is partially sleeved outside the first pipe body, the elastic piece is arranged in the first pipe body and the second pipe body, the magnet block is arranged on the outer side of the second pipe body, and the reed pipe corresponds to the magnet block and is arranged on the fixing plate.

2. The snare toy of claim 1, wherein the fixed member includes at least one support rod fixedly connected to the main rod, the movable member includes a baffle plate movably connected to the support rod and a projection provided on the baffle plate and capable of being exposed from the opening, and the elastic member is located between the baffle plate and the main rod.

3. The snare toy of claim 2, wherein the baffle is perpendicular to the support rods, at least one through hole is formed in the baffle corresponding to at least one support rod, the number of the elastic members is equal to the number of the support rods, and the elastic members are sleeved outside the support rods.

4. The snare toy of claim 3, wherein the fixing member further includes a connecting rod provided on the baffle, the magnet block is provided on the connecting rod, and the reed switch is provided on an inner side wall of the main rod corresponding to the magnet block.

5. A toy with loop as claimed in claim 1, wherein a receiving portion is provided above a connection portion of the main rod and the branch rod for receiving the retractable assembly, the retractable assembly includes a movable member at least partially disposed in the receiving portion and an elastic member having one end fixedly connected to the movable member, the other end of the elastic member is connected to the main rod and forms a fixed end of the retractable assembly, and the movable member forms the retractable end with respect to one end of the elastic member.

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