KR20140047486A - Dispenser using toy car and car launcher - Google Patents

Abstract

An object of the present invention is to provide a dispenser using an automobile for a toy that allows an item to be discharged when a toy car collides with a dispenser for discharging an arbitrary item and a collision car can be transformed to improve pleasure of play . The present invention relates to a dispenser using a toy vehicle, wherein a storage space is formed therein, at least one item is contained in the storage space, and when an object in running or running collides with the contact portion, And discharging the items housed in the inside by releasing the state. The present invention can improve the interest of play by allowing an arbitrary item to be ejected from a dispenser for ejecting an item, and the automobile colliding with the dispenser can be transformed into a robot having an arbitrary shape, There is an advantage that can be made.

Description

Dispenser and car launcher using toy car {DISPENSER USING TOY CAR AND CAR LAUNCHER}

The present invention relates to a dispenser using a toy car and a vehicle launching device. More specifically, when a toy car collides with a dispenser for discharging an arbitrary item, an item embedded in the dispenser is discharged, and the crashed car is transformed. The present invention relates to a dispenser and a car launching device using a toy car to improve the enjoyment of the play.

In general, play items that a child or a child can play include play cards printed with dolls, characters, dolls or various characters, or learning cards printed with figures, numbers, and words.

In the case of such a play card, various cartoon characters are printed on one side or both sides, and the performance and power level of the character are described. Through the play that measures the power of such a character, I am having fun.

In the case of a learning card, learning is performed while viewing the contents printed on the card.

However, there is a disadvantage that a play using these cards is difficult to induce a continuous interest by using a simple play method in which a child or children participating in play directly selects and exposes an arbitrary card, thereby determining a win or loss.

In order to solve this problem, the present invention is a toy for discharging a random item to the toy car collided with the dispenser, the items inherent in the dispenser is discharged, the crashed car is transformed into a toy for improving the enjoyment of play An object of the present invention is to provide a dispenser using a vehicle and a vehicle launch apparatus.

In order to achieve the above object, the present invention provides a dispenser using a toy car, wherein a storage space is formed therein, at least one item is embedded in the storage space, And a dispenser configured to release the locked state by operating the contact unit to discharge the items stored therein to the outside.

In addition, the dispenser according to the present invention includes a plurality of items stacked in a single dispenser for storing one item therein and discharging the stored items, and one item among the plurality of received items is selected. A random dispenser for discharging or a plurality of items are accommodated therein and a multi-dispenser for discharging one item set by a user among the plurality of stored items.

In addition, the item according to the invention is characterized in that any one of a card, at least one of any character, letters, numbers, figures, patterns printed on a doll, a character, one side or both sides.

In addition, the single dispenser according to the present invention comprises a single dispenser body having a storage space for items therein; A contact portion installed in the single dispenser main body and forming a locking protrusion on one side to be locked or released according to whether the object is in contact; A discharge hole formed in an upper portion of the single dispenser body; An elevating part installed in the single dispenser main body so as to be movable upward and downward and operative to discharge the item through the discharge port according to whether the contact part is locked / unlocked; A pressure spring disposed between the bottom surface of the single dispenser main body and the lifting part to provide an elastic force to the lifting part; And support parts installed at both lower sides of the single dispenser main body so as not to be pushed to the rear side when the object is in contact.

In addition, the support portion according to the invention is characterized in that the protrusions formed on the outer surface of the rotating portion to support the single dispenser body to maintain a fixed state at a certain angle.

In addition, the single dispenser according to the present invention forms an accommodating space therein, the upper single dispenser body coupled to the lower single dispenser body to be movable in the vertical direction; A lower single dispenser body disposed below the upper single dispenser body; A contact unit installed in the lower single dispenser main body and forming a locking protrusion at one side to be locked or released according to whether the object is in contact; A discharge hole formed in an upper portion of the upper single dispenser body; An elevating part installed in the lower single dispenser main body so as to be movable upward and downward and operative to discharge the item through the discharge hole according to whether the contact part is locked / unlocked; A lower pressurizing spring installed between the bottom of the lower single dispenser body and the lifting unit to provide an elastic force to the lifting unit; An upper pressurizing spring installed between the upper single dispenser body and the lower single dispenser body to provide an elastic force to the upper single dispenser body; An elevating lever installed inside the upper single dispenser main body to press the elevating unit to its original position according to the lowering of the upper single dispenser main body; and installed at both lower sides of the lower single dispenser main body so as not to be pushed to the rear side when an object is in contact with the lower single dispenser main body. It characterized in that it comprises a support for supporting.

In addition, the discharge port according to the invention is characterized in that it is formed inclined at a predetermined angle inside the upper single dispenser body.

In addition, the random dispenser according to the present invention comprises a random dispenser body formed with a space to accommodate a plurality of items stacked therein; A contact unit installed at one side of the random dispenser main body and configured to be in a locked or unlocked state depending on whether an object is in contact; A discharge port formed at an upper side of the random dispenser body; An elevating part installed in the random dispenser main body so as to be movable upward and downward and operative to discharge an item through the discharge port according to whether the contact part is locked / unlocked; A supply unit configured to move the items stacked on the random dispenser main body so as to be positioned at the lifting unit; A roller unit installed in the supply unit and in close contact with the item such that the item moves along the supply unit; A link unit installed between the lifting unit and the supply unit to connect the supply unit to move according to the operation of the lifting unit; And an auxiliary lifting unit for providing an elastic force so that the stacked items are in close contact with the roller unit.

In addition, the multi-dispenser according to the present invention comprises a multi-dispenser body formed with a space to accommodate a plurality of items therein; A contact part installed at one side of the multi-dispenser body and having a plurality of locking protrusions which move to be locked or unlocked according to whether or not an object is in contact; A plurality of discharge holes formed on an upper portion of the multi-dispenser body; A plurality of elevating parts installed in the multi-dispenser main body so as to be movable upward and downward and operative to discharge items through any one of the plurality of discharge ports depending on whether the contact part is locked / unlocked; A plurality of button selectors configured to mesh with the plurality of lifting units and to release only one of the lifting units of the fixed lifting units; It is characterized in that it comprises a locking plate to be engaged with the button selector to maintain a fixed state at a predetermined position.

In addition, the multi-dispenser according to the present invention comprises a multi-dispenser body formed with a space to accommodate a plurality of items therein; A contact part installed at the front side of the multi-dispenser main body and having a plurality of locking protrusions which move to be locked or unlocked according to whether or not an object is in contact; A plurality of discharge holes formed on an upper portion of the multi-dispenser body; A plurality of elevating parts installed in the multi-dispenser main body so as to be movable upward and downward and operative to discharge items through any one of the plurality of discharge ports depending on whether the contact part is locked / unlocked; A plurality of fixing protrusions are formed to be engaged with the plurality of lifting portions, and a locking groove is formed at one side thereof to engage with the locking protrusions of the contact portion, and a plurality of moving portions are lifted to release only one of the fixed lifting portions. Hooking portion of; And a lever selector installed at a rear side of the multi-dispenser body so as to be slidably moved and forming a groove so that only one of the plurality of catches is inserted.

In addition, the multi dispenser according to the present invention includes a support for supporting the multi dispenser body; And an angle fixing part for fixing the multi-dispenser main body to support a predetermined angle through the support part.

In addition, the driving or operating object according to the invention is characterized in that the toy of the vehicle shape with a wheel.

In addition, the vehicle-shaped toy according to the invention is characterized in that, when colliding with the contact portion of the dispenser, upright or overturned to transform from the first shape of the car shape to an intrinsic second shape different from the car shape.

In addition, the vehicle toy according to the present invention is installed on the front side of the bonnet portion to maintain any one of the lock or release, and performs a release (Release) operation to unlock when a collision with the object; An arm assembly having a rotatable wheel and operating either one of the front wheel of the first shape or the arm of the second shape by maintaining one state of locking or releasing according to the release operation of the bumper assembly; A leg assembly having a rotatable wheel and operating either one of the rear wheel of the first shape or the leg of the second shape by maintaining one of locking and releasing states depending on whether the bumper assembly is released; A body part rotatably installed in the bonnet part, the bumper assembly part, the arm assembly part, and the leg assembly part, and interlocked so that the arm assembly part and the leg assembly part are locked or released depending on whether the bumper assembly part is released; And a canopy part installed on the body part to allow the bonnet part to be rotatably supported, and wherein the leg assembly part has an internal foot assembly that protrudes when operating as a leg of a second shape, or the vehicle toy is upright; It is characterized by the overturning.

In addition, the automobile toy according to the present invention is installed on one side of the canopy portion, when the automobile toy is upright, it further comprises a trunk portion protruding from the canopy portion to support the upright automobile toy does not fall.

In addition, the vehicle-shaped toys according to the invention is characterized in that it further comprises a launch pad for launching to run in a certain direction.

In addition, the present invention is the front, rear, the top surface is open, the launch pad body formed a receiving space for accommodating the car toy therein; And a front surface, a rear surface, and an upper surface of the launch pad body to be covered, rotatably coupled through an eccentric rotation shaft to one side of the launch pad body, and forming a ball to press the car stored in the launch pad body. It characterized in that it comprises a launch pad cover.

In addition, the ball according to the invention is characterized in that the ball is rotatably coupled to the launch pad cover portion through the rotation axis, so that when the launch pad cover portion rotates in a horizontal state.

The present invention has the advantage that the interest of the play can be improved by allowing an arbitrary item to be discharged from the dispenser.

In addition, the present invention is advantageous in that the automobile colliding with the dispenser is transformed into a robot having an arbitrary shape, thereby further increasing the interest of infants or children.

In addition, the vehicle launching apparatus according to the present invention has a superior advantage than the conventional vehicle launching apparatus using elastic such as a spring or rubber because it can adjust the speed of the vehicle to be launched with a simple hand gesture.

1 is a perspective view of a dispenser using a toy vehicle according to the present invention.
2 is a front sectional view showing a structure of a single dispenser according to a first embodiment of a dispenser using a toy automobile according to the present invention.
3 is a side sectional view showing the structure of the single dispenser according to FIG. 2;
FIG. 4 is an exploded perspective view showing a structure of a transformed vehicle of a dispenser using a toy automobile according to the present invention. FIG.
5 is an exploded perspective view showing the structure of the bumper assembly body of the modified vehicle according to FIG.
FIG. 6 is a cross-sectional view illustrating the operation of the bumper assembly of the modified vehicle according to FIG. 5;
FIG. 7 is a view illustrating an operation process of the arm assembly portion of the transformed vehicle according to FIG. 4;
8 is a view illustrating an operation process of a leg assembly unit of a transformed vehicle according to FIG.
FIG. 9 is an exemplary view showing a foot assembly operation of the leg assembly according to FIG. 8; FIG.
FIG. 10 is a view illustrating an operation process of a body part of a transformed vehicle according to FIG. 4;
11 is a view showing an example of a trunk part operation process of the transformation vehicle according to FIG.
FIG. 12 is an exemplary view showing the transformation process of the transformation vehicle according to FIG. 4;
13 is an exploded perspective view showing a structure of a launch device of a dispenser using a toy vehicle according to the present invention.
14 is an exemplary view showing an operation process of the launch device according to FIG.
15 is a perspective view illustrating a single dispenser according to a second embodiment of the dispenser using the toy automobile of the present invention.
16 is a sectional view showing the structure of the single dispenser according to Fig. 15;
17 is another sectional view showing the structure of the single dispenser shown in Fig. 15;
18 is a perspective view showing a random dispenser of a dispenser using a toy automobile according to the present invention.
19 is an exploded perspective view showing the structure of the random dispenser according to FIG. 18;
20 is a sectional view showing the structure of the random dispenser according to Fig. 18;
21 is a perspective view showing an embodiment of a multi-dispenser of a dispenser using a toy vehicle according to the present invention.
22 is a perspective view showing a rear surface of the multi-dispenser according to Fig. 21;
23 is an exploded perspective view showing a configuration of the multi-dispenser according to Fig.
FIG. 24 is a plan view showing the internal configuration of the multi-dispenser according to FIG. 22;
25 is a perspective view showing another embodiment of a multi-dispenser of a dispenser using a toy automobile according to the present invention.
26 is a perspective view showing a rear surface of the multi-dispenser according to Fig. 25;
Fig. 27 is an exploded perspective view showing a configuration of the multi-dispenser according to Fig. 26; Fig.
28 is a cross-sectional view showing a configuration of the multi-dispenser according to FIG. 26;

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the dispenser and vehicle launch apparatus using a toy car according to the present invention.

(Embodiment 1)

1 is a perspective view illustrating a dispenser using a toy vehicle according to the present invention.

As shown in FIG. 1, the dispenser using the toy automobile according to the present invention operates when the automobile 200 in operation or operation collides with the contact portion 120, the contact portion 120 operates to release the locked state, (100) for discharging the stored items to the outside, an automobile (200) transforming from a first shape car to a second shape robot when a collision occurs, Wherein the item is one of a doll, a character, a card 300 on which at least one of a character, a letter, a number, a figure, and a pattern is printed on one or both sides of the launch pad 500, In the present embodiment, for convenience of description, the item is limited to the card 300, but the present invention is not limited thereto.

FIG. 2 is a front sectional view showing a card dispenser structure of a dispenser using a toy automobile according to the present invention, and FIG. 3 is a side sectional view showing a card dispenser structure of a dispenser using a toy automobile according to FIG.

As shown in FIGS. 2 and 3, the single dispenser 100 has a structure in which only one card 300 is accommodated in the single dispenser 100 and one card 300 stored therein is discharged, And includes a contact portion 120, a discharge port 130, a lift portion 140, a pressure spring 150, a lift lever 160, and a support portion 170.

The single dispenser main body 110 is a square member having a receiving space for the card 300 therein. The single dispenser main body 110 is provided with a lifting part 140, a pressing spring 150 and a lifting lever 160, A through hole 112 through which the contact portion 120 penetrates is formed in the slot 111 through which the lifting lever 160 moves and a fixing groove 113 is formed in the bottom surface to support the pressing spring 150.

The contact portion 120 is provided on one side of the single dispenser body 110 to detect whether or not the automobile 200 is impacted. The contact portion 120 is provided with a plate-like member on one side and a plate- And a contact spring 122 for providing an elastic force so that the locking protrusion 121 is extended and the locking protrusion 121 is locked with the elevating part 140 at a predetermined position to maintain a locked state.

The discharge port 130 is formed on the upper part of the single dispenser body 110 so that the card 300 is inserted into the single dispenser body 110 or the inserted card 300 is discharged.

The elevating part 140 is installed so as to be movable in the vertical direction from the inside of the single dispenser body 110 with a cross-sectional shape of "∩", and the card 300 is positioned on the upper part and a latching groove is formed on one side, The card 300 is locked or released according to whether or not the card 300 is engaged with the locking protrusion 121 of the card dispenser 120 so that the card 300 is discharged through the discharge port 130 or housed in the single dispenser body 110.

The pressing spring 150 is installed in the fixing groove 113 of the bottom of the single dispenser body 110 to provide an elastic force to the elevating part 140.

The elevating lever 160 is a handle member that is extended to one side of the elevating unit 140 by a predetermined length so that the elevating unit 140, which has been unlocked and moved upward, moves downward.

The support part 170 is rotatably installed on both sides of both sides of the single dispenser main body 110 through a rotation shaft 171 and is in close contact with the ground surface so that the single dispenser main body 110 A plurality of fixing portions 172 are provided on the bottom surface so as to improve adhesion with the ground so as not to be pushed backward.

In addition, the support part 170 may be provided by adding a weight (weight) so that adhesion with the ground can be improved.

In addition, protrusions are formed on the outer surface of the rotary shaft 171 so that the single dispenser body 110 can be fixed while being tilted forward or backward at a predetermined angle with respect to the vertical direction, Direction, or a trajectory of a parabolic curve or the like.

Therefore, when a collision occurs in the contact portion 120, the contact portion 120 moves and the latch protrusion 121 is separated from the latching groove of the lift portion 140. The lift portion 140 is released from the locked state, The card 300 is moved upward by the elastic force of the lifting part 150 and the card 300 is discharged through the discharge opening 130 due to the movement of the lifting part 140.

When the ejection of the card 300 is completed, the user moves the position of the elevation portion 140 through the elevation lever 160 and fixes the elevation portion 140 to the engaging projection 121, and inserts an arbitrary card into the ejection opening 130.

A single card 300 inserted into the single dispenser main body 110 and inserted at the time of collision detection of the abutting portion 120 has been described as an example in the present embodiment, When at least two discharge ports 130 are formed on the main body 110 and arbitrary cards are inserted into the discharge port 130 and a collision is detected through the contact portion 120, And may be configured to be discharged.

4 is an exploded perspective view showing a structure of a transformed vehicle of a dispenser using a toy vehicle according to the present invention.

As shown in FIG. 4, the vehicle 200 includes wheels rotatable to be driven or operated by a user, and the vehicle 200 collides with the contact portion 120 of the single dispenser 100. It transforms from the first shape of the shape to the second shape of the robot different from the vehicle shape, and preferably the transformed robot is upright together with the modification to the robot, and the bonnet part 210 and the bumper assembly part. 220, arm assembly 230, 230a, leg assembly 240, 240a, body 250, cover 260, canopy 270, trunk 280 It is configured to include.

FIG. 5 is an exploded perspective view illustrating a structure of a bumper assembly unit of the modified vehicle according to FIG. 4, wherein the bonnet part 210 forms an accommodation space to accommodate the head assembly 259 therein, and a bumper assembly unit at the front lower part ( 220 is installed.

The bumper assembly body 220 is installed on the lower side of the bonnet unit 210 to detect whether or not it is in collision with an object. The bumper assembly body 220 maintains either a lock or a release state according to the result, A bumper operation portion 222, a lock portion 223, a bumper spring 224 and a plurality of bumper shafts 225, 225a, and 225b, .

The bumper 221 is a plate-shaped member and has an engagement part 221a at one side thereof and a slot 221b formed at the center so as to be movable in a horizontal direction upon collision and a bonnet part 221b through a second bumper shaft 225b. 210, respectively.

The bumper operation part 222 is formed with a locking part 222a on the upper part of the cylindrical body and is coupled with the locking part 223 through the first bumper shaft 225a, And a bumper engaging portion 222b rotatably engaged with the bumper engaging portion 221a.

The locking portion 223 extends from the cylindrical body by a predetermined length and is formed with a locking protrusion 223a and is fixed to the upper portion of the bumper operation portion 222. [

The bumper spring 224 is installed on one side of the bumper operating portion 222 to provide an elastic force so that the bumper assembly portion 220 can maintain a locked state.

The bumper shaft 225 allows the bumper actuating portion 222 to rotate clockwise or counterclockwise around the bumper shaft 225.

That is, as shown in FIGS. 6A and 6B, the bumper 221 moves in the horizontal direction due to the collision with the contact portion 120, so that the lower end portion of the bumper operation portion 222 is also pushed together, The bumper operation portion 222 is returned to its original position due to the elastic force of the bumper spring 224 when the operation portion 222 rotates counterclockwise and the lock portion 223 rotates counterclockwise together, As a result, the bumper 221 and the lock portion 223 are also moved to their original positions.

4, the arm assemblies 230 and 230a are provided with wheels 231 and 231a. When the bumper assemblies 220 are released, a state of locking or releasing is maintained The wheels 231 and 231a are rotatably coupled to each other and are provided on one side of the wheels 231 and 231a to be rotatable about the front side of the automobile And door panels 232 and 232a provided on the inside of the door panels 232 and 232a and arm members 233 and 233a functioning as arms of the robot.

The arm assembly unit 230 and 230a are configured such that when only the door panels 232 and 232a are exposed and the robot 200 is transformed into a robot having a second shape as shown in FIG. the arm members 233 and 233a are exposed to the outside through the rotation operation of the arm driving unit 251 as shown in Fig. 7 (b) and Fig. 7 (c).

Referring to FIG. 4, the leg assembly units 240 and 240a are provided with rotatable wheels. The leg assembly units 240 and 240a may be either locked or released depending on whether the bumper assembly unit 220 is released, Shaped leg portion or a leg portion of the second shape.

As shown in FIG. 8, the leg assembly parts 240 and 240a include a rear door panel 241 provided at one side of the wheel 241a to provide a rear side shape of the automobile, A leg panel 241 'for forming a leg shape of the robot when it is transformed into a robot having a second shape by being coupled with the door panel 241, and a leg panel 241' rotatably attached to the rear door panel 241 and the leg panel 241 ' A foot assembly 242 coupled to the leg assembly 242 and a leg assembly spring 243 for providing an elastic force to rotate the foot assembly 242.

The foot assembly 242 includes a foot assembly 242a and a foot assembly lower portion 242b and the foot assembly 242a has a spring mount 244 and a leg assembly spring 243, (245) is formed.

FIG. 9 is a view illustrating an operation process of the foot assembly. When the robot is transformed into a robot having a second shape, the leg assemblies 240 and 240a rotate and withdraw the leg assemblies 242 through the elastic force of the springs. Is brought out of the leg assemblies 240 and 240a so as to come into close contact with the ground so that the robot of the second shape is erected or rolled up to expose the robot shape formed on the bottom surface.

4, the body portion 250 is rotatably coupled to the bonnet portion 210, the bumper assembly portion 220, the arm assembly portions 230 and 230a, and the leg assembly portions 240 and 240a 230a and the leg assembly parts 240 and 240a are locked or unlocked according to whether the bumper assembly body 220 is released or not and the bumper assembly body 220 And a canopy portion 270 for rotatably supporting the bonnet portion 210 and the trunk portion 280. The arm driving portion 251 and the arm driving portion 251 A slide driving unit 252, and an operation lever 257. [

The arm driving unit 251 is a rod-like member having a predetermined length and has one side rotatably coupled to the body 250 and the other side connected to the arm assemblies 230 and 230a together with the arm driving unit spring 251a And is rotatably coupled.

The other side of the arm driving unit 251 is provided with a protrusion 251b which mates with the locking unit 230 of the bumper assembly body unit 220.

The slide driving part 252 is a member which is slidably installed along the longitudinal direction of the body part 250. A lid part locking protrusion 254 which engages with the lid part 260 is formed on the upper part of the slide driving part 252 And an actuating lever driving part 255 and a horizontal bar 256 for pressing the actuating lever 257 are formed at one end of the slide driving part 252.

The operation lever drive unit 255 is a pair of members provided at the distal end of the slide drive unit 252. The horizontal bar 256 installed between the operation lever drive units 255 is used to determine whether or not the slide drive unit 252 is slide- Thereby pressing the end of the operation lever 257.

When the head assembly 259 is installed at the other end of the slide driving part 252 and protrudes outward due to the movement of the slide driving part 252 in the case of the second shape, .

Reference numeral 253 denotes a leg assembly separating spring that provides an elastic force so that the leg assemblies 240 and 240a can be separated from the body 250 when the slide driver 252 is transformed into a second shape.

The lid part 260 is provided on the upper part of the body part 260 so that the canopy part 270 can be fixed to the body part 250. The lid part 260 has a lid- The through hole 262 is formed.

The canopy part 270 is installed on the upper part of the body part 250 through the lid part 260 and supports the bonnet part 210 and the trunk part 280 so that the trunk part 280 can be operated. And a bonnet engaging portion 273 is formed at the other side to engage with the bonnet portion 210 through a bonnet shaft 274. The bonnet shaft 274 is formed with a shaft 272,

The trunk part 280 is rotatably installed on one side of the canopy part 270. When the trunk part 280 is transformed from a first shape vehicle to a second shape robot, one end of the trunk part 280 protrudes from the body part 250, When the robot is upright, the separated one end comes into close contact with the ground to support the upright robot so as not to fall. The canopy coupling part 281 is formed on one side and the spoiler 282 is supported on the other side, And a leg assembly coupling portion 283 to which the leg assemblies 240 and 240a are coupled is installed on both sides.

That is, as shown in Fig. 10 (a), the slide driver 252 provided between the body portion 250 and the lid 260 maintains a predetermined position, thereby maintaining the first shape of the vehicle, When the slide driver 252 is moved in the horizontal direction as shown in FIG. 10B, the actuating lever driver 255 formed at the tip of the slide driver 252 also moves to move the actuating lever 257 The horizontal bar 256 located in the seating groove 258 presses one end of the operation lever 257.

At this time, the operation lever 257 rotates about the rotation axis 272, so that the other end of the operation lever 257 rotates upward to push up the trunk part 280 as shown in FIG. 11 and protrude from the body part 250 And the leg assembly engaging portion 283 is also separated.

In the present embodiment, the trunk portion 280 is more firmly supported by being separated from the trunk portion 280. However, if the trunk portion 280 is configured to be fixed without being separated, So that the second shape is exposed upward.

That is, when the automobile as the first shape is transformed into the robot as the second shape, it can be transformed into a robot shape that is upright or transformed into a robot shape that is turned over to the rear side.

12 (a), when a collision occurs in the bumper assembly body portion 220 of the automobile 200 having the first shape, as shown in FIG. 12 (b), by the release operation of the bumper assembly body portion 220, The arm assemblies 230 and 230a which are in a state of being released are released and protrude to the outside and the arm 250 and the operating lever 257 The leg assembly body 240 is detached.

When the leg assembly unit 240 is separated, the foot assembly unit 242 protrudes by the elastic force of the spring to be in close contact with the ground, so that the vehicle is upright as shown in FIG. 12 (c), and at this time, the canopy unit 270 is rotatable. The connected bonnet portion 210 moves to a position orthogonal to the canopy portion 270 by its own weight.

Subsequently, when the upright is completed by the foot assembly part 242 as shown in FIG. 12 (d), the bonnet part 210 is further moved to a position orthogonal to the canopy part 270.

12 (e), the lower trunk part 280 is protruded so that the upright state can be more stably maintained, the head assembly 259 is protruded from the upper part, and the bonnet part 210 12 (f), the shape of the robot is changed to the shape of the robot, which is the second shape.

The launching platform 500 is configured to press and fire the automobile 200 so that the automobile 200 can travel in an arbitrary direction using the principle of leverage. As shown in FIGS. 13 and 14, 510, and a launching lid cover 520. As shown in FIG.

The launching base body 510 has front, rear, and top faces open, a storage space for storing an automobile toy therein, and an engagement hole 511, which is fastened to the launching lid cover 520, .

The launching lid unit 520 is rotatably coupled to a side of the launching base body 510 through an eccentric rotary shaft 521 so that the front, rear, and top surfaces of the launching unit body 510 are covered, A ball 522 is formed to press the automobile housed inside the launch pad body 510.

That is, when the end of the launching lid unit 520 is pressed downward in a state where the automobile 200 of the first shape is housed in the launching unit main body 510, the launching lid unit 520 rotates about the rotational axis 521 So that the front and top surfaces of the launching base body 510 are opened and the ball 522 presses the rear side of the automobile 200 and pushes it forward so that the automobile 200 is fired.

The ball 522 is rotatably installed with the launching lid 520 through the rotation shaft 523 so that the air 522 is rotated around the rotation axis 523 when the launching lid 520 is rotated So that the automobile 200 can be pressed more stably and more stably.

(Second Embodiment)

FIG. 15 is a perspective view showing a single dispenser according to a second embodiment of the dispenser using the automobile according to the present invention, FIG. 16 is a sectional view showing the structure of the single dispenser according to FIG. 15, 5 is another sectional view showing the structure of the dispenser.

In the dispenser using the toy car according to the second embodiment, the same structure as the first embodiment will not be repeatedly described, and the single dispenser 100 'will be described.

15 to 17, in the dispenser using the toy vehicle according to the second embodiment, when a running or running vehicle collides with the contact portion 120 ', the contact portion 120' A single dispenser 100 'for releasing an item stored therein and discharging the item to the outside, a car which changes from a first shape car to a second shape robot when a collision occurs, And the launching part 140 'is moved to accommodate items discharged to the outside, the single dispenser main body is operated as a lifting lever.

The single dispenser 100 'includes an upper single dispenser body 110', a lower single dispenser body 110 ', a contact portion 120', a discharge port 130 ', a lift portion 140' A lower pressing spring 150 ', an upper pressing spring 151', a lifting lever 160 ', and a support 170'.

The upper single dispenser main body 110 'has a square shape, and a storage space is formed so that items such as dolls, characters, cards, and the like are contained in the upper single dispenser main body 110'. The upper single dispenser main body 110 ' .

The item is preferably a card 300 on which a doll, a character, a number, a character, a figure, or the like is printed on one or both sides.

The lower single dispenser body 110 '' is installed at a lower portion of the upper single dispenser body 110 'and a part of the contact portion 120' is inserted through a through hole 111 ' And the lower pressing spring 150 'is received, and the supporting base 170' is fixed to the outside.

The contact portion 120 'is provided on the lower single dispenser body 110' 'to detect whether an object is collided. The contact portion 120' is provided with a plate-shaped member on one side and a certain length from the plate- A base 121 'is formed.

In addition, the contact portion 120 'is kept in a locked state so that the lifting portion 140' is fixed through the locking protrusion 121 ', and is moved toward the inside of the lower single dispenser body 110' So that the lifting unit 141 'is locked or released.

The discharge port 130 'is formed on the upper part of the upper single dispenser body 110' so that the item stored therein is discharged to the outside.

The discharge port 130 'may be formed in the upper single dispenser body 110' so that the collision is detected through the contact portion 120 ', for example, so that the card 300 is discharged to the front of the single dispenser 100'. As shown in FIG.

The lifting part 140 'is vertically movably installed in the lower single dispenser body 110' and a fixing groove 141 'is formed at one side of the lifting part 140' 'Is locked or unlocked depending on whether the card 300 is locked or not, so that the card 300 mounted on the upper surface of the lifting unit 140' is discharged through the discharge port 130 '.

The lower pressing spring 150 'is installed between the lower surface of the lower single dispenser body 110' 'and the elevating part 140' so as to provide an elastic force to move upward when the elevating part 140 'is unlocked do.

The upper pressing spring 151 'is installed between the upper single dispenser main body 110' and the lower single dispenser main body 110 'so that when the upper single dispenser main body 110' moves downward, So as to provide elasticity as much as possible.

The lifting lever 160 'is installed inside the upper single dispenser body 110' and moves the lifting and lowering part 140 'to the lower position to accommodate the card 300 therein. The upper surface of the lifting unit 140 'is pressed and moved downward.

The support part 170 'is provided at both lower sides of the lower single dispenser body 110' 'to support the single dispenser 100' so that when the object contacts the contact part 120, the single dispenser 100 ' And a weight 173 'so that the overall weight of the dispenser 100' can be increased.

The supporting part 170 'is formed with protrusions on the outer surface thereof so that the single dispenser body 110' can be fixed in a state where the single dispenser body 110 'is tilted forward or backward at a predetermined angle with respect to the vertical direction, So as to form a trajectory such as a parabolic curve or the like.

The operation of the single dispenser 100 'according to the second embodiment will now be described.

When the user pushes the upper single dispenser body 110 'downward, the lifting lever 160' protruding into the upper single dispenser body 110 'pushes the upper surface of the lifting part 140' .

When the lifting part 140 'moves downward to fix the fixing groove 141' to the locking projection 121 'of the contacting part 120', the locking state is maintained.

After releasing the pressing force of the upper single dispenser main body 110 'after the lifting unit 140' is locked, the upper single dispenser main body 110 'is returned to its original position due to the restoring force of the upper pressure spring 151'. .

Thereafter, the user inserts an arbitrary card 300 into the card discharge port 130 'to mount the card 300 on the upper surface of the lifting unit 140'.

When the automobile impacts on the contact portion 120 ', the support portion 170' and the weight 173 'provided on the rear side of the support portion 170' fix the single dispenser 100 'so as not to be pushed rearward, When the contact portion 120 'is moved, the locking protrusion 121' is detached from the fixing groove 141 'and is unlocked.

When the lock protrusion 121 'and the fixing groove 141' are unlocked, the lift portion 140 'moves upward due to the elastic force of the lower pressing spring 150', and the lift portion 140 ' 'Is moved along the card discharge port 130' and is discharged to the outside.

The card 300 discharged to the outside along the card discharge port 130 'is discharged by forming a trajectory of a parabolic curve, for example, on the front side of the single dispenser 100' due to the inclined card discharge port 130 ' .

(Third Embodiment)

In the dispenser using the toy vehicle according to the third embodiment, when the automobile under running or running collides with the contact portion 420, the contact portion 420 is operated to release the locked state, and the item stored therein is discharged to the outside A random dispenser (400), an automobile transforming from a first shape car to a second shape robot when a collision occurs, and a launching base for launching the car to travel in an arbitrary direction, Or a character, a letter, a number, a figure, or a pattern is printed on both sides of the card. In this embodiment, the card is described as an embodiment for convenience of explanation, but the present invention is not limited thereto.

In the dispenser using the toy vehicle according to the third embodiment, the repetitive description of the same structure as the first embodiment will be omitted and the random dispenser 400 will be described.

FIG. 18 is a perspective view showing a random dispenser of a dispenser using a toy automobile according to the present invention, FIG. 19 is an exploded perspective view showing the structure of the random dispenser according to FIG. 18, Fig.

18 to 20, the random dispenser 400 is configured to discharge a selected arbitrary card in a state in which a plurality of cards 600 are stacked, and includes a random dispenser body 410, a contact portion 420 A supply portion 450, a roller portion 460, a link portion 470, and an auxiliary lifting portion 480. The supply portion 450 is provided with a discharge port 430, a lift portion 440, a supply portion 450, a roller portion 460,

The random dispenser main body 410 has a square shape and includes a housing space 414 in which a plurality of cards 600 are stacked and an arbitrary card 600 ' And then discharged into a mounting space.

A through hole 411 through which the lifting lever 441 passes is formed on one side of the random dispenser main body 410 and a cover 412 for selectively opening and closing the accommodating space 414 is rotatably mounted on the upper side. A fixing groove 415 is formed in the inner side wall of the receiving space 414 to engage with a locking protrusion 413 formed at one side of the lid 412 so that the lid 412 can be fixed, A through hole 416 through which the abutting portion 420 penetrates is formed in the lower portion of the front side of the dispenser body 410.

A partition wall 417 is formed on the bottom of the random dispenser body 410 so that the contact spring 422 can be fixed and the card 600 stacked in the storage space 414 of the random dispenser body 410 A guide 418 for guiding the path so as to move the supply unit 450 to the mounting space so as to move the supply unit 450 and the card 600, Is installed.

The auxiliary guide 419 separates the supply unit 450 from the card 600 so that the adhesion force between the supply unit 450 and the card 600 is reduced.

The contact portion 420 is provided at a lower portion of the front side of the random dispenser body 410 to detect whether or not the automobile 200 is impacted. The contact portion 420 is provided with a plate-shaped member on one side, And a contact spring 422 which is extended to extend to form a locking protrusion 421 and to provide an elastic force so that the locking protrusion 421 can maintain a locked state at a predetermined position.

The discharge port 430 is formed above the stationary space of the random dispenser main body 410 so that the card 600 'stored in the ascending and descending part 440 is discharged to the outside.

The elevation part 440 is installed so as to be movable in the up-and-down direction inside the stationary space of the random dispenser body 410 with a cross-sectional shape of "∩", and the upper surface forms a slope of a certain angle, And an elevating lever 441 is installed at one end of the elevating part 440 so as to extend to a predetermined length.

A cutout portion 442 is formed in the lower portion of the elevating portion 440 so as to penetrate the engaging projection 421 of the contact portion 420. A latching groove 443 is formed on one side of the elevating portion 440 The card 600 'that is locked or unlocked according to whether or not the contact portion 420 is engaged with the engagement protrusion 421 of the contact portion 420 may be discharged through the discharge port 430 or may be inserted into the mounting space of the random dispenser body 410 Keep the stored condition.

The cutout portion 442 moves the downward portion 440 downward to the lower space A so that the card 600 'moved along the guide 418 moves upward from the upper portion of the lift portion 440 It is possible to secure sufficient space for standing up.

A pressing spring 444 for providing an elastic force to the elevating portion 440 is provided at a lower portion of the elevating portion 440 so that the engaging groove 443 of the elevating portion 440 and the engaging projection 420 of the contacting portion 420 421 are released, the lift unit 440 is pressed so that the lift unit 440 can move upward.

The supply unit 450 is a plate-like configuration for moving the card 600 stacked in the storage space 414 of the random dispenser main body 410 to be supplied to the lift unit 440, And a tooth 453 is formed on the outer surface of the rotating shaft 452 so that the roller portion 460 can rotate only in one direction.

Further, a roller installation groove 454 for the auxiliary roller is formed on the upper surface of the supply part 450.

The roller portion 460 is a wheel having a rubber on its outer surface, and is rotatably engaged with the rotation shaft 452 of the supply portion 450.

An engagement plate 461 is formed on the inner side of the roller unit 460 to engage with the teeth 453 of the supply unit 450 to rotate only in one direction and not rotate in the opposite direction.

That is, when the supply unit 450 moves to one side in order to move the stacked card 600 to the lift unit 440, the roller unit 460 does not rotate so that the gap between the roller unit 460 and the stacked card 600 When the card 600 is forcibly moved to the ascending / descending section 440 side by the frictional force and the movement of the card 600 is completed and the supply section 450 is retracted, the roller section 460 rotates, The card 450 can be moved to its original position without friction with the stacked card 600.

The roller unit 460 may be provided with an auxiliary roller 462 in a freely rotatable manner in the roller mounting groove 452 of the supplying unit 450 so that friction between the supplying unit 450 and the lid 412 may be reduced .

The link portion 470 is a bar shaped frame having one side connected to the elevating portion 440 and the other side connected to the feeding portion 450. The frame connected to the elevating portion 440 has a predetermined length in the vertical direction And the frame connected to the supply unit 450 is formed as an arc-shaped frame.

The link portion 470 has a long hole 471 in the vertical direction so that when the lift portion 440 moves upward due to the elastic force of the pressure spring 444, only the lift portion 440 moves, (470) does not move.

The auxiliary lifting unit 480 is provided below the storage space 414 of the random dispenser main body 410 and presses the card 600 so that the card 600 randomly stacked in the storage space 414 can move upward And a plurality of springs 481 for providing an elastic force between the card 410 and the random dispenser body 410 so that the card 600 stacked with the elastic force of the spring 481 is brought into close contact with the roller unit 460 .

In the random dispenser 400 according to the present embodiment, the support part is not provided on the outside of the random dispenser main body 410 as in the first embodiment, but the random dispenser 400 is supported so as not to be pushed back, The dispenser main body 410 can be fixed in a state in which the dispenser main body 410 is tilted at a predetermined angle to the front side or the back side with respect to the vertical direction so that the dispensed card 600 'can form a trajectory in the vertical direction, It will be apparent to those skilled in the art that the configuration of the random dispenser 400 can be modified.

Next, an operation process of the random dispenser 400 will be described.

The cover 412 is opened, and the plurality of cards 600 are stacked in the storage space 414 in any order, and then the cover 412 is covered to closely contact the supply unit 450 and the card 600.

At this time, due to the elastic force of the auxiliary lifting unit 480, the supply unit 450 and the card 600 are further brought into close contact with each other.

When the user moves the lift lever 441 in the downward direction, the pressing spring 444 is further pressed and the supply part 450 connected to the lift part 440 and the link part 470 horizontally moves, The card 600 closely attached to the card 460 moves horizontally along the guide 418.

When the lifting unit 440 reaches the lowest point, the supply unit 450 also ends the horizontal movement, and the auxiliary guide 419 causes a gap between the roller unit 460 and the card 600. FIG.

At this time, the card 600 moved along the guide 418 falls to the elevating part 440 by its own weight, and is placed on the upper surface of the elevating part 440.

When the user releases the elevating lever 441, the elevating portion 440 moves upward due to the compressed pressing spring 444, and the elevating lever 441 moves upward along the elongated hole 471 at this time.

When the latching protrusion 421 of the contact portion 420 is engaged with the latching groove 443 by the movement of the lifting portion 440, the card 600 'is locked and the lock state of the card 600' is maintained in the latching space.

When the contact portion 420 is operated by a collision with an automobile, the locking protrusion 421 is detached from the locking groove 443 and the lift portion 440 is moved upward by the elastic force of the pressing spring 444, And discharges the card 600 'through the discharge port 430.

When the lifting lever 441 moves upward along the elongated hole 471, the link portion 470 is also pushed upward at a predetermined position of the elongated hole 471 so that the supply portion 450 is retracted.

Accordingly, the arbitrary card is ejected from the card dispenser for ejecting the card, so that the interest of the card game can be improved, and the car colliding with the card dispenser can be transformed into a robot having an arbitrary shape, .

(Fourth Embodiment)

FIG. 21 is a perspective view showing one embodiment of a multi-dispenser of a dispenser using a toy automobile according to the present invention, FIG. 22 is a perspective view showing a rear surface of the multi-dispenser according to FIG. 21, Fig. 24 is a plan view showing an internal configuration of the multi-dispenser according to Fig. 22; Fig.

In the dispenser using the toy car according to the fourth embodiment, repetitive description of the same structure as the first embodiment will be omitted and the multi-dispenser 700 will be described.

As shown in FIGS. 21 to 24, the multi-dispenser 700 according to the present invention includes an angle fixing part 711 having a space for accommodating a plurality of items therein and having an angle adjusting protrusion formed on the outer surface thereof A contact part 720 provided at one side of the multi-dispenser main body 710 and provided with a plurality of locking protrusions 722 which are moved to be locked or unlocked according to contact of an object, A plurality of discharge ports 730 formed on the upper portion of the multi-dispenser main body 710 and a plurality of discharge ports 730 provided on the inside of the multi-dispenser main body 710 so as to be movable up and down, A plurality of elevating portions 740 that are operated to discharge the items through any one of the plurality of discharge outlets 730 according to the number of the discharging holes 730 and the plurality of elevating portions 740, 740) A plurality of button selection units 750 for allowing only one elevation unit to be unlocked, a retaining plate 760 for supporting the button selection unit 750 so as to hold the fixed state at a fixed position, A support part 770 for supporting the dispenser main body 710 and an angle fixing part 711 for fixing the multi dispenser main body 710 so as to maintain a predetermined angle through the support part 770.

The contact portion 720 is provided on one side of the multi-dispenser main body 710 to detect whether or not an automobile is impacted. The contact portion 720 is provided with a plate-like member on one side and a bar extending from the plate- A plurality of locking protrusions 722 are formed on the upper portion of the member 721 and a contact spring 723 for providing an elastic force so that the locking protrusion 721 can maintain a locked state at a predetermined position.

The discharge port 730 is formed on the upper part of the multi-dispenser main body 710 so that an item such as a card is inserted into the multi-dispenser main body 710 or the inserted item is discharged.

The elevating part 740 is provided so as to be vertically movable from the inside of the multi-dispenser main body 710. Items such as cards are placed on the upper part, and the first to fourth elevating parts 740a, 740b, 740c and 740d and a spring 744 for providing an elastic force to protrusions 743 extending to one side of the first to fourth lift portions 740a, 740b, 740c and 740d.

The first elevating part 740a has a first button engaging groove 741a formed at one side thereof to mate with the button selecting part 750 and a second button engaging groove 741b formed at the center thereof, 1 stopping slot 742a is formed and locked or unlocked according to whether it is engaged with the button selecting part 750 so that the item is discharged through the discharge port 730 or stored in the multi dispenser main body 710 .

The second elevating part 740b has a second button engaging groove 741b at a position different from the first button engaging groove 741a formed in the first elevating part 740a and a contact part 720 at the center. A second latching groove 742b is formed to mate with the second latching protrusion 721b of the button selecting portion 750 and is locked or released according to whether the button selecting portion 750 is engaged with the latching portion 720 so that the item is discharged through the discharge port 730 So that the state of being housed in the multi-dispenser main body 710 is maintained.

The third elevating part 740c is formed with a third button engaging groove 741c at a position different from the second button engaging groove 741b formed in the second elevating part 740b and has a contact part 720 at the center. A third latching groove 742c is formed to mate with the third latching protrusion 721c of the button selecting portion 750 and is locked or released according to whether the button selecting portion 750 is engaged with the latching portion 720 so that the item is discharged through the discharge opening 730 So that the state of being housed in the multi-dispenser main body 710 is maintained.

The fourth elevating part 740d is formed with a fourth button engaging groove 741d at a position different from the third button engaging groove 741c formed in the third elevating part 740c and a contact part 720 at the center. A fourth engagement groove 742d is formed to mate with the fourth engagement projection 721d of the button selection portion 750 and is locked or unlocked depending on whether the button selection portion 750 is engaged with the button selection portion 750 so that the item is discharged through the discharge port 730 So that the state of being housed in the multi-dispenser main body 710 is maintained.

The button selecting unit 750 selects one of the first to fourth elevating units 740a, 740b, 740c, and 740d to be unlocked and releases the selected one when the unlocking by the contacting unit 720 is performed. Only the ascending / descending part of the button is moved upward and the item is discharged. The first to fourth button selecting parts 750a, 750b, 750c and 750d are included.

The first button selection unit 750a includes a first button body 751a having a predetermined length and a first button locking protrusion 752a formed at the tip of the first button body 751a, A first pressing portion 753a formed on one side of the button body 751a and a first insertion groove 755a formed on the first pressing portion 753a and an elastic force applied to the first button selecting portion 750a (Not shown).

The second button selection unit 750b includes a second button body 751b formed to have a length shorter than the length of the first button selection unit 750a and a second button body 751b formed at the tip of the second button body 751b. A second pressing part 753b formed at one side of the second button body 751b and a second insertion groove 755b formed at the second pressing part 753b, And a spring 756 for applying an elastic force to the second button selection unit 750b.

The third button selection unit 750c includes a third button body 751c formed to have a length shorter than the length of the second button selection unit 750b and a third button body 751c formed at the tip of the third button body 751c A third pressing part 753c formed on one side of the third button body 751c and a third insertion groove 755c formed on the third pressing part 753c, And a spring 756 for applying an elastic force to the third button selection unit 750c.

The fourth button selection unit 750d includes a fourth button body 751d formed to be shorter than the third button selection unit 750c by a predetermined length and a fourth button body 751d formed at the tip of the fourth button body 751d A fourth pressing part 752d formed on one side of the fourth button body 751d and a fourth insertion groove 755d formed on the fourth pressing part 753d and a fourth pressing part 752d formed on one side of the fourth button body 751d, And a spring 756 for applying an elastic force to the fourth button selection unit 750d.

The engaging plate 760 is attached to one side of the bar-shaped engaging plate body 761 by first to fourth insertion grooves 755a and 755b of the first to fourth button selection parts 750a, 750b, 750c and 750d 765c and 765d are formed on both sides of the engaging plate body 761. The engaging plate body 761 is fixed to one side A pair of springs 763 are provided to provide an elastic force so as to return to the original position.

The support portion 770 is rotatably coupled to the angle fixing portion 711 provided at the lower portions of both sides of the multi-dispenser main body 710 so that the multi-dispenser 700 is brought into close contact with the ground. A plurality of fixing portions are provided on the bottom surface of the dispenser body 710 so as to improve the adhesion with the ground surface so that the dispenser body 710 is not pushed backward.

In addition, the support 770 may be provided with a weight (weight) so as to improve adhesion with the ground.

The support portion 770 is engaged with the angle fixing portion 711 so that the multi-dispenser main body 710 can be fixed in a state where the multi-dispenser main body 710 is tilted forward or backward at a predetermined angle with respect to the vertical direction, Allowing the discharged items to fall in a vertical direction or forming a trajectory of a parabolic curve or the like.

Accordingly, when the user presses any one of the first to fourth button selecting parts 750a, 750b, 750c and 750d, the button body of the corresponding button selecting part moves and presses the latching plate 760, When the contact portion 720 moves, only the lifted portion in which the locked state is released moves upward, and the item stored therein is moved to the outside To be discharged.

At this time, the remaining elevating portions that are not released from the locked state remain locked, so that they do not operate even if the unlocking by the contacting portion 720 is performed.

(Fifth Embodiment)

FIG. 25 is a perspective view showing another embodiment of a multi-dispenser of a dispenser using a toy automobile according to the present invention, FIG. 26 is a perspective view showing a rear surface of the multi-dispenser according to FIG. 25, Fig. 28 is a cross-sectional view showing the configuration of the multi-dispenser according to Fig. 26. Fig.

In the dispenser using the toy car according to the fifth embodiment, the repeated description of the same configuration as the first embodiment will be omitted and the multi-dispenser 800 will be described.

As shown in FIGS. 25 to 28, the multi-dispenser 800 according to the fifth embodiment forms a space for accommodating a plurality of items therein, and on the rear side, a slot in which the lever selecting unit 860 moves, A multi-dispenser main body 810 having an angle fixing part 711 having an angle adjusting protrusion formed on a surface of the multi-dispenser main body 810, A plurality of discharge ports 830 formed on the upper portion of the multi-dispenser main body 810 and a plurality of discharge ports 830 formed on the inside of the multi-dispenser main body 810 in the vertical direction A plurality of elevating portions 840 movably installed and operated to discharge items through any one of the plurality of discharge openings 830 according to whether the contact portions 820 are locked or unlocked, (840) And one side of which is formed with an engaging groove engaging with the engaging projection 821 of the abutting portion 820. The engaging groove of the engaging projection 821 of the contact portion 820 is formed in such a manner that only one of the raised portions of the fixed portion 840 is released And a plurality of engaging portions 850 which are provided on the rear side of the multi-dispenser main body 810 so as to be slidable and in which only one engaging portion 850 of the plurality of engaging portions 850 is inserted, And a lever selecting unit 860 for forming a lever.

The contact portion 820 is provided on one side of the multi-dispenser main body 810 to detect whether or not an automobile is collided. The contact portion 820 is provided with a plate-shaped member on one side and a plurality of locking projections 821 on the other side, And a contact spring 824 which is formed by extending a predetermined length from a member of the locking protrusion 821 and provides an elastic force so that the locking protrusion 821 can maintain a locked state at a predetermined position.

The discharge port 830 is formed on the upper part of the multi-dispenser main body 810 so that an item such as a card is inserted into the multi-dispenser main body 810 or the inserted item is discharged.

The elevation part 840 is provided so as to be vertically movable from the inside of the multi-dispenser body 810. Items such as cards are placed on the upper part, and the first to fourth elevation parts 840a, 840b and 840c and 840d and a spring 843 for providing an elastic force to protrusions 842 extended to one side of the first to fourth lift portions 840a, 840b, 840c and 840d.

The first elevating part 840a has a first button engaging groove 841a formed at one side thereof to engage with the engaging part 850 and is locked or released depending on whether the engaging part 850 is engaged with the engaging part 850, 830 in order to maintain the state of being accommodated in the multi-dispenser main body 810. [

The second elevating part 840b is formed with a second button engaging groove 841b at another position shifted to one side as compared with the first button engaging groove 841a formed in the first elevating part 840a, And is locked or unlocked according to whether or not it engages with the latching part 850 so that the item is discharged through the discharge port 830 or kept in the state of being housed in the multi-dispenser main body 810.

The third elevating part 840c is formed with a third button engaging groove 841c at a position different from the second button engaging groove 841b formed in the second elevating part 840b, So that the item is discharged through the discharge port 830 or kept in the state of being housed inside the multi-dispenser main body 810.

The fourth elevating part 840d is formed with a fourth button engaging groove 841d at a position different from the third button engaging groove 841c formed in the third elevating part 840c and the button selecting part 850 So as to discharge the item through the discharge port 830 or to keep the item stored in the inside of the multi-dispenser main body 810.

When the unlocking unit 850 is unlocked by selecting one of the first to fourth elevating units 840a, 840b, 840c, and 840d to be unlocked, the selected one of the first to fourth elevating units 840a, 840b, Only the lifting and lowering portion is moved upward to discharge the item, and includes first to fourth fastening portions 850a, 850b, 850c, and 850d.

A first elevating part locking protrusion 851a is formed on an upper side of the first locking part formed with a predetermined length and the first locking part 850a is provided at the tip of the first locking part 850a. And a spring 853 formed with a locking protrusion fixing groove 852 to be engaged with the locking protrusion 821 and providing an elastic force to the first locking portion 850a.

The second latching portion 850b is provided on the upper side of the second latching portion having a predetermined length at a position different from the first lift-up portion locking projection 851a of the first latching portion 850a, And a locking protrusion fixing groove 852b is formed at the tip end of the second locking portion 850b so as to engage with the locking protrusion 821 of the contact portion 820. The second locking portion 850b And a spring 853 for providing an elastic force.

The third latching part 850c is provided on the upper side of the third latching part having a predetermined length at a position different from that of the second latching part latching protrusion 851b of the second latching part 850b, And a locking protrusion fixing groove 852c is formed at the tip end of the third locking portion 850c to mate with the locking protrusion 821 of the contact portion 820. The third locking portion 850c And a spring 853 for providing an elastic force.

The fourth latching portion 850d is provided on the upper side of the fourth latching portion having a predetermined length at a position different from the third lift-up portion locking projection 851c of the third latching portion 850c, And a locking protrusion fixing groove 852d is formed at the tip end of the fourth locking portion 850d so as to engage with the locking protrusion 821 of the contact portion 820. In the fourth locking portion 850d, And a spring 853 for providing an elastic force.

A lever 861 is formed at the center of one side of the lever selection unit 860 and a pair of blocks 862 having a predetermined size in a rectangular shape is formed on the other side. A moving groove 863 is formed.

The support part 870 is rotatably coupled to the angle fixing part 811 provided on the lower side of both sides of the multi-dispenser main body 810 through the rotation hole 871 so that the multi-dispenser 800 is brought into close contact with the ground. A plurality of fixing parts are provided on the bottom surface of the multi-dispenser main body 810 so as to improve the adhesion with the ground so that the multi-dispenser main body 810 may not be pushed back.

In addition, the support portion 870 may be provided by adding a weight (weight) so as to improve adhesion with the ground.

The support portion 870 is engaged with the angle fixing portion 811 so that the multi-dispenser main body 810 can be fixed in a state where the multi-dispenser main body 810 is tilted forward or backward at a predetermined angle with respect to the vertical direction, Allowing the discharged items to fall in a vertical direction or forming a trajectory of a parabolic curve or the like.

Accordingly, when the user moves the lever selecting portion 860, one of the first to fourth latching portions 850a, 850b, 850c, and 850d is positioned so that the latching portion is inserted into the moving groove 863, 852b, 852c, and 852d, the locking protrusion 821 is separated from the first to fourth locking protrusions fixing grooves 852a, 852b, 852c, and 852d. At this time, depending on the position of the movement groove 863, Only one engaging portion of the first to fourth engaging portions 850a, 850b, 850c, and 850d is released from the locked state with the engaging protrusion 821 and is moved by the elastic force of the spring 853, Only the lifted portion that has been released is moved upward so that the item stored therein is discharged to the outside.

At this time, the remaining elevating portions which are not moved by the block 862 remain locked, so that they do not operate even if the unlocking by the contacting portion 820 is performed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. It can be understood that

In the course of the description of the embodiments of the present invention, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, , Which may vary depending on the intentions or customs of the user, the operator, and the definitions of these terms should be based on the contents throughout this specification.

100, 100 ': Single dispenser 110: Single dispenser body
110 ': upper single dispenser main body 110'': lower single dispenser main body
120, 120 ': contact portion 130, 130': discharge port
140, 140 ': elevating part 150: pressing spring
150 ': Lower pressing spring 150'': Upper pressing spring
160, 160 ': lift lever 170, 170': support
200: car 210: bonnet part
220: bumper assembly part 230, 230a: arm assembly part
240, 240a: leg assembly body part 250:
260: lid part 270: canopy part
280: trunk part 300: card
400: Random dispenser 410: Random dispenser main body
420: contact portion 430: discharge port
440: elevating part 450: supplying part
460: roller portion 470: link portion
480: auxiliary lifting part 500: launching part
510: launcher body 520: launcher cover
600: card 700: multi-dispenser
710: Multi-dispenser main body 720:
730: Discharge port 740:
750: button selection unit 760:
770: Support part 800: Multi-dispenser
810: Multi-dispenser main body 820:
830: Discharge port 840:
850: Retaining part 860: Lever selection part
870:

Claims (18)

As a dispenser using a toy car,
The storage space is formed inside, at least one item is embedded in the interior of the storage space, and when an object collides with the driving part while driving or moving, the contact part is operated to release the locked state to store the item stored therein. Dispenser using a toy car comprising a dispenser for discharging to the outside.
The method according to claim 1,
The dispenser is a single dispenser (100, 100 ') for storing one item therein and the discharged item is discharged, a plurality of items are stacked and stored therein, and one item among the plurality of items stored therein is selected. And a plurality of items housed therein or a multi dispenser 700 or 800 configured to discharge one item set by a user from among the received plurality of items. Toy car dispenser.
The method according to claim 1,
The item is a doll, a character, a dispenser using a toy car, characterized in that any one of the cards printed at least one of any character, letters, numbers, figures, patterns on one or both sides.
3. The method of claim 2,
The single dispenser 100 includes a single dispenser main body 110 having a storage space for items therein;
A contact part 120 installed in the single dispenser main body 110 and having a locking protrusion 121 formed at one side thereof for locking or unlocking according to contact of an object;
A discharge port 130 formed at an upper portion of the single dispenser main body 110;
An elevator 140 which is installed to be movable up and down in the single dispenser main body 110 and operates to discharge the item through the discharge port 130 according to whether the contact unit 120 is locked / unlocked. ;
A pressing spring 150 installed between the bottom surface of the single dispenser main body 110 and the elevating part 140 to provide an elastic force to the elevating part 140; And
Dispenser using a toy car, characterized in that it comprises a support unit 170 which is installed in the lower side of both sides of the single dispenser main body 110 to support the object is not pushed to the rear side.
3. The method of claim 2,
The single dispenser 100 'includes an upper single dispenser main body 110' which forms an accommodation space of an item therein and is movably coupled to the lower single dispenser main body 110 "in a vertical direction;
A lower single dispenser body 110 '' provided below the upper single dispenser body 110 ';
A contact part 120 'provided on the lower single dispenser body 110' and having a locking protrusion 121 'formed on one side thereof to be locked or unlocked according to contact of an object;
A discharge port 130 'formed on the upper portion of the upper single dispenser body 110';
The lower single dispenser body 110 '' is vertically movably installed in the lower single dispenser body 110 'and is operated to discharge the item through the discharge port 130' according to whether the contact portion 120 'is locked / (140 ');
A lower pressing spring 150 'installed between the lower surface of the lower single dispenser body 110 "and the elevating portion 140' to provide an elastic force to the elevating portion 140 ';
An upper pressure spring 151 'installed between the upper single dispenser main body 110' and the lower single dispenser main body 110 'to provide an elastic force to the upper single dispenser main body 110';
A lifting lever 160 'installed inside the upper single dispenser body 110' to press the lifting unit 140 'in place as the upper single dispenser body 110'descends;
And a support unit 170 'installed at both lower portions of the lower single dispenser main body 110 " to support the object not to be pushed to the rear side when an object is in contact with the lower single dispenser main body 110 ".
6. The method of claim 5,
Wherein the discharge port (130 ') is formed inside the upper single dispenser body (110') at a predetermined angle.
7. The method according to any one of claims 4 to 6,
Wherein the support portions (170, 170 ') have protrusions formed on an outer surface thereof to support the single dispenser main body (110, 110') so that the single dispenser main body (110, 110 ') remains fixed at a predetermined angle.
3. The method of claim 2,
The random dispenser 400 includes a random dispenser main body 410 having a space for stacking and storing a plurality of items therein;
A contact part 420 installed at one side of the random dispenser body 410 and adapted to be locked or unlocked according to contact of an object;
A discharge port 430 formed at an upper side of the random dispenser body 410;
A lifting unit 440 installed inside the random dispenser body 410 so as to be movable up and down and operated to discharge the item through the discharge port 430 according to whether the contact unit 420 is locked or unlocked;
A supply unit 450 for moving the items stacked on the random dispenser body 410 to be positioned at the elevating unit 440;
A roller portion 460 installed in the supply portion 450 and brought into close contact with the item so that the item moves along the supply portion 450;
A link part 470 installed between the elevating part 440 and the supplying part 450 and connected to move the supplying part 450 according to the operation of the elevating part 440; And
Dispenser using a toy car, characterized in that it comprises an auxiliary lifting unit (480) for providing an elastic force so that the stacked items are in close contact with the roller unit (460).
3. The method of claim 2,
The multi dispenser 700 includes a multi dispenser main body 710 having a space formed therein so as to accommodate a plurality of items therein;
A contact portion 720 provided at one side of the multi-dispenser main body 710 and formed with a plurality of locking protrusions 722 that move to a locked or unlocked state according to contact of an object;
A plurality of discharge ports 730 formed on the upper portion of the multi-dispenser main body 710;
And a plurality of ejection openings 730 which are vertically movably provided inside the multi-dispenser main body 710 and are operated to discharge items through any one of the plurality of ejection openings 730 according to whether the contact portions 720 are locked / A lifting portion 740 of the lifting device 740;
A plurality of button selectors 750 for engaging and securing the plurality of elevators 740 and releasing only one of the elevators of the fixed elevators 740;
Dispenser using a toy car, characterized in that the engaging with the button selector (750) comprises a stopping plate 760 for supporting to maintain a fixed state at a certain position.
3. The method of claim 2,
The multi dispenser 800 includes a multi dispenser body 810 having a space formed therein so as to accommodate a plurality of items therein;
A contact portion 820 provided at a front side of the multi-dispenser main body 810 and provided with a plurality of locking projections 821 that move to a locked or unlocked state according to contact of an object;
A plurality of discharge ports 830 formed on the upper portion of the multi-dispenser main body 810;
A plurality of ejection openings 830 are provided in the multi-dispenser main body 810 so as to be movable up and down and to discharge items through any one of the plurality of ejection openings 830 according to whether the contact portions 820 are locked / A lifting portion 840 of the lifting body 840;
A fixing protrusion is formed to be engaged with and fixed to the plurality of elevating portions 840 and one side thereof is formed with an engaging groove engaging with the engaging projection 821 of the contacting portion 820, A plurality of engaging portions 850 that are moved so that only one of the elevating portions is released from being fixed; And
The lever selector 860 is installed on the rear side of the multi-dispenser main body 810 so as to be slidably moved, and forms a groove 863 such that only one locking part 850 of the plurality of locking parts 850 is inserted. Dispenser using a toy car comprising a.
11. The method according to claim 9 or 10,
The multi-dispenser (700, 800) includes support portions (770, 870) for supporting the multi-dispenser main body (710, 810); And
Further comprising angle fixing portions (711, 811) for fixing the multi-dispenser main body (710, 810) through the support portions (770, 870) so as to maintain a predetermined angle.
The method according to claim 1,
Wherein the object being driven or being operated is an automobile-shaped toy having wheels.
13. The method of claim 12,
Wherein the automotive toy changes its shape from a first shape of the automobile to a second shape that is different from the shape of the automobile when the automobile is collided with the contact portion of the dispenser. 14. The method of claim 13,
The automobile toy includes a bumper assembling unit 220 installed at a front side of the bonnet unit 210 to maintain either a locked state or an unlocked state and performing a release operation to be unlocked when a collision with an object occurs, ;
The bumper assembly assembly according to any one of claims 1 to 3, further comprising a rotatable wheel (231, 231a), wherein the bumper assembly body (220) An arm assembly unit 230, 230a that operates in one;
And a leg assembly that operates either the rear wheel of the first shape or the leg of the second shape by maintaining either the locked state or the released state according to the release operation of the bumper assembly body part Body portions 240 and 240a;
The bumper assembly body 220 and the arm assemblies 230 and 230a and the leg assemblies 240 and 240a are rotatably installed and the release operation of the bumper assembly body 220 A body part 250 interlocked with the arm assembly parts 230 and 230a and the leg assembly parts 240 and 240a to be locked or unlocked; And
And a canopy part 270 provided at an upper portion of the body part 250 to rotatably support the bonnet part 210,
Characterized in that the leg assembly parts (240, 240a) protrude from the foot assembly (242) when the foot assembly (240, 240a) is operated with legs of a second shape so that the toy car is upright or rolled up. .
15. The method of claim 14,
The car toy may further include a trunk part 280 installed at one side of the canopy part 270 to support the upright car toy protruding from the canopy part 270 when the car toy is upright, Wherein the dispenser is a toy dispenser.
16. The method according to any one of claims 12 to 15,
Further comprising a launching unit for launching the automobile-shaped toy so as to travel in a predetermined direction.
A launch pad body 510 having a front surface, a rear surface, and an upper surface open to form a storage space for accommodating a vehicle toy therein; And
The front surface, the rear surface, the upper surface of the launch pad body 510 is covered, rotatably coupled through the rotation shaft 521 eccentric to one side of the launch pad body 510, the launch pad body of the 510 Launching device for a toy vehicle, characterized in that it comprises a launch pad cover portion 520, the ball 522 is formed to press the car stored therein.
The method of claim 17,
The ball 522 of the toy car, characterized in that the ball is rotatably coupled to the launch pad cover portion 520 through the rotating shaft 523, so that the ball is pressed in a horizontal state when the launch pad cover 520 is rotated. Launcher.

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