CN219072066U - Card flicking device and card flicking toy - Google Patents

Abstract

The utility model relates to a card ejector and a card ejection toy, wherein the card ejector comprises a base component, a pressing driving component, a clutch component, a triggering component and an ejection component; the top of the base component is provided with a clamping groove, the pressing driving component and the clutch component are respectively arranged in the base component in a telescopic way, one end of the pressing driving component extends out of the upper part of the base component, and the other end of the pressing driving component is in transmission connection with the clutch component; the trigger component is telescopically arranged in the base component, the trigger component is movably buckled with the ejection component, and the ejection component can be upwards and rotationally arranged in the clamping groove. The toy is ingenious in design, and can eject the card out in the pressing process, so that the practical ability of children can be cultivated, and the interestingness and entertainment of the toy are improved.

Description

Card flicking device and card flicking toy

Technical Field

The utility model relates to the technical field of toys, in particular to a card flicking device and a card flicking toy.

Background

Advances in technology have prompted the development of the child toy industry, and various types of child toys with different styles and functions not only bring a lot of fun to the life of children, but also are significant for early intelligence development. Among them, card toys are popular toys for children and are used for children.

At present, most of card toys on the market are printed with various patterns, such as various cartoon characters, movie stars, landscapes and the like, and are generally only used for collecting, storing and arranging for appreciation, so that the existing card toys have only the functions of ornament and storage, have no dynamic deformation process, cannot cultivate the practical ability of children, and have weak interestingness and durability.

Disclosure of Invention

Based on the above, the utility model aims to overcome the defects of the prior art, and provides the card ejector which has a simple structure, can eject the card out in the pressing process, can cultivate the practical ability of children, and improves the fun and entertainment of toys.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

a card ejector comprises a base component, a pressing driving component, a clutch component, a triggering component and an ejection component; the top of the base component is provided with a clamping groove, the pressing driving component and the clutch component are respectively arranged in the base component in a telescopic way, one end of the pressing driving component extends out of the upper part of the base component, and the other end of the pressing driving component is in transmission connection with the clutch component; the trigger component is telescopically arranged in the base component, the trigger component is movably buckled with the ejection component, and the ejection component can be upwards and torsionally arranged in the clamping groove; the clutch assembly can be driven to move towards the trigger assembly by pressing the pressing driving assembly, and the trigger assembly is propped against the ejection assembly to be released from the ejection assembly.

As one embodiment, the pressing driving assembly comprises a pressing piece, a first spring, a driving piece, a second spring and a linkage piece, wherein a first sleeve column is arranged in the base component, the first spring is sleeved on the first sleeve column, and the pressing piece is elastically ejected on the first sleeve column and the first spring; the driving piece is telescopically arranged in the base component through the second spring, the linkage piece is rotatably arranged in the base component, and two ends of the linkage piece are respectively connected with the pressing piece and the driving piece in a transmission way; the pressing piece is pressed to drive the linkage piece to rotate and drive the driving piece to move in the direction of compressing the second spring.

As one embodiment, the base component is provided with a plurality of first limit guide rods, and the driving piece is slidably sleeved in the plurality of first limit guide rods; a telescopic sliding rod is arranged between the pressing piece and the linkage piece, the telescopic sliding rod is arranged in the base component in a telescopic way, a first jacking column and a second jacking column are respectively arranged on the telescopic sliding rod and the driving piece, the middle part of the linkage piece is rotatably arranged in the base component, two ends of the linkage piece are respectively provided with a rotary sleeve hole, and the linkage piece is respectively sleeved on the first jacking column and the second jacking column through the two rotary sleeve holes; the telescopic slide bar is located one end of pressing the piece below is provided with the slope, the lower extreme cooperation of pressing the piece is provided with presses the portion, and presses the piece to pass through press the portion can promote the slope motion of telescopic slide bar makes telescopic slide bar drive the linkage rotates, and then drives through the linkage the direction motion of driving piece to compression second spring.

As one embodiment, the base component is provided with a first chute and a second chute which are relatively parallel, the clutch assembly comprises a driving tooth block, a clutch tooth block, a first movable clamping block, a third spring and a fourth spring, the driving tooth block and the clutch tooth block are respectively and slidably arranged in the first chute and the second chute, and the driving tooth block and the clutch tooth block are rigidly connected through a connecting rod; the first movable clamping block is rotatably arranged in the base component, one end of the clutch tooth block is telescopically arranged in the second sliding groove through the third spring, a first saw rack is arranged on one side of the clutch tooth block, which is opposite to the first movable clamping block, a first inserting block is arranged on one side, which is opposite to the first saw rack, of the first movable clamping block, the first inserting block is movably inserted into the first saw rack, and one side, which is far away from the first saw rack, of the first movable clamping block is propped against the base component through the fourth spring; the driving piece is located one side of the first sliding groove, a second movable clamping block is rotatably arranged on the driving piece, a second saw rack is arranged on one side of the driving tooth block, corresponding to the second movable clamping block, of the second movable clamping block, a second inserting block is arranged on one side, corresponding to the second saw rack, of the second movable clamping block, the second inserting block is movably inserted into the second saw rack, and one side, away from the second saw rack, of the second movable clamping block is propped against the driving piece through a fifth spring.

As one embodiment, the base component is provided with a plurality of second limit guide rods, and the driving piece is slidably sleeved on the second limit guide rods; the base component is provided with a first column body, the first movable clamping block is provided with a first sleeve hole, and the first movable clamping block is rotatably sleeved on the first column body of the base component through the first sleeve hole; the driving piece is provided with a second column, the second movable clamping block is provided with a second sleeve hole, and the second movable clamping block is rotatably sleeved in the second column on the driving piece through the second sleeve hole;

when the pressing piece drives the driving piece to move, a second movable clamping block on the driving piece pushes against the driving tooth block to move towards the trigger assembly, and the driving tooth block can be pushed against the trigger assembly and the ejection assembly to be released by pressing the pressing piece for multiple times.

As one embodiment, the base component further comprises a reset assembly, the reset assembly comprises a reset button, a sixth spring, a reset connecting rod, a seventh spring and a reset slide plate, a second sleeve column is arranged in the base component, the sixth spring is sleeved on the second sleeve column, and the reset button is sleeved on the second sleeve column and the sixth spring in a telescopic manner; the reset connecting rod is arranged in the base component in a telescopic way through the seventh spring, one end of the reset connecting rod is in transmission connection with the reset button, and the other end of the reset connecting rod is in transmission connection with the reset slide plate; the reset slide plate is in transmission connection with the first movable clamping block and the second movable clamping block;

when the reset button is pressed, the reset button pushes the reset connecting rod to slide so as to drive the reset slide plate to move, and the first movable clamping block and the second movable clamping block are simultaneously driven to rotate in the direction away from the first saw rack and the second saw rack through the reset slide plate, so that the first inserting block and the second inserting block are respectively separated from the first saw rack and the second saw rack.

As one implementation mode, a plurality of third limit guide rods are arranged in the base component, the reset connecting rod is slidably sleeved on the third limit guide rods, and one end of the reset connecting rod, which is positioned below the reset button, is provided with a slope surface; the base component is internally provided with a plurality of fourth limit guide rods, the reset slide plate is slidably sleeved on the fourth limit guide rods, the reset slide plate is provided with reset inclined holes, the reset connecting rod is provided with reset jacking columns matched with the reset inclined holes, and the reset jacking columns are positioned in the reset inclined holes; the first movable clamping block and the second movable clamping block are respectively provided with a third jacking column and a fourth jacking column, and the reset slide plate is respectively sleeved on the third jacking column and the fourth jacking column.

As an implementation mode, the trigger assembly is arranged at one end of the first chute, which is far away from the driving tooth block, and the trigger assembly comprises a trigger clamping block and an eighth spring, wherein the trigger clamping block is arranged in the first chute in a telescopic way through the eighth spring, a clamping part is arranged on the trigger clamping block, and the trigger clamping block is matched and clamped with the ejection assembly through the clamping part.

As an implementation mode, the ejection assembly comprises an ejection rod and an ejection torsion spring, an ejection rotating shaft is arranged at one end of the clamping groove, one end of the ejection rod is arranged on the ejection rotating shaft in an upward twisting mode through the ejection torsion spring, a clamping part is arranged at the lower end of the ejection rod, and the ejection rod is matched and clamped with the clamping part of the triggering clamping block through the clamping part of the ejection rod.

Compared with the prior art, the utility model has the beneficial effects that: after the card is placed on the card placing groove of the base component, the clutch component can be pushed to move towards the trigger component by pressing the pressing driving component in the base component for multiple times, and finally the trigger component is propped against the clutch component, so that the trigger component and the ejection component are released from the card, and the ejection component can be used for rapidly ejecting the card in the card placing groove, so that the playing effect of ejecting the card is achieved. Therefore, the card ejector can eject the card in the pressing process, so that the practical ability of children can be cultivated, and the interestingness and entertainment of the toy are improved.

In addition, the utility model also provides a card ejection toy, which comprises the card ejection device and a card, wherein the card can be placed in the card placing groove. According to the card ejecting toy, the card in the card placing groove can be ejected out through the pressing driving assembly on the pressing card ejecting device, so that the practical ability of children can be cultivated, and the interestingness and entertainment of the toy are improved.

For a better understanding and implementation, the present utility model is described in detail below with reference to the drawings.

Drawings

FIG. 1 is a schematic view of a card ejector according to the present utility model;

FIG. 2 is a schematic view of the card ejector of the present utility model;

FIG. 3 is a schematic view of the card ejector of the present utility model;

fig. 4 is a schematic structural view of the card ejector of the present utility model.

Detailed Description

For further illustration of the various embodiments, the utility model is provided with the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments and together with the description, serve to explain the principles of the embodiments. With reference to these matters, one of ordinary skill in the art will understand other possible implementations and advantages of the present utility model.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "left", "right", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus are not to be construed as limiting the present utility model.

As shown in fig. 1 to 4, the present embodiment provides a card ejector, which includes a base member 10, a pressing driving assembly 20, a clutch assembly 30, a trigger assembly 40, and an ejection assembly 50; the top of the base component 10 is provided with a clamping groove 11, the pressing driving component 20 and the clutch component 30 are respectively arranged in the base component 10 in a telescopic way, one end of the pressing driving component 20 extends out of the upper side of the base component 10, and the other end of the pressing driving component is in transmission connection with the clutch component 30; the trigger assembly 40 is telescopically arranged in the base component 10, the trigger assembly 40 is movably and in snap connection with the ejection assembly 50, and the ejection assembly 50 can be upwards and rotatably arranged in the clamping groove 11; the clutch assembly 30 can be driven to move towards the trigger assembly 40 by pressing the pressing driving assembly 20, and the trigger assembly 40 is pushed against the ejection assembly 50 to be released from the ejection assembly.

Therefore, the card ejector of the embodiment has ingenious design, and can eject the card out in the playing process, thereby greatly improving the interestingness and entertainment of the toy.

As a preferred embodiment, the pressing driving assembly 20 includes a pressing piece 21, a first spring, a driving piece 22, a second spring 23, and a linkage piece 24, wherein a first sleeve column is disposed inside the base member 10, the first spring is sleeved on the first sleeve column, and the pressing piece 21 is telescopically ejected on the first sleeve column and the first spring; the driving piece 22 is telescopically arranged in the base component 10 through the second spring 23, the linkage piece 24 is rotatably arranged in the base component 10, and two ends of the linkage piece 24 are respectively connected with the pressing piece 21 and the driving piece 22 in a transmission way; the pressing piece 21 is pressed to drive the linkage piece 24 to rotate and drive the driving piece 22 to move in the direction of compressing the second spring 23.

Further, in the present embodiment, the base member 10 is provided with a plurality of first limit guide rods, and the driving piece 22 is slidably sleeved in the plurality of first limit guide rods; a telescopic sliding rod 25 is arranged between the pressing piece 21 and the linkage piece 24, the telescopic sliding rod 25 is arranged in the base component 10 in a telescopic way, a first jacking column and a second jacking column are respectively arranged on the telescopic sliding rod 25 and the driving piece 22, the middle part of the linkage piece 24 is rotatably arranged in the base component 10, two ends of the linkage piece 24 are respectively provided with a rotary sleeve hole, and the linkage piece 24 is respectively sleeved on the first jacking column and the second jacking column through two rotary sleeve holes; the telescopic slide bar 25 is located one end of pressing piece 21 below is provided with the slope, the lower extreme cooperation of pressing piece 21 is provided with the pressing part, and pressing piece 21 passes through the pressing part can promote the slope motion of telescopic slide bar 25 makes telescopic slide bar 25 drive the linkage piece 24 rotates, and then drives through the linkage piece 24 driving piece 22 to compressing the direction motion of second spring 23.

The telescopic slide bar 25 of the present embodiment is telescopically disposed in the base member 10 by a telescopic spring 26.

As a preferred embodiment, the base member 10 is provided with two relatively parallel first sliding grooves 12 and second sliding grooves 13, the clutch assembly 30 includes a driving tooth block 31, a clutch tooth block 32, a first movable clamping block 33, a third spring 34 and a fourth spring 35, the driving tooth block 31 and the clutch tooth block 32 are slidably disposed in the first sliding grooves 12 and the second sliding grooves 13, and the driving tooth block 31 and the clutch tooth block 32 are rigidly connected by a connecting rod; the first movable clamping block 33 is rotatably arranged in the base component 10, one end of the clutch gear block 32 is telescopically arranged in the second sliding groove 13 through the third spring 34, a first saw rack 321 is arranged on one side of the clutch gear block 32 opposite to the first movable clamping block 33, a first inserting block 331 is arranged on one side of the first movable clamping block 33 opposite to the first saw rack 321, the first inserting block 331 is movably inserted into the first saw rack 321, and one side of the first movable clamping block 33 away from the first saw rack 321 is propped against the base component 10 through the fourth spring 35; the driving member 22 is located at one side of the first sliding groove 12, a second movable clamping block 27 is rotatably disposed on the driving member 22, a second saw rack 311 is disposed at one side of the driving gear block 31 opposite to the second movable clamping block 27, a second inserting block 271 is disposed at one side of the second movable clamping block 27 opposite to the second saw rack 311, the second inserting block 271 is movably inserted into the second saw rack 311, and one side of the second movable clamping block 27 far away from the second saw rack 311 is pressed against the driving member 22 through a fifth spring 28.

Wherein, a plurality of second limit guide rods are arranged in the base component 10, and the driving piece 22 is slidably sleeved on the second limit guide rods; the base component 10 is provided with a first column, the first movable clamping block 33 is provided with a first sleeve hole, and the first movable clamping block 33 is rotatably sleeved on the first column of the base component 10 through the first sleeve hole; the driving piece 22 is provided with a second cylinder, the second movable clamping block 27 is provided with a second sleeve hole, and the second movable clamping block 27 is rotatably sleeved in the second cylinder on the driving piece 22 through the second sleeve hole;

therefore, when the user drives the driving piece 22 to move through the pressing piece 21, the second movable clamping block 27 on the driving piece 22 pushes the driving tooth block 31 to move towards the trigger assembly 40, and therefore, the user can finally push the driving tooth block 31 to push the trigger assembly 40 to be disengaged from the ejection assembly 50 through pressing the pressing piece 21 for multiple times.

As a preferred embodiment, the base member 10 further includes a reset assembly 60, the reset assembly 60 includes a reset button 61, a sixth spring, a reset link 62, a seventh spring, and a reset slide 63, the second sleeve is disposed inside the base member 10, the sixth spring is sleeved on the second sleeve, and the reset button 61 is telescopically sleeved on the second sleeve and the sixth spring; the reset link 62 is telescopically arranged in the base member 10 through the seventh spring, one end of the reset link 62 is in transmission connection with the reset button 61, and the other end of the reset link 62 is in transmission connection with the reset slide plate 63; the reset slide plate 63 is in transmission connection with the first movable clamping block 33 and the second movable clamping block 27;

therefore, when the user presses the reset button 61, the reset button 61 pushes the reset link 62 to slide so as to drive the reset slide plate 63 to move, and simultaneously drives the first movable clamping block 33 and the second movable clamping block 27 to rotate in a direction away from the first saw rack 321 and the second saw rack 311 through the reset slide plate 63, so that the first insert 331 and the second insert 271 are respectively separated from the first saw rack 321 and the second saw rack 311. In this way, the clutch tooth block 32 is reset by the reset action of the third spring 34 and is communicated with the driving tooth block 31, so that the trigger assembly 40 is reset again.

More specifically, in the present embodiment, a plurality of third limit guide rods are provided in the base member 10, the reset link 62 is slidably sleeved on the plurality of third limit guide rods, and a slope surface is provided at one end of the reset link 62 located below the reset button 61; the base component 10 is provided with a plurality of fourth limit guide rods, the reset slide plate 63 is slidably sleeved on the fourth limit guide rods, the reset slide plate 63 is provided with a reset inclined hole 64, the reset connecting rod 62 is provided with a reset prop 65 matched with the reset inclined hole 64, and the reset prop 65 is positioned in the reset inclined hole 64; the first movable clamping block 33 and the second movable clamping block 27 are respectively provided with a third top column 332 and a fourth top column 272, and the reset slide plate 63 is respectively sleeved on the third top column 332 and the fourth top column 272.

Another embodiment of the present application may be, but is not limited to, that a reset sub-plate 66 is telescopically disposed in the base member 10, and the reset sub-plate 66 is in transmission connection with the reset slide 63, and the reset slide 63 is in transmission connection with the first movable clamping block 33, and the reset sub-plate 66 is in transmission connection with the second movable clamping block 27, so when the reset slide 63 drives the first movable clamping block 33 to rotate, the reset sub-plate 66 can be driven to move at the same time, and then the second movable clamping block 27 is driven by the reset sub-plate 66, so that the first insert 331 and the second insert 271 are respectively disengaged from the first saw rack 321 and the second saw rack 311.

As a preferred embodiment, the trigger assembly 40 is disposed at an end of the first chute 12 away from the driving gear block 31, the trigger assembly 40 includes a trigger clamping block 41 and an eighth spring 42, the trigger clamping block 41 is telescopically disposed in the first chute 12 through the eighth spring 42, a clamping portion 43 is disposed on the trigger clamping block 41, and the trigger clamping block 41 is in fit and clamping connection with the ejection assembly 50 through the clamping portion 43.

In addition, the ejection assembly 50 includes an ejection rod 51 and an ejection torsion spring 52, one end of the clamping groove 11 is provided with an ejection rotating shaft, one end of the ejection rod 51 is disposed on the ejection rotating shaft in an upward twisting manner through the ejection torsion spring 52, the lower end of the ejection rod 51 is provided with a fastening portion 53, and the ejection rod 51 is in fit and fastening with the fastening portion 43 of the trigger clamping block 41 through the fastening portion 53.

Therefore, after the user presses the pressing piece 21 on the base component 10 for a plurality of times, the pressing piece 21 drives the driving rack of the clutch component 30 to push against the trigger clamping block 41 of the trigger component 40, so that the trigger clamping block 41 is disengaged from the ejection rod 51, and the ejection rod 51 rapidly rotates upwards under the action of the torsion spring, so that the card in the card accommodating groove 11 is ejected.

When the reset is needed, the reset button 61 is pressed to separate the driving gear block 31 and the clutch gear block 32 of the clutch assembly 30 from the trigger clamping block 41 and reset the same to the original place, and then the ejector rod 51 is rotated downwards to enable the ejector rod 51 and the trigger clamping block 41 to be clamped together again, so that the reset operation of the whole ejector is completed.

Compared with the prior art, the utility model has the beneficial effects that: after the card is placed on the card placing groove 11 of the base component 10, the pressing driving component 20 in the base component 10 can push the clutch component 30 to move towards the trigger component 40 and finally push the trigger component 40 to enable the trigger component 40 to be in card releasing with the ejection component 50, so that the ejection component 50 can rapidly eject the card in the card placing groove 11, and play effect of ejecting the card is achieved. Therefore, the card ejector can eject the card in the pressing process, so that the practical ability of children can be cultivated, and the interestingness and entertainment of the toy are improved.

In addition, the utility model also provides a card ejection toy, which comprises the card ejection device as described in any one of the above, and further comprises a card, wherein the card can be placed in the card placing groove 11. According to the card ejecting toy, the card in the card placing groove 11 can be ejected out through the pressing driving component 20 on the pressing card ejecting device, so that the practical ability of children can be cultivated, and the interestingness and entertainment of the toy are improved.

The above examples merely represent a few embodiments of the present utility model, which are described in more detail and are not to be construed as limiting the scope of the utility model card ejector and card ejection toy. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model.

Claims (10)

1. A card ejector, characterized in that:

comprises a base component, a pressing driving component, a clutch component, a triggering component and an ejection component; the top of the base component is provided with a clamping groove, the pressing driving component and the clutch component are respectively arranged in the base component in a telescopic way, one end of the pressing driving component extends out of the upper part of the base component, and the other end of the pressing driving component is in transmission connection with the clutch component; the trigger component is telescopically arranged in the base component, the trigger component is movably buckled with the ejection component, and the ejection component can be upwards and torsionally arranged in the clamping groove; the clutch assembly can be driven to move towards the trigger assembly by pressing the pressing driving assembly, and the trigger assembly is propped against the ejection assembly to be released from the ejection assembly.

2. The card ejector of claim 1, wherein:

the pressing driving assembly comprises a pressing piece, a first spring, a driving piece, a second spring and a linkage piece, wherein a first sleeve column is arranged in the base component, the first spring is sleeved on the first sleeve column, and the pressing piece is retractably ejected on the first sleeve column and the first spring; the driving piece is telescopically arranged in the base component through the second spring, the linkage piece is rotatably arranged in the base component, and two ends of the linkage piece are respectively connected with the pressing piece and the driving piece in a transmission way; the pressing piece is pressed to drive the linkage piece to rotate and drive the driving piece to move in the direction of compressing the second spring.

3. The card ejector of claim 2, wherein:

the base component is internally provided with a plurality of first limit guide rods, and the driving piece is slidably sleeved in the first limit guide rods; a telescopic sliding rod is arranged between the pressing piece and the linkage piece, the telescopic sliding rod is arranged in the base component in a telescopic way, a first jacking column and a second jacking column are respectively arranged on the telescopic sliding rod and the driving piece, the middle part of the linkage piece is rotatably arranged in the base component, two ends of the linkage piece are respectively provided with a rotary sleeve hole, and the linkage piece is respectively sleeved on the first jacking column and the second jacking column through the two rotary sleeve holes; the telescopic slide bar is located one end of pressing the piece below is provided with the slope, the lower extreme cooperation of pressing the piece is provided with presses the portion, and presses the piece to pass through press the portion can promote the slope motion of telescopic slide bar makes telescopic slide bar drive the linkage rotates, and then drives through the linkage the direction motion of driving piece to compression second spring.

4. The card ejector of claim 2, wherein:

the clutch assembly comprises a driving tooth block, a clutch tooth block, a first movable clamping block, a third spring and a fourth spring, wherein the driving tooth block and the clutch tooth block are respectively and slidably arranged in the first chute and the second chute, and the driving tooth block is rigidly connected with the clutch tooth block through a connecting rod; the first movable clamping block is rotatably arranged in the base component, one end of the clutch tooth block is telescopically arranged in the second sliding groove through the third spring, a first saw rack is arranged on one side of the clutch tooth block, which is opposite to the first movable clamping block, a first inserting block is arranged on one side, which is opposite to the first saw rack, of the first movable clamping block, the first inserting block is movably inserted into the first saw rack, and one side, which is far away from the first saw rack, of the first movable clamping block is propped against the base component through the fourth spring; the driving piece is located one side of the first sliding groove, a second movable clamping block is rotatably arranged on the driving piece, a second saw rack is arranged on one side of the driving tooth block, corresponding to the second movable clamping block, of the second movable clamping block, a second inserting block is arranged on one side, corresponding to the second saw rack, of the second movable clamping block, the second inserting block is movably inserted into the second saw rack, and one side, away from the second saw rack, of the second movable clamping block is propped against the driving piece through a fifth spring.

5. The card ejector of claim 4, wherein:

the base component is internally provided with a plurality of second limit guide rods, and the driving piece is slidably sleeved on the second limit guide rods; the base component is provided with a first column body, the first movable clamping block is provided with a first sleeve hole, and the first movable clamping block is rotatably sleeved on the first column body of the base component through the first sleeve hole; the driving piece is provided with a second column, the second movable clamping block is provided with a second sleeve hole, and the second movable clamping block is rotatably sleeved in the second column on the driving piece through the second sleeve hole;

when the pressing piece drives the driving piece to move, a second movable clamping block on the driving piece pushes against the driving tooth block to move towards the trigger assembly, and the driving tooth block can be pushed against the trigger assembly and the ejection assembly to be released by pressing the pressing piece for multiple times.

6. The card ejector of claim 4, wherein:

the base component further comprises a reset component, the reset component comprises a reset button, a sixth spring, a reset connecting rod, a seventh spring and a reset slide plate, a second sleeve column is arranged in the base component, the sixth spring is sleeved on the second sleeve column, and the reset button is sleeved on the second sleeve column and the sixth spring in a telescopic manner; the reset connecting rod is arranged in the base component in a telescopic way through the seventh spring, one end of the reset connecting rod is in transmission connection with the reset button, and the other end of the reset connecting rod is in transmission connection with the reset slide plate; the reset slide plate is in transmission connection with the first movable clamping block and the second movable clamping block;

when the reset button is pressed, the reset button pushes the reset connecting rod to slide so as to drive the reset slide plate to move, and the first movable clamping block and the second movable clamping block are simultaneously driven to rotate in the direction away from the first saw rack and the second saw rack through the reset slide plate, so that the first inserting block and the second inserting block are respectively separated from the first saw rack and the second saw rack.

7. The card ejector of claim 6, wherein:

the base component is internally provided with a plurality of third limit guide rods, the reset connecting rod is slidably sleeved on the third limit guide rods, and one end of the reset connecting rod, which is positioned below the reset button, is provided with a slope surface; the base component is internally provided with a plurality of fourth limit guide rods, the reset slide plate is slidably sleeved on the fourth limit guide rods, the reset slide plate is provided with reset inclined holes, the reset connecting rod is provided with reset jacking columns matched with the reset inclined holes, and the reset jacking columns are positioned in the reset inclined holes; the first movable clamping block and the second movable clamping block are respectively provided with a third jacking column and a fourth jacking column, and the reset slide plate is respectively sleeved on the third jacking column and the fourth jacking column.

8. The card ejector of claim 4, wherein:

the trigger assembly is arranged at one end of the first chute, far away from the driving tooth block, and comprises a trigger clamping block and an eighth spring, wherein the trigger clamping block is arranged in the first chute in a telescopic manner through the eighth spring, a clamping part is arranged on the trigger clamping block, and the trigger clamping block is matched and clamped with the ejection assembly through the clamping part.

9. The card ejector of claim 8, wherein:

the ejection assembly comprises an ejection rod and an ejection torsion spring, an ejection rotating shaft is arranged at one end of the clamping groove, one end of the ejection rod is upwards arranged on the ejection rotating shaft in a twisting mode through the ejection torsion spring, a clamping part is arranged at the lower end of the ejection rod, and the ejection rod is matched and clamped with the clamping part of the trigger clamping block through the clamping part of the ejection rod.

10. A card flicking toy which is characterized in that:

a card ejector comprising any one of claims 1 to 9, further comprising a card, the card being placeable in the card slot.

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