CN219579874U - Habit developing toy - Google Patents

Abstract

The utility model relates to the field of toys, in particular to a habit forming toy. A habit formation toy comprises a base and a habit packet host detachably connected to the upper part of the base; the base is internally provided with a driving device and an identification device for identifying a habit packet host; the habit packet host comprises a shell, a paper outlet device arranged in the shell, and an identification component for representing the theme content of the habit packet host; a paper outlet is formed in the side wall of the shell, the paper outlet device comprises a plurality of paper making boards which are connected in sequence, and a tearing line is arranged between every two adjacent paper making boards; when the habit package host computer is placed on the base, the driving device is in driving connection with the paper outlet device, and the identification device acquires the identification information of the identification component. The habit formation toy cultures habit formation of children by adopting a way of punching cards and outputting paper, the children can obtain card punching cards after punching cards each time, the game participation is stronger, and the children are more willing to participate.

Description

Habit developing toy

Technical Field

The utility model relates to the field of toys, in particular to a habit forming toy.

Background

In child habit development and time management, a good development record is indispensable. In the past, habit development and time management of children are generally implemented through parental supervision or handwriting daily activity plans of the children, and the parents are not enough in system on one hand and are easy to miss when the parents are busy particularly; on the other hand, a habit of passive acceptance is easily caused for children, daily activities are passively carried out every day, enthusiasm of participating in each activity is lacked, and rewards of implementation of the activity cannot be obtained. Based on this, an intelligent management card punching system for children time based on the internet appears in the prior art, and concretely, the intelligent management card punching system for children time and the method thereof recorded in the Chinese patent application publication No. CN113222522A can be referred to, the card punching system is networked with the cloud, and children edit or view a schedule on a time billboard, so that parents can conveniently modify the schedule on the background. However, such a child time intelligent management card punching system lacks game experience and actual feedback, and children cannot experience fun in the participation process, and is difficult to be applied to children of smaller ages in particular.

Disclosure of Invention

In order to solve the problems, the utility model aims to provide the habit formation toy which adopts a way of punching cards and outputting paper to cultivate habit formation of children, the children can obtain card punching paper after each time of punching cards, the game participation is stronger, and the children are more willing to participate.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

a habit formation toy comprises a base and a habit packet host detachably connected to the upper part of the base; the method is characterized in that: the base is internally provided with a driving device and an identification device for identifying a habit packet host; the habit packet host comprises a shell, a paper outlet device and an identification component, wherein a paper outlet is formed in the side wall of the shell, the paper outlet device is arranged in the shell, and the identification component is used for representing the theme content of the habit packet host; the paper outlet device can send out a plurality of sequentially connected paper jams, and a tearing line is arranged between every two adjacent paper jams; when the habit package host computer is placed on the base, the driving device is in driving connection with the paper outlet device, and the identification device acquires the identification information of the identification component.

The utility model adopts the technical scheme, and the technical scheme relates to a habit formation toy which comprises a base and a habit packet host, wherein the habit packet host is detachably connected to the base, a driving device and a recognition device are arranged in the base, and a paper outlet device and a marking component are arranged in a shell of the habit packet host. Therefore, the base with higher cost can be repeatedly used, and the habit package host can be replaced and used. When in actual use, the habit package host is used as a selection part, a parent can select and match a corresponding habit package according to the habit of the child, and the information represented by the habit package host is identified and acquired by the identification device.

When the habit package host computer is used, the habit package host computer is placed on the base, the identification device on the base acquires the identification information of the identification component, so that the base can identify the related content of the assembled habit package host computer, such as the corresponding habit, the equipped audio and video information, story content and the like. The driving device on the base is in driving connection with the paper outlet device, and after the card is punched, the driving device can be triggered by operating a key on the base, so that the driving device drives the paper outlet device to send out card punching paper.

Based on the structure and the playing method, the habit formation toy adopts a way of punching cards and outputting paper to cultivate habit formation of children, the children can obtain card punching cards after punching cards each time, the game participation is stronger, and the children are more willing to participate.

In a further scheme, the paper jam can be used as rewarding feedback after each habit is completed, and a network identification code recording electronic content or website can be printed on the paper jam in the paper outlet device, wherein the common expression mode of the network identification code is a two-dimensional code. After the card paper is printed, a parent can directly obtain the electronic content or open a webpage corresponding to the electronic content through scanning the code through a mobile phone, and the electronic content can be an audio/video, a story or a virtual game prop.

In a further preferred scheme, an induction device is arranged on the base, an induction seat is formed by outwards protruding the base, the induction device comprises a transmitting end and a receiving end which are formed on the induction seat, the transmitting end faces the receiving end, and an induction channel is formed between the transmitting end and the receiving end; the shell is internally concavely provided with a first cavity for embedding the transmitting end and a second cavity for embedding the receiving end; a paper outlet channel is formed in the partition beam through a partition Liang Xiangge which can be embedded into the sensing channel between the first chamber and the second chamber, and corresponding sensing holes are formed in the first chamber and the second chamber at two sides of the paper outlet channel; the paper outlet device conveys the output path of the paper jam to the paper outlet through the paper outlet channel.

In the technical scheme, the induction device arranged on the base is used for identifying and controlling the number of paper discharged at a single time when a paper jam occurs. Specifically, the conveying path of the paper jam passes through, and the number of paper leaves of the paper jam is judged based on whether the receiving end can receive signals of the transmitting end or not between the transmitting end and the receiving end of the sensing device. The above description shows that the base has high cost but can be recycled, so that the induction device is also arranged on the base in the scheme, and therefore, the induction device does not need to be arranged on each habit package host.

In the scheme, the habit package host is detachably connected to the base, so that the habit package host can be directly replaced under the condition that paper is jammed inside the habit package host, thereby facilitating the replacement of users. On the basis, the scheme requires that the paper jam can be accurately arranged between the transmitting end and the receiving end of the sensing device, and if the paper jam is exposed and arranged between the transmitting end and the receiving end, the habit package host machine is required to be accurately aligned with the base, and the error range is small; if the paper is pressed against the transmitting end or the receiving end due to large errors, or the paper is extruded in the storage and transportation processes, paper jam folds can be caused, and normal paper output of the paper jam is affected. In order to solve the technical problem, the first chamber and the second chamber are concavely built on the shell, a partition beam is built between the first chamber and the second chamber, and a paper outlet passage through which paper jam passes is formed in the partition beam. So, the card paper of beating in this scheme is protected by the partition beam, and induction system's transmitting end and receiving terminal need stretch into inside first cavity and the second cavity to the response signal realizes the response through the sensing hole, all can not extrude its inside card paper of beating in custom package host assembly, storage or transportation, guarantees to beat the card paper after the assembly is accomplished and can go out paper smoothly.

In a further alternative, the partition Liang Tuchu may be provided in the housing, such that it is not necessary to build the first and second chambers in the housing, but rather the partition beams are embedded directly inside the sensing channel; the above effects can also be achieved.

Preferably, the paper outlet device comprises two output wheels which roll mutually, and the two output wheels are respectively arranged in the shell at two sides of the paper outlet. In the technical scheme, the fact that the two output wheels roll mutually means that the two output wheels are mutually attached and rotate in opposite rotation directions; here two output wheels are located the exit slot both sides, and the paper is beaten to the card and is passed through between two output wheels, provides power for beating card paper play paper based on the effect of two output wheels.

Preferably, a paper roll bin for placing paper rolls is further arranged in the shell, and a guide plate is arranged between the paper roll bin and the paper outlet channel. The paper beating paper roll is used for being placed inside the paper roll bin, and the paper beating paper roll is guided into the paper outlet channel through the guide plate.

Preferably, the driving device comprises two rotating parts with at least output ends exposed on the surface of the base; the two output wheels are connected with a transmission part with input ends exposed out of the shell and used for connecting the rotating part; when the habit bag is connected to the base, the rotating component is in circumferential linkage with the transmission component. In this scheme, drive arrangement drives two rotating parts and rotates, when habit package host computer is connected on the base, and the transmission part input on the output wheel realizes pegging graft with drive arrangement's rotating part's output, and then realizes both circumference linkage, and inside drive arrangement of base can drive habit package host computer inside output wheel and rotate, realizes the paper that goes out of card paper.

In a specific embodiment, the rotating part is a rotating sleeve movably embedded on the base, the transmission part is a rotating seat rotatably arranged in the shell, the output wheel is arranged on the rotating seat, and a connecting shaft extending out of the outer wall of the shell is formed on the rotating seat; when the habit bag is connected to the base, the connecting shaft is inserted into the rotary sleeve to realize circumferential linkage.

In a specific scheme, the driving device comprises a driving motor and a gear assembly connected to the output end of the driving motor; the tail end of the gear assembly is provided with two mutually meshed output gears, and the two rotating parts are respectively arranged on the two output gears. The output end of the driving motor drives the gear assembly, two output gears at the tail end of the gear assembly are meshed with each other, the rotation directions are opposite in the rotation process, and then the two output wheels connected with the gear assembly are driven to roll mutually.

Preferably, the induction seat is arranged on the upper end surface of the base, and the first chamber and the second chamber are constructed on the lower end surface of the shell; when the habit packet host is placed at the upper end of the base, the transmitting end and the receiving end on the induction seat are respectively embedded into the first cavity and the second cavity. In this scheme, the custom package host is used to be placed above the base. Further, the induction seat is constructed into a U-shaped seat with an upward opening, the transmitting end and the receiving end of the induction device are respectively positioned in two U-shaped arms of the U-shaped seat, and an induction channel is formed in the U-shaped opening of the U-shaped seat.

Preferably, the lower end face of the shell is provided with a flange extending downwards along the edge of the shell, and the lower end of the flange extends at least to be not higher than the lower end part of the connecting shaft. In the scheme, the lower end of the flange at the edge of the lower end face of the shell is lower than or equal to the lower end of the connecting shaft, namely, the connecting shaft is wrapped in the surrounding area of the connecting shaft, and the conventional wrapping machine can be directly placed on a plane without being placed due to the arrangement of the connecting shaft.

Preferably, a shell cavity is formed in the shell, and a twisted egg is placed in the shell cavity; the shell above the shell cavity is detachably or movably connected with a top plate, a locking assembly is arranged in the top plate, and a lock tongue of the locking assembly can be clamped in a lock groove of the shell, so that the top plate is connected to the shell. In this scheme, the shell intracavity of casing inside has placed the turn round egg, and the roof of top adopts locking component rigid coupling on the casing, and the turn round egg that wants to obtain inside then needs to unbuckle locking component, opens the roof just can. The twisted eggs can be used as the final rewards of the whole habit cultivation process, so that children are motivated to strive to complete the whole card punching process, and the habit cultivation of the children is facilitated.

Preferably, a transparent window or a hollowed-out window capable of observing the interior of the shell cavity is formed on one side of the shell; the lower end part of the twisted egg is movably positioned on the bottom surface of the shell cavity; the upper end of the shell is provided with a twisting assembly, and the twisting assembly comprises a poking block in the shell cavity and pressed against the upper end of the twisted egg, and a poking rod outside the shell; the lower end of the poking rod penetrates through the top plate of the shell and is connected with the poking block, and the poking rod and the poking block connected with the poking rod are movably connected with the top plate. The shell cavity is formed in the shell of the toy and used for placing the twisted eggs, and the twisted eggs in the shell cavity can be observed from the transparent window or the hollowed-out window before the twisted eggs are obtained by children. In the process, a child can operate the poking rod at the upper end of the shell, and the poking rod drives the poking block inside the shell to act on the twisted eggs in the twisting process of the poking rod relative to the top plate, so that the twisted eggs generate certain swinging along the lower end part of the twisted eggs. In this process, children produce the interdynamic through stirring subassembly and turn round the egg to can strengthen the appeal of turn round the egg to children at this in-process, promote children's power of training habit.

In a specific embodiment, the poking surface of the poking block, which is abutted against the twisted egg, is constructed into an arc surface which is matched with the outer contour of the twisted egg. In this scheme, stir the cambered surface of piece inner and can paste the suitable cooperation with the egg outline of turning round mutually to the range of easily controlling the egg of turning round to the container is stirred.

In a specific embodiment, a through hole is formed in the middle of the top plate, a movable seat is embedded in the through hole, the lower end of the poking rod is detachably connected to the upper end of the movable seat in an inserting mode, and the upper end of the poking block is connected to the lower end of the movable seat in an inserting mode. In this technical scheme, the movable seat is at the inside activity setting of through-hole, drives the movable seat when operating the poking rod, and then drives the poking block motion of below.

In a further preferred scheme, the poking assembly further comprises an elastic reset component acting on the poking block, the poking rod or the movable seat, and the elastic reset component drives the poking block, the poking rod and the movable seat to reset. The elastic reset component provides certain resistance in the operation process, so that certain operation feeling is provided in the stirring process; on the other hand, the elastic resetting component plays a role in elastic resetting, and under the condition of removing external force, the poking block, the poking rod and the movable seat can reset.

Preferably, the top plate comprises an upper panel and a lower panel which are connected and fixed with each other, a movable cavity is formed between the upper panel and the lower panel, and the through hole is formed above the movable cavity; the movable seat is arranged in the movable cavity.

Preferably, the left side and the right side of the movable seat are connected with shaft rods, and the shaft rods are positioned between the upper panel and the lower panel; the movable seat can swing along the axis of the shaft rod, and the elastic reset part is a torsion spring sleeved on the shaft rod. Based on this structure, the movable seat can only use the axis of axostylus axostyle as the center swing, realizes shifting block, poking rod and movable seat's reset through the torsional spring under the external force circumstances of removing.

In the preferred scheme, a connecting groove is formed in the upper end part of the movable seat, and a locking chute is arranged on the side wall of the connecting groove; a locking block is constructed on the lower end part of the poking rod; after the locking piece stretches into the connecting groove, the locking piece is rotated into the locking sliding groove to connect the poke rod on the movable seat. The toggle rod in this scheme rotates and sets up on the movable seat, realizes the lock joint or the unblock to the movable seat, can take off the toggle rod from the movable seat under the unblock state, so can be with the toggle rod other usefulness, also can reduce this interactive toy vanning of turning round egg, accommodation space.

Preferably, a positioning groove is formed in the bottom surface of the shell cavity, and an arc-shaped groove or an arc-shaped protrusion is formed in the center of the positioning groove; an arc-shaped bulge or an arc-shaped groove is formed in the lower end part of the twisted egg; the lower end of the twisted egg is embedded in the positioning groove, and the arc-shaped protrusion is embedded in the arc-shaped groove. In this technical scheme, the setting of constant head tank can make the lower tip embedding of turning round egg in wherein, and inside arc protruding embedding arc recess then realizes turning round egg for shell cavity central location, can not topple over with making the turning round egg under the condition of turning round of this small amplitude to can make the turning round egg reset under the piece reset condition of stirring.

Preferably, the interior of the twisted egg is also provided with a cartoon profiling doll and a positioning seat which can be embedded in the positioning groove; the lower end of the cartoon profiling doll is detachably spliced on the positioning seat. In the scheme, the cartoon profiling doll can be obtained when a child obtains and opens the twisted eggs, and can be placed in the shell cavity of the shell through the positioning seat.

As mentioned above, the lower end of the tap lever is removably insertable, the lower end of the tap lever being further configured to release the key member of the locking assembly. Under the condition, the toggle rod can be taken as a key after being taken down from the movable seat, so that the locking assembly is opened, and the top plate is taken down to obtain the twisted eggs in the shell cavity.

Further, an elastic component is arranged in the shell; the output end of the elastic component is propped against the locking component; when the locking component is unlocked, the elastic component can jack up the locking component and the top plate. The top plate in the scheme is arranged above the shell, can be connected to the shell but movably connected with the shell, and can also be detachably connected above the shell. The top plate can be locked to the housing based on its internally mounted locking assembly. On the basis, the elastic component is arranged in the shell, and the output end of the elastic component props against the locking component or the top plate; after unlocking, the elastic component jacks up the top plate, so that the top plate can be at least partially lifted relative to the shell, and a child can conveniently open or remove the top plate to obtain articles inside the shell.

In a specific embodiment, the locking component is arranged at the end corner of the top plate, and the edge or the lower end of the top plate opposite to the arrangement position of the locking component is also provided with a clamping tongue which can be inserted on the shell; after the clamping tongue is inserted into the shell, the locking assembly can lock the top plate at the upper end of the shell. In this scheme, thereby the roof realizes the preliminary connection with the casing through the bayonet lock grafting casing, then through locking component locking can realize the locking of roof and casing. In the unlocking state, the end angle of one side of the top plate, where the locking component is arranged, is sprung up, and the top plate and the shell can be unlocked by slightly applying force by holding the top plate.

In a specific embodiment, the locking assembly includes a lock cylinder block rotatably disposed above the top plate, and a lock tongue block below the top plate; the lock tongue block or the lock core block is inserted into the top plate to realize circumferential linkage after penetrating through the top plate, the output end of the elastic component props against the lower end of the lock tongue block, and the side wall of the lock tongue block is radially provided with a protruding tongue in a protruding way; the shell comprises a stop block arranged around the periphery of the lock tongue block to the outside, and an unlocking hole matched with the protruding tongue on the lock tongue block is formed in the stop block; the elastic component can jack up the locking component and the top plate only when the protruding tongue is axially opposite to the unlocking hole.

Based on above-mentioned scheme, when locking assembly locks roof and casing state, the tongue on the spring bolt piece staggers with the unblock hole circumference, is not in same axial promptly, so when the tongue is restricted in the dog below, dog and tongue cooperation lock the roof on the casing, and at this moment, elastic component is in compressed state. When the lock core block drives the lock tongue block to rotate so that the protruding tongue is axially opposite to the unlocking hole, the elastic component can jack up the locking component and the top plate; the protruding tongue moves to the top of the stop block from the unlocking hole, and the top plate and the shell are unlocked.

In a further scheme, a groove is formed in the upper end face of the top plate, and a limit stop is arranged in the groove; a limit groove matched with the limit stop is formed in the lock cylinder block; when the lock cylinder block is embedded in the groove, the limit stop is clamped in the limit groove and used for limiting the circumferential rotation range of the lock cylinder block. In this scheme, lock core piece inlays the dress in the recess inside, and lock core piece surface is best not surpassed or is surpassed the up end of roof slightly to guarantee that the toy top surface is level and smooth. The limit stop inside the groove is matched with the limit groove on the lock cylinder block, so that the rotation range of the lock cylinder block is limited.

Further, the shell further comprises a lock tongue bin positioned at the center of the stop block, and the lock tongue block is positioned in the lock tongue bin. The lock tongue block is received through the lock tongue bin, so that the installation position and the moving range of the lock tongue block are standardized.

In a specific scheme, a locking position protrusion and an unlocking position protrusion are constructed on the side wall of the lock tongue bin, and the unlocking position protrusion axially corresponds to the unlocking hole; and a positioning groove is formed in the outer end part of the protruding tongue of the lock tongue block, and the positioning groove on the lock tongue block is clamped into the locking position protrusion or the unlocking position protrusion, so that the locking assembly is in a locking state or an unlocking state. In this scheme, locking position protruding and the bellied setting of unlocking position can give children on the one hand and unblanked or lock the position feedback of in-process, when rotating lock core piece in place promptly, has the dynamics feedback when locking position protruding or the protruding card of unlocking position to the recess of location to let children know that has rotated in place. On the other hand, in the locking state or the unlocking state, the lock cylinder block can be prevented from shaking to cause the position to be not corresponding based on the fact that the locking position protrusion or the unlocking position protrusion is clamped into the positioning groove.

In a specific embodiment, the elastic component comprises a supporting piece arranged in the shell in a sliding way up and down manner and a supporting spring sleeved on the supporting piece; the upper end of the supporting piece supports against the lock tongue block. The elasticity of the supporting spring is transmitted to the lock tongue block through the supporting piece.

Further, a chute which is arranged up and down is formed in the side wall of the lock tongue bin, and the upper end part of the supporting piece is embedded into the chute. The chute in this scheme sets up from top to bottom to with the upper end embedding of propping up in this spout, so limited propping up the piece and only can follow the spout and reciprocate, thereby limited the elasticity propping up the direction of elasticity subassembly.

Preferably, a sleeve joint part is built in the shell below the locking assembly, the lower end part of the supporting piece is arranged on the sleeve joint part, the supporting spring is arranged in the sleeve joint part, and the upper end part of the supporting spring is supported on the supporting piece. The scheme comprises two schemes that the sleeving part is sleeved outside the lower end of the supporting piece and the lower end of the supporting piece is sleeved on the sleeving part.

Drawings

Fig. 1 is a schematic diagram of a habit formation toy according to the present utility model.

Fig. 2 is a schematic diagram showing a separation state of a habit packet host and a base.

Fig. 3 is an enlarged view of a portion a of fig. 2.

Fig. 4 is a schematic view of the internal structure of the base.

Fig. 5 is a schematic diagram of the bottom structure of the custom package host.

Fig. 6 is a partial schematic diagram of the interior of a custom package host.

Fig. 7 is an enlarged view of a portion B of fig. 6.

Fig. 8 is a schematic diagram of an open state of a top plate of a conventional bag host.

Fig. 9 is a bottom schematic view of the top plate.

Fig. 10 is an exploded view of the top panel.

Fig. 11 is a schematic view of the toggle lever in a removed state.

FIG. 12 is a schematic illustration of the pre-open locking assembly of the tap lever.

Fig. 13 is a schematic view of the assembly of the lock cylinder block with the top plate.

Fig. 14 is a partial schematic view of a housing end corner.

Fig. 15 is a schematic view of an elastic supporting structure inside a conventional bag host.

Fig. 16 is an enlarged view of a portion C of fig. 15.

Fig. 17 is a schematic diagram of a state of taking out a twisted egg from the inside of a habit packet host.

Fig. 18 is a schematic view of a custom bag with a doll placed inside the main body.

Fig. 19 is a schematic structural view of the jam.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the 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", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise", 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 device or element referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, unless otherwise specified, the meaning of "a plurality" is two or more, unless otherwise clearly defined.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present utility model, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

As shown in fig. 1 to 18, the present embodiment relates to a habit formation toy including a base 1 and a habit bag host 2 detachably connected to the upper side of the base 1.

The base 1 is internally provided with a driving device 3, a recognition device 4 for recognizing the habit packet host 2, and a sensing device 5 for sensing printing paper. As shown in fig. 4, the driving device 3 in the base 1 includes a driving motor 31, and a gear assembly 32 connected to an output end of the driving motor 31. The tail end of the gear assembly 32 is provided with two mutually meshed output gears 33, the output end of the driving motor 31 drives the gear assembly 32, and the two output gears 33 at the tail end of the gear assembly 32 are mutually meshed, so that the rotation directions are opposite in the rotation process. The two output gears 33 are respectively provided with a rotating part 34, and at least the output end of the rotating part 34 is exposed on the surface of the base 1 and is used for transmitting power to the paper outlet device inside the habit packet host 2 when the habit packet host 2 is connected to the base 1. As shown in the drawings, the rotating member 34 is a rotating sleeve movably fitted on the base 1.

The identification device 4 may be any existing and mature identification scheme, and reference may be made to the identification scheme described in the chinese patent application with publication number CN113160628A, or it may be a technology for communicating with a passive RFI D transponder and/or with an active RFI D transponder.

As shown in fig. 2 and 3, the base 1 is provided with an induction seat 11 protruding outwards, the induction device 5 comprises a transmitting end 51 and a receiving end 52 which are arranged on the induction seat 11, the transmitting end 51 faces the receiving end 52, and an induction channel 53 is arranged between the transmitting end 51 and the receiving end 52. In a specific embodiment, the induction seat 11 is disposed on the upper end surface of the base 1, the induction seat 11 is configured as a U-shaped seat with an upward opening, and the transmitting end 51 and the receiving end 52 of the induction device 5 are respectively disposed in two U-shaped arms of the U-shaped seat, and an induction channel 53 is formed in the U-shaped opening of the U-shaped seat.

As shown in fig. 1 to 6, the habit packet host 2 includes a housing 21, and a paper output device provided inside the housing 21, and an identification part 22 for characterizing the subject matter of the habit packet host 2. The identification component 22 is adapted to the identification device 4 on the base 1, and existing identification technology can be adopted. When the habit packet host 2 is placed on the base 1, the recognition device 4 obtains the identification information of the identification component 22.

As shown in fig. 2 and 6, the side wall of the housing 21 is provided with a paper outlet 24, the paper outlet device includes two output wheels 231 that roll with each other, the two output wheels 231 are respectively disposed inside the housing 21 at two sides of the paper outlet 24, the two output wheels 231 are connected with a transmission member 25 with an input end exposed from the housing 21 and used for connecting the rotation member 34, specifically, the transmission member 25 is a rotating seat rotatably disposed in the housing 21, the output wheels 231 are disposed on the rotating seat, and a connection shaft 251 extending out of the outer wall of the housing 21 is formed on the rotating seat. When the habit bag is connected to the base 1, the connecting shaft 251 is inserted into the rotating sleeve to realize circumferential linkage. In this scheme, drive arrangement 3 drives two rotary part 34 and rotates, and when habit package host computer 2 is connected on base 1, the drive unit 25 input on the output wheel 231 realizes pegging graft with the output of the rotary part 34 of drive arrangement 3, and then realizes both circumference linkage, and the inside drive arrangement 3 of base 1 can drive habit package host computer 2 inside output wheel 231 and rotate. The two output wheels 231 in this embodiment roll mutually means that the two output wheels 231 rotate in a mutually fitting manner and in opposite directions. Here, the two output wheels 231 are located at two sides of the paper outlet 24, and the paper jam passes between the two output wheels 231, so that power is provided for paper jam and paper output based on the action of the two output wheels 231, and paper jam and paper output are realized.

In addition, a paper roll bin 26 for placing paper rolls is arranged inside the shell 21, and a guide plate 27 is arranged between the paper roll bin 26 and the paper outlet channel. The paper jam roll is intended to be placed inside the roll magazine 26, and the paper jam is guided into the paper exit channel via the guide plate 27.

As shown in fig. 5, the lower end surface of the housing 21 is provided with a flange 28 extending downward along the edge thereof, and the lower end of the flange 28 extends at least to be not higher than the lower end portion of the connecting shaft 251. The lower end of the flange 28 at the edge of the lower end surface of the shell 21 is lower than or equal to the lower end of the connecting shaft 251, i.e. the connecting shaft 251 is wrapped in the surrounding area, so that the conventional bag host machine 2 can be directly placed on a plane without being unable to be placed due to the arrangement of the connecting shaft 251. Of course, the flange 28 may also partially cover the upper edge of the base 1, so as to perform a certain positioning function when the conventional bag main machine 2 is mounted on the base 1.

The habit formation toy comprises a base 1 and a habit packet host 2, wherein the habit packet host 2 is detachably connected to the base 1, a driving device 3 and a recognition device 4 are arranged inside the base 1, and a paper outlet device and a identification component 22 are arranged inside a shell 21 of the habit packet host 2. Thus, the base 1 with high cost can be reused, and the habit package host 2 can be replaced. In actual use, the habit package host 2 is used as a selection part, so that parents can select and match corresponding habit packages according to habits of children, and information represented by the habit package host 2 is identified and acquired by the identification device 4.

When in use, the habit package host 2 is placed on the base 1, the identification device 4 on the base 1 obtains the identification information of the identification component 22, so that the base 1 can identify the related content of the assembled habit package host 2, such as the corresponding habit, the equipped audio and video information, the story content and the like. The driving device 3 on the base 1 is in driving connection with the paper discharging device, and after the card is punched, a key on the base 1 can be operated to trigger the driving device 3, so that the driving device 3 drives the paper discharging device to discharge the card punching paper.

Based on the structure and the playing method, the habit formation toy adopts a way of punching cards and outputting paper to cultivate habit formation of children, the children can obtain card punching cards after punching cards each time, the game participation is stronger, and the children are more willing to participate.

In a further scheme, the paper jam can be used as rewarding feedback after each habit is completed, and a network identification code recording electronic content or website can be printed on the paper jam in the paper outlet device, wherein the common expression mode of the network identification code is a two-dimensional code. After the card paper is printed, a parent can directly obtain the electronic content or open a webpage corresponding to the electronic content through scanning the code through a mobile phone, and the electronic content can be an audio/video, a story or a virtual game prop.

Further, in the above scheme, the habit packet host 2 is detachably connected to the base 1, so that the habit packet host 2 can be directly replaced under the condition that the paper is jammed inside the habit packet host 2, thereby facilitating the replacement of users. On the basis, the scheme requires that the paper jam can be accurately arranged between the transmitting end 51 and the receiving end 52 of the sensing device 5, and if the paper jam is exposed and arranged between the transmitting end 51 and the receiving end 52, the habit package host machine 2 is required to be accurately aligned with the base 1, and the error range is small. If the paper jam is pressed against the transmitting end 51 or the receiving end 52 due to a large error, or the paper jam is extruded in the storage and transportation processes, the paper jam is wrinkled, and the normal paper output of the paper jam is affected. In order to solve this technical problem, as shown in fig. 5, a first cavity 211 for embedding the transmitting end 51 and a second cavity 212 for embedding the receiving end 52 are concavely formed on the housing 21. The first chamber 211 and the second chamber 212 are separated by a partition beam 213 which can be embedded into the sensing channel 53, a paper outlet channel 214 is constructed in the partition beam 213, and corresponding sensing holes 215 are arranged on the first chamber 211 and the second chamber 212 at two sides of the paper outlet channel 214. The paper output device conveys the output path of the jam to the paper output port 24 through the paper output path 214. In a specific embodiment, the first chamber 211 and the second chamber 212 are formed on the lower end surface of the housing 21. When the habit package host 2 is placed on the upper end of the base 1, the transmitting end 51 and the receiving end 52 on the induction seat 11 are respectively embedded into the first chamber 211 and the second chamber 212.

In the above technical scheme, the sensing device 5 arranged on the base 1 is used for identifying and controlling the number of single paper output of the paper jam. Specifically, the conveyance path of the jam passes between the transmitting end 51 and the receiving end 52 of the sensing device 5, and the number of sheets discharged from the jam is determined based on whether the receiving end 52 can receive the signal from the transmitting end 51. As described above, the base 1 is relatively costly but reusable, so that the sensing device 5 is also provided on the base 1 in this embodiment, and thus, there is no need to provide one sensing device 5 on each of the habit packages 2.

In this scheme, a first chamber 211 and a second chamber 212 are concavely formed on a housing 21, a partition beam 213 is formed between the first chamber 211 and the second chamber 212, and a paper outlet channel 214 through which paper jam passes is formed in the partition beam 213. So, the paper beating and jamming in this scheme is protected by the partition beam 213, and the transmitting end 51 and the receiving end 52 of the sensing device 5 need stretch into the first chamber 211 and the second chamber 212, and the sensing signal is sensed through the sensing hole 215, so that the paper beating and jamming in the main machine 2 is not extruded in the process of assembling, storing or transporting the main machine, and the paper beating and jamming after the assembly is completed can be ensured to be smoothly discharged.

As shown in fig. 19, the paper discharge device discharges a plurality of sequentially connected paper jams 100, a tear line 101 is provided between two adjacent paper jams 100, and an opening 102 is provided between two adjacent paper jams 100 at the position of the tear line 101. The tearing line 101 is beneficial for the child to tear off the paper jam 100 after the paper is discharged; the opening 102 between the two paper jams 100 is used for identifying by the sensing device 5, specifically, when the paper jams 100 are located between the transmitting end 51 and the receiving end 52, the signal of the transmitting end 51 is blocked by the paper jams 100 and cannot be received by the receiving end 52; when the opening 102 is located between the transmitting end 51 and the receiving end 52, the transmitting end 51 transmits a signal that can be received by the receiving end 52 through the opening 102. Based on this, the number of single-output jam cards 100 is controlled.

As shown in fig. 1,2 and 8, a shell cavity 210 is formed inside the shell 21, and a twisted egg 6 is placed inside the shell cavity 210. The shell 21 above the shell cavity 210 is detachably or movably connected with a top plate 29, a locking assembly 71 is arranged in the top plate 29, and a lock tongue of the locking assembly 71 can be clamped in a lock groove of the shell 21, so that the top plate 29 is connected to the shell 21. In this embodiment, the twisted eggs 6 are placed in the housing cavity 210 inside the housing 21, the upper top plate 29 is fixedly connected to the housing 21 by the locking assembly 71, and the locking assembly 71 needs to be unlocked to open the top plate 29 in order to obtain the twisted eggs 6 inside. The twisted egg 6 can be used as the final reward of the whole habit training process, so that children are motivated to strive to complete the whole card punching process, and the habit training process of the children is facilitated.

Further, a transparent window or hollowed-out window 219 is formed on one side of the housing 21, and the transparent window or hollowed-out window can be observed inside the housing cavity 210. The lower end of the egg 6 is movably positioned on the bottom surface of the housing 210. The upper end of the shell 21 is provided with a twisting component 8, and the twisting component 8 comprises a poking block 82 which is arranged in the shell cavity 210 and is pressed against the upper end of the twisted egg 6, and a poking rod 81 which is arranged outside the shell 21. The lower end of the toggle rod 81 passes through the top plate 29 of the shell 21 and is connected with the toggle block 82, and the toggle rod 81 and the toggle block 82 connected therewith are movably connected with the top plate 29. The interior of the housing 21 of the toy is provided with a housing cavity 210 for placing the eggs 6, and the eggs 6 in the housing cavity 210 can be observed through a transparent window or a hollowed-out window 219 before the children obtain the eggs 6. In this process, the child can operate the toggle rod 81 at the upper end of the housing 21, and the toggle rod 81 drives the toggle block 82 inside the housing 21 to act on the egg 6 during twisting relative to the top plate 29, so that the egg 6 swings along the lower end thereof. In this process, children produce the interdynamic with the torsion egg 6 through stirring the subassembly to can strengthen the attraction of torsion egg 6 to children in this in-process, promote children's power of training habit.

As shown in fig. 9, the poking surface of the poking block 82, which abuts against the twisted egg 6, is constructed as a cambered surface 821 adapted to the outer contour of the twisted egg 6. In this scheme, the cambered surface 821 at the inner end of the stirring block 82 can be matched with the outer contour of the twisted egg 6, so that the stirring amplitude of the twisted egg 6 can be controlled easily.

As shown in fig. 10 and 11, a through hole 290 is formed in the middle of the top plate 29, a movable seat 83 is embedded in the through hole 290, the lower end of the toggle rod 81 is detachably inserted into the upper end of the movable seat 83, and the upper end of the toggle block 82 is inserted into the lower end of the movable seat 83. In this technical scheme, the movable seat 83 is movably disposed in the through hole 290, and when the toggle rod 81 is operated, the movable seat 83 is driven, so as to drive the toggle block 82 below to move. In a specific embodiment, the top plate 29 includes an upper panel 291 and a lower panel 292 that are fixedly connected to each other, a movable cavity is formed between the upper panel 291 and the lower panel 292, the through hole 290 is formed above the movable cavity, and the movable seat 83 is disposed inside the movable cavity.

In addition, the toggle assembly further comprises an elastic reset component 84 acting on the toggle block 82, the toggle rod 81 or the movable seat 83, and the elastic reset component 84 drives the toggle block 82, the toggle rod 81 and the movable seat 83 to reset. The resilient return member 84 provides a certain resistance during operation on the one hand, thus giving a certain sense of operation during toggling. On the other hand, the elastic reset component 84 plays a role in elastic reset, and under the condition that the external force is removed, the toggle block 82, the toggle rod 81 and the movable seat 83 can be reset. Specifically, the left and right sides of the movable seat 83 are connected with a shaft lever 831, and the shaft lever 831 is positioned between the upper panel 291 and the lower panel 292. The movable seat 83 can swing along the axis of the shaft 831, and the elastic reset component 84 is a torsion spring sleeved on the shaft 831. Based on this structure, the movable seat 83 can only swing with the axis of the shaft 831 as the center, and the reset of the toggle block 82, the toggle rod 81, and the movable seat 83 is achieved by the torsion spring under the condition that the external force is removed.

As shown in fig. 11, the structure of the toggle block 82 that the upper end is inserted into the lower end of the movable seat 83 is: a connecting groove 832 is formed in the upper end portion of the movable seat 83, and a locking chute is arranged on the side wall of the connecting groove 832. A lock block 811 is constructed on the lower end portion of the toggle rod 81. After the locking piece 811 extends into the connecting groove 832, it is turned into the locking groove to connect the toggle rod 81 to the movable seat 83. The toggle rod 81 in this scheme rotates and sets up on the movable seat 83, realizes the locking or the unblock to the movable seat 83, can take down toggle rod 81 from the movable seat 83 under the unblock state, so can be with toggle rod 81 other usefulness in addition, also can reduce this interactive toy vanning of torsion egg 6, accommodation space. The lower end of the tap stem 81 may further be configured as a key member capable of unlocking the locking assembly 71. In this case, the toggle lever 81 is removed from the movable seat 83 and then used as a key, so that the locking assembly 71 is opened, and the top plate 29 is removed to obtain the egg 6 in the housing 210.

As shown in fig. 17, a positioning groove 216 is disposed on the bottom surface of the housing 210, and an arc-shaped groove or arc-shaped protrusion 217 is formed at the center of the positioning groove 216. An arc-shaped protrusion 217 or an arc-shaped groove is arranged on the lower end part of the twisted egg 6. The lower end of the twisted egg 6 is embedded in the positioning groove 216, and the arc-shaped protrusion 217 is embedded in the arc-shaped groove. In this technical scheme, setting up of constant head tank 216 can make the lower tip embedding of torsion egg 6 wherein, and inside arc protruding 217 embedding arc recess is inside then realizes that torsion egg 6 is fixed a position for shell cavity 210 center, and the torsion egg 6 will not be toppled over under the condition of twisting of so little range to can make torsion egg 6 reset under the condition of stirring piece 82 reset.

Further, a cartoon profiling doll 61 and a positioning seat 62 which can be embedded in the positioning groove 216 are also arranged in the torsion egg 6. The lower end of the cartoon copying doll 61 is detachably inserted on the positioning seat 62. In this arrangement, the cartoon contoured doll 61 is available when the child obtains and opens the twisting egg 6, and the cartoon contoured doll 61 is placed inside the cavity 210 of the housing 21 by the positioning seat 62.

As shown in fig. 15, the housing 21 has an elastic member mounted therein. The output end of the spring assembly rests against the locking assembly 71. When the locking assembly 71 is unlocked, the elastic assembly can jack up the locking assembly 71 and the top plate 29. The top plate 29 in this embodiment is mounted above the housing 21, and may be connected to the housing 21 but movably connected to the housing 21, or may be detachably connected to the housing 21. The top plate 29 can be locked to the housing 21 based on a locking assembly 71 mounted therein. On the basis of this, the present solution provides an elastic assembly inside the housing 21, the output end of which rests against the locking assembly 71 or the top plate 29. Thus, after unlocking, the elastic assembly lifts the top plate 29, which can raise the top plate 29 at least partially relative to the housing 21, so that a child can easily open or remove the top plate 29 to obtain the articles inside the housing 21.

In a specific embodiment, the locking assembly 71 is disposed at an end corner of the top plate 29, and an edge or lower end of the top plate 29 opposite to where the locking assembly 71 is disposed is further provided with a latch capable of plugging onto the housing 21. After the latch is inserted into the housing 21, the locking assembly 71 can lock the top plate 29 to the upper end of the housing 21. In this solution, the top plate 29 is inserted into the housing 21 through a latch so as to achieve preliminary connection with the housing 21, and then the top plate 29 is locked with the housing 21 through the locking component 71. In the unlocked state, the end angle of the top plate 29 on the side where the locking unit 71 is provided is sprung, and the top plate 29 is released from the housing 21 by slightly applying a force to the top plate 29.

In the arrangement shown in fig. 13, the locking assembly 71 includes a lock cylinder block 711 rotatably disposed above the top plate 29, and a lock tongue block 712 disposed below the top plate 29. The lock tongue block 712 or the lock core block 711 passes through the top plate 29 and is inserted mutually to realize circumferential linkage, the output end of the elastic component props against the lower end of the lock tongue block 712, and the side wall of the lock tongue block 712 is radially provided with a protruding tongue 713 in a protruding way. The housing 21 includes a stopper 201 disposed circumferentially outward around a lock tongue block 712, and the stopper 201 is provided with an unlocking hole 202 adapted to a tongue 713 of the lock tongue block 712. The resilient member can lift the locking member 71 and the top plate 29 only when the tab 713 is axially opposite the unlocking hole 202. Based on the above-mentioned scheme, when the locking assembly 71 locks the top plate 29 with the housing 21, the protruding tongue 713 on the locking tongue block 712 is circumferentially staggered from the unlocking hole 202, i.e. not in the same axial direction, so when the protruding tongue 713 is limited below the stop 201, the stop 201 cooperates with the protruding tongue 713 to lock the top plate 29 with the housing 21, and at this time, the elastic assembly is in a compressed state. When the lock cylinder block 711 drives the lock tongue block 712 to rotate so that the protruding tongue 713 is axially opposite to the unlocking hole 202, the elastic component can jack up the locking component 71 and the top plate 29. Tab 713 moves from unlocking hole 202 over stop 201 and top plate 29 is unlocked from housing 21.

Further, a groove 295 is provided on the upper end surface of the top plate 29, and a limit stop 296 is provided inside the groove 295. The lock cylinder block 711 is constructed with a limit groove 7110 adapted to the limit stop 296. When the lock cylinder block 711 is embedded in the groove 295, the limit stop 296 is clamped into the limit groove 7110, and the limit stop 296 is used for limiting the circumferential rotation range of the lock cylinder block 711. In this embodiment, the lock core block 711 is embedded in the groove 295, and the surface of the lock core block 711 preferably does not or slightly exceed the upper end surface of the top plate 29, so as to ensure the flatness of the top surface of the toy. The limit stop 296 inside the groove 295 then mates with the limit groove 7110 on the lock cylinder block 711, thereby defining the range of rotation of the lock cylinder block 711.

As shown in fig. 14, the housing 21 further includes a latch compartment 715 at the center of the stopper 201, and the latch block 712 is disposed inside the latch compartment 715. The bolt block 712 is received by the bolt housing 715, thereby normalizing the installation position and range of motion of the bolt block 712. A locking position protrusion 716 and an unlocking position protrusion 717 are formed on the side wall of the lock tongue bin 715, and the unlocking position protrusion 717 axially corresponds to the unlocking hole 202. The outer end of the protruding tongue 713 of the locking tongue block 712 is provided with a positioning groove 718, and the positioning groove 718 on the locking tongue block 712 is blocked into the locking position protrusion 716 or the unlocking position protrusion 717, so that the locking assembly 71 is in a locked state or an unlocked state. In this scheme, the setting of locking position protruding 716 and unlocking position protruding 717 can give the position feedback of children in unlocking or locking process on the one hand, when rotating lock core piece 711 in place, there is the dynamics feedback when locking position protruding 716 or unlocking position protruding 717 card is in the positioning groove 718 to let children know that has rotated in place. On the other hand, in the locked state or the unlocked state, the lock cylinder block 711 can be prevented from being rocked to cause the position to be not corresponding because the lock position protrusion 716 or the unlock position protrusion 717 is caught in the positioning groove 718.

As shown in fig. 16, the elastic component includes a supporting member 721 slidably disposed in the housing 21, and a supporting spring (not shown) sleeved on the supporting member 721. The upper end of the abutment 721 abuts against the latch block 712. The spring force of the leg spring is transferred to bolt block 712 through leg 721. Further, a chute 719 is formed on the side wall of the lock tongue chamber 715, and the upper end of the supporting member 721 is embedded in the chute 719. The sliding groove 719 in this embodiment is disposed up and down, and the upper end portion of the supporting member 721 is embedded in the sliding groove 719, so that the supporting member 721 is limited to be able to move up and down only along the sliding groove 719, thereby limiting the elastic supporting direction of the elastic assembly. The casing 21 below the locking assembly 71 is internally provided with a socket 710, the lower end of the supporting member 721 is arranged on the socket 710, the supporting spring is arranged in the socket 710, and the upper end of the supporting spring is supported on the supporting member 721. This scheme includes two schemes that the socket 710 is sleeved outside the lower end of the supporting member 721, and the lower end of the supporting member 721 is sleeved on the socket 710.

In combination with the above structure, the habit formation toy aims to develop children habits such as reading, eating, washing, etc. in a game opening mode. Before use, parents need to select and match the corresponding habit package host machine 2, and different habit package hosts 2 correspond to different habit punching cards. In the use process, firstly, the habit package host 2 is installed on the base 1, the base 1 is started, a child completes a corresponding habit task, a card punching button on the base 1 is pressed, a sound is emitted on the base 1, the sound corresponds to the doll shape in the capsule, a card punching paper 100 is sent out, a two-dimensional code on the card punching paper 100 is scanned to enter a small program, a game prop can be obtained, a poking rod 81 can be pulled out as a key after 21 days of card punching, the locking component 71 is unlocked to open the top plate 29 and take out the twisted egg 6, the twisted egg 6 is opened to obtain a pet doll, and the pet doll can be contained and placed in a shell cavity 210 of the habit package host 2.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present utility model have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the utility model, and that variations, modifications, alternatives, and variations may be made in the above embodiments by those skilled in the art without departing from the spirit and principles of the utility model.

Claims (13)

1. A habit-forming toy comprises a base (1) and a habit-forming package host (2) detachably connected to the upper side of the base (1); the method is characterized in that: a driving device (3) and an identification device (4) for identifying the habit packet host (2) are arranged in the base (1); the habit packet host (2) comprises a shell (21) with a paper outlet (24) formed in the side wall, a paper outlet device arranged in the shell (21), and an identification component (22) for representing the theme content of the habit packet host (2); when the habit packet host (2) is placed on the base (1), the driving device (3) is in driving connection with the paper outlet device, and the identification device (4) acquires the identification information of the identification component (22).

2. A habit formation toy according to claim 1, characterised in that: a network identification code recording electronic content or a website is printed on a paper jam (100) in the paper output device.

3. A habit formation toy according to claim 1, characterised in that: the induction device (5) is arranged on the base (1), the induction device (5) comprises a transmitting end (51) and a receiving end (52), the transmitting end (51) faces the receiving end (52), and an induction channel (53) is formed between the transmitting end (51) and the receiving end (52); a partition beam (213) which can be embedded into the induction channel (53) is constructed on the shell (21), and a paper outlet channel (214) is constructed in the partition beam (213); the paper output device conveys an output path of a jam (100) to a paper output port (24) through the paper output channel (214).

4. A habit formation toy according to claim 3, characterised in that:

the base (1) protrudes outwards to form an induction seat (11), and a transmitting end (51) and a receiving end (52) of the induction device (5) are formed on the induction seat (11); a first cavity (211) for embedding the transmitting end (51) and a second cavity (212) for embedding the receiving end (52) are formed in the housing (21) in a concave manner; the first chamber (211) and the second chamber (212) are separated by a partition beam (213).

5. A habit formation toy according to claim 1, characterised in that: the paper outlet device comprises two output wheels (231) which are mutually rolled, and the two output wheels (231) are respectively arranged in the shell (21) at two sides of the paper outlet (24); a paper roll bin (26) for placing paper rolls is further arranged in the shell (21), and a guide plate (27) is arranged between the paper roll bin (26) and the paper outlet channel (214).

6. A habit formation toy according to claim 5, wherein: the driving device (3) comprises two rotating parts (34) at least the output ends of which are exposed on the surface of the base (1); the two output wheels (231) are connected with a transmission part (25) with input ends exposed out of the shell (21) and used for connecting a rotating part (34); when the punching bag is connected to the base (1), the rotating part (34) is in circumferential linkage with the transmission part (25);

the rotary part (34) is a rotary sleeve movably embedded on the base (1), the transmission part (25) is a rotary seat rotatably arranged in the shell (21), the output wheel (231) is arranged on the rotary seat, and a connecting shaft (251) extending out of the outer wall of the shell (21) is formed on the rotary seat; when the punching bag is connected to the base (1), the connecting shaft (251) is inserted in the rotary sleeve to realize circumferential linkage.

7. A habit formation toy according to claim 1, characterised in that: a shell cavity (210) is formed in the shell (21), and a twisted egg (6) is placed in the shell cavity (210); a top plate (29) is detachably or movably connected to the shell (21) above the shell cavity (210), a locking assembly (71) is arranged in the top plate (29), and a lock tongue of the locking assembly (71) can be clamped in a lock groove of the shell (21), so that the top plate (29) is connected to the shell (21).

8. A habit formation toy according to claim 7, wherein: a transparent window or a hollowed-out window (219) capable of observing the inside of the shell cavity (210) is formed on one side of the shell (21); the lower end part of the twisting egg (6) is movably positioned on the bottom surface of the shell cavity (210); the upper end of the shell (21) is provided with a twisting assembly (8), and the twisting assembly (8) comprises a poking block (82) which is arranged in the shell cavity (210) and is pressed against the upper end of the twisted egg (6), and a poking rod (81) which is arranged outside the shell (21); the lower end part of the poking rod (81) penetrates through the top plate (29) of the shell (21) and is connected with the poking block (82), and the poking rod (81) and the poking block (82) connected with the poking rod are movably connected with the top plate (29).

9. A habit formation toy according to claim 8, wherein:

the middle part of the top plate (29) is provided with a through hole (290), a movable seat (83) is embedded in the through hole (290), the lower end of the toggle rod (81) is detachably inserted into the upper end part of the movable seat (83), and the upper end of the toggle block (82) is inserted into the lower end part of the movable seat (83); the top plate (29) comprises an upper panel (291) and a lower panel (292) which are connected and fixed with each other, a movable cavity is constructed between the upper panel (291) and the lower panel (292), and a through hole (290) is constructed above the movable cavity; the movable seat (83) is arranged in the movable cavity; the left side and the right side of the movable seat (83) are connected with shaft rods (831), the shaft rods (831) are positioned between the upper panel (291) and the lower panel (292), and the movable seat (83) can swing along the axis of the shaft rods (831);

the twisting component (8) further comprises an elastic reset component (84) acting on the poking block (82), the poking rod (81) or the movable seat (83), the elastic reset component (84) is a torsion spring sleeved on the shaft lever (831), and the elastic reset component (84) drives the poking block (82), the poking rod (81) and the movable seat (83) to reset.

10. A habit formation toy according to claim 8, wherein: the lower end of the poking rod (81) is detachably inserted, and the lower end of the poking rod (81) is constructed as a key component capable of unlocking the locking assembly (71); an elastic component is arranged in the shell (21); the output end of the elastic component is propped against the locking component (71); when the locking component (71) is unlocked, the elastic component can jack up the locking component (71) and the top plate (29).

11. A habit formation toy according to claim 10, characterised in that:

the locking component (71) is arranged at the end corner of the top plate (29), and a clamping tongue which can be inserted into the shell (21) is arranged at the edge or the lower end of the top plate (29) opposite to the arrangement position of the locking component (71); after the clamping tongue is inserted into the shell (21), the locking assembly (71) can lock the top plate (29) at the upper end of the shell (21); the locking assembly (71) comprises a lock cylinder block (711) rotatably arranged above the top plate (29), and a lock tongue block (712) arranged below the top plate (29); the lock tongue block (712) or the lock core block (711) is inserted into the top plate (29) to realize circumferential linkage, the output end of the elastic component props against the lower end of the lock tongue block (712), and the side wall of the lock tongue block (712) is provided with a protruding tongue (713) in a radial protruding way; the shell (21) comprises a stop block (201) arranged around the periphery of the lock tongue block (712), and an unlocking hole (202) matched with a convex tongue (713) on the lock tongue block (712) is formed in the stop block (201); the elastic assembly can jack up the locking assembly (71) and the top plate (29) only when the protruding tongue (713) is axially opposite to the unlocking hole (202);

A groove (295) is formed in the upper end face of the top plate (29), and a limit stop (296) is arranged in the groove (295); a limit groove (7110) matched with the limit stop (296) is formed in the lock cylinder block (711); when the lock cylinder block (711) is embedded in the groove (295), the limit stop (296) is clamped into the limit groove (7110), and the limit stop (296) is used for limiting the circumferential rotation range of the lock cylinder block (711);

the shell (21) further comprises a lock tongue bin (715) positioned at the center of the stop block (201), and the lock tongue block (712) is positioned inside the lock tongue bin (715); a locking position protrusion (716) and an unlocking position protrusion (717) are formed on the side wall of the lock tongue bin (715), and the unlocking position protrusion (717) axially corresponds to the unlocking hole (202); a positioning groove (718) is formed in the outer end portion of a protruding tongue (713) of the lock tongue block (712), and the positioning groove (718) on the lock tongue block (712) is clamped into a locking position protrusion (716) or an unlocking position protrusion (717) to enable the locking assembly (71) to be in a locking state or an unlocking state.

12. A habit formation toy according to claim 11, characterised in that:

the elastic component comprises a supporting piece (721) which is arranged in the shell (21) in a sliding way up and down manner, and a supporting spring which is sleeved on the supporting piece (721); the upper end part of the supporting piece (721) is supported on the lock tongue block (712); a chute (719) which is arranged up and down is formed on the side wall of the lock tongue bin (715), and the upper end part of the supporting piece (721) is embedded into the chute (719); a socket joint part (710) is built in the shell (21) below the locking component (71), the lower end part of the supporting piece (721) is arranged on the socket joint part (710), the supporting spring is arranged in the socket joint part (710), and the upper end part of the supporting spring is supported on the supporting piece (721).

13. A habit formation toy according to claim 9, characterised in that:

the stirring surface of the stirring block (82) which is propped against the twisted egg (6) is constructed into an arc surface (821) which is matched with the outer contour of the twisted egg (6);

a connecting groove (832) is formed in the upper end part of the movable seat (83), and a locking chute (719) is arranged on the side wall of the connecting groove (832); a lock block (811) is constructed on the lower end part of the toggle rod (81); after the locking block (811) stretches into the connecting groove (832), the locking block is rotated into the locking chute (719) to connect the toggle rod (81) to the movable seat (83); a positioning groove (216) is formed in the bottom surface of the shell cavity (210), and an arc-shaped groove (295) or an arc-shaped protrusion (217) is formed in the center of the positioning groove (216); an arc-shaped bulge (217) or an arc-shaped groove (295) is arranged at the lower end part of the twisted egg (6); the lower end part of the torsion egg (6) is embedded in the positioning groove (216), and the arc-shaped bulge (217) is embedded in the arc-shaped groove (295); the interior of the twisted egg (6) is also provided with a cartoon profiling doll (61) and a positioning seat (62) which can be embedded in the positioning groove (216); the lower end part of the cartoon profiling doll (61) is detachably inserted on the positioning seat (62).