CN219440665U - Tower-shaped toy device - Google Patents

Abstract

The utility model relates to a tower-shaped toy device, which comprises a first base unit, a second base unit, a top cover unit, a supporting unit, a sealing unit, a pushing unit, an ejection unit and a frame unit, wherein the frame unit is arranged above the first base unit and the second base unit; the sealing unit is arranged above the top cover unit, and the ejection unit is connected with the frame unit; the pushing unit is connected with the sealing unit. The toy has the advantages that the problem that part of toys cannot play an educational role is solved by arranging a small gift inside the frame unit and arranging a problem mode outside the frame unit; the frame unit is connected with the ejection unit, and the pushing unit is connected with the sealing unit, so that the interlinked lock arrangement is realized, the exploring interest of infants is stimulated, and the problem that part of teaching aids cannot be continuously used due to the simple structure is solved; in addition, a plurality of frame units are arranged on each base unit, so that a plurality of infants can cooperate together, and the problem that part of teaching aids cannot learn interactively is solved.

Description

Tower-shaped toy device

Technical Field

The utility model relates to the technical field of teaching toys, in particular to a tower-shaped toy device.

Background

The toy device breaks through the limitations of the prior teaching toy, and realizes four breakthroughs.

Breaks through the school, and the product structure is suitable for children in all ages of infants and teenagers.

The limit of the number of people is broken through, the product can simultaneously meet the requirement of thirty infants for simultaneous games, and the possibility is provided for realizing education fairness and education resource optimal allocation.

The product can iterate the content continuously on the basis of breaking through the rules, and becomes a accompany and teaching toy which can grow together according to the self of the learner.

Breaking through the closed playing method.

At present, effective solutions have not been proposed for solving the problems that part of toys in the related art cannot play an educational role, part of toys cannot be used continuously, part of toys cannot perform interactive learning and the like.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provide a tower-shaped toy device so as to solve the problems that part of toys cannot play an educational role, part of teaching toys cannot be continuously used, part of teaching toys cannot perform interactive learning and the like in the related art.

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

a tower toy device comprising:

A first base unit disposed at a horizontal plane;

the second base unit is arranged above the first base unit;

a top cover unit disposed above the second base unit;

the plurality of support units are respectively arranged between the first base unit and the second base unit and between the second base unit and the top cover unit and used for supporting the second base unit and the top cover unit;

the sealing unit is arranged above the top cover unit, is detachably connected with the top cover unit and is used for sealing the top cover unit;

the pushing unit is arranged in the top cover unit, is detachably connected with the top cover unit and the sealing unit and is used for controlling the sealing unit to move;

the ejection units are arranged in the corresponding supporting units and are detachably connected with the first base unit, the second base unit, the top cover unit and the pushing unit;

the first frame units are arranged above the first base unit and are detachably connected with the first base unit and the ejection unit respectively, and are used for accommodating toys;

The second frame units are arranged above the second base units and are detachably connected with the second base units and the ejection units respectively for accommodating toys.

In some of these embodiments, the first base unit comprises:

the first base element is arranged on the horizontal plane, and the upper surface of the first base element is respectively connected with the lower end of the supporting unit and the lower end of the ejection unit;

the plurality of first sliding elements are arranged on the upper surface of the first base element in a surrounding mode and are detachably connected with the corresponding first frame units.

In some of these embodiments, the second base unit comprises:

the second base element is arranged above the first base unit, the upper surface of the second base element is respectively connected with the lower end of one supporting unit and the lower end of one ejection unit, and the lower surface of the second base element is connected with the top end of the other supporting unit and the top end of the other ejection unit;

the second sliding elements are arranged on the upper surface of the second base element in a surrounding mode, penetrate through the upper surface of the second base element and are detachably connected with the corresponding second frame units;

The plurality of third sliding elements are arranged in the second base element in a surrounding mode and are detachably connected with the corresponding second frame units;

the first limiting element is arranged in the center of the second base element, penetrates through the lower surface of the second base element, is detachably connected with the corresponding second frame unit and is used for limiting the second frame unit to move;

the first through hole element is arranged in the center of the second base element, penetrates through the lower surface of the second base element and is connected with the top end of the ejection unit positioned on the first base unit.

In some of these embodiments, the cover unit comprises:

the third base element is arranged above the second base unit, and the lower surface of the third base element is connected with the top end of one supporting unit and the top end of one ejection unit;

the second through hole element is arranged in the center of the inside of the third base element, penetrates through the lower surface of the third base element and is connected with the top end of the ejection unit positioned on the second base unit;

The box element is arranged on the upper surface of the third base element and is detachably connected with the sealing unit;

the fourth sliding element is arranged inside the third base element and is detachably connected with the pushing unit;

and the fifth sliding element is arranged in the box element, penetrates through the upper surface of the third base element, and is connected with one end, far away from the center of the third base element, of the fourth sliding element at the lower end and is detachably connected with the pushing unit.

In some of these embodiments, the support unit includes:

the supporting element is arranged between the first base unit and the second base unit or between the second base unit and the top cover unit, and the corresponding ejection unit is arranged in the supporting element;

the third through hole elements are arranged at the bottom ends of the supporting elements in a surrounding mode and used for communicating the ejection unit with the first frame unit or communicating the ejection unit with the second frame unit.

In some of these embodiments, the sealing unit comprises:

The sealing element is arranged above the top cover unit and is detachably connected with the top cover unit;

the first connecting element is arranged at the end part of the sealing element, is detachably connected with the pushing unit and the top cover unit respectively, and is used for connecting the sealing element, the top cover unit and the pushing unit.

In some of these embodiments, the pushing unit includes:

the first pushing element is horizontally arranged in the top cover unit and is detachably connected with the top cover unit and the ejection unit respectively;

the second pushing element is vertically arranged in the top cover unit and is detachably connected with the first pushing element and the top cover unit respectively;

the second connecting element is arranged on the outer side wall of the upper part of the second pushing element and is detachably connected with the sealing unit.

In some of these embodiments, the ejection unit includes:

the first ejection element is arranged in the corresponding supporting unit and is connected with the first base unit or the second base unit;

The ejection rod element is arranged above the first ejection element and is connected with the first ejection element;

the second limiting elements are arranged at the lower ends of the ejection rod elements in a surrounding mode, and are detachably connected with the first frame units or the second frame units;

the third limiting elements are arranged on the outer surface of the ejection rod element, are connected with the supporting unit in a sliding manner and are used for limiting the ejection direction of the ejection rod element;

the second ejection element is arranged at the upper end of the ejection rod element and is detachably connected with the second frame unit or the pushing unit.

In some of these embodiments, the first frame unit comprises:

a first frame member disposed on and detachably connected to the first base unit for receiving a toy;

the first locking element is arranged on the outer surface of the lower end of the first frame element, penetrates through the supporting unit and is detachably connected with the first base unit and the corresponding ejection unit respectively.

In some of these embodiments, the second frame unit comprises:

a second frame member disposed on and detachably connected to the second base unit for receiving a toy;

the second locking element is arranged on the outer surface of the lower end of the second frame element, penetrates through the supporting unit and is detachably connected with the second base unit and the corresponding ejection unit respectively;

the third locking element is arranged on the lower surface of the second frame element and is detachably connected with the second base unit and the corresponding ejection unit respectively;

and the fourth limiting element is arranged on the lower surface of the second locking element and is detachably connected with the second base unit.

Compared with the prior art, the utility model has the following technical effects:

according to the tower-shaped toy device, the toy is combined with the frame unit and the ejection unit, the box with the same shape can be placed in the frame unit, a small gift is arranged in the frame unit, when the child finishes the questions on the surface of the box, the frame unit is drawn to obtain the small gift, and the mode of obtaining the small gift through answering is adopted, so that the problem that part of the toy cannot educate the child is solved; after the frame units on the upper surface of the first base unit are all pulled out, the ejection unit unlocks the frame units on the upper surface of the second base unit, the frame units on the upper surface of the second base unit can move, the exploring desire of children can be continuously excited through the interlinked arrangement, the problem that part of teaching aids cannot be continuously used is solved, a plurality of frame units are arranged on each base unit, the simultaneous exploring of a plurality of children can be met, the problem that part of toys cannot enable the children to interact is solved, and the device is simple in structure, low in cost and suitable for large-scale popularization and application.

Drawings

Fig. 1a is a schematic illustration (one) of a tower toy device according to an embodiment of the present utility model;

FIG. 1b is a partial exploded view (one) of a tower toy device according to an embodiment of the present utility model;

FIG. 2 is a schematic view of a first base unit according to an embodiment of the present utility model;

FIG. 3a is a schematic view of a second base unit according to an embodiment of the present utility model;

FIG. 3b is a schematic cross-sectional view of a second base unit according to an embodiment of the utility model;

FIG. 4a is a schematic view of a cover unit according to an embodiment of the present utility model;

FIG. 4b is a schematic cross-sectional view of a cover unit according to an embodiment of the utility model;

fig. 5 is a schematic view of a supporting unit according to an embodiment of the present utility model;

FIG. 6 is a schematic view of a sealing unit according to an embodiment of the utility model;

FIG. 7 is a schematic diagram of a pushing unit according to an embodiment of the utility model;

FIG. 8 is a schematic view of an ejector unit according to an embodiment of the present utility model;

FIG. 9 is a schematic view of a first frame unit according to an embodiment of the utility model;

FIG. 10 is a schematic view of a second frame unit according to an embodiment of the utility model;

fig. 11a is a schematic view (two) of a tower toy device according to an embodiment of the present utility model;

Fig. 11b is a partial exploded view (two) of a tower toy device in accordance with an embodiment of the present utility model.

Wherein the reference numerals are as follows:

110. a first base unit; 111. a first base member; 112. a first sliding element;

120. a second base unit; 121. a second base member; 122. a second sliding element; 123. a third sliding element; 124. a first limiting element; 125. a first via element;

130. a top cover unit; 131. a third base member; 132. a second through hole element; 133. a cartridge element; 134. a fourth sliding element; 135. a fifth sliding element;

140. a supporting unit; 141. a support element; 142. a third orifice member;

150. a sealing unit; 151. a sealing member; 152. a first connecting element;

160. a pushing unit; 161. a first pushing element; 162. a second pushing element; 163. a second connecting element;

170. an ejection unit; 171. a first ejection element; 172. an ejector lever element; 173. a second limiting element; 174. a third limiting element; 175. a second ejection element;

180. a first frame unit; 181. a first frame element; 182. a first locking element;

190. a second frame unit; 191. a second frame element; 192. a second locking element; 193. a third locking element; 194. and a fourth limiting element.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

The utility model is further described below with reference to the drawings and specific examples, which are not intended to be limiting.

Example 1

An exemplary embodiment of the present utility model, as shown in fig. 1a and 1b, a tower-shaped toy device includes a first base unit 110, a second base unit 120, a top cover unit 130, a plurality of support units 140, a sealing unit 150, a push unit 160, a plurality of ejection units 170, a plurality of first frame units 180, and a plurality of second frame units 190. Wherein the first base unit 110 is disposed on a horizontal plane; the second base unit 120 is disposed above the first base unit 110; the top cover unit 130 is disposed above the second base unit 120; the plurality of support units 140 are respectively disposed between the first base unit 110 and the second base unit 120, and between the second base unit 120 and the top cover unit 130, for supporting the second base unit 120 and the top cover unit 130; the sealing unit 150 is disposed above the top cover unit 130 and detachably connected to the top cover unit 130 for sealing the top cover unit 130; the pushing unit 160 is disposed inside the top cover unit 130, and detachably connected to the top cover unit 130 and the sealing unit 150, for controlling the sealing unit 150 to move; the plurality of ejection units 170 are disposed inside the corresponding support units 140 and detachably connected with the first base unit 110, the second base unit 120, the top cover unit 130, and the pushing unit 160; a plurality of first frame units 180 are disposed above the first base unit 110 and detachably connected with the first base unit 110 and the ejection unit 170, respectively, for accommodating toys; a plurality of second frame units 190 are disposed above the second base unit 120 and detachably connected to the second base unit 120 and the ejection unit 170, respectively, for accommodating toys.

Wherein a supporting unit 140 is disposed between the first base unit 110 and the second base unit 120, and a supporting unit 140 is disposed between the second base unit 120 and the top cover unit 130; an ejector unit 170 is disposed inside each supporting unit 140; the pushing unit 160 is detachably connected with the ejection unit 170 located in the second base unit 120; the first frame unit 180 is detachably connected to the ejector unit 170 located at the first base unit 110; the second frame unit 190 is detachably connected to the ejector unit 170 of the first base unit 110 and the ejector unit 170 of the second base unit 120, respectively.

As shown in fig. 2, the first base unit 110 includes a first base element 111 and a number of first slide elements 112. Wherein the first base member 111 is disposed on a horizontal plane, and an upper surface of the first base member 111 is connected to a lower end of the supporting unit 140 and a lower end of the ejection unit 170, respectively; the first sliding elements 112 are disposed around the upper surface of the first base element 111 and detachably connected to the corresponding first frame units 180.

The shape of the first base member 111 includes, but is not limited to, a prismatic table, a circular truncated cone, and the like.

In some of these embodiments, the first base element 111 is a hollow structure.

In some of these embodiments, the material of the first base member 111 includes, but is not limited to, a hard plastic or a light metal, etc., which may reduce the weight of the device while ensuring the stability of the tower structure.

One end of the plurality of first sliding elements 112 is disposed around the upper surface of the first base element 111 with the central position of the first base element 111 as the center.

Specifically, the first end of each first sliding element 112 is disposed at the central position of the first base element 111, i.e. a plurality of first sliding elements 112 are radially disposed on the upper surface of the first base element 111.

The angle between the first ends of two adjacent first sliding elements 112 is 360 °/the number of first sliding elements 112.

The number of first slide elements 112 is at least two.

In some of these embodiments, the number of first frame units 180 provided to the first base member 111 is equal to the number of first slide members 112.

In some of these embodiments, the first slide element 112 is a slide rail.

In some of these embodiments, the shape of the first slide element 112 includes, but is not limited to, a rectangular groove, a semi-circular groove, and the like.

In some of these embodiments, the first slide element 112 is integrally formed with the first base element 111.

As shown in fig. 3a and 3b, the second base unit 120 includes a second base member 121, a plurality of second slide members 122, a plurality of third slide members 123, a plurality of first stopper members 124, and a first through hole member 125. The second base element 121 is disposed above the first base unit 110, the upper surface of the second base element 121 is connected to the lower end of the supporting unit 140 and the lower end of the ejection unit 170, respectively, the lower surface of the second base element 121 is connected to the top end of the other supporting unit 140 and the top end of the other ejection unit 170; a plurality of second sliding elements 122 are arranged around the upper surface of the second base element 121, penetrate through the upper surface of the second base element 121 and are detachably connected with the corresponding second frame units 190; a plurality of third sliding elements 123 are disposed around the inside of the second base element 121 and detachably connected to the corresponding second frame units 190; the first limiting element 124 is disposed in the center of the second base element 121, penetrates the lower surface of the second base element 121, and is detachably connected to the corresponding second frame unit 190, for limiting the movement of the second frame unit 190; the first through hole member 125 is disposed at the inner center of the second base member 121, penetrates the lower surface of the second base member 121, and is connected to the top end of the ejector unit 170 located at the first base unit 110.

Specifically, the second base element 121 is disposed above the first base element 111.

The shape of the second base member 121 includes, but is not limited to, a truncated cone, a truncated pyramid, and the like.

In some of these embodiments, the second base element 121 is a hollow structure.

In some of these embodiments, the material of the second base element 121 includes, but is not limited to, a hard plastic or a light metal, etc., which may reduce the weight of the device while ensuring the stability of the tower structure.

The connection part between the upper surface of the second base element 121 and the second sliding element 122 is in a hollow structure, and the hollow shape corresponds to the shape of the third sliding element 123.

One end of the plurality of second sliding elements 122 is disposed around the upper surface of the second base element 121 with the center of the second base element 121.

Specifically, the first end of each second sliding element 122 is disposed at the central position of the second base element 121, i.e. a plurality of second sliding elements 122 are radially disposed on the upper surface of the second base element 121.

The angle between the first ends of two adjacent second sliding elements 122 is 360 °/the number of second sliding elements 122.

The number of second slide elements 122 is at least two.

In some of these embodiments, the number of second frame units 190 provided to the second base member 121 is equal to the number of second slide members 122.

In some of these embodiments, the second slide element 122 is a slide rail.

In some of these embodiments, the shape of the second slide element 122 includes, but is not limited to, a rectangular groove, a semi-circular groove, and the like.

The third sliding element 123 is disposed directly below the second sliding element 122, i.e. the second base element 121 is seen in a plan view, and the third sliding element 123 is visible through the second sliding element 122.

The number of third sliding elements 123 is equal to the number of second sliding elements 122 and corresponds one to one.

The angle between the first ends of two adjacent third sliding elements 123 is 360 °/the number of third sliding elements 123.

In some of these embodiments, the third sliding element 123 is a sliding track.

In some of these embodiments, the shape of the third slide element 123 includes, but is not limited to, a rectangular groove, a semi-circular groove, and the like.

The first limiting element 124 is located at the central position inside the second base element 121 and is fixedly connected with the second base element 121 and the third sliding element 123.

In some of these embodiments, the first limiting element 124 is an annular structure disposed at a central location of the second base element 121.

In some of these embodiments, the shape of the first stop element 124 includes, but is not limited to, a ring, a polygon, etc.

The first through hole element 125 is disposed at the center of the lower surface of the second base element 121 and is respectively communicated with the ends of the plurality of third sliding elements 123; the first limiting member 124 is provided outside the first through hole member 125.

The upper surface of the first limiting element 124 protrudes from the upper surface of the first through hole element 125.

In some of these embodiments, the distance between the upper surface of the first spacing element 124 and the upper surface of the first through-hole element 125 is 1-3 mm.

The first through hole member 125 has a diameter larger than that of the top end of the ejector unit 170 for communicating the ejector unit 170 with the second frame unit 190.

As shown in fig. 4a and 4b, the cover unit 130 includes a third base member 131, a second through hole member 132, a box member 133, a fourth slide member 134, and a fifth slide member 135. The third base member 131 is disposed above the second base unit 120, and a lower surface of the third base member 131 is connected to a top end of the supporting unit 140 and a top end of the ejecting unit 170; the second through hole member 132 is disposed at the inner center of the third base member 131, penetrates the lower surface of the third base member 131, and is connected to the top end of the ejector unit 170 located in the second base unit 120; the box member 133 is disposed on the upper surface of the third base member 131 and detachably connected to the sealing unit 150; the fourth sliding element 134 is disposed inside the third base element 131 and detachably connected to the pushing unit 160; the fifth sliding member 135 is disposed inside the box member 133 and penetrates the upper surface of the third base member 131, and the lower end of the fifth sliding member 135 is connected to the end of the fourth sliding member 134 away from the center of the third base member 131 and is detachably connected to the pushing unit 160.

Specifically, the third base element 131 is disposed above the second base element 121.

The shape of the third base member 131 includes, but is not limited to, a truncated cone, a truncated pyramid, and the like.

In some of these embodiments, the third base element 131 is a hollow structure.

In some of these embodiments, the material of the third base member 131 includes, but is not limited to, a hard plastic or a light metal, etc., which may reduce the weight of the device while ensuring the stability of the tower structure.

In some of these embodiments, the shape of the second vent element 132 includes, but is not limited to, a circle, a polygon, and the like.

In some of these embodiments, the second through-hole element 132 has a diameter that is larger than the diameter of the top end of the ejector unit 170 for enabling the detachable connection of the ejector unit 170 and the pusher unit 160.

The box element 133 is integrally formed with the third base element 131.

In some of these embodiments, the cartridge element 133 is a cylindrical structure.

The fourth sliding member 134 is horizontally disposed inside the third base member 131.

The number of fourth slide elements 134 is at least one.

In some embodiments, the number of the fourth sliding elements 134 is a plurality, and the fourth sliding elements 134 are disposed around the second through hole element 132 and inside the third base element 131.

Specifically, one end of each fourth sliding element 134 is disposed at the inner center of the third base element 131, that is, a plurality of fourth sliding elements 134 are radially disposed inside the third base element 131.

The angle between the first ends of adjacent fourth slide elements 134 is 360 deg./the number of fourth slide elements 134.

In some of these embodiments, the number of fourth slide elements 134 is one, and the fourth slide elements 134 are annular in cross-section.

In some embodiments, if the number of the fourth sliding elements 134 is several, the cross section of the fourth sliding element 134 is rectangular.

In some of these embodiments, the fourth slide element 134 is a slide rail.

The fifth slide element 135 is fixedly connected to the fourth slide element 134.

Specifically, the bottom end of the fifth sliding element 135 is connected to the end of the fourth sliding element 134 remote from the center of the third base element 131.

In some of these embodiments, the fifth sliding element 135 is provided inside the cartridge wall of the cartridge element 133.

The number of fifth sliding members 135 is at least one.

The number of fifth sliding elements 135 is equal to the number of fourth sliding elements 134 and corresponds one to one.

In some embodiments, the number of the fifth sliding elements 135 is a plurality, and then the plurality of fifth sliding elements 135 are uniformly disposed around the inside of the cylinder wall of the box element 133 with the box element 133 as a center.

Specifically, one end of each fifth sliding element 135 is disposed on the top surface of the box element 133, that is, a plurality of fifth sliding elements 135 penetrate through the inner wall of the box element 133 and are connected to one end of the corresponding fourth sliding element 134 away from the center of the third base element 131 for connection of the pushing unit 160.

The angle between the first ends of adjacent fifth sliding elements 135 is 360 deg./the number of fifth sliding elements 135.

In some of these embodiments, the number of fifth sliding elements 135 is one, and the cross section of fifth sliding element 135 is annular.

In some embodiments, if the number of the fifth sliding elements 135 is several, the cross section of the fifth sliding element 135 is rectangular.

In some of these embodiments, the fifth sliding element 135 is a sliding track.

As shown in fig. 5, the support unit 140 includes a support member 141 and a number of third through hole members 142. Wherein the supporting element 141 is disposed between the first base unit 110 and the second base unit 120 or between the second base unit 120 and the top cover unit 130, and a corresponding ejection unit 170 is disposed inside the supporting element 141; a plurality of third through-hole members 142 are circumferentially disposed at the bottom end of the supporting member 141 for communicating with the ejector unit 170, the first frame unit 180, or the ejector unit 170 and the second frame unit 190.

Specifically, the supporting member 141 is disposed between the first base member 111 and the second base member 121, and the top end of the supporting member 141 is fixedly connected with the lower surface of the second base member 121; alternatively, the supporting member 141 is disposed between the second base member 121 and the third base member 131, and the top end of the supporting member 141 is fixedly coupled with the lower surface of the third base member 131.

In some of these embodiments, the support element 141 is a cylindrical structure.

In some of these embodiments, the inner diameter of the top end of the support element 141 is equal to or greater than the diameter of the first through-hole element 125. Wherein, in the case that the diameter of the top end of the supporting member 141 is larger than the diameter of the first through hole member 125, the supporting member 141 is fixedly connected to the central position of the lower surface of the second base member 121, i.e., the top end surface of the supporting member 141 is disposed at the periphery of the first through hole member 125; in the case where the diameter of the tip of the supporting member 141 is equal to the diameter of the first through hole member 125, the tip inner diameter edge of the supporting member 141 is the same edge as the edge of the first through hole member 125, i.e., the supporting member 141 is fixedly connected to the edge of the first through hole member 125.

In some of these embodiments, the inner diameter of the top end of the support element 141 is equal to or greater than the diameter of the second through hole element 132. Wherein, in the case that the diameter of the top end of the supporting element 141 is larger than the diameter of the second through hole element 132, the supporting element 141 is fixedly connected with the central position of the lower surface of the third base element 131, that is, the top end surface of the supporting element 141 is arranged at the periphery of the second through hole element 132; in the case that the diameter of the top end of the supporting member 141 is equal to the diameter of the second through hole member 132, the top end inner diameter edge of the supporting member 141 is the same edge as the edge of the second through hole member 132, i.e., the supporting member 141 is fixedly connected to the edge of the second through hole member 132.

In some of these embodiments, the third through-hole element 142 and the support element 141 are integrally formed.

In some of these embodiments, the shape of the third orifice element 142 includes, but is not limited to, rectangular, circular, etc.

The number of third pass through hole elements 142 is at least 2.

The angle between adjacent third through-hole elements 142 is 360 deg./the number of third through-hole elements 142.

In some of these embodiments, the third via element 142 is a via.

As shown in fig. 6, the sealing unit 150 includes a sealing member 151 and a first connection member 152. Wherein the sealing member 151 is disposed above the cap unit 130 and detachably connected with the cap unit 130; the first connection member 152 is disposed at an end of the sealing member 151 and detachably connected to the pushing unit 160 and the cap unit 130, respectively, for connecting the sealing member 151, the cap unit 130 and the pushing unit 160.

Specifically, the sealing member 151 is disposed above the case member 133 for sealing the case member 133; the first connecting member 152 is slidably connected with the fifth sliding member 135.

The sealing member 151 and the cartridge member 133 are connected in a snap-fit connection.

In some of these embodiments, the sealing element 151 is a sealing cap.

In some of these embodiments, the sealing element 151 is annular in cross-section, and the shape of the longitudinal section includes, but is not limited to, hollow conical, hollow trapezoidal, and the like.

In some of these embodiments, the sealing member 151 is the same material as the cartridge member 133.

In some of these embodiments, the first connection element 152 is a connection clasp.

The number of first connecting elements 152 is equal to the number of fifth sliding elements 135 and corresponds one to one.

In some embodiments, the number of the first connecting elements 152 is a plurality, and the plurality of first connecting elements 152 are disposed around the end of the sealing element 151 with the central position of the sealing element 151 as the center.

Specifically, the upper end of each first connecting element 152 is disposed on the end surface of the sealing element 151, i.e. a plurality of first connecting elements 152 are radially disposed on the end of the sealing element 151.

The angle between two adjacent first connecting elements 152 is 360 °/the number of first connecting elements 152.

In some of these embodiments, the number of first connecting elements 152 is one, and the first connecting elements 152 are annular in cross-section.

In some embodiments, the number of first connecting elements 152 is a number, and the cross section of the first connecting elements 152 is rectangular.

As shown in fig. 7, the pushing unit 160 includes a first pushing element 161, a second pushing element 162, and a second connecting element 163. The first pushing element 161 is horizontally disposed inside the top cover unit 130 and is detachably connected with the top cover unit 130 and the ejection unit 170, respectively; the second pushing element 162 is vertically disposed inside the top cover unit 130 and detachably connected to the first pushing element 161 and the top cover unit 130, respectively; the second connection element 163 is disposed on an upper outer sidewall of the second pushing element 162 and is detachably connected to the sealing unit 150.

Specifically, the first pushing element 161 is disposed inside the third base element 131 and is slidingly connected with the fourth sliding element 134; the second pushing element 162 is disposed inside the box element 133 and is slidably connected to the fifth sliding element 135; the second connection element 163 is detachably connected to the first connection element 152.

The first pushing element 161 is close to one end of the ejection unit 170, and the upper half part protrudes from the lower half part; the first pushing member 161 is adjacent to one end of the second pushing member 162, with the lower half protruding from the upper half.

Specifically, the longitudinal section of the first pushing member 161 is a parallelogram, which facilitates pushing the second pushing member 162, that is, when the ejector unit 170 contacts the first pushing member 161, the first pushing member 161 slides along the fourth sliding member 134 to the outside of the fourth sliding member 134, thereby pushing the second pushing member 162 to slide along the fifth sliding member 135 to the top end of the fifth sliding member 135.

In some of these embodiments, the first pushing element 161 includes, but is not limited to, a bar drive rod, a ring drive rod, or the like.

The number of the first pushing elements 161 is equal to the number of the fourth sliding elements 134 and corresponds one to one.

The first pushing member 161 is contoured to conform to the shape of the interior recess of the fourth sliding member 134 such that the first pushing member 161 can slide smoothly within the recess of the fourth sliding member 134.

The bottom end of the second pushing member 162 is detachably connected to the end of the first pushing member 161 remote from the center of the third base member 131.

Specifically, the bottom end surface of the second pushing member 162 and the end surface of the first pushing member 161 away from the center of the third base member 131 are matched, so that the first pushing member 161 can push the second pushing member 162.

In some of these embodiments, the second pushing element 162 has a height smaller than that of the fifth sliding element 135, for placing the first connecting element 152 on the corresponding fifth sliding element 135, i.e. placing the first connecting element 152 inside the cartridge element 133 wall, so that the sealing element 151 can seal the cartridge element 133.

In some of these embodiments, the second pushing element 162 includes, but is not limited to, a bar drive, an endless drive, or the like.

The number of second pushing elements 162 is equal to and corresponds to the number of fifth sliding elements 135 one by one.

The second pusher member 162 is contoured to conform to the shape of the interior recess of the fifth slider member 135 such that the second pusher member 162 can slide smoothly within the recess of the fifth slider member 135.

The number of the second connection elements 163 is equal to the number of the first connection elements 152, and corresponds one to one.

In some of these embodiments, the second connection element 163 is a connection clasp.

As shown in fig. 8, the ejector unit 170 includes a first ejector member 171, an ejector lever member 172, a plurality of second stopper members 173, a plurality of third stopper members 174, and a second ejector member 175. The first ejection element 171 is disposed inside the corresponding support unit 140 and connected to the first base unit 110 or the second base unit 120; the ejector rod member 172 is disposed above the first ejector member 171 and connected to the first ejector member 171; the second limiting elements 173 are arranged around the lower ends of the ejection rod elements 172 and are detachably connected with the first frame units 180 or the second frame units 190; the third limiting elements 174 are disposed on the outer surface of the ejector rod element 172, and slidably connected to the supporting unit 140, for limiting the direction of the ejector rod element 172; the second ejector member 175 is disposed at an upper end of the ejector lever member 172 and is detachably coupled to the second frame unit 190 or the pushing unit 160.

Specifically, the first ejection member 171 is disposed inside the corresponding support member 141, and its lower end is detachably connected to the center of the upper surface of the first base member 111 or the center of the upper surface of the second base member 121; the second limiting element 173 corresponds to the corresponding third through hole element 142; the second ejector member 175 is detachably connected to the plurality of first pusher members 161.

In some of these embodiments, the first ejector member 171 is a spring.

In some of these embodiments, the connection between the first ejector member 171 and the first base member 111, the second base member 121, and the ejector lever member 172 includes, but is not limited to, a perforated connection, a snap-fit connection, a screw connection, and the like.

In some of these embodiments, the ejector rod member 172 is a cylindrical structure.

In some of these embodiments, the cross-section of the ejector rod member 172 includes, but is not limited to, circular, polygonal, etc.

In some of these embodiments, the outer diameter of the ejector rod member 172 is less than the inner diameter of the support member 141.

The second limiting member 173 is fixed to the lower end of the ejector lever member 172.

The number, longitudinal cross-sectional shape and position of the second stopper elements 173 correspond to the number, longitudinal cross-sectional shape and position of the plurality of third through-hole elements 142, respectively.

The second limiting element 173 has a hole-like structure, and the cross section of the second limiting element 173 is rectangular, and the shape of the longitudinal section includes, but is not limited to, circular, rectangular, etc.

The depth of the hole of the second stopper 173 in the ejector rod element 172 is equal to or less than the radius of the ejector rod element 172.

The number of the second limiting elements 173 is at least two.

In some of these embodiments, a number of second stop elements 173 are integrally formed with the ejector lever element 172.

In some embodiments, the hole center positions of the second limiting elements 173 are respectively aligned with the groove center positions of the corresponding first sliding elements 112 or the groove center positions of the corresponding second sliding elements 122, so that the first frame unit 180 can slide sequentially through the second limiting elements 173 and the first sliding elements 112 towards the edge of the first base element 111, and the second frame unit 190 can slide sequentially through the second limiting elements 173 and the second sliding elements 122 towards the edge of the second base element 121.

In some of these embodiments, the third stop member 174 is fixedly coupled to the ejector lever member 172.

Specifically, the third limiting member 174 is disposed on an outer surface of the ejector rod member 172, and is integrally formed with the ejector rod member 172.

In some embodiments, the outer surface of the end of the third limiting member 174 away from the central axis of the ejector rod member 172 is curved, and the diameter of the curve is the same as the inner diameter of the supporting member 141, so that the outer surface of the end of the third limiting member 174 away from the central axis of the ejector rod member 172 can slide smoothly on the inner wall of the supporting member 141.

In some of these embodiments, a second ejector member 175 is disposed at the top end of the ejector rod member 172 and is integrally formed with the ejector rod member 172.

In some of these embodiments, the shape of the second ejection element 175 includes, but is not limited to, a truncated cone, a truncated pyramid, and the like.

The diameter of the bottom end of the second ejector member 175 is greater than the diameter of the first through-hole member 125 and greater than the diameter of the second through-hole member 132.

As shown in fig. 9, the first frame unit 180 includes a first frame member 181 and a first locking member 182. Wherein the first frame member 181 is disposed on the first base unit 110 and detachably connected to the first base unit 110 for accommodating a toy; the first locking member 182 is disposed at the outer surface of the lower end of the first frame member 181, passes through the supporting unit 140, and is detachably coupled with the first base unit 110 and the ejection unit 170, respectively.

Specifically, the first frame member 181 is disposed on the upper surface of the first base member 111; the first locking element 182 is disposed on a lower end surface of the sidewall of the first frame element 181 near the center of the first base element 111, passes through the corresponding third through hole element 142, and is detachably connected to the corresponding first sliding element 112 and the second limiting element 173, respectively.

In some embodiments, the first frame element 181 is made of the same material as the first base element 111.

In some of these embodiments, the first locking element 182 is integrally formed with the first frame element 181.

The first locking element 182 protrudes from the outer surface of the lower end of the first frame element 181, which is closer to the center of the first base element 111, and when the first frame element 181 slides towards the edge of the first base element 111, the first locking element 182 can pass through the inner side wall of the second limiting element 173, the inner side wall of the third through hole element 142, and the inner side wall of the groove of the first sliding element 112 in sequence.

In some of these embodiments, the first locking element 182 is a stop bar.

In some of these embodiments, the first locking member 182 is contoured to conform to the shape of the groove of the first sliding member 112 such that the first locking member 182 can slide smoothly within the groove track of the first sliding member 112.

As shown in fig. 10, the second frame unit 190 includes a second frame member 191, a second locking member 192, a third locking member 193, and a fourth stopper member 194. Wherein the second frame member 191 is disposed on the second base unit 120 and detachably connected to the second base unit 120 for accommodating a toy; the second locking member 192 is disposed on the outer surface of the lower end of the second frame member 191, passes through the supporting unit 140, and is detachably connected with the second base unit 120 and the corresponding ejection unit 170, respectively; the third locking member 193 is disposed on the lower surface of the second frame member 191 and detachably connected to the second base unit 120 and the corresponding ejection unit 170, respectively; the fourth limiting element 194 is disposed on the lower surface of the second locking element 192 and detachably connected to the second base unit 120.

Specifically, the second frame member 191 is disposed on the upper surface of the second base member 121; the second locking element 192 is disposed on the outer surface of the lower end of the second frame element 191 at the side closer to the center of the second base element 121, passes through the corresponding third through hole element 142, and is detachably connected with the corresponding second sliding element 122 and the second limiting element 173, respectively; the third locking element 193 is detachably connected with the corresponding third sliding element 123 and third limiting element 174 respectively; the fourth limiting element 194 is detachably connected with the first limiting element 124.

In some embodiments, the second frame element 191 is made of the same material as the second base element 121.

In some of these embodiments, the second locking element 192 is integrally formed with the second frame element 191.

The second locking element 192 protrudes from the outer surface of the lower end of the second frame element 191 near the center of the second base element 121, and when the second frame element 191 slides towards the edge of the second base element 121, the second locking element 192 can pass through the inner side wall of the second limiting element 173, the inner side wall of the third through hole element 142, and the inner side wall of the groove of the second sliding element 122 in sequence.

In some of these embodiments, the second locking member 192 has a profile that matches the shape of the groove of the second slide member 122 such that the second locking member 192 can slide smoothly within the groove track of the second slide member 122.

In some of these embodiments, the second locking element 192 is a detent lever.

In some of these embodiments, the third locking member 193 has a distance from the lower surface of the second locking member 192 that is equal to the distance from the bottom end of the hole of the third orifice member 142 to the bottom end of the recess of the third slide member 123.

When the second frame member 191 slides toward the edge of the second base member 121, the third locking member 193 sequentially passes through the first through-hole member 125, the first stopper member 124, and the groove of the third sliding member 123.

In some of these embodiments, the third locking element 193 is contoured to conform to the shape of the groove of the third sliding element 123 such that the third locking element 193 can slide smoothly within the groove track of the third sliding element 123.

In some of these embodiments, the third locking element 193 is a stop bar.

In some embodiments, the fourth stop member 194 is an arcuate slot structure with an arcuate radius corresponding to the radius of the first stop member 124 such that the third locking member 193 can be secured to the first stop member 124.

In some of these embodiments, the fourth stop element 194 is a catch.

The application method of the utility model is as follows:

the method comprises the following steps:

manually placing boxes matched with the shapes of the first frame elements 181, the second frame elements 191 and the box elements 133, wherein small gifts can be placed in the boxes, and titles can be arranged on the surfaces of the boxes;

when the child meets the requirement of drawing a certain first frame element 181 in a mode of answering questions and the like, a small gift in the box can be obtained;

similarly, when the first frame member 181 on the upper surface of the first base member 111 is completely withdrawn, the plurality of first locking members 182 are separated from the plurality of second limiting members 173 respectively;

The ejector lever member 172 ejects upward under the force of the first ejector member 171 so that the second ejector member 175 can contact and push the third locking member 193;

the third locking element 193 drives the fourth limiting element 194 to be separated from the first limiting element 124 under the pushing action of the second ejection element 175, so that the second locking element 192 can freely slide along the second sliding element 122, that is, the second frame element 191 can slide on the second base element 121;

as the ejector unit 170 of the first base member 111 operates in the same principle, the second ejector member 175 of the second base member 121 contacts and pushes the first pushing member 161 after the second frame member 191 of the upper surface of the second base member 121 is completely withdrawn;

the first pushing element 161 pushes the second pushing element 162 to slide toward the fifth sliding element 135 under the pushing action of the second ejection element 175, so that the first connecting element 152 is separated from the fifth sliding element 135;

manually separating the first connecting element 152 and the second connecting element 163, thereby separating the sealing element 151 and the box element 133, and thus obtaining a gift placed inside the box element 133;

and (II) a restoration method:

connecting the first connecting element 152 with the second connecting element 163, pushing along the fifth sliding element 135 into the box element 133, allows the sealing element 151 to reseal the box element 133;

The second pushing element 162 pushes the first pushing element 161 to the central position of the third base element 131 under the pushing of the first connecting element 152, and can push the second ejection element 175 to the non-ejection position, and temporarily push the fixed sealing element 151;

after the second ejection element 175 returns to the original position, the second limiting element 173 and the corresponding third through hole element 142 are kept at the same height, and at this time, the second locking element 192 can slide along the second sliding element 122 toward the central position of the second base element 121, so as to realize the reset of a plurality of second frame units 190 between the third base element 131 and the second base element 121;

releasing the pressing-down fixation of the sealing member 151, and pressing-inward fixation of the plurality of second frame members 191;

at the same time, the third locking element 193 slides along the third sliding element 123 towards the second base element 121, until the fourth limiting element 194 is connected with the first limiting element 124;

the third locking element 193 presses the second ejection element 175 to the un-ejected position, resetting the ejection bar element 172 and the plurality of second stop elements 173 located between the second base element 121 and the first base element 111;

the second limiting elements 173 are in one-to-one correspondence with the third through hole elements 142 between the second base element 121 and the first base element 111;

Manually pushing the plurality of first frame members 181 toward the center of the first base member 111 to slide the second locking member 192 along the second sliding member 122 until it is connected with the second limiting member 173, releasing the fixation of the plurality of second frame members 191;

resetting the number of first frame elements 181 and the ejector lever elements 172 between the second base element 121 and the first base element 111.

The toy has the advantages that the toy is combined with the frame unit and the ejection unit, and a small gift mode is obtained through answering, so that the problem that part of toys cannot educate children is solved; after all the first frame units on the upper surface of the first base unit are extracted, the ejection unit unlocks the second frame units on the upper surface of the second base unit, and the second frame units on the upper surface of the second base unit can only move; through such interlink setting, can continuously arouse infant's exploration desire, solve the unable problem that uses that lasts of partial teaching aid, be provided with a plurality of frame unit on every base unit, can satisfy several infant and explore simultaneously, solved the problem that partial toy can't let infant interactive, device simple structure, low cost are suitable for extensive popularization and application. .

Example 2

This embodiment is a modified embodiment of embodiment 1. This embodiment differs from embodiment 1 in that: the number of second base units 120 is different.

As shown in fig. 11, the tower toy includes a number of second base units 120. The second base units 120 are stacked along the vertical direction, the second base unit 120 at the lowest is detachably connected with the first base unit 110 through a supporting unit 140, the second base unit 120 at the highest is detachably connected with the top cover unit 130 through a supporting unit 140, and two adjacent second base units 120 are detachably connected through a supporting unit 140; a plurality of second frame units 190 are disposed inside each second base unit 120.

Specifically, the plurality of second base elements 121 are stacked in the vertical direction, the second base element 121 located at the lowermost position is detachably connected with the first base element 111 through a supporting element 141, the second base element 121 located at the uppermost position is detachably connected with the third base element 131 through a supporting element 141, and two adjacent second base elements 121 are detachably connected through a supporting element 141.

The connection relationship between the second base member 121 and the first base member 111 and the connection relationship between the second base member 121 and the third base member 131 are substantially the same as those of embodiment 1, and will not be described here again.

For the connection relationship between two adjacent second base elements 121, the following is adopted:

the bottom end of the supporting element 141 is arranged at the central position of the upper surface of the lower layer second base element 121, and the top end of the supporting element 141 is arranged at the central position of the lower surface of the upper layer second base element 121; a first ejector member 171 is disposed within the support member 141 and is removably coupled to the lower second base member 121, and a corresponding second ejector member 175 of the first ejector member 171 is removably coupled to the central first through-hole member 125 of the upper second base member 121.

Specifically, the upper surface of the supporting element 141 located between two adjacent second base elements 121 is fixedly connected to the central position of the lower surface of the upper second base element 121, and the lower surface of the supporting element 141 is fixedly connected to the central position of the upper surface of the lower second base element 121.

In some embodiments, the structure and connection relationship of the plurality of second frame units 190 between two adjacent second base elements 121 are substantially the same as those of embodiment 1, and will not be described herein.

The utility model has the advantages that the playability and the challenge of the tower-shaped toy device are greatly increased by arranging the laminated second base units, so that students feel learning fun in the process of 'unlocking and climbing the tower', and the tower-shaped toy device can continuously exert positive action on the learning of the students in a period of time.

The foregoing description is only illustrative of the preferred embodiments of the present utility model and is not to be construed as limiting the scope of the utility model, and it will be appreciated by those skilled in the art that equivalent substitutions and obvious variations may be made using the description and illustrations of the present utility model, and are intended to be included within the scope of the present utility model.

Claims (10)

1. A tower toy device, comprising:

a first base unit disposed at a horizontal plane;

the second base unit is arranged above the first base unit;

a top cover unit disposed above the second base unit;

the plurality of support units are respectively arranged between the first base unit and the second base unit and between the second base unit and the top cover unit and used for supporting the second base unit and the top cover unit;

The sealing unit is arranged above the top cover unit, is detachably connected with the top cover unit and is used for sealing the top cover unit;

the pushing unit is arranged in the top cover unit, is detachably connected with the top cover unit and the sealing unit and is used for controlling the sealing unit to move;

the ejection units are arranged in the corresponding supporting units and are detachably connected with the first base unit, the second base unit, the top cover unit and the pushing unit;

the first frame units are arranged above the first base unit and are detachably connected with the first base unit and the ejection unit respectively, and are used for accommodating toys;

the second frame units are arranged above the second base units and are detachably connected with the second base units and the ejection units respectively for accommodating toys.

2. The tower toy device of claim 1, wherein the first base unit includes:

The first base element is arranged on the horizontal plane, and the upper surface of the first base element is respectively connected with the lower end of the supporting unit and the lower end of the ejection unit;

the plurality of first sliding elements are arranged on the upper surface of the first base element in a surrounding mode and are detachably connected with the corresponding first frame units.

3. The tower toy device of claim 1, wherein the second base unit includes:

the second base element is arranged above the first base unit, the upper surface of the second base element is respectively connected with the lower end of one supporting unit and the lower end of one ejection unit, and the lower surface of the second base element is connected with the top end of the other supporting unit and the top end of the other ejection unit;

the second sliding elements are arranged on the upper surface of the second base element in a surrounding mode, penetrate through the upper surface of the second base element and are detachably connected with the corresponding second frame units;

the plurality of third sliding elements are arranged in the second base element in a surrounding mode and are detachably connected with the corresponding second frame units;

The first limiting element is arranged in the center of the second base element, penetrates through the lower surface of the second base element, is detachably connected with the corresponding second frame unit and is used for limiting the second frame unit to move;

the first through hole element is arranged in the center of the second base element, penetrates through the lower surface of the second base element and is connected with the top end of the ejection unit positioned on the first base unit.

4. The tower toy device of claim 1, wherein the cover unit includes:

the third base element is arranged above the second base unit, and the lower surface of the third base element is connected with the top end of one supporting unit and the top end of one ejection unit;

the second through hole element is arranged in the center of the inside of the third base element, penetrates through the lower surface of the third base element and is connected with the top end of the ejection unit positioned on the second base unit;

the box element is arranged on the upper surface of the third base element and is detachably connected with the sealing unit;

The fourth sliding element is arranged inside the third base element and is detachably connected with the pushing unit;

and the fifth sliding element is arranged in the box element, penetrates through the upper surface of the third base element, and is connected with one end, far away from the center of the third base element, of the fourth sliding element at the lower end and is detachably connected with the pushing unit.

5. The tower toy device of claim 1, wherein the support unit comprises:

the supporting element is arranged between the first base unit and the second base unit or between the second base unit and the top cover unit, and the corresponding ejection unit is arranged in the supporting element;

the third through hole elements are arranged at the bottom ends of the supporting elements in a surrounding mode and used for communicating the ejection unit with the first frame unit or communicating the ejection unit with the second frame unit.

6. The tower toy device of claim 1, wherein the sealing unit comprises:

The sealing element is arranged above the top cover unit and is detachably connected with the top cover unit;

the first connecting element is arranged at the end part of the sealing element, is detachably connected with the pushing unit and the top cover unit respectively, and is used for connecting the sealing element, the top cover unit and the pushing unit.

7. The tower toy device of claim 1, wherein the push unit comprises:

the first pushing element is horizontally arranged in the top cover unit and is detachably connected with the top cover unit and the ejection unit respectively;

the second pushing element is vertically arranged in the top cover unit and is detachably connected with the first pushing element and the top cover unit respectively;

the second connecting element is arranged on the outer side wall of the upper part of the second pushing element and is detachably connected with the sealing unit.

8. The tower toy device of claim 1, wherein the ejection unit includes:

the first ejection element is arranged in the corresponding supporting unit and is connected with the first base unit or the second base unit;

The ejection rod element is arranged above the first ejection element and is connected with the first ejection element;

the second limiting elements are arranged at the lower ends of the ejection rod elements in a surrounding mode, and are detachably connected with the first frame units or the second frame units;

the third limiting elements are arranged on the outer surface of the ejection rod element, are connected with the supporting unit in a sliding manner and are used for limiting the ejection direction of the ejection rod element;

the second ejection element is arranged at the upper end of the ejection rod element and is detachably connected with the second frame unit or the pushing unit.

9. The tower toy device of claim 1, wherein the first frame unit includes:

a first frame member disposed on and detachably connected to the first base unit for receiving a toy;

the first locking element is arranged on the outer surface of the lower end of the first frame element, penetrates through the supporting unit and is detachably connected with the first base unit and the corresponding ejection unit respectively.

10. The tower toy device of claim 1, wherein the second frame unit includes:

a second frame member disposed on and detachably connected to the second base unit for receiving a toy;

the second locking element is arranged on the outer surface of the lower end of the second frame element, penetrates through the supporting unit and is detachably connected with the second base unit and the corresponding ejection unit respectively;

the third locking element is arranged on the lower surface of the second frame element and is detachably connected with the second base unit and the corresponding ejection unit respectively;

and the fourth limiting element is arranged on the lower surface of the second locking element and is detachably connected with the second base unit.