CN223009781U - Rotatable panda pushing and grinding toy device - Google Patents

Abstract

The utility model relates to the technical field of toy models, and specifically to a rotatable panda pushing a mill toy device, comprising a doll, a fixing ring is provided on one side of the doll, a surface mill is provided below the fixing ring, and a lower plate is provided below the surface mill; a clamping block is welded on one side of the lower plate, a groove is connected to the upper part of the clamping block by mortise and tenon joints, a front plate is fitted on the upper part of the lower plate, an inserting block is welded on one side of the front plate, a slot is connected to one side of the inserting block by mortise and tenon joints, a left plate is welded on one side of the slot, an inserting rod is fitted on the upper part of the inserting block, and a rear plate is connected to one side of the left plate by mortise and tenon joints. For the improved pushing mill toy, the mortise and tenon joint connection can usually increase the contact area between the toy components, improve the stability and durability of the connection, and make the toy more durable. Dynamic toys often have rich functions and changes, which can stimulate children's imagination and creativity and allow them to participate in role-playing or creative games.

Description

Rotatable panda pushing and grinding toy device

Technical Field

The utility model relates to the technical field of toy models, in particular to a rotatable panda pushing and grinding toy device.

Background

Toy models are toys designed to promote learning and development of children, which often incorporate educational and entertaining elements to attract the attention of children and to inspire their learning interests, which can help children master various skills, knowledge and concepts during play, thereby promoting their cognitive, emotional, social and motor development.

Articles used by children in games and entertainment are often designed in a variety of shapes, colors and functions to satisfy the curiosity and creativity of the children. The toy can be a simple manual product or complex electronic equipment, is an article for children to play, entertain and learn, has different shapes, materials and functions, and can be suitable for children of all ages.

The inventor finds that the prior art has the problems that 1, the mortise and tenon structure provides more stable connection, so that the toy is more difficult to disassemble or damage, the safety and durability of the toy are improved, in contrast, the glued joint and the screw connection can be loosened or separated in the using process, so that the toy is unstable or damaged, 2, the static toy usually has no dynamic element, the interactivity with children is lack, and the creativity and imagination of the children can be difficult to excite.

Disclosure of utility model

The utility model aims to provide a rotatable panda pushing and grinding toy device, which solves the problem that in the background art, the toy is possibly loosened or fallen off in the using process through gluing and screw connection, so that the toy is unstable or damaged. The panda pushing and grinding toy device capable of rotating comprises a doll, wherein one side of the doll is provided with a fixed ring, a face grinder is arranged below the fixed ring, and a lower plate is arranged below the face grinder;

A clamping block is welded on one side of the lower plate, a groove is connected with the upper mortise of the clamping block, a front plate is attached to the upper side of the lower plate, an inserting block is welded on one side of the front plate, a clamping groove is connected with one mortise of the inserting block, the left plate is welded on one side of the clamping groove, the inserted rod is attached to the upper portion of the inserted block, a rear plate is connected to one side of the left plate through mortise and tenon joints, an upper plate is connected to the upper mortise and tenon joint of the rear plate, and a right plate is connected to the lower mortise and tenon joint of the upper plate.

Further preferably, the handle is welded above the surface mill, the rotating shaft is inserted below the surface mill, the bottom mill is inserted below the rotating shaft, the support column is welded below the bottom mill, the driven wheel is inserted below the bottom mill, the driven wheel and the driving wheel form transmission connection through the conveying belt, the motor is inserted below the driving wheel, the fixing plate is attached below the motor, the driving wheel forms a rotating structure through the motor, and the driven wheel forms a rotating structure through the conveying belt.

Further preferably, the rotating shaft forms a rotating structure through the driven wheel, and the surface mill forms a rotating structure through the rotating shaft.

Further preferably, the external structure size of the handle is consistent with the internal size of the fixing ring, one side of the doll is provided with a connecting rod which is distributed on two hind limbs of the doll, and the hind limbs of the doll are inserted into the holes of the right plate.

Further preferably, the four corners of the side edges of the front plate and the rear plate are respectively provided with an inserting block, the four corners of the side edges of the left plate and the right plate are respectively provided with a clamping groove, and the inner dimension of the inserting blocks is consistent with the outer structural dimension of the clamping grooves.

Further preferably, the rear of the front plate is provided with a groove, four corners at the rear of the front plate are provided with grooves, the front of the rear plate is provided with grooves, four corners at the front of the rear plate are provided with grooves, the four corners of the upper plate and the lower plate are provided with clamping blocks, the outer structural dimensions of the clamping blocks connected with the upper plate are respectively consistent with the inner structural dimensions of the front plate and the rear plate, and the outer structural dimensions of the clamping blocks connected with the lower plate are respectively consistent with the inner structural dimensions of the front plate and the rear plate.

Compared with the prior art, the utility model has the beneficial effects that:

According to the utility model, the contact area between toy components can be increased through mortise-tenon connection, so that the connection stability and durability are improved, the toy is more durable and can withstand longer use and play, the assembly process of the toy is simpler and more efficient through mortise-tenon structure, no additional tools or complex assembly process is needed, the production cost is reduced, and the production efficiency is improved.

According to the utility model, the principle of pushing and grinding of a real person can be simulated through panda pushing and grinding, so that children can know the pushing and grinding principle, and the lovely panda doll can attract the attention of the children, increase curiosity and interestingness of the children, and the dynamic toy is often involved in solving problems or completing tasks, and can help the children to cultivate logic thinking, space perception and problem solving capability.

Drawings

FIG. 1 is a schematic elevational view of the present utility model;

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

FIG. 3 is a schematic view of the lower structure of the face grinder of the present utility model;

fig. 4 is a schematic view showing the upper structure of the lower plate of the present utility model.

The figure shows that the toy figure comprises a toy figure 1, a toy figure 2, a fixing ring, a surface mill 3, a handle 301, a rotating shaft 302, a bottom mill 303, a supporting column 304, a driven wheel 305, a conveying belt 306, a motor 308, a fixing plate 309, a driving wheel 4, a lower plate 401, an upper plate 402, a right plate 403, a front plate 404, a clamping block 405, a groove 406, a clamping groove 407, an inserting block 408, an inserting rod 409, a rear plate 410 and a left plate.

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 are obtained by a worker of ordinary skill in the art without creative efforts, are within the protection scope of the present utility model based on the embodiments of the present utility model.

Referring to fig. 1 to 4, the utility model provides a rotatable panda pushing and grinding toy device, which comprises a doll 1, wherein one side of the doll 1 is provided with a fixed ring 2, a face grinder 3 is arranged below the fixed ring 2, and a lower plate 4 is arranged below the face grinder 3;

The fixture block 404 has been welded to one side of hypoplastron 4, the top mortise and tenon joint of fixture block 404 has recess 405, the top laminating of hypoplastron 4 has front bezel 403, one side welding of front bezel 403 has inserted block 407, one side mortise and tenon joint of inserted block 407 has draw-in groove 406, one side welding of draw-in groove 406 has left board 410, the top laminating of inserted block 407 has inserted bar 408, one side mortise and tenon joint of left board 410 has back board 409, the top mortise and tenon joint of back board 409 has upper plate 401, the below mortise and tenon joint of upper plate 401 has right plate 402.

In this embodiment, as shown in fig. 1, 2 and 3, a handle 301 is welded above the face mill 3, a rotating shaft 302 is inserted below the face mill 3, a bottom mill 303 is inserted below the rotating shaft 302, a supporting post 304 is welded below the bottom mill 303, a driven wheel 305 is inserted below the bottom mill 303, the driven wheel 305 and the driving wheel 309 form transmission connection through a transmission belt 306, a motor 307 is inserted below the driving wheel 309, a fixed plate 308 is attached below the motor 307, the driving wheel 309 forms a rotating structure through the motor 307, and the driven wheel 305 forms a rotating structure through the transmission belt 306.

In this embodiment, as shown in fig. 1, 2 and 3, the rotating shaft 302 forms a rotating structure through the driven wheel 305, and the face mill 3 forms a rotating structure through the rotating shaft 302, the driven wheel 305 rotates the rotating shaft 302, and the rotating shaft 302 rotates the face mill 3, so that the face mill 3 rotates, and the face mill 302 can give more direct feedback and more interaction experience to the child, thereby increasing the participation and input feeling of the child.

In this embodiment, as shown in fig. 1, 2, 3 and 4, the external structure size of the handle 301 is consistent with the internal size of the fixing ring 2, one side of the doll 1 is provided with a connecting rod and distributed on two rear limbs of the doll 1, the rear limbs of the doll 1 are inserted into the holes of the right plate 402, the doll 1 is connected with the fixing ring 2 and sleeved into the handle 301, and the front limbs of the doll 1 are driven to rotate by the face mill 3, so that the reality of manual pushing and grinding can be simulated, the child can learn the pushing and grinding principle, and the beneficial intelligence of the child can be stimulated.

In this embodiment, as shown in fig. 4, the four corners of the sides of the front plate 403 and the rear plate 409 are respectively provided with an insert block 407, and the four corners of the sides of the left plate 410 and the right plate 402 are respectively provided with a clamping groove 406, the internal dimensions of the insert blocks 407 are consistent with the external dimensions of the clamping grooves 406, the tenon-and-mortise structure can generally improve the durability of the toy, but the non-tenon-mortise structure can lead to easier damage or abrasion of the connection part, thereby shortening the service life of the toy, the left insert block A407 of the front plate 403 is attached to the inside of the clamping groove A406 on one side of the left plate 410, the right insert block B407 is attached to the inside of the clamping groove B406 on one side of the right plate 402 through the insert rod A408, the other side of the clamping groove C406 is attached to the inside of the clamping groove C407 on one side of the rear plate 409, the other side of the clamping groove C406 is attached to the inside of the clamping groove C407 through the insert rod C408, and the right plate D is attached to the inside of the clamping groove C406 on the other side of the clamping groove C407, and the playing surface of the toy is more durable, and the durability of the toy is improved by the contact between the insert blocks D and the side of the support member D is formed.

In this embodiment, as shown in fig. 1 and 4, the rear of the front plate 403 is provided with a groove 405, the rear four corners of the front plate 403 are provided with grooves 405, the front of the rear plate 409 is provided with grooves 405, the front four corners of the rear plate 409 are provided with grooves 405, the four corners of the upper plate 401 and the lower plate 4 are provided with clamping blocks 404, the external structural dimensions of the clamping blocks 404 connected with the upper plate 401 are respectively consistent with the internal structural dimensions of the front plate 403 and the rear plate 409, and the external structural dimensions of the clamping blocks 404 connected with the lower plate 4 are respectively consistent with the internal structural dimensions of the front plate 403 and the rear plate 409, the assembly complexity of the toy may be increased due to non-mortise-tenon connection, the assembly process is more difficult and time-consuming, the production efficiency and cost of the toy are affected, the four corner clamping blocks 404 of the upper plate 401 are clamped into the grooves 405 of the front plate 403 and the rear plate 409, the mortise-tenon structure makes the assembly process of the toy simpler and more convenient and efficient, the assembly process of the toy does not need additional tools or complex assembly process, the production cost is reduced, and the production efficiency is improved.

The application method and the application advantages of the panda pushing and grinding toy device capable of rotating are that when in use, the working process is as follows:

As shown in fig. 1, 2, 3 and 4, the left side insert a407 of the first previous plate 403 is attached to the inside of the one side slot a406 of the left plate 410, the right side insert B407 of the front plate 403 is attached to the inside of the one side slot B406 of the right plate 402 by inserting the insert a408 into the inside holes of the insert a407 and the slot B406, the other side slot C406 of the left plate 410 is attached to the inside of the one side insert C407 of the rear plate 409 by inserting the insert C408 into the inside holes of the insert C407 and the slot C406, the other side slot D406 of the right plate 402 is attached to the other side insert D407 of the rear plate 409, through inserted link D408 grafting in the inside hole of inserted block D407 and draw-in groove D406, four angle fixture blocks 404 card of upper plate 401 are gone into in the recess 405 of front bezel 403 and back bezel 409, realize bottom steady support, motor 307 drives the action wheel 309 clockwise and rotates, action wheel 309 and follow driving wheel 305 pass through conveyer 306 rotation, follow driving wheel 305 drives pivot 302 in proper order, face grinds 3, handle 301, solid fixed ring 2 and a forelimb rotation of doll 1, realize the effect of doll 1 rotation handle 301, simulate real person and push away grinds, increase children's learning ability, bottom grinds 303 through the perpendicular grafting of pillar 304 in the hole of upper plate 401, realize the effect of stable fixed face grinds 3.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present utility model, and are not intended to limit the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The panda pushing and grinding toy device capable of rotating comprises a doll (1) and is characterized in that a fixed ring (2) is arranged on one side of the doll (1), a face grinder (3) is arranged below the fixed ring (2), and a lower plate (4) is arranged below the face grinder (3);

Clamping block (404) is welded on one side of lower plate (4), the top mortise-tenon joint of clamping block (404) has recess (405), the top laminating of lower plate (4) has front bezel (403), one side welding of front bezel (403) has inserted block (407), one side mortise-tenon joint of inserted block (407) has draw-in groove (406), one side welding of draw-in groove (406) has left board (410), the top laminating of inserted block (407) has inserted bar (408), one side mortise-tenon joint of left board (410) has back plate (409), the top mortise-tenon joint of back plate (409) has upper plate (401), the below mortise-tenon joint of upper plate (401) has right plate (402).

2. The panda pushing and grinding toy device capable of rotating according to claim 1, wherein a handle (301) is welded above the face grinder (3), a rotating shaft (302) is inserted below the face grinder (3), a bottom grinder (303) is inserted below the rotating shaft (302), a support column (304) is welded below the bottom grinder (303), a driven wheel (305) is inserted below the bottom grinder (303), the driven wheel (305) and the driving wheel (309) form transmission connection through a conveying belt (306), a motor (307) is inserted below the driving wheel (309), a fixing plate (308) is attached below the motor (307), the driving wheel (309) forms a rotating structure through the motor (307), and the driven wheel (305) forms the rotating structure through the conveying belt (306).

3. The panda pushing and grinding toy device capable of rotating according to claim 2, wherein the rotating shaft (302) forms a rotating structure through the driven wheel (305), and the surface grinder (3) forms a rotating structure through the rotating shaft (302).

4. The rotatable panda pushing and grinding toy device according to claim 2, wherein the outer structural size of the handle (301) is consistent with the inner size of the fixing ring (2), one side of the doll (1) is provided with a connecting rod, the connecting rod is distributed on two rear limbs of the doll (1), and the rear limbs of the doll (1) are inserted into the holes of the right plate (402).

5. The panda pushing and grinding toy device capable of rotating according to claim 1, wherein the four corners of the side edges of the front plate (403) and the rear plate (409) are respectively provided with an inserting block (407), the four corners of the side edges of the left plate (410) and the right plate (402) are respectively provided with a clamping groove (406), and the inner dimension of the inserting blocks (407) is consistent with the outer structural dimension of the clamping grooves (406).

6. The panda pushing and grinding toy device capable of rotating according to claim 1, wherein the rear of the front plate (403) is provided with a groove (405), four corners of the rear of the front plate (403) are provided with grooves (405), the front of the rear plate (409) is provided with grooves (405), four corners of the front of the rear plate (409) are provided with clamping blocks (404), the four corners of the upper plate (401) and the lower plate (4) are provided with clamping blocks (404), the external structural dimensions of the clamping blocks (404) connected with the upper plate (401) are respectively consistent with the internal structural dimensions of the front plate (403) and the rear plate (409), and the external structural dimensions of the clamping blocks (404) connected with the lower plate (4) are respectively consistent with the internal structural dimensions of the front plate (403) and the rear plate (409).