CN214714312U - Toy of deformation robot of satellite signal receiving and transmitting station - Google Patents

Abstract

The utility model relates to a toy of a deformation robot of a satellite signal transceiving station, which comprises a satellite signal station body, wherein the satellite signal station body comprises two mutually assembled bases, a bearing seat arranged on the bases and an information transceiver arranged on the bearing seat; the base and the bearing seat can be extended and can be connected in a turnover way; the top of the bearing seat is provided with a head part, and both sides of the bearing seat are movably connected with arm parts; the information transceiver comprises a first cover body and two second cover bodies detachably connected with the first cover body, and the first cover body and the second cover bodies are movably connected with the bearing seat; when deforming, the base keeps away from with bearing the seat and extends, unpacks apart two bases to form the shank, first lid and two second lids are unpacked apart, first lid concatenation is on bearing the seat, in order to form the truck, realize that satellite signal station body expandes to warp and becomes the robot body.

Description

Toy of deformation robot of satellite signal receiving and transmitting station

Technical Field

The utility model belongs to the technical field of the technique of toy and specifically relates to a toy of satellite signal transceiver station deformation robot is related to.

Background

The satellite control system is characterized in that a space technology and a communication technology in China are developed rapidly since the beginning of reform, satellites are launched to the space through the space technology, and then the satellite transceivers are communicated with the satellites to control the satellites located in the space. In order to promote the development of the aerospace technology and the communication technology, related talents need to be continuously cultivated, and therefore, children can cultivate aerospace interests and satellite communication interests from childhood and learn related knowledge. The way for children to learn space flight knowledge, learn satellite communication knowledge and cultivate space flight and communication interest is various, such as through books, TV plays, cartoons, toys and the like, wherein because the nature of playing is loved by children, the difficulty of learning through books is high, the learning of TV plays and cartoons is not intuitive, and therefore, the way of learning and cultivating satellite communication technology through toys is particularly important.

The toys which take satellite communication as a theme are few in the market, most of the toys are fixed in shape, low in manufacturing cost, simple in structure, free of dynamic sense and poor in interestingness, and long-term interest of children is difficult to keep.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a highly interesting toy of the deformation robot of the satellite signal transceiver station.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a toy of a deformation robot of a satellite signal transceiving station comprises a satellite signal station body, wherein the satellite signal station body comprises two mutually spliced bases, a bearing seat arranged on the bases and an information transceiver arranged on the bearing seat; the base and the bearing seat can be extended and can be connected in a turnover way; the top of the bearing seat is provided with a head part, and both sides of the bearing seat are movably connected with arm parts; the information transceiver comprises a first cover body and two second cover bodies detachably connected with the first cover body, and the first cover body and the second cover bodies are movably connected with the bearing seat; when deforming, the base keeps away from with bearing the seat and extends, unpacks apart two bases to form the shank, first lid and two second lids are unpacked apart, first lid concatenation is on bearing the seat, in order to form the truck, realize that satellite signal station body expandes to warp and becomes the robot body.

The utility model discloses further set up to: the bottom of the first cover body is provided with a connecting groove, the connecting groove is connected with a signal needle in a turnover mode, and the signal needle swings when the connecting groove is deformed, so that the first cover body is assembled on the bearing seat conveniently.

The utility model discloses further set up to: the side wall of the first cover body is provided with a clamping block used for clamping the signal needle, the clamping block and the first cover body can be connected in a turnover mode, when the signal needle deforms, the end portion of the signal needle is clamped on the clamping block, and the clamping block is turned over relative to the first cover body and is spliced with the bearing seat to reduce the number of the blocking heads of the clamping block.

The utility model discloses further set up to: the bottom of the first cover body can be connected with a connecting rod in a turnover mode, the connecting rod penetrates through the end portion of the second cover body and can be connected with the bearing seat in a turnover mode, when the connecting rod deforms, the connecting rod turns over relative to the bearing seat, and the first cover body turns over relative to the connecting rod so that the first cover body can be assembled on the bearing seat conveniently.

The utility model discloses further set up to: bear the seat and seted up the hole of sliding with connecting rod matched with, the hole of sliding is rectangular hole, the tip card of connecting rod is arranged in the hole of sliding to the connecting rod is at the downthehole reciprocating motion that makes a round trip of sliding.

The utility model discloses further set up to: the top of the bearing seat is rotatably connected with a base rod, the end part of the base rod is connected with a joint rod in a turnover mode, and the end part of the joint rod is rotatably connected with the second cover body; when the robot body deforms, the second cover body moves relative to the bearing seat through the joint rod and the base rod, so that the robot body is decorated by the second cover body.

The utility model discloses further set up to: the inner chamber of base can stretch out and be connected with the telescopic link, the bottom swivelling joint who bears the weight of the seat has the connecting block, the connecting block can overturn with the telescopic link and be connected to it is rotatory for bearing the weight of the seat that the telescopic link follows the connecting block, so that the robot body forms more models.

The utility model discloses further set up to: the inner chamber of base is equipped with the spacing groove, the telescopic link be equipped with spacing groove assorted gag lever post, the gag lever post card is arranged in the spacing inslot to the restriction telescopic link is deviate from the inner chamber of base.

The utility model discloses further set up to: the bearing seat is characterized in that assembling grooves are formed in the two sides of the bearing seat, a ball head matched with the assembling grooves is arranged on the arm part, and the ball head is clamped in the assembling grooves, so that the arm part faces different directions relative to the bearing seat.

The utility model discloses further set up to: the top of the bearing seat is provided with a cavity, the head is arranged in the cavity and can be connected with the bearing seat in a turnover mode through the cavity, and when the head deforms, the head is turned over relative to the bearing seat in the cavity to expose the head.

To sum up, the utility model discloses a beneficial technological effect does:

the utility model has scientific and reasonable design and simple structure, compared with the prior art, the satellite signal station body and the robot body are in independent and complete shapes, so that children can conveniently use a single satellite signal station body or the robot body, thereby arousing the interest of children; satellite signal station body expansion warp becomes the robot, and the robot shrink warp becomes the satellite signal station body, and children are with the toy at the deformation in-process of satellite signal station body and robot to take exercise the hands-on ability, interesting strong, be favorable to children to keep liking for a long time, thereby play the knowledge that guides children to learn space flight and communication, with the interest of cultivateing space flight and communication, be a good instrument of educating in happy.

Drawings

FIG. 1 is a schematic diagram of a satellite signal transceiver station according to the present invention;

FIG. 2 is a schematic structural diagram of the process of expanding the deformable robot body in the satellite signal transceiving station of the present invention;

FIG. 3 is a schematic structural diagram of the process of expanding the deformable robot body in the satellite signal transceiving station of the present invention;

FIG. 4 is an exploded view of the process of expanding the deformable robot body in the satellite signal transceiver station of the present invention;

FIG. 5 is a schematic structural diagram of the process of expanding the deformable robot body in the satellite signal transceiving station of the present invention;

FIG. 6 is a schematic structural diagram of the process of expanding the deformable robot body in the satellite signal transceiving station of the present invention;

FIG. 7 is a schematic structural diagram of the process of expanding the deformable robot body in the satellite signal transceiving station of the present invention;

fig. 8 is a schematic structural view of the robot body of the present invention.

In the figure, 1, a base; 11. a telescopic rod; 111. a base block; 112. a middle block; 113. a sliding block; 114. a limiting rod; 12. a limiting groove; 2. a bearing seat; 21. connecting blocks; 22. a sliding hole; 23. an assembly groove; 3. an information transceiver; 31. a first cover body; 311. connecting grooves; 312. a signal pin; 313. a clamping block; 32. a second cover body; 4. a head portion; 5. a hand portion; 51. a ball head; 6. a connecting rod; 7. a base shaft; 8. an articulated arm.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 to 8, for the utility model discloses a toy of satellite signal transceiver station deformation robot, including two independent complete molding of satellite signal station body and robot, the satellite signal station body warp through expanding and becomes the robot, and the robot becomes the satellite signal station body through contracting deformation, and is interesting strong, and the toy can effectively take exercise the operation ability at the deformation in-process, and it is a good instrument of educating in happy money.

The satellite signal station body comprises two bases 1, a bearing seat 2 arranged on the two bases 1 and a signal transceiver arranged on the bearing seat 2. In this embodiment, two bases 1 are assembled each other, and the intracavity of base 1 is equipped with telescopic link 11, and base 1 can overturn through telescopic link 11 and bear seat 2 and be connected. Bear the bottom swivelling joint of seat 2 and have connecting block 21, connecting block 21 can overturn with telescopic link 11 and be connected to it is rotatory for bearing seat 2 that telescopic link 11 follows connecting block 21, makes things convenient for the robot body to form more molding, and is interesting strong, in order to promote the appeal of toy to children. The telescopic rod 11 comprises a base block 111 which is connected with the connecting block 21 in a turnover mode, an intermediate block 112 which is connected with the base block 111 in a rotating mode and a sliding block 113 which is connected with the central block in a turnover mode, the sliding block 113 extends into the inner cavity of the base 1 and is connected with the inner cavity in a sliding mode, the base block 111, the intermediate block 112 and the sliding block 113 are arranged in the inner cavity of the base 1, when the satellite signal station body deforms towards the robot body, the base block 111 and the intermediate block 112 move out of the inner cavity of the base 1, and the sliding block 113 is clamped in the inner cavity; the inner cavity of the base 1 is internally provided with a limit groove 12, the sliding block 113 is provided with a limit rod 114 matched with the limit groove 12, and the limit rod 114 is clamped in the limit groove 12 to limit the sliding block 113 to be separated from the inner cavity of the base 1.

Arm parts 5 are arranged on two sides of the bearing seat 2, the ball heads 51 are arranged on the arm parts 5, assembling grooves 23 matched with the ball heads 51 are arranged on two sides of the bearing seat 2, and the ball heads 51 are clamped in the assembling grooves 23, so that the arm parts 5 face different directions relative to the bearing seat 2, and the arm parts 5 are movably connected with the bearing seat 2. The top of bearing seat 2 is equipped with the cavity, and the head 4 can be connected with in the cavity to the upset, and when the satellite signal station body warp to the robot body, head 4 overturns for bearing seat 2 in the cavity to expose head 4.

The signal transceiver includes a first cover 31 and two second covers 32 detachably connected to the first cover 31, and the two second covers 32 are also detachably connected. The bottom of the first cover body 31 is connected with two connecting rods 6 in a turnover way, the connecting rods 6 penetrate through the end part of the second cover body 32 and are connected with the bearing seat 2 in a turnover way, so that the first cover body 31 is movably connected with the bearing seat 2 through the connecting rods 6; when the satellite signal station body is deformed towards the robot body, the connecting rod 6 is overturned relative to the bearing seat 2, and the first cover body 31 is overturned relative to the connecting rod 6, so that the first cover body 31 is assembled on the bearing seat 2. Bear and seted up on the seat 2 with connecting rod 6 matched with slide hole 22, slide hole 22 is located the below of head 4, slide hole 22 is the rectangular hole, slide hole 22 is arranged in to the tip card of connecting rod 6 to connecting rod 6 is reciprocating motion back and forth in slide hole 22. The bottom of the first cover 31 is provided with a connecting slot 311, the connecting slot 311 is located on the inner side of the first cover 31, the connecting slot 311 is connected with a signal pin 312 in a reversible manner, so that the signal pin 312 can be turned over relative to the first cover 31, and when the satellite signal station body deforms toward the robot body, the signal pin 312 is swung, so that the first cover 31 is assembled on the bearing seat 2; the lateral wall of first lid 31 is equipped with the joint piece 313 that is used for blocking signal needle 312, joint piece 313 can overturn with first lid 31 and be connected, when the satellite signal station body warp to the robot body, the tip card of signal needle 312 is on joint piece 313, joint piece 313 for first lid 31 upset and with bear the seat 2 concatenation, reduce joint piece 313 and separate a shelves head 4, realize that first lid 31 pieces together and adorn on bearing seat 2, first lid 31 forms the truck with bearing seat 2, and first lid 31 plays the effect of decoration. The top of the bearing seat 2 is rotatably connected with two base rods 7, the two base rods 7 are positioned at the outer side of the head 4, the end part of each base rod 7 is connected with a joint rod 8 in a turnover way, and the end part of each joint rod 8 is rotatably connected with a second cover body 32; when the satellite signal station body deforms towards the robot body, the second cover body 32 moves relative to the bearing seat 2 through the joint rod 8 and the base rod 7, so that the second cover body 32 decorates the robot body.

The implementation principle of the embodiment is as follows: referring to fig. 1 to 8, in order to change the satellite signal station into a robot body by unfolding and deforming, the base 1 and the carrying seat 2 are pulled, so that the telescopic rod 11 extends out of the inner cavity of the base 1, the two bases 1 are disassembled, and the base 1 is turned over relative to the carrying seat 2 to form a leg; the first cover body 31 and the two second cover bodies 32 are disassembled, the first cover body 31 is assembled on the bearing seat 2, so that the bearing seat 2 and the first cover body 31 are turned over, the two second cover bodies 32 are also disassembled and turned over relative to the bearing seat 2, and the robot body is decorated; the head 4 is turned over relative to the bearing seat 2, so that the head 4 is exposed out of the cavity, and the satellite signal station is unfolded and deformed to become the robot body.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. A toy of a deformation robot of a satellite signal transceiver station is characterized in that: the satellite signal station comprises a satellite signal station body, wherein the satellite signal station body comprises two mutually assembled bases (1), a bearing seat (2) arranged on the bases (1) and an information transceiver (3) arranged on the bearing seat (2);

the base (1) and the bearing seat (2) can be extended and connected in a turnover way;

the top of the bearing seat (2) is provided with a head (4), and both sides of the bearing seat (2) are movably connected with arm parts (5);

the information transceiver (3) comprises a first cover body (31) and two second cover bodies (32) which are detachably connected with the first cover body (31), and the first cover body (31) and the second cover bodies (32) are movably connected with the bearing seat (2);

when deforming, base (1) and bear seat (2) and keep away from the extension, unpack apart two base (1) to form the shank, first lid (31) and two second lids (32) are unpacked apart, first lid (31) concatenation is on bearing seat (2), in order to form the truck, realizes that satellite signal station body expandes to warp and becomes the robot body.

2. The toy of the satellite signal transceiver station shape-shifting robot of claim 1, wherein: the bottom of the first cover body (31) is provided with a connecting groove (311), the connecting groove (311) is connected with a signal pin (312) in a turnover mode, and the signal pin (312) swings when the connecting groove is deformed, so that the first cover body (31) is assembled on the bearing seat (2).

3. The toy of the satellite signal transceiver station shape-shifting robot of claim 2, wherein: the side wall of the first cover body (31) is provided with a clamping block (313) used for clamping the signal pin (312), the clamping block (313) is connected with the first cover body (31) in a turnover mode, when the first cover body is deformed, the end portion of the signal pin (312) is clamped on the clamping block (313), and the clamping block (313) is turned over relative to the first cover body (31) and is spliced with the bearing seat (2) to reduce the head portion of the clamping block (313) at the position where the head portion is separated from the gear.

4. The toy of the satellite signal transceiver station shape-shifting robot of claim 2, wherein: the bottom of the first cover body (31) can be connected with a connecting rod (6) in a turnover mode, the connecting rod (6) penetrates through the end portion of the second cover body (32) and can be connected with the bearing seat (2) in a turnover mode, when the connecting rod (6) deforms, the connecting rod (6) turns over relative to the bearing seat (2), and the first cover body (31) turns over relative to the connecting rod (6) so that the first cover body (31) can be assembled on the bearing seat (2) conveniently.

5. The toy of the satellite signal transceiver station shape-shifting robot of claim 4, wherein: bear seat (2) and seted up the hole (22) that slides with connecting rod (6) matched with, the hole (22) that slides is the rectangular hole, the tip card of connecting rod (6) is arranged in the hole (22) that slides to connecting rod (6) reciprocating motion makes a round trip in the hole (22) that slides.

6. The toy of the satellite signal transceiver station shape-shifting robot of claim 1, wherein: the top of the bearing seat (2) is rotatably connected with a base rod (7), the end part of the base rod (7) is connected with a joint rod (8) in a turnover mode, and the end part of the joint rod (8) is rotatably connected with a second cover body (32); when the robot body deforms, the second cover body (32) moves relative to the bearing seat (2) through the joint rod (8) and the base rod (7), so that the robot body is decorated by the second cover body (32).

7. The toy of the satellite signal transceiver station shape-shifting robot of claim 1, wherein: the inner chamber of base (1) can stretch out and be connected with telescopic link (11), the bottom swivelling joint who bears seat (2) has connecting block (21), connecting block (21) can overturn with telescopic link (11) and be connected to telescopic link (11) are rotatory for bearing seat (2) along with connecting block (21) for telescopic link (11), so that the robot body forms more models.

8. The toy of the satellite signal transceiver station shape shifting robot of claim 7, wherein: the inner chamber of base (1) is equipped with spacing groove (12), telescopic link (11) be equipped with spacing groove (12) assorted gag lever post (114), gag lever post (114) card is arranged in spacing groove (12) to limit telescopic link (11) to deviate from in the inner chamber of base (1).

9. The toy of the satellite signal transceiver station shape-shifting robot of claim 1, wherein: bear the both sides of seat (2) and all be equipped with equipment groove (23), arm portion (5) are equipped with and assemble groove (23) assorted bulb (51), assemble groove (23) in the card is arranged in to bulb (51) card to arm portion (5) are for bearing different directions of seat (2) orientation.

10. The toy of a satellite signal transceiver station shape-changing robot according to claim 1, wherein: the top of the bearing seat (2) is provided with a cavity, the head (4) is arranged in the cavity and can be connected with the bearing seat (2) in a turnover mode through the cavity, and when the head (4) deforms, the head (4) turns over relative to the bearing seat (2) in the cavity to expose the head (4).

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