CN111486425B - Splicing building block, breathing lamp suitable for splicing building block and control method - Google Patents

Abstract

The invention provides a splicing building block, a breathing lamp suitable for splicing the building block and a control method, wherein the control method comprises the following steps: the light-emitting device comprises an inner shell assembly (1), an outer shell assembly (4), a light-emitting assembly and a control module (5); the inner shell assembly (1) is arranged inside the outer shell assembly (4); the inner shell assembly (1) comprises: a middle chamber of the inner shell and a lower chamber of the inner shell; the inner shell middle cavity is arranged in the middle of the inner shell assembly (1); the inner shell lower cavity is arranged at the lower part of the inner shell assembly (1); the housing assembly (4) comprises: a light transmissive window (401); the light-emitting assembly is arranged below the light-transmitting window (401); the light emitting assembly is arranged inside the shell assembly (4); the light emitted by the light emitting assembly is capable of passing through the light transmissive window (401). The split-type building block is reasonable in structure and convenient to use, and can be well suitable for split-type building blocks, particularly large-particle split-type building blocks.

Description

Splicing building block, breathing lamp suitable for splicing building block and control method

Technical Field

The invention relates to the technical field of splicing building blocks, in particular to a splicing building block, a breathing lamp suitable for splicing the building block and a control method, and particularly relates to a breathing lamp suitable for splicing large-particle building blocks and a control method.

Background

The splicing building blocks build a world for children, the imagination and creativity of the children are aroused, and the technical field of the splicing building blocks is dedicated to providing more 'creation materials' for the children, wherein the 'creation materials' are tiles for creating the world for the children. The following dilemma is faced in the field of traditional splicing building blocks: the splicing building blocks are small in splicing components, and can be spliced into more shapes, so that swallowing danger of children is easily caused; the splicing building blocks adopt larger splicing assemblies, and more types of splicing assemblies need to be designed. For child safety and ease when splicing the building blocks by children, the spliced building blocks are more biased towards the development of large-particle spliced building block assemblies. In the research and development of large granule concatenation building blocks subassembly, large granule concatenation building blocks subassembly uses the respiratory lamp subassembly inevitable. However, conventional breathing lights do not fit well into large particle mosaic building blocks. In addition, children often fall, lose, sting the concatenation building blocks when the improper uses concatenation building blocks, install traditional breathing lamp in large granule concatenation building blocks subassembly and must bring danger for children's life safety. There is a need in the art for a more secure, versatile light that can be well adapted to the breathing of a mosaic block (especially a large-grained mosaic block).

Patent document CN209146971U discloses a breathing lamp assembly, relating to the technical field of lamps. The respiratory lamp assembly comprises a light source, a shading plate and a light guide plate; the light shading plate and the light guide plate are arranged in parallel along the light emergent direction of the light source; the light shielding plate comprises a light-transmitting part and a light shielding part, and a part of light of the light source is transmitted through the light-transmitting part and enters towards the light guide plate; the other part of light rays of the light source are blocked by the light shading plate; and light guide powder is arranged on the light guide plate. The breathing lamp comprises a fixed frame and the breathing lamp assembly; the light source is fixed on the fixing frame. This patent is not well suited for breathing lights for splicing building blocks, especially large-grained ones.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a splicing building block, a breathing lamp suitable for the splicing building block and a control method.

According to the invention, the breathing lamp suitable for splicing building blocks comprises: the light-emitting device comprises an inner shell assembly 1, an outer shell assembly 4, a light-emitting assembly and a control module 5; the inner shell assembly 1 is arranged inside the outer shell assembly 4; the inner shell assembly 1 includes: a middle chamber of the inner shell and a lower chamber of the inner shell; the middle cavity of the inner shell is arranged in the middle of the inner shell assembly 1; the inner shell lower cavity is arranged at the lower part of the inner shell assembly 1; the housing assembly 4 includes: a light transmissive window 401; the light emitting assembly is arranged below the light transmitting window 401; the light emitting assembly is disposed inside the housing assembly 4; the light emitted from the light emitting element can pass through the light transmissive window 401.

Preferably, the method further comprises the following steps: a power supply 3; the power supply 3 is arranged in the cavity in the middle of the inner shell; the power supply 3 is connected to a control module 5.

Preferably, the light emitting assembly adopts an LED lamp 6; the LED lamp 6 is connected with the control module 5.

Preferably, the control module 5 comprises: a PCB board; the PCB is connected with the light-emitting component; the inner shell assembly 1 further comprises: an inner shell upper chamber; the PCB is arranged in the cavity on the upper part of the inner shell.

Preferably, the method further comprises the following steps: a control switch; the control switch is arranged on the PCB.

Preferably, the method further comprises the following steps: a connecting assembly 2; the inner shell assembly 1 is connected with the outer shell assembly 4 through a connecting assembly 2.

Preferably, the connecting assembly 2 adopts a step screw; the inner shell assembly 1 is connected with the outer shell assembly 4 through step screws; the inner shell assembly 1 includes: step screw through holes; the inner shell assembly 1 is in clearance fit with the outer shell assembly 4 and is prevented from falling off through a step screw. The step screw through hole is matched with the step screw. The step screw firstly plays the fixed action of shell and internal medicine, secondly plays the limiting displacement from top to bottom. Preferably, the housing assembly 4 comprises: a housing limiting hole; the step screw includes: a stepped screw cap; the step screw cap can move up and down in the limiting hole of the shell. The design of step screw can make the breathing lamp like the switch, switch the LED mode, can also increase object for appreciation nature and feel.

Preferably, the breathing lamp suitable for splicing building blocks further comprises: connecting the female head; the power supply 3 adopts a button battery; the button batteries are vertically arranged in the cavity in the middle of the inner shell; the connecting female head is arranged at the lower part of the inner shell component 1; the shell component 4 adopts a hollow cylindrical structure.

According to the invention, the method for controlling the breathing lamp suitable for splicing the building blocks adopts the breathing lamp suitable for splicing the building blocks, and comprises the following steps: step S1: acquiring first luminous display information according to the first shell pressing control information; step S2: acquiring light flicker frequency control information according to the light flicker frequency setting information; step S3: acquiring second luminous display information according to the second shell pressing control information and the light flicker frequency control information; step S4: acquiring unit time lamplight brightness variation control information according to the unit time lamplight brightness variation setting information; step S5: acquiring third luminous display information according to the third shell pressing control information and the unit time lamplight brightness variation control information; step S6: according to the fourth shell pressing control information, obtaining light-emitting component closing control information; the first luminous display information guides the continuous luminous behavior of the luminous assembly;

the second luminous display information guides any one of the following luminous behaviors of the luminous assembly: -alternating lighting; -alternating dimming of the light;

the third luminous display information guides any one of the following luminous behaviors of the luminous assembly: -the light is gradually brighter; gradual dimming of the light.

The breathing lamp working process suitable for splicing building blocks is as follows: firstly, according to the installation, after the male head or the female head is put up and stressed, the shell moves up and down, the key switch is triggered to work, and the working modes are four. A first operating mode: the light shines all the time and does not flicker when the shell is pressed for the 1 st time. A second working mode: pressing the housing 2 times, the lights flash at equal frequency, i.e., the effect of alternating light up and light down. The third working mode is as follows: and 3, when the shell is pressed for the 3 rd time, the light has a breath light shining effect, namely the effect of gradual variation and gradual darkening of the light. The fourth working mode: pressing the housing 4 times turns the LED off.

According to the splicing building block provided by the invention, the breathing lamp suitable for splicing the building block is adopted to assemble the set splicing building block shape.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention has reasonable structure and convenient use, and can be well suitable for splicing building blocks, in particular large-particle spliced building blocks;

2. the light-emitting component has multiple light-emitting modes, so that spliced building blocks (including large-particle spliced building blocks) have more playing methods;

3. according to the invention, the research and development idea that the outer shell wraps the inner shell and the inner shell wraps parts is adopted, so that the safety of the breathing lamp suitable for splicing the building blocks is improved;

4. the step screw in the invention has the functions of fixing the shell and the internal medicine and limiting up and down movement.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic cross-sectional structure of the present invention.

Fig. 2 is a front view of the external overall structure of the present invention.

Fig. 3 is a side view of the external overall structure of the present invention.

Fig. 4 is a schematic front exploded view of a breathing lamp suitable for splicing building blocks according to an embodiment of the present invention.

Fig. 5 is a schematic side exploded view of a breathing lamp suitable for use in splicing building blocks according to an embodiment of the present invention.

In the figure:

inner shell assembly 1 light transmissive window 401

Connecting assembly 2 control module 5

Power supply 3 LED Lamp 6

Housing assembly 4

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way. It should be noted that it would be obvious to those skilled in the art that various changes and modifications can be made without departing from the spirit of the invention. All falling within the scope of the present invention.

Referring to fig. 1 to 5, there is provided a breathing lamp suitable for splicing building blocks, comprising: the light-emitting device comprises an inner shell assembly 1, an outer shell assembly 4, a light-emitting assembly and a control module 5; the inner shell assembly 1 is arranged inside the outer shell assembly 4; the inner shell assembly 1 includes: a middle chamber of the inner shell and a lower chamber of the inner shell; the middle cavity of the inner shell is arranged in the middle of the inner shell assembly 1; the inner shell lower cavity is arranged at the lower part of the inner shell assembly 1; the housing assembly 4 includes: a light transmissive window 401; the light emitting assembly is arranged below the light transmitting window 401; the light emitting assembly is disposed inside the housing assembly 4; the light emitted from the light emitting element can pass through the light transmissive window 401.

Preferably, the method further comprises the following steps: a power supply 3; the power supply 3 is arranged in the cavity in the middle of the inner shell; the power supply 3 is connected to a control module 5.

Preferably, the light emitting assembly adopts an LED lamp 6; the LED lamp 6 is connected with the control module 5.

Preferably, the control module 5 comprises: a PCB board; the PCB is connected with the light-emitting component; the inner shell assembly 1 further comprises: an inner shell upper chamber; the PCB is arranged in the cavity on the upper part of the inner shell.

Preferably, the method further comprises the following steps: a control switch; the control switch is arranged on the PCB.

Preferably, the method further comprises the following steps: a connecting assembly 2; the inner shell assembly 1 is connected with the outer shell assembly 4 through a connecting assembly 2.

Preferably, the connecting assembly 2 adopts a step screw; the inner shell assembly 1 is connected with the outer shell assembly 4 through step screws; the inner shell assembly 1 includes: step screw through holes; the inner shell assembly 1 is in clearance fit with the outer shell assembly 4 and is prevented from falling off through a step screw. The step screw through hole is matched with the step screw. The step screw firstly plays the fixed action of shell and internal medicine, secondly plays the limiting displacement from top to bottom. Preferably, the housing assembly 4 comprises: a housing limiting hole; the step screw includes: a stepped screw cap; the step screw cap can move up and down in the limiting hole of the shell. The design of step screw can make the breathing lamp like the switch, switch the LED mode, can also increase object for appreciation nature and feel. Specifically, in an embodiment, be applicable to the breathing lamp of concatenation building blocks and install the back, public head or female head are building the atress after, and the shell reciprocates, triggers key switch work to change the position of step screw in spacing hole, make the mode of the breathing lamp that is applicable to concatenation building blocks switch between following four kinds of modes:

-a first operating mode: 1, pressing the shell for the first time, wherein the light is always on and does not flicker;

-a second operating mode: pressing the shell for the 2 nd time, and flashing the light at equal frequency, namely the effect of alternately lightening and darkening the light;

-a third operating mode: pressing the shell for the 3 rd time, wherein the light has a breath light shining effect, namely a light gradual change effect and a gradual dimming effect;

-a fourth mode of operation: pressing the housing 4 times turns the LED off.

Preferably, the breathing lamp suitable for splicing building blocks further comprises: connecting the female head; the power supply 3 adopts a button battery and a connecting female head; the button batteries are vertically arranged in the cavity in the middle of the inner shell; the connecting female head is arranged at the lower part of the inner shell component 1; the shell component 4 adopts a hollow cylindrical structure.

According to the invention, the method for controlling the breathing lamp suitable for splicing the building blocks adopts the breathing lamp suitable for splicing the building blocks, and comprises the following steps: step S1: acquiring first luminous display information according to the first shell pressing control information; specifically, in one embodiment, the first shell pressing control information may be a signal generated when a player presses a shell of the splicing block for the first time, or a signal generated when the player presses a specific button block (the player connects the specific button block with a breathing lamp suitable for the splicing block), or may be remote control information generated by the player through a smart terminal (such as a smart watch, a smart phone, a smart tablet, and other smart wearable devices). Step S2: acquiring light flicker frequency control information according to the light flicker frequency setting information; step S3: acquiring second luminous display information according to the second shell pressing control information and the light flicker frequency control information; specifically, in one embodiment, the player can set the light flashing frequency, thereby controlling the frequency of flashing of the light. The second shell pressing control information may be a signal generated when the player presses the shell of the splicing block for the second time, or a signal generated when the player presses a specific button block (the player connects the specific button block with a breathing lamp suitable for the splicing block), or may be remote control information generated when the player passes through an intelligent terminal (such as a smart watch, a smart phone, a smart tablet and other intelligent wearable devices). Step S4: acquiring unit time lamplight brightness variation control information according to the unit time lamplight brightness variation setting information; step S5: acquiring third luminous display information according to the third shell pressing control information and the unit time lamplight brightness variation control information; specifically, in one embodiment, the player can set the amount of change in the light intensity per unit time, thereby controlling the amount of change in the light intensity per unit time. The third shell pressing control information may be a signal generated when the player presses the shell of the splicing block for the third time, or a signal generated when the player presses a specific button block (the player connects the specific button block with a breathing lamp suitable for the splicing block), or may be remote control information generated by the player through an intelligent terminal (such as a smart watch, a smart phone, a smart tablet and other intelligent wearable devices). Step S6: according to the fourth shell pressing control information, obtaining light-emitting component closing control information; the first luminous display information guides the continuous luminous behavior of the luminous assembly;

the second luminous display information guides any one of the following luminous behaviors of the luminous assembly: -alternating lighting; -alternating dimming of the light;

the third luminous display information guides any one of the following luminous behaviors of the luminous assembly: -the light is gradually brighter; gradual dimming of the light.

Specifically, in one embodiment, the breathing lamp suitable for splicing the building blocks works as follows: firstly, according to the installation, after the male head or the female head is put up and stressed, the shell moves up and down, the key switch is triggered to work, and the working modes are four. A first operating mode: the light shines all the time and does not flicker when the shell is pressed for the 1 st time. A second working mode: pressing the housing 2 times, the lights flash at equal frequency, i.e., the effect of alternating light up and light down. The third working mode is as follows: and 3, when the shell is pressed for the 3 rd time, the light has a breath light shining effect, namely the effect of gradual variation and gradual darkening of the light. The fourth working mode: pressing the housing 4 times turns the LED off.

Specifically, in one embodiment, in a password book-transferring building block, a player installs a breathing lamp building block on a base station bottom board building block, the player translates information to be transmitted into a specific pressing sequence by inquiring a password compiling manual, and the player presses the breathing lamps according to the specific pressing sequence, so that the breathing lamps flicker, continuously dim or normally light/normally light in a regular manner, and the breathing lamps transmit specific information in such a manner. The player can also be connected breathing lamp building blocks with intelligent terminal (like intelligent wrist-watch, smart mobile phone, intelligent dull and stereotyped and other intelligent wearing equipment), and the player can pass through intelligent terminal inspection password and pass a book whether correct.

In another embodiment, a player installs a plurality of breathing lamp blocks on a light box bottom plate block in a matrix manner, the light box bottom plate block is connected with an intelligent terminal (such as a smart watch, a smart phone, a smart tablet and other intelligent wearable devices), and the intelligent terminal controls the breathing lamps to flash, continuously dim or normally on/off in a regular manner; the breathing lamp building blocks arranged in order can display letter, symbol combination information or square character information.

According to the splicing building block provided by the invention, the breathing lamp suitable for splicing the building block is adopted to assemble the set splicing building block shape.

The invention has reasonable structure and convenient use, and can be well suitable for splicing building blocks, in particular large-particle spliced building blocks; the light-emitting component has multiple light-emitting modes, so that spliced building blocks (including large-particle spliced building blocks) have more playing methods; according to the invention, the research and development idea that the outer shell wraps the inner shell and the inner shell wraps parts is adopted, so that the safety of the breathing lamp suitable for splicing the building blocks is improved; the step screw in the invention has the functions of fixing the shell and the internal medicine and limiting up and down movement.

In the description of the present application, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (11)

1. A breathing lamp suitable for concatenation building blocks, characterized in that includes: the light-emitting device comprises an inner shell assembly (1), an outer shell assembly (4), a light-emitting assembly and a control module (5);

the inner shell assembly (1) is arranged inside the outer shell assembly (4);

the inner shell assembly (1) comprises: a middle chamber of the inner shell and a lower chamber of the inner shell;

the inner shell middle cavity is arranged in the middle of the inner shell assembly (1);

the inner shell lower cavity is arranged at the lower part of the inner shell assembly (1);

the housing assembly (4) comprises: a light transmissive window (401);

the light-emitting assembly is arranged below the light-transmitting window (401);

the light emitting assembly is arranged inside the shell assembly (4);

the light emitted by the light emitting assembly can penetrate through the light transmission window (401);

further comprising: a connecting assembly (2);

the connecting component (2) adopts a step screw;

the step screw includes: step screw cap.

2. The breathing lamp suitable for splicing building blocks as claimed in claim 1, further comprising: a power supply (3);

the power supply (3) is arranged in the cavity in the middle of the inner shell;

the power supply (3) is connected with the control module (5).

3. The breathing lamp suitable for splicing building blocks as claimed in claim 1, wherein the light-emitting assembly is an LED lamp (6);

the LED lamp (6) is connected with the control module (5).

4. Breathing light suitable for splicing building blocks according to claim 1, wherein the control module (5) comprises: a PCB board;

the PCB is connected with the light-emitting component;

the inner shell assembly (1) further comprises: an inner shell upper chamber;

the PCB is arranged in the cavity on the upper part of the inner shell.

5. The breathing lamp suitable for splicing building blocks as claimed in claim 4, further comprising: a control switch;

the control switch is arranged on the PCB.

6. Breathing light suitable for splicing together building blocks according to claim 1,

the inner shell assembly (1) is connected with the outer shell assembly (4) through the connecting assembly (2).

7. Breathing light suitable for splicing together building blocks according to claim 6,

the inner shell assembly (1) is connected with the outer shell assembly (4) through a step screw;

the inner shell assembly (1) comprises: step screw through holes;

the inner shell component (1) is in clearance fit with the outer shell component (4);

the step screw through hole is matched with the step screw.

8. Breathing lamp suitable for splicing building blocks according to claim 7, wherein said housing assembly (4) comprises: and a shell limiting hole.

9. The breathing lamp suitable for splicing building blocks as claimed in claim 2, further comprising: connecting the female head;

the power supply (3) adopts a button cell;

the button batteries are vertically arranged in the cavity in the middle of the inner shell;

the female connecting head is arranged at the lower part of the inner shell assembly (1);

the shell component (4) adopts a hollow cylindrical structure.

10. A method for controlling a breathing lamp suitable for splicing building blocks, characterized in that the breathing lamp suitable for splicing building blocks of any one of claims 1-9 is adopted, comprising:

step S1: acquiring first luminous display information according to the first shell pressing control information;

step S2: acquiring light flicker frequency control information according to the light flicker frequency setting information;

step S3: acquiring second luminous display information according to the second shell pressing control information and the light flicker frequency control information;

step S4: acquiring unit time lamplight brightness variation control information according to the unit time lamplight brightness variation setting information;

step S5: acquiring third luminous display information according to the third shell pressing control information and the unit time lamplight brightness variation control information;

step S6: according to the fourth shell pressing control information, obtaining light-emitting component closing control information;

the first luminous display information guides the continuous luminous behavior of the luminous assembly;

the second luminous display information guides any one of the following luminous behaviors of the luminous assembly:

-alternating lighting;

-alternating dimming of the light;

the third luminous display information guides any one of the following luminous behaviors of the luminous assembly:

-the light is gradually brighter;

gradual dimming of the light.

11. Splicing block, characterized in that a set splicing block form is assembled by using a breathing lamp suitable for splicing blocks according to any one of claims 1-9.

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