CN218490524U - Circuit module based on intelligent garbage bin, bung and intelligent garbage bin - Google Patents

Abstract

The utility model relates to the technical field of garbage classification recycling, a circuit module based on an intelligent garbage bin, a bin cover and the intelligent garbage bin are provided, and the intelligent garbage bin can be independently installed and maintained conveniently through a main control module, a power supply module, a camera module, a voice module, a light supplementing lamp module, a trigger device module and an external lock module which are independently arranged, and the modules do not influence each other, so that the convenience is brought to the early-stage production installation and the later-stage maintenance and replacement; each module of the utility model is independent, the installation position of each module can be unlimited, the final installation position can be determined according to the requirement, and the garbage can with different shapes or sizes can be suitable; the utility model discloses a be equipped with two way input circuit with the power management chip, when no battery power supply, can select different input circuit to guarantee that the power supply of trigger device module is stable, even there is not battery powered, also can trigger the camera module to the article of delivering and detect.

Description

Circuit module based on intelligent garbage bin, bung and intelligent garbage bin

Technical Field

The utility model relates to a waste classification retrieves technical field, in particular to circuit module based on intelligent garbage bin, bung and intelligent garbage bin based on intelligent garbage bin.

Background

Compared with the common garbage can, the cover of the intelligent garbage can be controlled to be opened and closed through the control module without being manually or treaded, and the intelligent garbage can is convenient to use.

At present, intelligent garbage cans on the market, especially the can covers of the intelligent garbage cans have the advantages that in order to achieve more intelligent functions, control circuits of the intelligent garbage cans are complex, the overall cost of the circuits is high, the connection is complex, the later-stage maintenance and repair are not facilitated, most of the garbage cans on the market are not compatible, the applicability is not achieved, and therefore the problem is solved by urgently needing a circuit module based on the intelligent garbage cans.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a circuit module, bung and intelligent garbage bin based on intelligent garbage bin for form independent module with every part of equipment in the bung, make things convenient for the production installation of early stage and the maintenance and the change in later stage.

In order to achieve the above object, the present invention provides the following technical solutions:

the utility model provides a circuit module based on intelligent garbage bin, including independent setting's host system, power module, camera module, voice module, light filling lamp module, trigger device module and peripheral hardware lock module;

the power supply module is connected with the main control module through a data line; the camera module and the light supplement lamp module are connected with the main control module through a flat cable; the voice module, the trigger device module and the peripheral lock module are connected with the main control module through wiring terminals;

the power supply module comprises an integrated battery booster circuit, and the battery booster circuit converts the voltage of the battery pack into the voltage required by the main control module;

the trigger device module comprises an integrated infrared sensing device and a peripheral circuit and is used for triggering the opening of the camera module;

the camera module, the light supplementing lamp module and the trigger device module are independently arranged at a delivery port of the garbage can;

the infrared sensing device comprises at least two infrared sensors, the infrared sensors are arranged on two sides of the delivery opening, the infrared sensors on the two sides are used for correlation, the bottle to be detected falls down to block infrared rays, and therefore the camera module is started to identify the bottle.

Furthermore, the battery booster circuit comprises a DC-DC conversion chip, a first resistor, a first capacitor and a first inductor, a switch control pin of the DC-DC conversion chip is connected with the first capacitor and the first inductor, an enable pin of the DC-DC conversion chip is connected with the first resistor, and the first resistor is connected with the main control module.

Further, the peripheral circuit comprises a power management chip, a compensation pin of the power management chip is connected with two input circuits, the input circuits comprise a first input circuit and a second input circuit, and when no battery supplies power, the first input circuit is not connected with the power management chip or the second input circuit is in short circuit.

Furthermore, the first input circuit comprises a second resistor and a third resistor, the second resistor is connected between the first compensation pin and the second compensation pin of the power management chip, the third resistor is connected between the third compensation pin and the fourth compensation pin of the power management chip, and the second compensation pin of the power management chip is connected with the third compensation pin.

Furthermore, the second input circuit includes a second capacitor, a third capacitor, a fourth capacitor, a fifth capacitor, a sixth capacitor and a second inductor, the second capacitor is connected between the first compensation pin and the third compensation pin of the power management chip, the third capacitor is connected between the third compensation pin and the fourth compensation pin of the power management chip, the third compensation pin of the power management chip is further connected with the fourth capacitor, the fourth compensation pin of the power management chip is further connected with the fifth capacitor, and the first output pin and the second output pin are connected and then sequentially connected with the second inductor and the third capacitor.

Furthermore, the peripheral lock module comprises a delivery lock module and an operation and maintenance lock module, the delivery lock module comprises a scanning unlocking system, the scanning unlocking system is connected with the main control module, and the main control module controls the opening and closing of the delivery port through the scanning unlocking system;

the operation and maintenance lock module is an equipment fixing lock and fixedly installs the barrel cover and the garbage barrel body.

Furthermore, the main control module comprises a main control chip, and a communication interface of the main control chip is connected with the wireless communication module.

Further, the main control chip adopts an A40i chip.

The utility model also provides a bung of intelligent garbage bin, be equipped with foretell circuit module in the bung.

The utility model also provides an intelligent garbage bin, intelligent garbage bin includes foretell bung.

The utility model discloses following beneficial effect has:

(1) The utility model discloses an independent main control module, power module, camera module, voice module, light filling lamp module, trigger device module and the peripheral hardware lock module that sets up can independently install and easy maintenance, do not influence each other between each module, make things convenient for production installation and later maintenance and change in earlier stage;

(2) Each module of the utility model is independent, the installation position of each module can be unlimited, the final installation position can be determined according to the requirement, and the garbage can with different shapes or sizes can be suitable;

(3) The utility model discloses a be equipped with two way input circuit with the power management chip, when no battery power supply, can select different input circuit to guarantee that the power supply of trigger device module is stable, even there is not battery powered, also can trigger the camera module to the article of delivering and detect.

Drawings

Fig. 1 is a schematic block connection diagram of embodiment 1.

Fig. 2 is a battery boosting circuit diagram of embodiment 2.

Fig. 3 is a partial peripheral circuit diagram of embodiment 3.

Fig. 4 is a schematic diagram of placement of the peripheral lock module of embodiment 4.

Fig. 5 is a schematic view of an intelligent trash can cover of embodiment 5.

Fig. 6 is a schematic diagram of the intelligent trash can of embodiment 6.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in conjunction with the accompanying drawings, and it should be noted that the embodiments are only specific illustrations of the present invention, and should not be considered as limitations of the present invention, and the purpose of the embodiments is to make those skilled in the art better understand and reproduce the technical solutions of the present invention, and the protection scope of the present invention should be subject to the scope defined by the claims.

Example 1

As shown in fig. 1, the utility model provides a circuit module based on an intelligent garbage can, which comprises a main control module 1, a power supply module 2, a camera module 3, a voice module 4, a light supplement lamp module 5, a trigger device module 6 and an external lock module 7 which are independently arranged;

the power supply module 2 is connected with the main control module 1 through a data line; the camera module 3 and the light supplement lamp module 5 are connected with the main control module 1 through a flat cable; the voice module 4, the trigger device module 6 and the peripheral lock module 7 are connected with the main control module 1 through wiring terminals;

the power supply module 2 comprises an integrated battery booster circuit, and the battery booster circuit converts the voltage of the battery pack into the voltage required by the main control module 1;

the triggering device module 6 comprises an integrated infrared sensing device and a peripheral circuit, and when the infrared ray devices are in opposite emission, infrared rays are blocked when bottles fall, so that the camera module 3 is started to identify the bottles;

the camera module 3, the light supplement lamp module 5 and the trigger device module 6 are independently arranged at a delivery port of the garbage can;

the infrared sensing device comprises at least two infrared sensors, the infrared sensors are arranged on two sides of the delivery opening, the infrared sensors on the two sides are used for correlation, the bottle to be detected falls down to block infrared rays, and therefore the camera module is started to identify the bottle.

The main control module 1 comprises a main control chip, and a communication interface of the main control chip is connected with the wireless communication module.

The main control chip adopts an A40i chip.

The camera module 3 comprises a camera, and the delivery objects are collected by the camera, and the camera module analyzes the materials of the delivery objects.

The light supplement lamp module 5 comprises a light supplement lamp, and when light is weak, the light supplement lamp provides illumination for the camera module 3.

Example 2

As shown in fig. 2, this embodiment provides a battery voltage boost circuit, where the battery voltage boost circuit includes a DC-DC conversion chip U1, a first resistor R5, a first capacitor C3, and a first inductor L1, a self-boosting pin BS of the DC-DC conversion chip U1 is connected to a connection end of the first capacitor C3, an output voltage feedback pin FB of the DC-DC conversion chip U1 is respectively connected to the first resistor R5 and a sixth resistor R20, a switch control pin SW of the DC-DC conversion chip U1 is connected to another connection end of the first capacitor C3 and a connection end of the first inductor L1, and another connection end of the first inductor L1 is connected to the power supply module 1 after being connected to the first resistor R5; an input pin IN of the DC-DC conversion chip U1 is connected with a power supply voltage, and the power supply voltage is also connected with a seventh capacitor C2; an enable pin EN of the DC-DC conversion chip U1 is connected with a first resistor R3, the first resistor R3 is connected with the main control chip, and a sixth resistor R20 is further connected with a seventh capacitor C2 and a first resistor R5 in a grounding mode.

Example 3

As shown in fig. 3, the present embodiment provides a peripheral circuit, where the peripheral circuit includes a power management chip U2, a compensation pin of the power management chip U2 is connected to two input circuits, the input circuits include a first input circuit 61 and a second input circuit 62, and when no battery is supplied, the first input circuit 61 is not connected to the power management chip U2 or the second input circuit 62 is shorted.

In some preferred embodiments, the first input circuit 61 includes a second resistor R1 and a third resistor R2, the second resistor R1 is connected between a first compensation pin standby (i.e., pin 49) and a second compensation pin LOADSENSE (i.e., pin 50) of the power management chip, the third resistor R2 is connected between a third compensation pin chsense (i.e., pin 58) and a fourth compensation pin chsense (i.e., pin 57) of the power management chip, and the second compensation pin LOADSENSE (i.e., pin 50) of the power management chip is connected to the third compensation pin chsense (i.e., pin 58).

In some preferred embodiments, the second input circuit 62 includes a second capacitor C7, a third capacitor C10, a fourth capacitor C9, a fifth capacitor C11, a sixth capacitor C13, and a second inductor L4, the second capacitor C7 is connected between the first compensation pin BATSENSE (i.e., pin 49) and the third compensation pin chsense (i.e., pin 58) of the power management chip, the third capacitor C10 is connected between the third compensation pin chsense (i.e., pin 58) and the fourth compensation pin chsense (i.e., pin 57) of the power management chip, the third compensation pin chsense (i.e., pin 58) of the power management chip is further connected to the fourth capacitor C9, the fourth compensation pin chsense (i.e., pin 57) of the power management chip is further connected to the fifth capacitor C11, and the first output pin LX-CHG1 (i.e., pin 60) and the second output pin CHG2 (i.e., pin 57) of the power management chip are further connected to the third capacitor C7, the second capacitor C10 and the third inductor L4.

Example 4

As shown in fig. 4, this embodiment provides a peripheral lock module 7, where the peripheral lock module 7 includes a delivery lock module 71 and an operation and maintenance lock module 72, the delivery lock module 71 includes a scanning unlocking system, the scanning unlocking system is connected to the main control module 1, and the main control module 1 controls the opening and closing of the delivery port 101 through the scanning unlocking system;

the scanning unlocking system can be a system which can realize door opening through mobile phone scanning in the prior art, and the scanning unlocking system is not a key point for protection of the application, so that further description is not needed. After the mobile phone is used for scanning the codes, the server issues an unlocking instruction, and the lock in the delivery lock module is opened. Because the cover plate 102 of the delivery opening uses the normally open hinge 711, the cover plate 102 automatically pops open, and the cover plate 102 can be manually closed after delivery is completed.

The operation and maintenance lock module 72 is an equipment fixing lock, and fixedly installs the barrel cover 10 and the garbage barrel body 100; after the barrel cover 10 is mounted on the garbage barrel body 100, the front surface and the left and the right of the barrel cover 10 are completely attached to the barrel opening, the barrel cover 10 cannot be lifted upwards at the front end and cannot swing leftwards and rightwards, the barrel cover 10 can be fixed only at the rear end, the barrel cover 10 is prevented from sliding upwards and forwards from the rear end, the barrel cover and the garbage barrel body can be fixed through a rope or a chain, the fixing method is convenient to detach, and meanwhile, the effect of stability is achieved.

The camera module 3, the light supplementing lamp module 5 and the triggering device module 6 are independently placed at a delivery port 101 of the garbage can body 100, when a bottle is delivered into the delivery port 101, the triggering device module 6 detects the bottle, the camera module 3 is triggered to be opened, and when the light is weak, the light supplementing lamp module 5 is triggered to be opened to supplement light for the camera module 3.

The infrared sensing device comprises at least two infrared sensors, the infrared sensors are arranged on two sides of the delivery port 101, the infrared sensors on the two sides are used for correlation, and the bottles to be detected fall to block infrared rays, so that the camera module 3 is started to identify the bottles.

Example 5

As shown in fig. 5, the present embodiment provides a lid of an intelligent trash can, and a circuit module in any one of embodiments 1 to 4 is disposed in the lid 10. The circuit module is arranged on the barrel cover 10 and comprises a main control module 1, a power supply module 2, a camera module 3, a voice module 4, a light supplementing lamp module 5, a trigger device module 6 and an external lock module 7 which are independently arranged. Each module is independent, the installation position of each module can be unlimited, the final installation position can be determined according to requirements, and the garbage can body with different shapes or sizes can be suitable for the garbage can body with different shapes or sizes; through independent setting's host system 1, power module 2, camera module 3, voice module 4, light filling lamp module 5, trigger device module 6 and peripheral hardware lock module 7, can independently install and easy maintenance, each other does not influence between each module, makes things convenient for the production installation in earlier stage and the maintenance and the change in later stage.

Example 6

As shown in fig. 6, the present embodiment provides an intelligent trash can, which includes the can lid of embodiment 5.

While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all alterations and modifications as fall within the scope of the application.

Claims (9)

1. A circuit module based on an intelligent garbage can is characterized by comprising a main control module, a power supply module, a camera module, a voice module, a light supplementing lamp module, a trigger device module and an external locking module which are independently arranged;

the power supply module is connected with the main control module through a data line; the camera module and the light supplement lamp module are connected with the main control module through a flat cable; the voice module, the trigger device module and the peripheral lock module are connected with the main control module through a wiring terminal;

the power supply module comprises an integrated battery booster circuit, and the battery booster circuit converts the voltage of the battery pack into the voltage required by the main control module; the battery booster circuit comprises a DC-DC conversion chip, a first resistor, a first capacitor and a first inductor, wherein a switch control pin of the DC-DC conversion chip is connected with the first capacitor and the first inductor, an enable pin of the DC-DC conversion chip is connected with the first resistor, and the first resistor is connected with the main control module;

the triggering device module comprises an integrated infrared sensing device and a peripheral circuit and is used for triggering the starting of the camera module;

the camera module, the light supplementing lamp module and the triggering device module are independently placed at a delivery port of the garbage can;

the infrared sensing device comprises at least two infrared sensors, the infrared sensors are arranged on two sides of the delivery opening, and the infrared sensors on the two sides are used for correlation, so that the bottles to be detected fall to block infrared rays, and the camera module is opened to identify the bottles.

2. The circuit module based on the intelligent garbage can of claim 1, wherein the peripheral circuit comprises a power management chip, a compensation pin of the power management chip is connected with two input circuits, the input circuits comprise a first input circuit and a second input circuit, and when no battery is supplied, the first input circuit is not connected with the power management chip or the second input circuit is short-circuited.

3. The circuit module based on the intelligent garbage can of claim 2, wherein the first input circuit comprises a second resistor and a third resistor, the second resistor is connected between the first compensation pin and the second compensation pin of the power management chip, the third resistor is connected between the third compensation pin and the fourth compensation pin of the power management chip, and the second compensation pin of the power management chip is connected with the third compensation pin.

4. The circuit module based on the intelligent garbage can of claim 3, wherein the second input circuit comprises a second capacitor, a third capacitor, a fourth capacitor, a fifth capacitor, a sixth capacitor and a second inductor, the second capacitor is connected between the first compensation pin and the third compensation pin of the power management chip, the third capacitor is connected between the third compensation pin and the fourth compensation pin of the power management chip, the third compensation pin of the power management chip is further connected with the fourth capacitor, the fourth compensation pin of the power management chip is further connected with the fifth capacitor, and the first output pin and the second output pin of the power management chip are connected and then sequentially connected with the second inductor and the third capacitor.

5. The circuit module based on the intelligent garbage can is characterized in that the peripheral lock module comprises a delivery lock module and an operation and maintenance lock module, the delivery lock module comprises a scanning unlocking system, the scanning unlocking system is connected with a main control module, and the main control module controls the opening and closing of a delivery port through the scanning unlocking system; the operation and maintenance lock module is an equipment fixing lock and fixedly installs the barrel cover and the garbage barrel body.

6. The circuit module based on the intelligent garbage can of claim 1 or 5, wherein the main control module comprises a main control chip, and a communication interface of the main control chip is connected with the wireless communication module.

7. The intelligent garbage can-based circuit module as claimed in claim 6, wherein the main control chip is an A40i chip.

8. A barrel cover of an intelligent garbage barrel is characterized in that the circuit module set in any one of claims 1-7 is arranged in the barrel cover and is arranged on the barrel cover, and the circuit module set comprises a main control module, a power supply module, a camera module, a voice module, a light supplementing lamp module, a triggering device module and an external lock module which are independently arranged.

9. An intelligent trash can, comprising the can cover of claim 8.

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