CN108182741B - Intelligent commodity management system, method and storage medium - Google Patents

Abstract

The invention discloses a commodity intelligent management system and a method, which comprises an intelligent tag and a server, wherein the intelligent tag is bound with a commodity in a one-to-one mode, the server comprises a memory and a processor, the memory stores an executable program, and the processor can read the program of the memory to execute the following method: acquiring information of the intelligent label; and after receiving the legal information of the commodity corresponding to the intelligent tag, sending an unlocking instruction to the intelligent tag to enable the intelligent tag to execute an unlocking action. In addition, the invention also discloses a storage medium capable of realizing the method. The invention can solve the problem of inconvenience of recycling the commodity label.

Description

Intelligent commodity management system, method and storage medium

Technical Field

The present invention relates to a technology for intelligent management of commodities, and more particularly, to a system, a method, and a storage medium for intelligent management of commodities.

Background

With the development of science and technology, the level of mechanical automation is higher and higher, and many industries gradually adopt mechanical automation operation to reduce the expenditure of labor cost.

At present, an unmanned store appears in the market, the cost of a merchant is greatly reduced due to the unmanned condition, but a higher requirement is provided for ensuring the safety of commodities in the store. The intelligent management of commodities is the most important thing in unmanned stores, and the key problem of the intelligent management of commodities is how to prevent burglary. Most of the anti-theft methods adopted by unmanned stores store tag information corresponding to paid goods in database, when customer leaves, the system checks information to judge whether payment has been made, when goods have been paid, the store gate is opened to let customer leave, thereby achieving the anti-theft function. In addition, an anti-theft mode is that after the commodities are paid, unlocking devices are used for unlocking the commodities one by one. The two modes can achieve the purpose of theft prevention.

However, the existing two anti-theft methods for intelligently managing commodities have the following defects:

(1) the first method is as follows: the labels or additional tags on the goods can be taken away along with the goods, and can not be recycled, which causes resource waste and has too high cost for the merchants.

(2) The second method comprises the following steps: although the label can be recycled, the label needs to be unlocked one by a customer using an unlocking device, which causes inconvenience to the customer.

Disclosure of Invention

In order to overcome the defects of the prior art, one of the objectives of the present invention is to provide an intelligent management system for commodities, which can solve the inconvenience of recycling commodity labels.

The second purpose of the present invention is to provide an intelligent management method for commodities, which can solve the inconvenience of recycling commodity labels.

It is a further object of the present invention to provide a computer-readable storage medium that can solve the inconvenience of recycling merchandise tags.

One of the purposes of the invention is realized by adopting the following technical scheme:

an intelligent management system for commodities, comprising: the intelligent tag and the server, the intelligent tag is bound with the commodity one-to-one, the server comprises a storage and a processor, the storage stores executable programs, and the processor can read the programs of the storage to execute the following method:

acquiring information of the intelligent label;

and after receiving the legal information of the commodity corresponding to the intelligent label, sending an unlocking instruction to the intelligent label to enable the intelligent label to execute an unlocking action.

Further, the legal information of the commodity corresponding to the smart tag specifically includes: and payment information of the commodity corresponding to the intelligent label.

Further, the smart tag adopts a Radio Frequency Identification (RFID) semi-active chip; the acquiring of the information of the smart tag specifically includes: and acquiring EPC (Electronic Product Code) codes of the intelligent tags.

Further, the smart tag includes: the locking mechanism and the control circuit are fixed in the inner cavity of the shell, the fixed end of the lock beam is fixed on the shell, the shell is provided with a lock hole used for locking the movable end of the lock beam, the locking mechanism is electrically connected with the control circuit, and the control circuit can control the locking mechanism to lock or unlock the movable end of the lock beam;

after receiving the legal information of the commodity corresponding to the intelligent tag, sending an unlocking instruction to the intelligent tag, so that the intelligent tag executes an unlocking action specifically comprises the following steps: and after receiving the legal information of the commodity corresponding to the intelligent label, sending an unlocking instruction to the control circuit, and enabling the control circuit to control the locking mechanism to execute an unlocking action.

Further, the server also comprises a prompting device; the method that the processor can read the program of the memory to execute further comprises: and after the unlocking information of the intelligent label is obtained, prompting the user that the unlocking is successful.

The second purpose of the invention is realized by adopting the following technical scheme:

an intelligent commodity management method comprises the following steps:

acquiring information of a smart label, wherein the smart label is bound with a commodity in a one-to-one manner;

and after receiving the legal information of the commodity corresponding to the intelligent label, sending an unlocking instruction to the intelligent label to enable the intelligent label to execute an unlocking action.

Further, the intelligent label adopts an RFID semi-active chip; the acquiring of the information of the smart tag specifically includes: and acquiring the EPC code of the intelligent label.

Further, the smart tag includes: the locking mechanism and the control circuit are fixed in the inner cavity of the shell, the fixed end of the lock beam is fixed on the shell, the shell is provided with a lock hole used for locking the movable end of the lock beam, the locking mechanism is electrically connected with the control circuit, and the control circuit can control the locking mechanism to lock or unlock the movable end of the lock beam;

after receiving the legal information of the commodity corresponding to the intelligent tag, sending an unlocking instruction to the intelligent tag, so that the intelligent tag executes an unlocking action specifically comprises the following steps:

and after receiving the legal information of the commodity corresponding to the intelligent label, sending an unlocking instruction to the control circuit, and enabling the control circuit to control the locking mechanism to execute an unlocking action.

Further, the intelligent management method for commodities further comprises the following steps: and after the unlocking information of the intelligent label is obtained, prompting a user that the unlocking is successful.

The third purpose of the invention is realized by adopting the following technical scheme:

the computer readable storage medium stores an executable computer program, and the computer program realizes the intelligent commodity management method when running. Compared with the prior art, the invention has the beneficial effects that:

the intelligent tag is adopted and is bound with the commodity in a one-to-one mode, and after the intelligent tag receives legal information of the corresponding commodity, the intelligent tag can automatically complete an unlocking task without manual intervention; in addition, when the customer does not unfasten the intelligent tag to take the commodity away, an alarm is triggered, the safety of the commodity is ensured under the unmanned monitoring state, and the purpose of intelligent management of the commodity is achieved; in addition, the intelligent label can be automatically unlocked without using an additional unlocking device to unlock the intelligent label, so that the intelligent label is convenient and quick, the recycling of the intelligent label is realized, the cost of a merchant is reduced, the unlocking operation of a customer is not needed, and the intelligent label is very convenient.

Drawings

Fig. 1 is a system block diagram of an intelligent management system for commodities, provided by the present invention;

FIG. 2 is a schematic diagram of a mechanical structure of a smart tag provided in the present invention;

FIG. 3 is a perspective view of a smart tag provided by the present invention;

fig. 4 is a flowchart of an intelligent management method for commodities provided by the present invention.

Reference numerals: 1. a smart tag; 101. a housing; 102. a lock beam; 1021. a fixed end; 1022. a movable end; 103. a locking mechanism; 1031. a locking member; 1032. a locking trigger switch; 1033. a locking member movement control mechanism; 104. a control circuit; 1041. a signal transmitting and receiving antenna; 1042. a locking mechanism state detection device; 1043. a locking mechanism motion control circuit; 2. a server; 201. a memory; 202. a processor.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

Please refer to fig. 1, which is a system block diagram of an intelligent management system for commodities provided by the present invention, including: the intelligent tag 1 and the server 2, the intelligent tag 1 is bound with the goods one-to-one, the server 2 includes a memory 201 and a processor 202, the memory 201 stores executable programs, and the processor 202 can read the programs of the memory 201 to execute the following method:

acquiring information of the intelligent tag 1;

after receiving the legal information of the commodity corresponding to the intelligent tag 1, sending an unlocking instruction to the intelligent tag 1 to enable the intelligent tag 1 to execute an unlocking action

The intelligent commodity management system has the working mode that:

the commodity and the intelligent label 1 are bound one to one and then placed in a shop, when a customer selects the commodity and places the commodity into a shopping frame, the server 2 reads information of the intelligent label 1, after the customer pays, the server 2 sends an unlocking instruction to the intelligent label 1, the intelligent label 1 automatically unlocks after receiving the unlocking instruction, the intelligent label 1 is separated from the commodity, and the customer leaves the intelligent label 1 after placing the intelligent label 1 at a specified position. The whole process does not need manual (employee) operation, and the intelligent management of commodities is realized; but intelligent label 1 automatic unlocking, reached intelligent label 1 recycle's purpose, avoided the trouble that the customer need use unlocking means unblock one by one moreover, and only after the customer paid for, intelligent label 1 side automatic unlocking, when the customer took away intelligent label 1, the detector at shop gate detected out intelligent label 1 and can triggered the alarm, reached the purpose that prevents to steal, guaranteed the safety of commodity under the condition of unmanned monitoring. This intelligent management system of commodity can be applied to unmanned self-service retail, and recycle can be retrieved to smart label 1, but need not the customer and carry out the unblock processing to can once only unblock a plurality of smart labels 1, convenient and fast.

As a preferred embodiment, the legal information of the product corresponding to the smart tag 1 specifically includes: payment information of the commodity corresponding to the smart tag 1. When the goods are paid in the payment procedure, the server 2 sends the payment information of the goods to the smart tag 1, so that the smart tag 1 executes the unlocking action.

As a preferred embodiment, the smart tag 1 employs an RFID semi-active chip; the acquiring of the information of the smart tag 1 specifically includes: the EPC code of the smart tag 1 is obtained. The RFID semi-active chip is adopted, so that the intelligent tags 1 have uniqueness, and each intelligent tag 1 has a unique EPC code and can be one-to-one bound with a commodity, so that the problem of mistaken unlocking can be avoided; in addition, the state of the smart tag 1 can be judged by manufacturing the smart tag 1 by using the RFID semi-active chip.

As a preferred embodiment, the smart tag 1 comprises: the locking mechanism 103 and the control circuit 104 are fixed in the inner cavity of the casing 101, the fixed end 1021 of the lock beam 102 is fixed on the casing 101, the casing 101 is provided with a lock hole for locking the movable end 1022 of the lock beam 102, the locking mechanism 103 is electrically connected with the control circuit 104, and the control circuit 104 can control the locking mechanism 103 to lock or unlock the movable end 1022 of the lock beam 102;

after receiving the legal information of the commodity corresponding to the intelligent tag 1, sending an unlocking instruction to the intelligent tag 1, so that the intelligent tag 1 executes an unlocking action specifically including: after receiving the legal information of the commodity corresponding to the smart tag 1, an unlocking instruction is sent to the control circuit 104, so that the control circuit 104 controls the locking mechanism 103 to execute an unlocking action. Through the combination of the locking mechanism 103 and the control circuit 104, the control circuit 104 can control the locking mechanism 103 to unlock by itself after receiving an unlocking instruction sent by the server 2, so that the movable end 1022 of the lock beam 102 is released from the lock hole, thereby releasing the binding of the commodity without manual operation.

As a preferred embodiment, the server further comprises a prompting device; the method that the processor 202 can read the program of the memory 201 to execute further comprises: and after the unlocking information of the intelligent label is obtained, prompting the user that the unlocking is successful. The prompt function is set, so that the experience effect of a user is better, and the specific prompt mode can be voice prompt or text prompt.

Please refer to fig. 2, which is a schematic diagram of a mechanical structure of the smart tag 1 according to the present invention. The smart tag 1 includes: the locking mechanism 103 and the control circuit 104 are fixed in the inner cavity of the casing 101, the fixed end 1021 of the lock beam 102 is fixed on the casing 101, the casing 101 is provided with a lock hole for locking the movable end 1022 of the lock beam 102, the locking mechanism 103 is electrically connected with the control circuit 104, and the control circuit 104 can control the locking mechanism 103 to lock or unlock the movable end 1022 of the lock beam 102.

The working principle of the intelligent tag 1 is as follows:

the control circuit 104 controls the locking mechanism 103 to move accordingly according to the received locking signal or unlocking signal, so as to lock or unlock the movable end 1022 of the lock beam 102 in the lock hole, and feed back the locking information or unlocking information to the server 2. This intelligent label can automatic unblock, not only can retrieve cyclic utilization, reduces trade company's cost, has still avoided the trouble that the customer used unlocking means to the unblock of commodity one by one.

As a preferred embodiment, the smart tag 1 adopts an RFID semi-active chip, which can determine the state of the smart tag 1, and each smart tag 1 has a unique EPC code, thereby avoiding the problem of false unlocking.

As a preferred embodiment, the locking mechanism 103 includes: a locking member 1031, a locking trigger switch 1032, and a locking member movement control mechanism 1033; the locking member 1031 is provided with a locking pin and a movable groove, the locking member motion control mechanism 1033 is provided with a cam, a convex point is arranged on the cam, and the convex point of the cam is embedded in the movable groove to form a cam mechanism; the lock member movement control mechanism 1033 is further provided with a driving means for driving the cam mechanism, and the lock trigger switch 1032 and the driving means are electrically connected to the control circuit 104, respectively. The driving device is arranged under the cam and movably connected with the cam to form a mechanism, and when the driving device rotates, the driving device can drive the cam to move. The lock trigger switch 1032 is used to feed back a lock signal to the control circuit 104 when the movable end 1022 of the shackle 102 is inserted into the lock hole. After receiving the locking signal or the unlocking signal, the control circuit 104 activates the driving device to move the cam mechanism, thereby controlling the locking pin to lock or unlock the movable end 1022 of the lock beam 102.

In a preferred embodiment, the drive device is a motor. In addition, devices such as an electromagnetic valve and a nickel-titanium wire can also be adopted. The cam and the output shaft of the motor (including the motor with the speed reducer) are relatively fixed in a tight fit mode, a pin-key connection mode and the like. The motor is adopted in the embodiment, and the anti-blocking design is adopted, so that the power supply stability of the button battery is ensured. The driving device is used for driving the cam mechanism to make the cam mechanism drive the locking member 1031 to perform the locking or unlocking operation, so long as the driving device can achieve the purpose of driving the cam mechanism, and the driving device is not limited to the above options.

As a preferred embodiment, the control circuit 104 includes: the locking mechanism comprises a signal transmitting and receiving antenna 1041, a locking mechanism state detecting device 1042 and a locking mechanism motion control circuit 1043, wherein a locking trigger switch 1032, a driving motor, the signal transmitting and receiving antenna 1041 and the locking mechanism state detecting device 1042 are respectively and electrically connected with the locking mechanism motion control circuit 1043. The signal transmitting and receiving antenna 1041 is used for receiving an unlocking signal sent by the server 2 or sending unlocking information to the server 2 after the smart tag 1 completes an unlocking action. The signal transmitting and receiving antenna 1041 feeds back the received unlocking signal to the locking mechanism motion control circuit 1043, and the locking mechanism motion control circuit 1043 controls the driving motor to work, so as to drive the cam mechanism to unlock the lock beam 102. When the lock beam 102 is unlocked, the locking mechanism state detecting device 1042 feeds the unlocking information back to the locking mechanism motion control circuit 1043, the locking mechanism motion control circuit 1043 controls the driving motor to stop rotating after receiving the unlocking information, and sets the state of the smart tag 1 to the unlocking state, and in addition, the locking mechanism motion control circuit 1043 feeds the unlocking information back to the server 2 through the signal transmitting and receiving antenna 1041. The locking mechanism state detection device 1042 is realized by adopting a reset switch and an algorithm to ensure the accuracy of state detection.

In a preferred embodiment, the locking mechanism status detecting means 1042 includes a locking status switch and an unlocking status switch. The locking state switch and the unlocking state switch are respectively electrically connected with the locking mechanism motion control circuit 1043. The lock status switch is used to detect the lock status of the lock beam 102 and feed back the lock status to the locking mechanism motion control circuit 1043. The unlock state switch is used to detect the unlock state of the lock beam 102 and feed back the unlock state to the locking mechanism motion control circuit 1043. The locking state switch is arranged above the locking member 1031, and when the locking member 1031 moves to a position where the lock beam 102 is completely locked, the locking state switch is touched to trigger the locking state switch; the unlock state switch is disposed at one side of the unlock moving direction of the locking member 1031, and when the locking member 1031 moves to a position where the lock beam 102 is unlocked, the unlock state switch may be touched to trigger the unlock state switch.

In a preferred embodiment, the lock beam 102 is a steel wire rope, and the movable end of the steel wire rope is provided with a metal buckle. The steel wire rope is not easy to be damaged, and the safety of commodities can be ensured.

The locking process of the intelligent tag 1 is as follows: when the movable end 1022 of the lock beam 102 is inserted into the lock hole, the locking trigger switch 1032 is triggered, the locking trigger switch 1032 feeds a locking signal back to the locking mechanism motion control circuit 1043, the locking mechanism motion control circuit 1043 controls the motor to be powered to rotate, and then the cam mechanism is driven to drive the locking member 1031 to move in the locking direction until the locking pin locks the lock beam 102, the locking state switch detects a locking state and feeds the locking state back to the locking mechanism motion control circuit 1043, the locking mechanism motion control circuit 1043 controls the motor to stop rotating, and the smart tag 1 is set to be in the locking state.

The unlocking process of the smart tag 1: the signal transmitting and receiving antenna 1041 feeds back the received unlocking instruction to the locking mechanism motion control circuit 1043, the locking mechanism motion control circuit 1043 controls the motor to be electrified and rotated, and then the cam mechanism is driven to drive the locking member 1031 to move towards the unlocking direction until the locking pin completely releases the locking of the lock beam 102, the unlocking state switch detects the unlocking state and feeds back the unlocking state to the locking mechanism motion control circuit 1043, the locking mechanism motion control circuit 1043 controls the motor to stop rotating, then the intelligent tag 1 is set to be in the unlocking state, and the unlocking signal is fed back to the server 2 through the signal transmitting and receiving antenna 1041.

The assembled smart label 1 is shown in perspective view in fig. 3.

Please refer to fig. 4, which is a flowchart illustrating an intelligent management method for commodities according to the present invention. The method comprises the following steps:

s1, acquiring information of the intelligent tag 1, wherein the intelligent tag 1 is one-to-one bound with the commodity;

and S2, after receiving the legal information of the commodity corresponding to the intelligent tag 1, sending an unlocking instruction to the intelligent tag 1 to enable the intelligent tag 1 to execute an unlocking action.

By the method, intelligent management of commodities can be realized, a customer can shop by himself, the intelligent tag 1 is unlocked automatically after payment, manual operation is not needed, convenience and rapidness are achieved, and the problem of inconvenience that the customer needs to unlock the commodities one by using an unlocking device is solved; the intelligent label 1 corresponding to the unpaid commodity cannot be opened, when a customer takes away the intelligent label 1, an alarm device at the door of a shop can be triggered, and the anti-theft effect can be achieved without artificial monitoring.

In particular, the smart tag 1 has a structure shown in fig. 2.

As a preferred embodiment, the step S1 of acquiring the information of the smart tag 1 specifically includes: the EPC code of the smart tag 1 is obtained. The EPC codes are obtained, the uniqueness of the EPC codes is utilized, the intelligent tags 1 correspond to the commodities one by one, and mistaken unlocking is avoided.

As a preferred embodiment, after receiving the legal information of the commodity corresponding to the smart tag 1 in step S2, sending an unlocking instruction to the smart tag 1, so that the smart tag 1 performs an unlocking operation specifically includes: after receiving the legal information of the commodity corresponding to the smart tag 1, an unlocking instruction is sent to the control circuit 104, so that the control circuit 104 controls the locking mechanism 103 to execute an unlocking action.

As a preferred embodiment, the intelligent management method for commodities further comprises the following steps: after the unlocking information of the intelligent tag 1 is obtained, the user is prompted to unlock successfully. The prompting mode can adopt voice prompt or text prompt, the prompting function is added, and the user experience is provided.

The embodiment of the invention also provides a computer readable storage medium, wherein the computer readable storage medium stores an executable computer program, and the intelligent management method for commodities is realized when the computer program runs.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (8)

1. An intelligent management system for commodities, comprising: the intelligent tag and the server, the intelligent tag is bound with the commodity one-to-one, the server comprises a storage and a processor, the storage stores executable programs, and the processor can read the programs of the storage to execute the following method:

acquiring information of the intelligent label;

after receiving the legal information of the commodity corresponding to the intelligent tag, sending an unlocking instruction to the intelligent tag to enable the intelligent tag to execute an unlocking action;

the smart tag includes: the locking mechanism and the control circuit are fixed in the inner cavity of the shell, the fixed end of the lock beam is fixed on the shell, the shell is provided with a lock hole used for locking the movable end of the lock beam, the locking mechanism is electrically connected with the control circuit, and the control circuit can control the locking mechanism to lock or unlock the movable end of the lock beam;

after receiving the legal information of the commodity corresponding to the intelligent tag, sending an unlocking instruction to the intelligent tag, so that the intelligent tag executes an unlocking action specifically comprises the following steps: after receiving the legal information of the commodity corresponding to the intelligent label, sending an unlocking instruction to the control circuit, and enabling the control circuit to control the locking mechanism to execute an unlocking action;

the locking mechanism includes: the locking part, the locking trigger switch and the locking part motion control mechanism; the locking part is provided with a locking pin and a movable groove, the locking part motion control mechanism is provided with a cam, a convex point is arranged on the cam, and the convex point of the cam is embedded in the movable groove to form a cam mechanism; the locking piece motion control mechanism is also provided with a driving device for driving the cam mechanism, and the locking trigger switch and the driving device are respectively and electrically connected with the control circuit; the locking trigger switch is used for feeding back a locking signal to the control circuit when the movable end of the lock beam is inserted into the lock hole; and after receiving a locking signal or an unlocking instruction, the control circuit starts the driving device to move the cam mechanism, so that the locking pin is controlled to lock or unlock the movable end of the lock beam.

2. The intelligent management system for commodities according to claim 1, wherein the legal information of the commodity corresponding to the smart tag specifically includes: and payment information of the commodity corresponding to the intelligent label.

3. The intelligent management system for commodities as claimed in claim 1, wherein said intelligent tag employs an RFID semi-active chip; the acquiring of the information of the smart tag specifically includes: and acquiring the EPC code of the intelligent label.

4. The intelligent management system for commodities according to claim 1, wherein said server further comprises prompting means; the method that the processor can read the program of the memory to execute further comprises: and after the unlocking information of the intelligent label is obtained, prompting the user that the unlocking is successful.

5. An intelligent commodity management method is characterized by comprising the following steps:

acquiring information of a smart label, wherein the smart label is bound with a commodity in a one-to-one manner;

after receiving the legal information of the commodity corresponding to the intelligent tag, sending an unlocking instruction to the intelligent tag to enable the intelligent tag to execute an unlocking action;

the smart tag includes: the locking mechanism and the control circuit are fixed in the inner cavity of the shell, the fixed end of the lock beam is fixed on the shell, the shell is provided with a lock hole used for locking the movable end of the lock beam, the locking mechanism is electrically connected with the control circuit, and the control circuit can control the locking mechanism to lock or unlock the movable end of the lock beam;

after receiving the legal information of the commodity corresponding to the intelligent tag, sending an unlocking instruction to the intelligent tag, so that the intelligent tag executes an unlocking action specifically comprises the following steps: after receiving the legal information of the commodity corresponding to the intelligent label, sending an unlocking instruction to the control circuit, and enabling the control circuit to control the locking mechanism to execute an unlocking action;

the locking mechanism includes: the locking part, the locking trigger switch and the locking part motion control mechanism; the locking part is provided with a locking pin and a movable groove, the locking part motion control mechanism is provided with a cam, a convex point is arranged on the cam, and the convex point of the cam is embedded in the movable groove to form a cam mechanism; the locking piece motion control mechanism is also provided with a driving device for driving the cam mechanism, and the locking trigger switch and the driving device are respectively and electrically connected with the control circuit; the locking trigger switch is used for feeding back a locking signal to the control circuit when the movable end of the lock beam is inserted into the lock hole; and after receiving a locking signal or an unlocking instruction, the control circuit starts the driving device to move the cam mechanism, so that the locking pin is controlled to lock or unlock the movable end of the lock beam.

6. The intelligent management method for commodities according to claim 5, wherein said intelligent tag employs an RFID semi-active chip; the acquiring of the information of the smart tag specifically includes: and acquiring the EPC code of the intelligent label.

7. The intelligent management method for commodities according to claim 5, further comprising: and after the unlocking information of the intelligent label is obtained, prompting the user that the unlocking is successful.

8. A computer-readable storage medium, wherein the computer-readable storage medium stores an executable computer program, and the computer program is executed to implement the intelligent management method for commodities according to any one of claims 5 to 7.

Images