Modularized intelligent timing switch system
Technical Field
The invention relates to a modular intelligent timing switch system.
Background
Intelligence switch, be the more common electronic switch at present, along with the life of house, official working, the intelligent application of communal facility is higher and higher, intelligence switch is also used by people more and more, at present, and a plurality of consumer of general intelligence switch cooperation, a control for realizing consumer under multiple condition, and the consumer work of controlling the difference according to various conditions is under the mode of difference, the comparatively common mode that sets up of present intelligence switch, and wherein an energy supply of comparatively wide application is then the operating condition through time control consumer, and can reach the effect that sets up different control time according to the user's demand.
At present, with the popularization of intelligent office work, each office is set according to the requirements of office workers, and an intelligent switch module is provided, the intelligent switch is configured with a series of control information, the control information is configured according to the requirements of users, such as temperature and humidity control, light control and office electrical appliance control, each office worker has different requirements on the office environment according to different office laws and office habits, the principle is that electric equipment of the office scene is connected into the intelligent switch module, a timer, a counter and an encoder configured by the intelligent switch module work so as to control each office structure to work according to the office habits configured in advance, in the actual office scene, the exchange of positions is often involved, and the exchange of the positions causes great inconvenience, therefore, office staff need to reconfigure the intelligent switch, and great inconvenience is caused.
Disclosure of Invention
In view of the above, the present invention provides a modular intelligent time switch system.
In order to solve the technical problems, the technical scheme of the invention is as follows: a modularized intelligent timing switch system comprises a fixed module and a control module, wherein the fixed module is used for being fixed on a wall body and connected with a plurality of electric devices, cables of the electric devices are connected to the control module through the fixed module, the control module is used for outputting control signals according to information configured by a user to control the corresponding electric devices to work, the modularized intelligent timing switch system is characterized in that a first mounting structure is formed on the fixed module, a second mounting structure is arranged on the control module, the fixed module and the control module are matched through the first mounting structure and the second mounting structure to realize detachable connection, the cables of the electric devices corresponding to the fixed module are respectively coupled with mounting contacts formed on the first mounting structure, the control module comprises a plurality of output contacts, when the first mounting structure is matched with the second mounting structure, the output contact contacts the mounting contact to output the control signal;
the first mounting structure comprises a first magnetic bulge, the first magnetic bulge comprises a first mounting surface and a second mounting surface which are perpendicular to each other, a mounting opening is formed by the first mounting surface and the second mounting surface, the first mounting surface is parallel to the wall surface, the second mounting structure comprises a second magnetic bulge, and the second magnetic bulge is matched with the mounting opening;
the fixed module is provided with a plurality of mounting grooves, the installation contacts are respectively arranged in the mounting grooves, the control module is provided with a plurality of installation bulges matched with the mounting grooves, the output contacts are respectively arranged on the surfaces of the installation bulges, and when the second magnetic bulges are embedded with the installation openings through magnetic force, the output contacts are matched with the installation contacts.
Further, an inner rubber ring is arranged on the inner edge of the mounting groove.
Further, the control module further comprises a bluetooth module, and the bluetooth module is used for outputting the control signal.
Further, the connector comprises an enclosing body, wherein the enclosing body is provided with a third mounting structure, the enclosing body is matched with the first mounting structure of the fixed module through the third mounting structure to realize detachable connection, and the enclosing body is provided with a plurality of insulating terminals which are used for sealing the mounting contacts.
Furthermore, the control module is provided with a fingerprint acquisition system, the fingerprint acquisition system is provided with a fingerprint acquisition device and a fingerprint information database, the fingerprint acquisition device is used for acquiring and comparing fingerprint information, the fingerprint information database is used for storing fingerprint information, the control module comprises control information databases, the control information in each control information database corresponds to the fingerprint information in the fingerprint information database, and when the fingerprint information acquired by the fingerprint acquisition device has matched fingerprint information in the fingerprint information database, the corresponding control information is called according to the matched fingerprint information to generate the control signal.
Further, the control module is configured with a dispute coordination system, the dispute coordination system is configured with a coordination algorithm, and when any one of the control modules calls more than two pieces of control information at the same time, the coordination algorithm generates a new piece of control information according to all the called control information to output the control information.
Further, the coordination algorithm comprises a temperature sub-algorithm and a humidity sub-algorithm;
the temperature sub-algorithm comprises the steps of respectively obtaining temperature required values T from all called control information, obtaining a weight X of each control information, and obtaining an average temperature required value Tr according to a weighting algorithm for n called control information, wherein Tr is (T1X 1+ … Tn Xn)/n, Tn represents the temperature required value in the nth control information, Xn represents the weight of the corresponding control information, and the average temperature required value Tr is used as the temperature required value in the new control information;
the humidity sub-algorithm comprises the steps of respectively obtaining a humidity requirement value d from all called control information, obtaining a weight value X of each control information, and obtaining an average humidity requirement value dr according to a weighting algorithm for n called control information, wherein dr is (d 1X 1+ … dn Xn)/n, and dn represents the humidity requirement value in the nth control information and is used as the humidity requirement value in the new control information.
Further, the weight X of any control information is obtained according to the following formula:
xx/(a 1+ … Ax + … An), where Ax denotes the number of times the xth control information is used, Xx denotes a weight of the xth control information, and An denotes the number of times the nth control information is used.
Further, the coordination algorithm includes a lighting sub-algorithm, and the lighting sub-algorithm includes obtaining lighting information from all called control information to obtain corresponding lighting time periods, summing up all lighting time periods to obtain a total lighting time period, and using the total lighting time period as a lighting time period in new control information.
The technical effects of the invention are mainly reflected in the following aspects: through setting up like this, every official working personnel can select the operating condition of corresponding consumer according to self demand, when needing to change the position simultaneously, only need take control module to the office region that corresponds, install on the regional fixed module of official working, just can accomplish the installation, and original configuration still can not change like this, improves reliability and convenience.
Drawings
FIG. 1: the invention discloses a side view of a fixed module of a modular intelligent timing switch system;
FIG. 2: FIG. 1 is a front view of a fixed module of the modular intelligent time switch system of the present invention;
FIG. 3: the invention discloses a control module structure test chart of a modular intelligent timing switch system;
FIG. 4: the control module of FIG. 3 of the modular intelligent time switch system of the present invention is shown in elevation;
FIG. 5: the invention discloses a schematic diagram of a matching structure of a fixed module and a control module of a modular intelligent timing switch system;
FIG. 6: the invention discloses a closed body structure schematic diagram of a modular intelligent timing switch system.
Reference numerals: 10. a cable; 100. a fixed module; 110. a first magnetic projection; 111. a first mounting surface; 112. a second mounting surface; 120. mounting grooves; 121. an inner rubber ring; 131. installing a contact; 200. a control module; 210. a second magnetic projection; 220. mounting a boss; 231. a contact point; 300. an enclosure; 310. a third mounting structure; 320. an insulated terminal;
Detailed Description
The following detailed description of the embodiments of the present invention is provided in order to make the technical solution of the present invention easier to understand and understand.
Referring to fig. 1 to 5, a modularized intelligent time switch system includes a fixed module 100 and a control module 200, the fixed module is used for being fixed on a wall and connected to a plurality of electric devices, cables 10 of the electric devices are connected to the control module 200 through the fixed module 100, the control module 200 is used for outputting control signals according to information configured by a user to control the corresponding electric devices to work, a first mounting structure is formed on the fixed module 100, a second mounting structure is arranged on the control module 200, the fixed module 100 and the control module 200 are detachably connected through the cooperation of the first mounting structure and the second mounting structure, the cables 10 of the electric devices corresponding to the fixed module 100 are respectively coupled with mounting contacts 131 formed on the first mounting structure, the control module 200 includes a plurality of output contacts, when the first and second mounting structures are mated, the output contact and the mounting contact 131 contact to output the control signal;
the first mounting structure comprises a first magnetic projection 110, the first magnetic projection 110 comprises a first mounting surface 111 and a second mounting surface 112 which are perpendicular to each other, a mounting opening is formed by the first mounting surface 111 and the second mounting surface 112, the first mounting surface 111 is parallel to the wall surface, the second mounting structure comprises a second magnetic projection 210, and the second magnetic projection 210 is matched with the mounting opening;
the fixed module 100 is provided with a plurality of mounting grooves 120, the mounting contacts 131 are respectively arranged in the mounting grooves 120, the control module 200 is provided with a plurality of mounting protrusions 220 matched with the mounting grooves 120, the output contacts are respectively arranged on the surfaces of the mounting protrusions 220, and when the second magnetic protrusions 210 are embedded with the mounting openings through magnetic force, the output contacts are matched with the mounting contacts 131.
Firstly, the fixed module 100 and the control module 200 are explained separately, firstly, the concept of the fixed module 100 is similar to a distribution box in a home decoration system, all the electric appliances in an office area are connected to the distribution box through cables 10, and the difference is that the original intelligent switch distribution box and the control panel are fixedly arranged, so that the control panel directly on the wall surface can operate the action of a switch, and the control panel, namely the control module 200 and the fixed module 100 are arranged separately, and are fixed in a matching way through a first mounting structure and a second mounting structure, and it needs to be explained that, in order to realize the fixing effect and simultaneously achieve the effect of convenient taking, the fixing is realized through a magnetic matching way, and the second mounting surface 112 can play a role of supporting the control module 200 through forming two mutually perpendicular mounting surfaces on the first mounting structure, simultaneously, through the matching of the magnetic protrusions, the stability of fixation is guaranteed, and meanwhile, the magnetic fixing device is convenient to take and is simple and convenient. The wiring effect of the whole device can be improved by the way of matching the output contact with the installation contact 131, and the effect of intelligent office exchange configuration can be realized without any change on the circuit and the software program.
For example, the a1 and a2 office areas are all provided with air conditioners, table lamps, electric lamps, humidifiers and other electrical appliances, the parameter set by the staff of a1 is 26 degrees centigrade, the humidity is 30%, and the habitual use time of the staff is 9-18 points, so that the office area of a1 can work according to the habit of the staff in the period, and if the staff of a1 needs to change the position to the office area of a2 at the moment, only the control module 200 needs to be taken to the area of a2 and installed on the fixed module 100 in the area of a2, which is simple and convenient.
An inner rubber ring 121 is arranged on the inner edge of the mounting groove 120. Through setting up like this, sealed effect when guaranteeing the contact plays a fixed effect simultaneously, interference fit when guaranteeing the contact.
The control module 200 further includes a bluetooth module, and the bluetooth module is configured to output the control signal. The bluetooth module can be set to achieve a wireless control effect, and the control module 200 can be changed into an independent control panel for use.
Also included is an enclosure 300, the enclosure 300 being provided with a third mounting structure 310, the enclosure 300 cooperating with the first mounting structure of the stationary module 100 via the third mounting structure 310 for detachable connection, the enclosure 300 being provided with a number of insulated terminals 320, the insulated terminals 320 being for sealing the mounting contacts 131. The enclosure 300 is provided to ensure that the mounting contacts 131 are not damaged by short circuits or the like when an office area is not occupied.
Control module 200 disposes the fingerprint collection system, the fingerprint collection system disposes fingerprint collection device and fingerprint information database, the fingerprint collection device is used for gathering and comparing fingerprint information, the fingerprint information database is used for storing fingerprint information, control module 200 is including the control information database, in each control information database the control information all is in correspond fingerprint information has in the fingerprint information database, works as when the fingerprint information that the fingerprint collection device gathered has the fingerprint information of matching in the fingerprint information database, calls corresponding control information according to this fingerprint information of matching in order to generate control signal. Through the setting of the fingerprint acquisition system, the safety and the reliability of fingerprint information are ensured, and the possibility of verification is improved.
The control module 200 is configured with a dispute coordination system, the dispute coordination system is configured with a coordination algorithm, and when any one of the control modules 200 calls more than two pieces of control information at the same time, the coordination algorithm generates a new piece of control information according to all the called control information to output the control information. The setup of the dispute coordination system is supplemented, and the dispute coordination system is established according to the situation that a plurality of users exist in one office, for example, the office habits of each worker are different, so that the dispute coordination system needs to be intelligently adjusted to avoid repeated setup.
The coordination algorithm comprises a temperature sub-algorithm and a humidity sub-algorithm;
the temperature sub-algorithm comprises the steps of respectively obtaining temperature required values T from all called control information, obtaining a weight X of each control information, and obtaining an average temperature required value Tr according to a weighting algorithm for n called control information, wherein Tr is (T1X 1+ … Tn Xn)/n, Tn represents the temperature required value in the nth control information, Xn represents the weight of the corresponding control information, and the average temperature required value Tr is used as the temperature required value in the new control information;
the humidity sub-algorithm comprises the steps of respectively obtaining a humidity requirement value d from all called control information, obtaining a weight value X of each control information, and obtaining an average humidity requirement value dr according to a weighting algorithm for n called control information, wherein dr is (d 1X 1+ … dn Xn)/n, and dn represents the humidity requirement value in the nth control information and is used as the humidity requirement value in the new control information.
Thus, if there are 4 employees in the office, the suitable temperature of the employee a is 28 degrees, the suitable temperature of the employee B is 29 degrees, and the suitable temperature of the employee C \ D is 28.5 degrees, then if the weights of the employees are the same, the coordination algorithm will set the temperature to 28.5 degrees in the corresponding working time period, it should be noted that if the coordination algorithm coordinates different working parameters in the same time period, the temperature adjustment for different time periods follows a unique principle.
The weight X of any control information is obtained according to the following formula:
xx/(a 1+ … Ax + … An), where Ax denotes the number of times the xth control information is used, Xx denotes a weight of the xth control information, and An denotes the number of times the nth control information is used. By such an arrangement, the optimum temperature of one zone is set according to the result of the conventional manual adjustment.
The coordination algorithm comprises an illumination sub-algorithm, the illumination sub-algorithm comprises the steps of obtaining illumination information from all called control information to obtain corresponding illumination time periods, obtaining a total illumination time period by summing all the illumination time periods, and taking the total illumination time period as an illumination time period in new control information. By means of the arrangement, the lighting is ensured not to be intelligently started, and can be coordinated through the lighting sub-algorithm, for example, A is that the lamp is turned on at 6-10 o ' clock at night, B is at 5-8 o ' clock, and then the lighting work can be turned on at 5-10 o ' clock after the coordination.
The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all the technical solutions formed by equivalent substitutions or equivalent changes are within the scope of the present invention as claimed.