TH56532B - The device knows the pile and how to use the same - Google Patents

Abstract

DC60 (17/08/55) System for monitoring the formation of solid objects with detector material lines capable of Positioned in the forming structure prior to the curing process and communication lines. That stretches along the axis of the material between the first and second ends Such material There are more than one additional detector, which is connected to the communication line. Between these ends and each detector, which is installed in a designated location on the detector cable, each contains a detector body and a detector casing, and the detector body. Will have a connector Connect the electric current to connect the electrical structures to the communication lines in such a way that Electric current flows in a given position. Such electrical structures consist of a detector. Temperatures, which are configured to monitor temperatures close to a given location. And it also contains an electronic identification code corresponding to the designated location of the The detectors know along that axis. The system has an additional component, a transmission device, to provide Communicate between the temperature and the said identification code Systems for monitoring the formation of solid objects with sensing material curves that can Positioned in the forming structure prior to the curing process and communication lines. That stretches along the axis of the material between the first and second ends Such material There are more than one additional detector, which is connected to the communication line. Between these ends and each detector, which is installed in a designated location on the detector cable, each contains a detector body and a detector casing, and the detector body. Will have a connector Connect the electric current to connect the electrical structures to the communication lines in such a way that Electric current flows in a given position. Such electrical structures consist of a detector. Temperature, which is configured to monitor the temperature near a specified location. And it also contains an electronic identification code corresponding to the designated location of the The detectors know along that axis. The system has an additional component, a transmission device, to provide Communicate between the temperature and the said identification code

Claims (6)

Claims (all) which will not appear on the advertisement page: edit 20/05/2015 1. A system for generating a heat matrix to analyze the combination of poured piles at Working position, which is created by importing curingable material into the pile cavity at the working position. And the curingable material hardened in the piling cavity to form a post-piling structure, a pile cavity extending from the first cavity boundary to the second cavity boundary at the base of the cavity, and the piling cavity with spanning lateral walls. Out between the first cavity boundary to the second cavity boundary, generally cured material containing the pile cavity. And overlaps the side wall, a system which includes Receptors cable that can be positioned in a commonly known but fixed position within a hollow column that Relevant for the analysis of the relevant curingable material being introduced into the piling cavity at Connected, a sensor cable with a support path that can be fixed in relation to the piling cavity involved in Position known and fixed and stretched along the axis of the wire between the first end And the second end, a receptor string containing a group of heat receptors And each receptor perceived heat of the bonded group was associated with Path supports And leave a gap along the cable axis in known positions between the first and second ends and in the permanently fixed position relative to the associated pile cavity, each sensing heat of The group is structured to independently detect the test temperature of the curingable material at Involved in a period of permanently attached receptors that stretches to a particular known position of the receptor. At the same time as the other receptors in the group, each recognized group has an electronic identification code. Especially in accordance with the receptors And known position And being permanently attached to the receptors Specifically along the axis, where the test temperature of each receptor perceives the independent heat of the receptors in the group. Of the receptors together form a thermally conductive matrix of thermal action from the correct temperature readings Imported at the same time generally from many heat receptors And linked to materials that can be cured Being relevant within the pile cavity, the heating cable matrix allows for the detection of the Simultaneously varying temperature at multiple locations, which is associated with the pouring and / or curing of associated structural piles. And determining the position of the automatic transformation 2. System of claim 1 Where the support path is directly attached to the rebar cage at Connected within the relevant pile cavity 3. The system of claim 1 where the heat-line matrix is set up to detect the Incorporated into the corresponding lateral walls of the associated pile holes 4. A system of claim 1 where the associated pile cavity is the ground opening in the ground layer. Extends from the ground surface to the lower boundary below the ground surface 5. System of claim 1 Where the fixed receiver range of one receiver in the receptor group Partial overlap with fixed receptors of at least one of the adjacent groups 6. System of claim 1, where each perceived body has a perceived body segment. And the electrical structure, the sensory body part with a connector to connect the sensor to a support path at a predetermined position corresponding to the known position. And the required fixed, electrical structure that includes a thermal receptors and a transmission device for selectable contact of the test temperature And the identification code from but Each perceived in the group 7. System of claim 6, where the route supports, including the connection route. And the connector itself is Electrical connection to the electrical connection of the electrical structure with a contact path, selectable contact. Through the contact route 8. System of claim 6, where the route supports, including the transmission route. And the connectors are Electrical connectors for electrical connections of electrical structures to power transmission routes 9. System of claim 6, where each is recognized, including further with the memory storage, the memory storage area that includes instructions for at least one transmission device for communication. Selectively of the test temperature And each receptor senses heat for each receptor operation, memory storage section which is further included with an indication code 1 0. System of claim 1, where the detection of the test temperature of the cable matrix Thermal is an optional measure of the total test temperature of a sensor group at the Determined for the analysis of relevant curing materials 1 1. System of claim 1 where the receiver string is the first receiver string that forms the first group, the system that is included next with the second receiver string that forms the second. And the third sensory string that forms the third group, the heat matrix of the three groups that creates a three-dimensional thermal matrix linked to the curing cycle of The curingable material involved from the temperature readings obtained from all three sensory groups at time. The same general 1 2. System of claim 11, where the first receiver cable is positioned near the side wall at The implications of the pile cavity are related in such a way that the permanently fixed receptors of the first group Of the receptors at least in the vicinity of the relevant side wall 1 3. System of claim 11, where a three-dimensional heat matrix is the sensing of temperature. The thermal cable matrix test is an optional measurement of the entire test temperature of the All senser groups at allotted intervals for analysis of the incubation cycle 1 4. The system of claim 1 where the heat matrix is the detection of the The thermal cable matrix test is an optional measure of the total test temperature of the body. Recognize all in the receptor group at the time specified for the analysis of the incubation cycle 1 5. System of claim 1 where the sensor cable is positioned near the relevant side wall. Of the piling cavity involved in such a way that the permanently bonded receptors range of the receptors is At least in the immediate vicinity of the relevant side wall 1 6. The system of claim 1, where the gap along the axis of each heat receptacle Equal to spacing a space along the main part of the sensor wire 1 7. System of claim 16 where equal spacing is less than 1 foot between adjacent receivers 1 8. System of claim 1, where the route supports, including the contact route. And electrical connectors Each electrical connection senses heat with a support path, a special electronic identification code and test temperature transmitted through a contact path, a system that is further incorporated into the device. Calculate to get information from the receptor. And create a heat matrix 1 9. System of claim 1 where the sensory line includes at least one of the pressure-sensing, noise-sensing, accelerometer, resistance-stress, stress Perceived electrical capacity, humidity sensing And chemical receptors 2 0. System of claim 1 where the thermal line matrix is structured to detect Irregularities after the curing cycle 2 1. System of claim 1, where the sensory string extends along the main part of its length. Related structure piles And allow for a continuous heating cable matrix along the main length For all 2 curing cycles 2. System of claim 1, where the sensor cable includes optical fibers 2 3. The entire system of claim 1, including at least four receptor lines 2 4. The method of constructing structural piles at the working position, which is created by importing materials. That can be cured in the hollow pile at the working position And curingable material that stabilizes the cavity Piles to form piles in the structure in position, a method which consists of steps of Arrangement of a sensor cable with a support path spanning the axis of the cable between the first ends. And on the second end, the sensory line containing a group of heat receptors And each of the receptors perceived the heat of the Adheres to the support path And leave a space along the cable axis in known position between the ends that First and second And in the attached position, each group sensor is structured to detect The test temperature of each fluid or gas is perceived in the expired fixed receptors range. Surrounding the known position of the sensor, especially on the supporting path independently of And simultaneously with Other receptors In a group of receptors, each recognition group has a special electronic identification code. Corresponding to the receptors in particular And the known position of a particular sensor along the sensor axis, each receptacle is structured to contact a special identification code. And the relevant test temperature With temperature in the fixed sensory range Providing a computational device for receiving data from a sensor line that includes an independent identification code and an independent test temperature. Placing the sensor cable in a known location And fixed within the pile cavity in such a way that The position of each individual perceived in groups within the pile cavity is generally known, but is permanently fixed. Relative to the pile cavity Associating a unique identification code of each receptor with a commonly known location of each receptor. And perception in the pile cavity Pouring the cured material into the cavity of the pile in such a way that the curing material encapsulates only Each of the heat receptors in the group of heat receptors is below the upper limit of the curing material. Monitoring of the tested test temperature by each receptor for a group of receptors is simultaneously associating the monitored test temperature of one or more senses with an identification code. Specifies the presence of at least one sensor to determine the location of at least one test temperature. With pile cavity 2 5. The method of claim 24 includes following the process of creating a string matrix. Real-time heating from a group of sensors based on temperature data obtained from each sensor over time. The same basically causes real-time thermal data generation along all 2 sensor lines 6. The method of claim 24, where the monitoring procedure includes monitoring of temperature Test during the pouring process And how to include following with the scoping process On top of the material can be cured during the pouring process on the basis of a change in Receptor test temperature 2 7. Method of claim 26, where the pouring process includes the importation of cured materials. In the pile cavity by the method of filling pipes, the method includes further steps of controlling the position of Filling pipes on the basis of determining the scope above 2 8. The method of claim 24, where the receptor arrangement is the first receiver arrangement. With the first group of perceives And retaining the sensor cable in one place Recognized and fixed the number one within the pile cavity, a method that includes further with the procedure of cable arrangement. Perceive a second with a second group of receptors And the arrangement of the third receptors with the third group of the receptors and the second fixed receptors in the known and second fixed positions within the pile cavity. And holding tight Third receiver wire in a known and third fixed position within the pile cavity, monitoring according to the A monitored test that includes a total of three monitoring groups of the sensor and temperature coherence, a monitored test that includes at least one sensor and an identification code. A special indication of all three groups 2 9. Methodology of claim 28, where the monitoring procedures, including monitoring testing temperatures Keep track of at least three groups during the pouring process. And the methods are followed by the steps of Determination of the upper bound of the material that can be cured during the pouring process on the basis of Change in the test temperature of the senser 3 0. The method of claim 28 includes following the process of creating a heat matrix. Three dimensions in real time from three sensory groups enable real-time three-dimensional thermal data generation Follow the sensor line 3 1. Method of claim 24 where the sensory wires within the pile cavity are directly encapsulated by Materials that can be cured 3 2. Method of claim 24 that includes following the process of determining the existence of Including on the basis of the test temperature that is monitored according to 3 3. The method of claim 24 includes following the procedure of installing the internal rebar cage. Pile cavity after the formation process And tightening the sensor cable directly to the rebar cage first The pouring process in such a way that the sensor wires are attached relative to the rebar cage during the pouring process. And during the curing process 3 4. The method of claim 24, which includes the following: Pile cavity formation procedure, Pile cavity formation, including piling in the ground layer 3 5. Method of claim 24 that includes continued through the process of centering Remote test with calculation device And the organization of a remote contact system, methods that include Next with the procedure of passing the test temperature And a special identification code to the center Remote test, a remote test center that generates a thermal line matrix from a group of 3 sensors 6. Method of claim 35, where the remote testing center creates And monitoring Real-time heating line matrix 3 7. The method of claim 35, where remote testing centers monitor the cable matrix. Real-time heating 3 8. Method of claim 24, where a receptor phase is provided. And tightening steps The receiver cable includes an arrangement. And tightening of at least four sensor wires 3 9. Method of claim 24, where the pouring step before the bonding, the sensor wire step 4 0. Method of claim 24, where the monitoring procedure includes the period for which the Test from all the receptors simultaneously 4 1. Method of claim 24 where the linking procedure includes determining the known position. Typical of each receptacle based on the position of the receptors on the supporting path 4 2. A system for generating a heat matrix to analyze the combined structure being poured. Which is created by importing the material that can be cured into the cavity. And the curingable material that harden In a cavity to erupt a structure that is built, a system consisting of at least one receptor string containing Support path that scopes the cable axis. And a group of independent heat receptors that are connected to Path supports And leave spaces along the path of support, each perceived group to be connected to. A support path at fixed positions that creates a known gap between them, each of the heat receptors is structured to measure the temperature in the fixed sensory range extending to the thermal receptors. And to work independently from And generally concurrently with the other heat receptors in the receptor group, each of the heat receptors of the group of heat receivers has an electronic identification code. Especially in line with the receptors And known position And is attached to a particular sensor along the core, each thermal sensor is structured to generate the temperature information of the material. It can be incubated in connection with the death of the sensor independently of the sensor temperature. Other heat in the receptor group And, at the same time, is another thermal receptor in the sensor group, a system that includes further with computational devices that are structured to receive each temperature data and a special electronic identification code. It is obtained from the thermal receptors in the thermal receptor group and combined the independent data to calculate the thermal line matrix of the heat work associated with the material. This is because the temperature data obtained from the large number of thermal receptors in the sensory group and the temperature data generated by the heat receptors are generally concurrently. 4 3. The system of claim 42, where the associated cavity is the ground opening in the ground layer spanning Exits from the ground surface to the lower boundary below the ground surface 4 4. A system of claim 42, where a fixed receptor range of one perceived in a group of receptors Partial overlap with fixed receptor range of one or more adjacent groups 4 5. System of claim 42, where the detection of the test temperature of the cable matrix Thermal is an optional measure of the total test temperature of a sensor group at the Determined for the analysis of the relevant curing material 4 6. System of claim 42 where the senser string includes the first receiver string that forms the first group, the system that is then merged with the second receiver string that forms the second. And the third sensory string that forms the third group, the heat matrix of the three groups that creates a three-dimensional thermal matrix linked to the curing cycle of The material that could be cured was due to the temperature readings obtained from all three sensory groups at time. The same is generally 4 7. System of claim 46, where a three-dimensional thermal matrix is a real-time matrix for Some parts of the actual curing cycle 4 8. System of claim 42, where the heat matrix is a real-time thermal matrix that is received. At the time set for some part of the actual incubation cycle 4 9. System of claim 42 where the gap between heat senses is less than 1 foot 5 0. A sensor wire for generating a heat matrix that can be positioned within a material volume, such as the volume of a material that can be cured to form a condensed solid object, a sensor wire which It consists of a support path leading along the axis of the cable between the ends. And on the second end, the receptors line included next, with a number of independent thermal receivers connected to the support path Between the first and second ends And is attached to the support path at a known interval in such a way that each The heat receptors are in a known position and are generally assigned along the support path. And has a gap Between adjacent heat receptors with a known gap, each of the heat receptors A number of independent heat is structured to measure the temperature in the expired fixed sensory range. Heat sensing area And to work independently from And generally concurrently with receptors Different heat of a certain number of heat receptors, each of which is a Including a special electronic identification code corresponding to the position that is assigned in accordance with The support path, each thermal sensor, is structured to generate temperature information in the material. The connection that encapsulates the thermal sensor during the dead receiver is independent of the temperature detection. Of other heat receptors And at the same time basically as a cognitive Other heat of the receptors in such a way that the information is independent And were combined that were created A number of heat receptors are structured to form a string matrix. The heat of work, the heat of which is associated with the material concerned, 5 1. The recognized line of claim 50, where the supported routes are at least two contact routes Each conductor with an outer sheath that surrounds the wire 5 2. The receiver line of claim 50, where the cavity has one boundary. And the second region and the sensor cable can be positioned in a fixed working position, typically within the burrow, the sensor cable stretched between the first and second boundaries. And a number of sensors that are encapsulated by the associated material Below the upper boundary of the relevant material And remain in a fixed working position generally Within the material concerned at least until after the required heat matrix is generated 5 3. The receiver line of claim 50, where the relevant material is an associated incubable material and a number of receptors encapsulated by the relevant material below the upper boundary of the relevant material. And permanently maintained in a generally fixed operating position within the curingable material at Continue after the curing cycle 5 4. Recognition line of claim 50, where the commonly known spacing 5 5. Claim 50 receiver cables, where each receptor senses heat, includes a memory storage, a memory storage area that includes instructions for a contact transmission device. Selectively And data storage including temperature data And a special identification code 5 6. A number of sensor wires for creating a three-dimensional thermal matrix that can be placed Its position can be within the volume of the fluid material, i.e. the volume of the material that can be cured to form an object. Formed solids, each of which are a number of sensory strings comprising a support path. Spanning the core between the ends And the second end, the sensor line that includes the next A certain amount of free heat is connected to the support path between the first and second ends and attached to the support path at a known interval in such a way that each heat receptacle is positioned at Known and generally defined along the supporting path. And there is a gap between the hot senses that are adjacent With a known gap, each heat receptor of a number of independent heat receptors was positioned. A structure to measure the temperature in the fixed receptors extending to the heat receptors. And to work Independently of And generally concurrently with other thermal receptors of some heat receptors Each thermal receptor is a number of heat receptors, including an electronic identification code. Specially corresponding to the designated position along the support path, each sensory heat being Structures are laid out to generate temperature information in the associated material encapsulating the thermal receptors in the sensory range. The sample is independent of the temperature sensing of a number of other heat receptors and, at the same time, is generally the other heat receptors of a number of heat receptors. In such a way that the information is independent And is combined that is made up of heat receptors of heat receptors A number of them are structured to form a thermally-bonded matrix of the Associated with aggregated data associated with each sensor line that can be combined to form a matrix. Three dimensional heating line -------------------------------------------------- - 1. A system for generating a heat matrix to analyze the combination of poured piles at Working position, which is created by importing curingable material into the pile cavity at the working position. And the curingable material hardened in the piling cavity to form a post-piling structure, a pile cavity extending from the first cavity boundary to the second cavity boundary at the base of the cavity, and the piling cavity with spanning lateral walls. Out between the first cavity boundary to the second cavity boundary, generally cured material containing the pile cavity. And overlaps the side wall, a system which includes Receptors cable that can be positioned in a commonly known but fixed position within a hollow column that Due to the analysis of the relevant curingable material being introduced into the piling cavity at Position known and fixed and stretched along the axis of the wire between the first end And the second end A receptor cable that contains a group of heat receptors. And each receptor perceived heat of the bonded group was associated with Secondary route And leave a gap along the cable axis in known positions between the first and second ends and in the permanently fixed position relative to the associated pile cavity, each of the heat emitters of The group is structured to independently detect the test temperature of the curingable material at Involved in a period of permanently attached receptors that stretches to a particular known position of the receptor. At the same time as the other receptors in the group, each recognized group has an electronic identification code. Especially in accordance with the receptors And known position And being permanently attached to the receptors Specifically along the axis, where the test temperature of each receptor perceives the independent heat of the receptors in the group. Of the receptors together form a thermally conductive matrix of thermal action from the correct temperature readings Imported at the same time generally from many heat receptors And linked to materials that can be cured Being relevant within the pile cavity, the heating cable matrix allows for the detection of the Simultaneously varying temperature at multiple locations, which is associated with the pouring and / or curing of the relevant structural piles. And determining the position of the automatic transformation 2. System of claim 1 T, where the supporting path is attached directly to the rebar cage at Connected within the relevant pile cavity 3. The system of claim 1 where the heat-line matrix is set up to detect the Incorporated into the corresponding lateral walls of the associated pile holes 4. A system of claim 1 where the associated pile cavity is the ground opening in the ground layer. Extends from the ground surface to the lower boundary below the ground surface 5. System of claim 1 At which the range of the fixed receiver of one receiver in the receiver group Partial overlap with fixed receptors of at least one of the adjacent groups 6. System of claim 1, where each perceived body has a perceived body segment. And the sensory body electrical structure with connectors to connect the senser to the support path at a fixed position at In accordance with the known position And the required fixed, electrical structure that includes a thermal receptors and a transmission device for selectable contact of the test temperature And the identification code from but Each perceived in the group 7. System of claim 6, where the route supports, including the connection route. And the connector itself is Electrical connection to the electrical connection of the electrical structure with a contact path, selectable contact. Through the contact route 8. System of claim 6, where the route supports, including the transmission route. And the connectors are Electrical connectors for electrical connections of electrical structures to power transmission routes 9. A system of sixth claim, each of which is perceived, including further with the memory storage. The memory storage section includes instructions for at least one transmission device for communication. Selectively of the test temperature And each receptors perceive heat for each individual function Recognize the memory storage section that is included further with an indication code 1 0. System of claim 1, where the detection of the test temperature of the cable matrix Thermal is an optional measure of the total test temperature of a sensor group at the Determined for the analysis of relevant curing materials 1 1. System of claim 1 where the receiver string is the first receiver string that forms the first group, the system that is then merged with the second receiver string that forms the second group. And the third receiver string that forms the third group Three-group thermal matrix that creates a three-dimensional thermal matrix linked to the curing cycle of The curingable material involved from the temperature readings obtained from all three volumes of the sensor at time. The same general 1 2. System of claim 11, where the first receiver cable is positioned near the side wall at The continuity of the pile cavity is related in such a way that the permanently bonded receptors range of the first group. Of the receptors at least in the vicinity of the relevant side wall 1 3. System of claim 11, where a three-dimensional heat matrix is the sensing of temperature. The thermal cable matrix test is an optional measurement of the entire test temperature of the All senser groups at allotted intervals for analysis of incubation cycles 1 4. The system of claim 1 where the heat matrix is the detection of the The thermal cable matrix test is an optional measure of the total test temperature of the body. Recognize all in the receptor group at the time specified for the analysis of the incubation cycle 1 5. System of claim 1, where the sensor cable is positioned near the relevant side wall. Of the piling cavity involved in such a way that the permanently bonded receptors range of the receptors is At least in the immediate vicinity of the relevant side wall 1 6. The system of claim 1 that involves spacing along the axle of each heat-sensing receiver. Equal to spacing a space along the main part of the sensor wire 1 7. System of claim 16 where equal spacing is less than 1 foot between adjacent receivers 1 8. System of claim 1, where the route supports, including the contact route. And electrical connectors Each electrical connection senses heat and a support path. A special electronic identification code and test temperature are transmitted via a contact path. A system that includes further with the equipment Calculate to get information from the receptor. And create a heat matrix 1 9. System of claim 1 where the sensory line includes at least one of the pressure-sensing, noise-sensing, accelerometer, resistance-stress, stress Perceived electrical capacity, humidity sensing And chemical receptors 2 0. System of claim 1, where the thermal cable matrix is structured to detect Irregularities after the curing cycle 2 1. System of claim 1, where the sensory string extends along the main part of its length. Related structure piles And allow for a continuous heating cable matrix along the main length For all 2 curing cycles 2. System of claim 1, where the sensor cable includes optical fibers 2 3. The entire system of claim 1, including at least at least 2 4. The method of constructing structural piles at the working position, which is created by importing materials. That can be cured in the hollow pile at the working position And curingable material that stabilizes the cavity Piles to form piles in the structure in position, a method which consists of steps of Arrangement of a sensor cable with a support path spanning the axis of the cable between the first ends. And on the second end, the sensory line containing a group of heat receptors And each of the receptors perceived the heat of the Adheres to the support path And leave a space along the cable axis in known position between the ends that First and second And in a fixed position Each receiver of the group is structured to detect. The test temperature of each fluid or gas is perceived in the expired fixed receptors range. Surrounding the known position of the sensor, especially on the supporting path independently of And simultaneously with Other receptors In a group of receptors, each recognition group has a special electronic identification code. Which corresponds to the receptors in particular And the known position of a particular sensor along the sensor axis, each receptacle is structured to contact a special identification code. And the relevant test temperature With temperature in the fixed sensory range Providing a computational device for receiving data from a sensor line that includes an independent identification code and an independent test temperature. Placing the sensor cable in a known location And fixed within the pile cavity in such a way that The position of each individual perceived in groups within the pile cavity is generally known. But being permanently attached Relative to the pile cavity Associating a unique identification code of each receptor with a commonly known location of each receptor. And perception in the pile cavity Pouring the cured material into the cavity of the pile in such a way that the curing material encapsulates only Each of the heat receptors in the group of heat receptors is below the upper limit of the curing material. Monitoring of the tested test temperature by each receptor for a group of receptors is simultaneously associating the monitored test temperature of one or more senses with an identification code. Specifies the presence of at least one sensor to determine the location of at least one test temperature. With pile cavity 2 5. The measure of claim 24 includes following the steps of creating a string matrix. Real-time heating from a group of sensors based on temperature data obtained from each sensor over time. The same basically causes real-time thermal data generation along all 2 sensor lines 6. The method of claim 24, where the monitoring procedure includes monitoring of temperature Test during the pouring process And how to include following with the scoping process On top of the material can be cured during the pouring process on the basis of a change in Receptor test temperature 2 7. Method of claim 26, where the pouring process includes the importation of cured materials. In the pile cavity by measurement of the packing pipe The methods include further with the steps of controlling the position of Filling pipes on the basis of determining the scope above 2 8. The method of claim 24, where the receptor arrangement is the first receiver arrangement. With the first group of perceives And retaining the sensor cable in one place Known and fixed at one within the pile cavity. Measure that includes further with the steps of the cable arrangement. The second perception has a second group of receptors And the provision of a third receiver cable with a third group of the receptors and a second receptacle in a known and second fixed position within the pile cavity. And holding tight Third receiver string in a known and third fixed position within the pile cavity. Monitoring according to temperature The test was detected by each receptor that included a total of three monitoring groups of the receptors and the 2 9. Methodology of claim 28, where the monitoring procedures, including monitoring testing temperatures Keep track of at least three groups during the pouring process. And measure the consolidation further with the steps of Determination of the upper bound of the material that can be cured during the pouring process on the basis of Change in the test temperature of the senser 3 0. Measure the measure of claim 28, which includes following the process of creating a heat matrix. Three dimensions in real time from three sensory groups enable real-time three-dimensional thermal data generation Follow the sensor line 3 1. Measure claim 24, where the sensory wires within the pile cavity are directly encapsulated by Materials that can be cured 3 2. That the action of Claim 24 includes further with the procedure of determining the existence of the Including on the basis of the test temperature that is monitored according to 3 3. Measure the performance of claim 24 that includes further with the steps of installing the internal rebar cage. Pile cavity after the formation process And tightening the sensor cable directly to the rebar cage first The pouring process in such a way that the sensor wires are attached to the rebar cage during the pouring process. And during the curing process 3 4. Measure of Claim 24, which includes further steps of Pile cavity formation, Pile cavity formation, including piling in the ground layer 3 5. Method of claim 24 that includes continued through the process of centering Remote test with calculation device And providing a remote contact system Methods that include Next with the procedure of passing the test temperature And a special identification code to the center Remote test A remote test center that generates a thermal line matrix from a group of receivers 3 6. Measure the performance of claim 35 where the remote testing center creates. And monitoring Real-time heating line matrix 3 7. Measure the measure of claim 35, where the remote test center monitors the cable matrix. Real-time heating 3 8. Method of claim 24, where a receptor phase is provided. And tightening steps The receiver cable includes an arrangement. And the fastening of at least four wires, rudder 3 9. Measure the measurement of claim 24, where the pouring step before the attachment of the sensor wire step 4 0. Regarding claim 24, where the monitoring procedure includes the period for which the Test from all the receptors simultaneously 4 1. Methodology of Article 24, where the linking procedure includes determining the known position. Typical of each receptacle based on the position of the receptors on the supporting path 4 2. A system for generating a heat matrix to analyze the combined structure being poured. Which is made by importing materials that can be cured into the cavity. And the curingable material that harden In the cavity to Urup, the structure was built. A system consisting of at least one sensor line with Support path that scopes the cable axis. And a group of independent heat receptors connected to the secondary combat path and spaced along the support path. Each receiver of the group is connected to A support path at a fixed position that creates a known gap between them, each of the heat receptors is structured to measure the temperature in the fixed receiver range extending around the receiver. Heat and to work independently of And generally concurrently with the other heat receptors in each receptor group, the heat receptors of the group of thermal receivers with electronic identification codes. Especially in line with the receptors in particular And known position The sensor is attached to a specific sensor and is attached to each cable core. It can be incubated in connection with the sensory decay independently of the sensor temperature. Other heat in the receptor group And at the same time it is another heat receptor in the receptor group The system is further included with a computational device that is structured to obtain each temperature data and a special electronic identification code from the thermal receptors in the thermal receptor group and combine the independent data. To calculate the thermal cable matrix of the heat work that is linked to the material. This is due to the temperature data obtained by the large number of thermal receptors in the receptors group and the temperature data generated by the common thermal receptors 4 3. The system of claim 42, where the associated cavity is the ground opening in the earth that spans Leaving the ground surface to the lower boundary below the ground surface 4 4. A system of claim 42, where a fixed range of one senses is perceived in a group of receptors. Partial overlap with fixed receptor range of one or more adjacent groups 4 5. System of claim 42 that is the detection of temperature, the inspection of the cable matrix. Thermal is an optional measurement of the total test temperature of the perceived group at the given time. Determined for the analysis of the relevant curing material 4 6. System of claim 42 Where the receiver line includes the first receiver line that forms the group on the A system that is included next to the second receiver cable that forms the second group. And the third string that forms the third group Three-group thermal matrix that creates a three-dimensional thermal matrix linked to the curing cycle of The material can be cured due to temperature readings obtained from all three sensory groups at time. The same, generally 4 7. A system of claim 46 where a three-dimensional thermal matrix is a real-time matrix for Some parts of the actual curing cycle 4 8. The system of claim 42 where the heat matrix is the real-time thermal matrix received. The time interval that is set for some part of the actual incubation cycle is 4 9. System of claim 42 where the gap between heat senses is less than 1 foot 5 0. A sensor wire for generating a heat matrix that can be positioned within a material volume, such as the volume of the incubated material to form a treated solid object The receiver line which It consists of a support path leading along the axis of the cable between the ends. And the second end The sensor line is further integrated by a number of independent thermal receivers connected to the support path. Between the first and second ends And is attached to the support path at a known interval in such a way that each The heat receptors are in known positions and are generally assigned along the support path. And has a gap Between adjacent heat receptors a known gap is proposed. Each receptor senses heat. A number of independent heat sinks are structured to measure the temperature during the expired fixed carrier. Heat sensing area And to work independently from And generally concurrently with receptors Another heat of one number of heat receptors Each receptor senses a certain amount of heat that Including a special electronic identification code corresponding to the position that is assigned in accordance with the Path supports Each thermal receptor is structured to generate temperature information in the material. Regardless of the temperature sensing, the heat receiver in the sampling chamber is not connected. Of other heat receptors And at the same time basically as a cognitive Other heat of the receptor in such a way that the independent data And were combined to be created A number of thermal receptors are structured to form a cable matrix. The heat of work The heat applied is linked to the material involved 5. 1. Recognition lines of claim 50 that support paths are at least two contact routes Each conductor with an outer sheath surrounding wire 5. 2. Receptors line of claim 50, where the cavity has a certain extent. And the second region and the sensor cable can be positioned in a fixed working position, typically within the receptacle that spans between the first and second boundaries. And a number of sensors that are encapsulated by the associated material Below the upper boundary of the relevant material And is located in a generally fixed working position Within the associated material, at least until after the required heat matrix has been created 5. 3. The receiver line of claim 50 t, in which the relevant material is the relevant incubable material, and a number of receptors encapsulated by the relevant material below the upper boundary of the material. Connected and permanently maintained in a generally fixed operating position within the curingable material at About after 5 curing cycles 4. Recognition line of claim 50, where the interval is commonly known as 5 5. Claim 50 receiver cables, each of which senses heat, includes a memory compartment, a memory storage section that includes instructions for the transmission device for contact. Selectively And data storage including temperature data And special identification code 5 6. A number of sensor wires for creating a three-dimensional thermal matrix that can be placed Their position within the fluid material volume, i.e. the volume of the material that can be cured to form an object Formed solids Each of the sensor lines a number of sensors, including a support path. Stretched out along the axis of the cable between the first end And the second end The receiver line that includes the next. A certain amount of free heat is connected to the support path between the first and second ends and attached to the support path at a known interval in such a way that each heat receptacle is positioned at Known and generally defined along the supporting path. And there is a gap between the hot senses that are adjacent Where known spaces are spaced Each thermal receptor of a number of independent heat receptors was positioned. A structure to measure the temperature in the fixed receptors extending to the heat receptors. And to work Independently of And generally concurrently with other thermal receptors of some heat receptors Each thermal receptor is a number of heat receptors, including an electronic identification code. It is specially corresponding to the position that is set along the supporting path. Each receptor senses the correct heat. Structured to generate temperature data in materials encapsulated in the sensory range. The sample is independent of the temperature sensing of a number of heat receptors and, at the same time, is generally another thermal receptor for a number of heat receptors. In such a way that the information is independent And is combined that is made up of heat receptors of heat receptors A number of them are structured to form a thermally-bonded matrix of the Associated with aggregated data associated with each sensor line can be combined to form a matrix. Three dimensional heating line