TH36025A - Methods and tools for carburizing Hardening and sintering - Google Patents

Abstract

DC60 (11/06/47) Methods and tools for carburizing, hardening and sintering of workpieces. Where the carburization process It can be integrated into a lathe and a production process that will be performed. By turning, straight welding and production at the same stage of that And where high-quality operations or operations can be obtained without making a difference in quality between thermally operated products. In this instrument, heated sinter chambers (2), 6 carburized chambers (5a to 5f), chambers (6), repeated sinter chambers (7), quenching chambers (8) were placed around the floor chambers. Medium (4) with transporter apparatus (12). Moreover, high frequency induction sintering technique was used for sintering each chamber of Moreover, the plasma carburization method is performed in the carburized chamber. Moreover, the workpiece is continuously loaded into the instrument. This goes through lathes and production lines. Was taken and was Distributed to different rooms respectively, and then being operated or Was carried out in that chamber, so the process of carburizing, hardening and sintering Can be made without stagnation Methods and tools for carburizing, hardening and sintering At which the process of carburizing It can be integrated into a lathe and a production process that will be performed. By turning, straight welding and production at the same stage of that And where high-quality operations or operations can be obtained without making any quality difference between thermally operated products. In this instrument, heated sinter chambers (2), 6 carburized chambers (5a to 5f), chambers (6), repeated sinter chambers (7), quenching chambers (8) were placed around the floor chambers. Medium (4) with a transporter (12). Moreover, high frequency induction technique was used for sintering each chamber of In addition, the plasma carburization method is performed in a carburized chamber. Moreover, the workpieces which are continuously loaded into the This tool goes through a lathe and a production line. Was taken and was Distributed to different rooms respectively, and then being operated or Was carried out in that chamber, so the process of carburizing, hardening and sintering Can be made without stagnation

Claims (5)

1. Method of carburizing, quenching and sintering consists of the sintering process of preheating sintering. Which will be executed To the carburization temperature The carburization process of the carburizing the workpiece at the temperature Carburizing After burning Warm the workpiece. The hardening stage of the hardening of the workpiece After the carburization of the aforementioned and Soft tribe process for the soft tribe of such work. After hardening the said workpiece Where such workpieces are fed on lathes and production lines. For machining and product machining And where each step It is done according to the speed of the feed. Where the workpiece is fed onto the lathe and the production line. In such a way that the flow Of such workpieces on lathes and the production line is roughly protected From being stopped 2. Methods of carburizing, hardening and soft race, as per claim 1. Where each step of the stage It was then made by providing The way of operation of the number This is necessary for doing each of the aforementioned steps. Without stopping the estimated flow of the workpiece On the lathes and the aforementioned production line corresponds to the intervals required for completing one of the corresponding episodes of The process and by setting one piece or a set of Two or more workpieces are as one unit of operation as required, and then spread and feed them in successive units of operations. 3. Method of carburizing, hardening and softening the workpiece according to claim 1. Where the method of sintering is heated. The sintering process was determined separately from the carburizing method for the carburizing process. Where the preheating method uses high frequency induction firing for that purpose Creates a warm firing period in such a way that it is shorter than the interval During the feeding of the workpiece In the unit of operations through lathes and production lines are sufficient. Where the number of heated firing paths is set to one and where the number of the carburized path is set in a condition that satisfies the specified conditions. As follows, Z is greater than or equal to X / Y, where X represents the time interval used for the carburization process. Y represents the time interval between Workpiece feeding in Unit of operation Through the lathe and that production line, and Z is the number of such carburized pathways for the process 4. Carburizing method, hardening and softening the workpiece according to claim 3. Where the method Carburizing process for Such carburize contains Path for carburization by carburizing method Plasma that will be made By causing the release of a light charge between the carburized path and the workpiece While keeping Workpiece temperature at The carburizing temperature for this reduces the starting time, which is used to initiate the carburizing, hardening and softening methods of such workpieces. In a manner close to the start time Which will be used to make such lathes and production lines to start work. So that the work of the carburizing, hardening and softening the work pieces. Was started roughly coherently with the start of the turning and production line. And in order to work the method of carburizing, hardening and softening the work pieces. Was stopped near The interruption of the operation of the lathe and the production line. 5. Carburizing, hardening and softening of the workpiece according to claim 4. Where the sintering process High frequency inductor Used as a movement To maintain the temperature of the workpiece at the carburizing temperature 6. Carburizing, hardening and softening the workpiece according to claim 3. Where the high frequencies used in The high frequency induction sintering process is set in a range of 0.5 kHz to 3 kHz. 7. Carburizing, hardening and softening the workpiece according to claim 1. Where the process Such carburize Was made at a temperature not lower than approximately 950 degrees centigrade and not higher than 1200 degrees centigrade. In order to reduce the length of time it takes to complete the aforementioned carburizing process. Where is the process of doing Cooling of the workpiece cooling To not high temperatures Than A1 deformation temperature and sintering sintering process Repeat the workpiece which has been cooled in this cooling process to the quenching temperature. It was added during the aforementioned carburizing process and the hardening process. 8. Carburizing, hardening and soft race as per claim 7. Formal make The cooling method and the aforementioned incineration paths are held in such a way that it satisfies the following unbalanced conditions: C is greater than or equal to M / Y, H is greater than or equal to N / Y where M tells time. Used in the aforementioned cooling process of To cool the workpiece to a temperature not higher than the same temperature. The transformation of A1 was successful, N is the time required to complete the sintering process of the sintering. Which was cooled in the process of making To cool down such success To the hardening temperature, Y is the interval between the feeding of the workpiece in Of operation Through such lathes and assembly lines, C is the number of such cooling paths for completing the process. And H is the number of the aforementioned incineration path for the sintering process. 9. Equipment for carburizing, hardening and soft race. One or more heated burners Each one is used for Sintered, the workpiece is preheated to the carburizing temperature, one or more individual carburizing tools are used for the carburizing of the workpiece at the Later carburization From burning One or more hardened tools Each is used for hardening the workpiece after one or more of the sintered soft tool workpieces are carburized. Each is used for post-sintering and one or more transporters. Each one is used for Perform the work of setting one workpiece Or one set of two or more workpieces as a unit of operation for loading workpieces into Go into each such tool And to do the work of producing parts from there, tools for carburizing, hardening and soft race Are placed in lathes and production lines for turning and producing products, where each of the aforementioned set of sintered tools A set of machines Such carburizing tools, a set of hardened tools. And a set of such soft-burning tools There are a number of matching tools. This is necessary for approximately completing one of the aforementioned steps without terminating the flow of the piece. The work on the lathe and the production line coincides with the interval required for completing one of the aforementioned steps, and where the workpiece distribution unit, which is fed sequentially into the workpiece unit. Operating from the previous step Is held on each tool of the corresponding tool so that the workpiece is fed in order to the tool As mentioned above, 1 0. Carburizing, hardening and soft race tools according to Clause 9, where the sintering tools are heated. Being held ready With high frequency induction sintering tools And the number of heated hand tools one or more is one where the tool The aforementioned carburization is held in such a way that the number of the aforementioned apparatus is the following asymmetrical condition: Z is greater than or equal to X / Y, where X represents the time it takes for the Perform the aforementioned carburizing steps, Y represents the interval. During the feeding of the workpiece in Unit of operation Through the aforementioned lathes and production lines, and Z is the number of such carburized tools 1. 1. Carburizing, hardening and sintering tools in accordance with Clause 9, where the carburized apparatus contains vacuum carburizing chambers. Plasma carburization unit for plasma carburization by inducing charge discharge. The glow between the aforementioned carburizing path and the workpiece and the sintering unit for maintaining the workpiece temperature at carburizing temperature 1. 2. Instruments for carburizing, hardening and sintering of workpieces according to claim 11, where the sintering unit for keeping the temperature of Workpiece at such carburizing temperature It is a high frequency induction sintering unit 1 3. Carburizing, hardening and sintering apparatus in accordance with claim 9, which also consists of one or more cooling tools. Each one is used for the cooling process. Down of cooling the workpiece to a temperature not higher than the A1 deformation temperature and one or more sintering tools Each one is used for Re-incinerated workpiece that was cooled By this cooling tool to a quenching temperature 1 4. Equipment for carburizing, hardening and tempering of workpiece in accordance with Clause 1 3. Where such coolant and Such re-burning tools Is held in such a way that it is conditional upon asymmetrically defined as follows: C is greater than or equal to M / Y, H is greater than or equal to N / Y, where M tells the time it takes to perform the cooling process. Say of To cool the workpiece to a temperature not higher than the temperature The transformation of A1 was successful, N is the time it takes to complete the sintering process of the sintering process. Which was cooled in the process of making To cool down such Reached at the hardening temperature, Y is the interval between Unit of operation Through a lathe and The line C is the number of coolant tools. For performing the aforementioned cooling process and H is the number of the aforementioned sintering tools. For performing the aforementioned incineration steps 1 5. Carburizing, quenching and sintering apparatus in accordance with one of the claims of Clause 9, where the soft-fired apparatus for the sintering process Is arranged in a way that is According to the specified conditions The unbalance as follows, W greater than or equal to L / Y, where L represents the time required for the firing process, Y represents the time interval between the workpiece feed in operating units. Through the aforementioned lathes and production lines and W represents the number of the aforementioned sintering tools for the firing process.