RU2017106C1 - Device for leakage testing of pipes in pipe plates in heat-exchange apparatus - Google Patents

Abstract

FIELD: leakage test. SUBSTANCE: movable heads 3 are shifted along the guides 4 relatively case 1 for required distance. Sealing element 2 is mounted onto tube plate 6 close to tube to be tested, collars 9 are mounted inside the cavities of tubes 10. Working medium is applied into subpiston parts of hydraulic cylinders 5, in this case collars 9 are compressed by rest heads 7, pressing to internal surfaces of the tubes and fixing the device inside them. Test medium is supplied into tested tube 11 and tightness of the tube is measured. EFFECT: improved reliability. 2 dwg

Description

 The invention relates to tests for tightness of the pipe heat exchangers.

 A device for testing the tightness of hollow products, comprising a housing with a sealing element attached to its end surface, a hydraulic cylinder connected to the housing to compress it to the end surface of the products and a fixing device made in the form of lever grippers, the sealing element is placed coaxially with the hydraulic cylinder [ 1].

 The disadvantage of this device is the impossibility of sequential testing of pipes of heat exchangers, due to the implementation of the fixing device in the form of lever grippers.

 The closest in technical essence to the invention is a device for testing the tightness of hollow products, comprising a housing with a sealing element attached to its end surface located between two hydraulic cylinders for pressing the housing against the end surface of the products, and a fixing device made in the form of stops mounted on the ends of the rods of the hydraulic cylinders, and elastic sleeves covering the rods between the stops and the end surface of the housing and intended for placement in the pipes, Mezhno with test [2].

 The disadvantage of this device is the inability to test several types of heat exchangers, differing in pipe diameters and annular distance.

 The purpose of the invention is to expand operational capabilities.

 This is achieved by the fact that the device is equipped with two movable heads located symmetrically relative to the housing and connected to it by means of guides, each movable head contains a hydraulic cylinder for pressing it against the end surface of the heat exchanger, and the fixing means are made in the form of elastic cuffs installed on the hydraulic cylinder rods of the same shapes and sizes, the outer and inner surfaces of which are made in the form of truncated cones, and the cuffs themselves are installed with bases of larger diameter one and to the other.

 In FIG. 1 shows a diagram of a device for testing the tightness of pipes of heat exchangers; in FIG. 2 - along arrow A in FIG. 1.

 A device for testing the tightness of pipes of heat exchangers comprises a housing 1 with a sealing element 2 attached to its end surface 2. The device is equipped with two movable heads 3 located symmetrically relative to the housing and connected to it by means of guides 4. Each movable head 3 contains a hydraulic cylinder 5 for preloading it to the end surface of the tube sheet 6 of the heat exchanger.

 The locking device is made in the form of thrust heads 7 mounted on the ends of the rods 8 of the hydraulic cylinders 5, and covering these rods between the thrust heads 7 and the end surface of the movable heads 3 of the elastic cuffs 9 of the same shape and size. The outer and inner surfaces of the cuffs are made in the form of truncated cones, and the cuffs themselves are installed with bases of a larger diameter one to the other. The fixing device is designed to be placed in pipes 10 adjacent to the test pipe 11. A pressure gauge 12 is installed to evaluate the tightness of the pipe 11.

 A device for testing the tightness of the tubes of heat exchangers works as follows.

 Install the sealing element 2 on the tube sheet 6 near the test pipe 11, and the cuff 9 in the cavity of the pipes 10. In the piston cavity of the hydraulic cylinders 5 serves the working medium, while the cuffs are pressed by the thrust heads 7, pressed against the inner surfaces of the pipes 10 and fixing the device . At the same time, the movable heads 3 are pressed against the tube sheet 6.

 The housing 1 is pressed against the tube sheet 6, compressing the sealing element 2. The test medium is fed into the test pipe 11 and the tightness of the pipe 11 and its connection with the tube sheet 6 are determined using a pressure gauge 12.

 After testing, the pipes 11 release the test and working media and similarly determine the tightness of the subsequent pipe of the heat exchanger.

 For testing a heat exchanger, characterized by the diameter of the pipes and the annular distance, move the movable heads 3 along the guides 4 relative to the housing 1 by the required distance. The use of a fixing device in the form of cuffs 9, made in the form of truncated cones, installed by bases of a larger diameter to one another, allows you to reliably fix the device in pipes of various diameters.

 The application of the invention will expand the range of tested heat exchangers, differing in pipe diameters and annular distance.

Claims (1)

 DEVICE FOR TEST TIGHTNESS OF PIPES IN PIPE LATTICES OF HEAT EXCHANGE DEVICES, containing a housing for coaxial installation on the test pipe, a sealing element designed to be placed between the ends of the housing and the grill, means for compressing the housing to the end of the grill in the form of two hydraulic cylinders with their rods, rods fixations are designed for coaxial placement in the tubes of the grill, interchangeable with the test, characterized in that, in order to expand operational capabilities, it is equipped with two heads, oval in guides perpendicular to the axis of the housing with the ability to move along the latter, the housing of each hydraulic cylinder is placed in the corresponding head, and the fixing means is made in the form of a pair of cuffs made of elastic material mounted on each hydraulic cylinder rod in the form of truncated cones facing towards each other with large bases each other.

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