CN220063321U - Continuous heat exchange tube pressure testing device - Google Patents

Abstract

The utility model discloses a continuous heat exchange tube pressure testing device which comprises a frame, a top pressure testing mechanism and a detection transmission mechanism, wherein the top pressure testing mechanism is arranged in the middle of the top end of the frame, the detection transmission mechanism is arranged on the periphery of the top surface of the frame, the detection transmission mechanism comprises a transmission belt, a detection bottom plate, a closed mold, an air inflation cavity, a closed cavity, a heat exchange tube and a positioning frame, the detection bottom plate is distributed on the peripheral outer wall of the transmission belt, the closed mold is arranged on one side of the top surface of the detection bottom plate, the air inflation cavity is formed on one side of the top surface of the closed mold, and the closed cavity is formed on the other side of the air inflation cavity. This continuous heat exchange tube pressure testing device adopts transmission mode to carry out the continuous transmission detection of many groups of heat exchange tubes, after the user has set up the instrument in advance, only need to carry out the front end of heat exchange tube settle can, whole operation process is controllable and the step reduces, also has spacing stabilization effect when guaranteeing detection efficiency again, promotes detection security and quality.

Description

Continuous heat exchange tube pressure testing device

Technical Field

The utility model relates to the technical field of heat exchange tube air tightness detection, in particular to a continuous heat exchange tube pressure testing device.

Background

The heat exchange tube is one of the elements of the heat exchanger, is arranged in the cylinder body and used for exchanging heat between two media, has high heat conductivity and good isothermicity, and is a device capable of rapidly transmitting heat energy from one point to the other point.

When the existing heat exchange tubes are detected, each group of heat exchange tubes are required to be arranged in a matched fixing die of the dry detector equipment by manpower, and then a stable test process is carried out.

Disclosure of Invention

The utility model aims to provide a continuous heat exchange tube pressure test device so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a continuous heat exchange tube pressure testing device, includes frame, top position pressure testing mechanism and detects transmission mechanism, the top middle part of frame is provided with top position pressure testing mechanism, and is provided with around the top surface of frame and detects transmission mechanism, detect transmission mechanism and include the conveyer belt, detect the bottom plate, seal the mould, fill air cavity, seal chamber, heat exchange tube and locating rack, and the outer wall distribution all around of conveyer belt has the detection bottom plate, top surface one side that detects the bottom plate is provided with seals the mould, and seals top surface one side of mould and has offered and fill the air cavity, seal the opposite side of filling the air cavity and seted up and seal the chamber, and seal the inside in chamber and be provided with the heat exchange tube, the other end of heat exchange tube is provided with the locating rack.

Furthermore, the locating frame and the sealing mould are clamped with the heat exchange tube, and the air filling cavity and the sealing cavity are arranged along the two sides of the top surface of the sealing mould.

Further, the locating frame, the closed die and the detection bottom plate are fixedly connected, and the detection bottom plate is distributed along the peripheral outer wall of the conveying belt at equal intervals.

Further, the frame includes main frame, power box, support stake, bed plate, ejection of compact frame, cushion and ejection of compact area, and main frame's bottom one side is provided with the power box, the bottom of power box distributes all around has the support stake, and the bottom of support stake is provided with the bed plate, main frame's the other end is connected with ejection of compact frame, and the top surface of ejection of compact frame is provided with the cushion, bottom one side of cushion is provided with ejection of compact area.

Further, the main frame is fixedly connected with the power supply box, and the supporting piles are distributed at equal intervals along one side of the bottom end of the main frame.

Further, the main frame is connected with the discharging frame, and the soft cushion is attached to one side of the top surface of the discharging frame.

Further, the roof position pressure testing mechanism includes that dry appearance module, control panel, flexible cylinder and closed template are examined to the top surface one side of appearance module futilely, the bottom both sides of examining the appearance module futilely distribute and have flexible cylinder, and the bottom of flexible cylinder is provided with closed template.

Further, the closed template forms a lifting structure with the dry detection instrument module through the telescopic cylinder, and the control panel is connected with the dry detection instrument module.

Compared with the prior art, the utility model has the beneficial effects that: this continuous heat exchange tube pressure testing device adopts transmission mode to carry out the continuous transmission detection of many groups of heat exchange tubes, after the user has set up the instrument in advance, only need to carry out the front end of heat exchange tube settle can, whole operation process is controllable and the step reduces, also has spacing stabilization effect when guaranteeing detection efficiency again, promotes detection security and quality.

Through the discharging area of cushion one side, with the convenient follow-up collection of tubular product transmission sign indicating number, save staff's operation flow through this kind of transmission mode, the process is taken up from the mould to the shorthand material, promotes the convenience.

The telescopic cylinder and the closed template are arranged in the equipment detection, one group is used for carrying out inflation detection, the other group is used for carrying out auxiliary positioning through being attached to the positioning frame, the situation that materials are unstable and the like in the test is avoided, and the test stability is improved.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of a partial perspective structure of a frame according to the present utility model;

FIG. 3 is a schematic diagram of the internal structure of the top pressure test mechanism of the present utility model;

FIG. 4 is a schematic diagram of a three-dimensional structure of a detection and transmission mechanism according to the present utility model;

fig. 5 is a schematic view of a three-dimensional partial structure of the detection and transmission mechanism of the present utility model.

In the figure: 1. a frame; 101. a main frame; 102. a power box; 103. supporting piles; 104. a base plate; 105. a discharging frame; 106. a soft cushion; 107. a discharging belt; 2. a top pressure test mechanism; 201. a dry-check instrument module; 202. a control panel; 203. a telescopic cylinder; 204. closing the template; 3. detecting a transmission mechanism; 301. a transmission belt; 302. detecting a bottom plate; 303. closing the mould; 304. an air-filling cavity; 305. closing the cavity; 306. a heat exchange tube; 307. and a positioning frame.

Detailed Description

As shown in fig. 1-2, a continuous heat exchange tube pressure test device includes: a frame 1; the top middle part of frame 1 is provided with top position pressure testing mechanism 2, and frame 1's top surface is provided with detection transport mechanism 3 all around, frame 1 includes frame 101, power box 102, support stake 103, base plate 104, go out work rest 105, cushion 106 and ejection of compact area 107, and frame 101's bottom one side is provided with power box 102, power box 102's bottom distributes all around and supports stake 103, and support stake 103's bottom is provided with base plate 104, frame 101's the other end is connected with ejection of compact frame 105, and the top surface of ejection of compact frame 105 is provided with cushion 106, cushion 106's bottom one side is provided with ejection of compact area 107, be fixed connection between frame 101 and the power box 102, and support stake 103 distributes along frame 101 bottom one side equidistance, be connected between frame 101 and the ejection of compact frame 105, and cushion 106 is laminated mutually with ejection of compact frame 105 top surface one side, when this pressure testing device carries out the production of tubular product and detects, its overall structure adopts frame 1 and power box 102, support stake 103 combination mode, form overall structure's support, carry out detection equipment and transport structure through this structure, this frame 101's other end is connected with ejection of compact end 105, and then carry out the cushion 106 through the cushion 106 is carried out to the mode to the cushion 106 through the cushion 106, the convenient mode of the top surface is carried out to the back of the cushion 106, the back is carried out to the top surface of the test mode, the quality is carried out the cushion is carried out, and is carried out the material is carried out, and is carried on the material end 106.

As shown in fig. 3, a continuous heat exchange tube pressure test device, the top pressure test mechanism 2 includes a dry gauge module 201, a control panel 202, a telescopic cylinder 203 and a closed template 204, and the control panel 202 is disposed on one side of the top surface of the dry gauge module 201, the telescopic cylinders 203 are distributed on two sides of the bottom end of the dry gauge module 201, the closed template 204 forms a lifting structure with the dry gauge module 201 through the telescopic cylinders 203, and the control panel 202 is connected with the dry gauge module 201, when the device is tested, an operator can perform a press fit positioning test on the heat exchange tube 306 carried by the conveyor belt 301 below the dry gauge module 201 by setting the control panel 202, and when the device is tested, the two groups of telescopic cylinders 203 carried by the bottom end of the dry gauge module 201 are telescopic, the closed template 204 and the closed mould 303 are driven by the telescopic cylinders 203, so that an air pressure test process is performed, manual operation steps are saved, one group of the telescopic structure is provided with two groups of inflatable test, and the auxiliary positioning is performed by attaching with the positioning frame 307, thus the unstable material lifting test condition is avoided.

As shown in fig. 4-5, a continuous heat exchange tube pressure test device, the detection transmission mechanism 3 includes a transmission belt 301, a detection bottom plate 302, a closed mold 303, an inflatable cavity 304, a closed cavity 305, a heat exchange tube 306 and a positioning frame 307, the detection bottom plate 302 is distributed on the peripheral outer wall of the transmission belt 301, the closed mold 303 is disposed on one side of the top surface of the detection bottom plate 302, the inflatable cavity 304 is disposed on one side of the top surface of the closed mold 303, the closed cavity 305 is disposed on the other side of the inflatable cavity 304, the heat exchange tube 306 is disposed in the closed cavity 305, the positioning frame 307, the closed mold 303 and the heat exchange tube 306 are engaged, the inflatable cavity 304 and the closed cavity 305 are disposed along the two sides of the top surface of the closed mold 303, the positioning frame 307, the closed mold 303 and the detection bottom plate 302 are fixedly connected, the detection bottom plate 302 is distributed along the peripheral outer wall of the transmission belt 301, when the airtight detection of the heat exchange tube 306 is performed, the ends of the heat exchange tube 306 can be horizontally placed in the closed mold 303, the two ends are respectively positioned with the inflatable cavity 304 and the cavity 305 in the mold, the other ends of the closed cavity 305 are engaged with the other ends of the heat exchange tube 306, the other ends of the closed cavity 306 are engaged with the heat exchange tube 306, and the two end of the heat exchange tube 306 are engaged with the heat exchange tube 306, and the heat exchange tube 306 is further aligned with the detection bottom plate 306, and the detection bottom plate 306 is simultaneously, the continuous heat exchange tube is disposed, and the continuous heat exchange tube has a continuous transmission structure, and has a stable quality test structure, and a continuous quality test structure, and can be used for performing a continuous transmission process, and can simultaneously, and a continuous quality test and a continuous process.

In summary, when the continuous heat exchange tube pressure test device is used, firstly, when the air tightness of the heat exchange tube 306 is tested, the end positions of the heat exchange tube 306 can be horizontally placed into the closed mold 303, the end positions at two sides are respectively clamped and positioned with the air filling cavity 304 and the closed cavity 305 in the mold, the two groups of pipelines at the other end of the heat exchange tube 306 are clamped with the positioning frame 307, so that the subsequent testing and positioning process is facilitated, the transmission of the transmission belt 301 to the detection bottom plate 302 is finished, an operator can perform the lamination positioning test on the heat exchange tube 306 carried by the transmission belt 301 below the dry detector module 201 through the setting control panel 202, and the two groups of telescopic cylinders 203 carried by the bottom end of the dry detector module 201 are telescopic during the detection, and the closed template 204 at the bottom end is driven to be closed with the closed mold 303 through the telescopic cylinders 203, so that the air pressure test process is performed.

Claims (8)

1. The utility model provides a continuous heat exchange tube pressure testing device, includes frame (1), top position pressure testing mechanism (2) and detects transmission mechanism (3), its characterized in that: top middle part of frame (1) is provided with top position pressure testing mechanism (2), and is provided with detection transport mechanism (3) all around the top surface of frame (1), detection transport mechanism (3) are including conveyer belt (301), detection bottom plate (302), seal mould (303), aerify chamber (304), seal chamber (305), heat exchange tube (306) and locating rack (307), and the outer wall distribution all around of conveyer belt (301) has detection bottom plate (302), top surface one side of detection bottom plate (302) is provided with seal mould (303), and seal mould (303) top surface one side has seted up and has aerifyd chamber (304), seal chamber (305) have been seted up to the opposite side of aerifing chamber (304), and seal chamber (305) inside is provided with heat exchange tube (306), the other end of heat exchange tube (306) is provided with locating rack (307).

2. The continuous heat exchange tube pressure test device according to claim 1, wherein: the locating frame (307), the sealing die (303) and the heat exchange tube (306) are clamped, and the inflating cavity (304) and the sealing cavity (305) are arranged along two sides of the top surface of the sealing die (303).

3. The continuous heat exchange tube pressure test device according to claim 1, wherein: the locating frame (307), the closed die (303) and the detection bottom plate (302) are fixedly connected, and the detection bottom plate (302) is distributed along the peripheral outer wall of the conveying belt (301) at equal intervals.

4. The continuous heat exchange tube pressure test device according to claim 1, wherein: frame (1) is including main frame (101), power box (102), support stake (103), bed plate (104), ejection of compact frame (105), cushion (106) and ejection of compact area (107), and bottom one side of main frame (101) is provided with power box (102), the bottom of power box (102) distributes all around has support stake (103), and the bottom of support stake (103) is provided with bed plate (104), the other end of main frame (101) is connected with ejection of compact frame (105), and the top surface of ejection of compact frame (105) is provided with cushion (106), bottom one side of cushion (106) is provided with ejection of compact area (107).

5. The continuous heat exchange tube pressure test device according to claim 4, wherein: the main frame (101) is fixedly connected with the power supply box (102), and supporting piles (103) are distributed at equal intervals along one side of the bottom end of the main frame (101).

6. The continuous heat exchange tube pressure test device according to claim 4, wherein: the main frame (101) is connected with the discharging frame (105), and the soft cushion (106) is attached to one side of the top surface of the discharging frame (105).

7. The continuous heat exchange tube pressure test device according to claim 1, wherein: top position pressure testing mechanism (2) are including examining appearance module (201), control panel (202), flexible cylinder (203) and closed template (204) futilely, and the top surface one side of examining appearance module (201) futilely is provided with control panel (202), the bottom both sides of examining appearance module (201) futilely are distributed and are had flexible cylinder (203), and the bottom of flexible cylinder (203) is provided with closed template (204).

8. The continuous heat exchange tube pressure test device as claimed in claim 7, wherein: the closed template (204) and the dry detector module (201) form a lifting structure through the telescopic cylinder (203), and the control panel (202) is connected with the dry detector module (201).