CN219348073U - Carousel formula six station water test air-tightness test equipment - Google Patents

Abstract

The utility model discloses rotary disc type six-station water test air tightness testing equipment which comprises a feeding mechanism and an air tightness detection mechanism, wherein the air tightness detection mechanism comprises a detection frame, a rotating mechanism assembled at the middle part above the detection frame, an aligning mechanism positioned at the side of the rotating mechanism, a feeding clamping mechanism fixed on the rotating mechanism, an air tightness detector positioned at the opposite side of the aligning mechanism, a discharging clamping mechanism fixed on the rotating mechanism, a storage mechanism arranged at the side of the detection frame, a vibration feeding frame arranged on the detection frame and used for connecting the aligning mechanism and the feeding mechanism, and a distribution box arranged on the detection frame; through running gear cooperation aligning mechanism, material loading clamping mechanism, gas tightness detector and unloading clamping mechanism, can reduce the volume of equipment through rotatory change station, can also detect simultaneously a plurality of pipe fittings or tap, improved the practicality and the application range of equipment greatly.

Description

Carousel formula six station water test air-tightness test equipment

Technical Field

The utility model particularly relates to rotary disc type six-station water test air-tightness testing equipment.

Background

The sanitary fittings such as pipe fittings, water taps and the like need to be subjected to tightness detection after the production and processing are finished so as to ensure the qualification of products.

The existing test water vapor tightness test equipment can improve the detection efficiency by simultaneously detecting a plurality of pipe fittings through multi-station operation, but because of multi-station detection, the structures of some equipment are increased, so that the equipment is huge, for example, the utility model of the patent number CN202222369833.8 discloses a six-station test water vapor tightness test equipment, and only the test water vapor tightness test of workpieces is carried out, and the feeding and discharging of the workpieces are not carried out, so that external equipment is required for auxiliary production, or manual feeding and discharging are required, even if the multi-station operation can be carried out for simultaneously detecting a plurality of workpieces and detecting the workpieces with different models.

Disclosure of Invention

In view of the above, the utility model aims to provide a rotary disc type six-station water test air tightness testing device which is beneficial to reducing the volume of the device and can feed and discharge, and can simultaneously detect a plurality of pipe fittings or water taps, thereby greatly improving the practicability and the application range of the device.

In order to solve the problems, the utility model adopts the following technology and method:

the utility model provides a six station water-tightness test equipment of carousel formula, includes feed mechanism and butt joint feed mechanism's gas tightness detection mechanism, gas tightness detection mechanism includes detects the frame, assembles the slewing mechanism in the position between two parties in detection frame top, assembles in detecting the frame, and be located the counterpoint mechanism of slewing mechanism avris, fix on the slewing mechanism, and be located the feed clamping mechanism of counterpoint mechanism top, assemble in detecting the frame, and be located the gas tightness detector of counterpoint mechanism subtend one side, fix on the slewing mechanism, and be located the gas tightness detector avris clamping mechanism, install at detecting the frame side, can with the matched storage mechanism of unloading, install in detecting the frame, be used for connecting counterpoint mechanism and feed mechanism's vibration pay-off frame to and install the block terminal in detecting the frame.

Preferably, the rotating mechanism comprises a driving motor, a speed reducer which is matched with the driving motor, a rotating disc which is arranged on the speed reducer and is driven by the speed reducer, and a fixed disc which is arranged on a shell of the speed reducer.

Further, the speed reducer comprises a shell bulge for mounting the fixed disc, and a rotating ring driven by the speed reducer is arranged on the outer ring of the shell bulge.

Further, the rotating disc comprises a rotating disc body, mounting holes formed in the middle of the rotating disc body, placing plates which are distributed around the side of the upper surface of the rotating disc body at equal intervals and provided with six workpiece grooves, and jacking blocks correspondingly mounted in the workpiece grooves of the placing plates.

Further, the rotating disc body is arranged in a cube mode, and four corners are arranged in a rounding mode.

Preferably, the alignment mechanism comprises a belt conveying frame fixedly installed on the detection frame and driven by a motor, an alignment frame fixedly installed on the belt conveying frame, and a plurality of alignment cylinders assembled on the alignment frame.

Preferably, the feeding clamping mechanism comprises a horizontal cylinder moving seat, a vertical cylinder moving seat arranged at the tail end of the horizontal cylinder moving seat, and a clamping head which is arranged at the tail end of the vertical cylinder moving seat and is controlled by a cylinder.

Preferably, the storage mechanism comprises a supporting plate fixed with the detection frame, a screw rod and a guide rod which are arranged above the supporting plate, a screw rod motor arranged below the supporting plate, a movable seat which is assembled on the screw rod and the guide rod and provided with two grooves, a defective storage barrel and a good storage barrel which are respectively arranged on the movable seat, and a discharging hopper which is fixedly arranged on the detection frame.

Preferably, the structure of the unloading clamping mechanism is consistent with that of the loading clamping mechanism.

Preferably, the feeding mechanism comprises a feeding frame and a vibration disc feeder assembled on the feeding frame.

The utility model has the beneficial effects that: through running gear cooperation aligning mechanism, material loading clamping mechanism, gas tightness detector and unloading clamping mechanism, can reduce the volume of equipment through rotatory change station, can also detect simultaneously a plurality of pipe fittings or tap, improved the practicality and the application range of equipment greatly.

Drawings

FIG. 1 is a top view of a rotary disc type six-station test water air-tightness test device according to the present utility model;

FIG. 2 is a perspective view of a rotary disc type six-station test water air-tightness testing device according to the present utility model;

FIG. 3 is a front view of FIG. 2;

fig. 4 is a specific structural view of the rotating mechanism in fig. 2.

Detailed Description

The following detailed description of the utility model is provided in connection with the accompanying drawings to facilitate understanding and grasping of the technical scheme of the utility model.

In this embodiment, it should be understood that the directions or positional relationships indicated by the terms "middle", "upper", "lower", "top", "right", "left", "upper", "back", "middle", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description of the present utility model, and do not indicate or imply that the apparatus or elements referred to must have a specific direction, be configured and operated in a specific direction, and thus should not be construed as limiting the present utility model.

In this embodiment, if not specifically described, the members may be connected or fixed by bolts, pins, or the like, which are commonly used in the prior art, and therefore, the details thereof will not be described in this embodiment.

The rotary disc type six-station water test air tightness testing device comprises a feeding mechanism 1 and an air tightness detecting mechanism 2 for butt joint of the feeding mechanism 1, wherein the feeding mechanism 1 comprises a feeding frame 11, a vibration disc feeder 12 assembled on the feeding frame 11, and the vibration disc feeder 12 is conventional vibration disc feeding equipment. The air tightness detection mechanism 2 comprises a detection frame 21, a rotating mechanism 22 assembled at the middle part above the detection frame 21, an aligning mechanism 23 assembled on the detection frame 21 and positioned at the side of the rotating mechanism 22, a feeding clamping mechanism 24 fixed on the rotating mechanism 22 and positioned above the aligning mechanism 23, an air tightness detector 25 assembled on the detection frame 21 and positioned at the opposite side of the aligning mechanism 23, a discharging clamping mechanism 26 fixed on the rotating mechanism 22 and positioned at the side of the air tightness detector 25, a storage mechanism 27 mounted on the side of the detection frame 21 and capable of being matched with the discharging clamping mechanism 26, a vibration feeding frame 28 mounted on the detection frame 21 and used for connecting the aligning mechanism 23 and the feeding mechanism 1, and a distribution box 29 mounted on the detection frame 21, wherein the vibration feeding frame 28 is a feeding track with a vibration motor at the bottom. The alignment mechanism 23 includes a belt conveyor 231 fixedly mounted on the detection frame 21 and driven by a motor, an alignment frame 232 fixedly mounted on the belt conveyor 231, and a plurality of alignment cylinders 233 mounted on the alignment frame 232, wherein the number of the alignment cylinders 233 is consistent with the number of workpiece grooves in the placing plate 2233. The loading clamping mechanism 24 includes a horizontal cylinder moving seat 241, a vertical cylinder moving seat 242 mounted at the end of the horizontal cylinder moving seat 241, and a chuck 243 mounted at the end of the vertical cylinder moving seat 242 and controlled by a cylinder, specifically, the number of the chucks 243 is consistent with the number of workpiece slots in the placing plate 2233, so that the workpiece after being aligned on the alignment mechanism 23 can be clamped and placed in the workpiece slots of the placing plate 2233. The storage mechanism 27 comprises a supporting plate 271 fixed with the detection frame 21, a screw rod 272 and a guide rod 273 which are arranged above the supporting plate 271, a screw rod motor 274 arranged below the supporting plate 271, a movable seat 275 which is assembled on the screw rod 272 and the guide rod 273 and provided with two grooves, a defective product storage barrel 276 and a good product storage barrel 277 which are respectively arranged on the movable seat 275, and a blanking hopper 278 fixedly arranged on the detection frame 21, wherein the screw rod motor 274 drives the movable seat 275 to move left and right by driving the screw rod 272, and the defective product storage barrel 276 or the good product storage barrel 277 is moved to the position below the blanking hopper 278 to collect workpieces.

As shown in fig. 4, the rotation mechanism 22 includes a driving motor 221, a decelerator 222 mounted in cooperation with the driving motor 221, a rotation disk 223 mounted on the decelerator 222 and driven by the decelerator 222, and a fixing disk 224 mounted on a housing of the decelerator 222. The speed reducer 222 includes a housing boss 2221 for mounting the fixed disk 224, and a rotating ring 2222 driven by the speed reducer 222 is disposed on the outer ring of the housing boss 2221, specifically, the rotating disk 223 is sleeved on the housing boss 2221 and fixed with the rotating ring 2222 by screws, and the fixed disk 224 is directly placed on the housing boss 2221 after the rotating disk 223 is mounted, and then is fixedly mounted by screws. The rotating disc 223 includes a rotating disc body 2231, a mounting hole 2232 formed in a central portion of the rotating disc body 2231, a placement plate 2233 disposed equidistantly around an upper surface side of the rotating disc body 2231 and having six workpiece grooves, and a top block 2234 correspondingly mounted in the workpiece grooves of the placement plate 2233, wherein the top block 2234 is adjusted to accommodate placement of workpieces of different specifications. The rotating disc body 2231 is a cube, and four corners are rounded corners, and specifically, the rotating disc body 2231 can be correspondingly installed and placed on the rotating disc body, so that workpieces can be conveniently fed, detected and discharged in the rotating process.

In this embodiment, the structure of the unloading and clamping mechanism 26 is identical to that of the loading and clamping mechanism 24, and the unloading and clamping mechanism 26 can clamp the workpiece in the workpiece slot of the placing plate 2233, place the workpiece in the discharging hopper 278, and send the workpiece to the defective product storage barrel 276 or the good product storage barrel 277 by using the discharging hopper 278.

The utility model has the beneficial effects that: through running gear cooperation aligning mechanism, material loading clamping mechanism, gas tightness detector and unloading clamping mechanism, can reduce the volume of equipment through rotatory change station, can also detect simultaneously a plurality of pipe fittings or tap, improved the practicality and the application range of equipment greatly.

The foregoing is merely illustrative of the present utility model, and the scope of the utility model is not limited thereto, but is intended to cover any variations or alternatives not suggested by the applicant's knowledge, and accordingly, the scope of the utility model is to be determined by the appended claims.

Claims (10)

1. The utility model provides a six station water test air tightness test equipment of carousel formula, includes feed mechanism and dock feed mechanism's air tightness detection mechanism, its characterized in that: the air tightness detection mechanism comprises a detection frame, a rotating mechanism assembled at the middle part above the detection frame, an aligning mechanism assembled on the detection frame and positioned at the side of the rotating mechanism, a feeding clamping mechanism fixed on the rotating mechanism and positioned above the aligning mechanism, an air tightness detector assembled on the detection frame and positioned at the opposite side of the aligning mechanism, a discharging clamping mechanism fixed on the rotating mechanism and positioned at the side of the air tightness detector, a storage mechanism installed at the side of the detection frame and matched with the discharging clamping mechanism, a vibration feeding frame installed on the detection frame and used for connecting the aligning mechanism and the feeding mechanism, and a distribution box installed on the detection frame.

2. A rotary disc type six-station water test air tightness test device according to claim 1, wherein: the rotating mechanism comprises a driving motor, a speed reducer which is matched with the driving motor, a rotating disc which is arranged on the speed reducer and is driven by the speed reducer, and a fixed disc which is arranged on a shell of the speed reducer.

3. A rotary disc type six-station water test air tightness test device as claimed in claim 2, wherein: the speed reducer comprises a shell bulge for installing a fixed disc, and a rotating ring driven by the speed reducer is arranged on the outer ring of the shell bulge.

4. A rotary disc type six-station water test air tightness test device as claimed in claim 2, wherein: the rotating disc comprises a rotating disc body, mounting holes formed in the middle of the rotating disc body, placing plates which are distributed around the side of the upper surface of the rotating disc body at equal intervals and provided with six workpiece grooves, and jacking blocks correspondingly mounted in the workpiece grooves of the placing plates.

5. The rotary disc type six-station water test air tightness test device according to claim 4, wherein: the rotating disc body is square, and four corners are rounded corners.

6. A rotary disc type six-station water test air tightness test device according to claim 1, wherein: the alignment mechanism comprises a belt conveying frame fixedly installed with the detection frame and driven by a motor, an alignment frame fixedly installed with the belt conveying frame and a plurality of alignment cylinders assembled on the alignment frame.

7. A rotary disc type six-station water test air tightness test device according to claim 1, wherein: the feeding clamping mechanism comprises a horizontal cylinder moving seat, a vertical cylinder moving seat arranged at the tail end of the horizontal cylinder moving seat and a clamping head which is arranged at the tail end of the vertical cylinder moving seat and is controlled by a cylinder.

8. A rotary disc type six-station water test air tightness test device according to claim 1, wherein: the storage mechanism comprises a supporting plate fixed with the detection frame, a screw rod and a guide rod arranged above the supporting plate, a screw rod motor arranged below the supporting plate, a movable seat which is assembled on the screw rod and the guide rod and provided with two grooves, a defective storage barrel and a good storage barrel which are respectively arranged on the movable seat, and a discharging hopper fixedly arranged on the detection frame.

9. A rotary disc type six-station water test air tightness test device according to claim 1, wherein: the structure of the unloading clamping mechanism is consistent with that of the loading clamping mechanism.

10. A rotary disc type six-station water test air tightness test device according to claim 1, wherein: the feeding mechanism comprises a feeding rack and a vibrating disc feeder assembled on the feeding rack.

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