CN205826232U - Pressure vessel detection device and pressure vessel detecting system - Google Patents

Abstract

This utility model relates to pressure vessel detection device and pressure vessel detecting system, including lowering or hoisting gear, detection device and fixing device, described lowering or hoisting gear is connected with described fixing device installation, described detection device is positioned at the lower section of described lowering or hoisting gear, described lowering or hoisting gear is for maybe taking out the detection product described detection device of feeding detection product from described detection device, described fixing device is for fixedly mounting to realize detection by described detection product, and described pressure vessel detecting system possesses pressure vessel detection device.This utility model utilizes cylinder lifting, is installed in parallel design, it is achieved that Product checking lifting merges, with being installed in parallel two functions, the effect used.It is different from the design of conventional cycle type, single type so that the design realizes reduced footprint, decreases space requirement, enhance practicality.

Description

Pressure vessel detection device and pressure vessel detecting system

Technical field

This utility model belongs to Testing Technology on Pressure Vessels field, is specifically related to the pressure vessel inspection of a kind of air conditioning system Survey device and pressure vessel detecting system.

Background technology

Pressure vessel is filling gas or liquid, and carries the Sealing Arrangement of certain pressure.It is presently used for air-conditioning, doctor The pressure vessel of the industry such as medicine, chemical industry is when producing, and every is required for carrying out gas leakage detection.In prior art, detection is usually Employing disc wheel is rotatable, after product is positioned over tubular structure mould position, enables manual switch, lays one by one and take out and examine Survey.Simultaneously need to use the single gripping of simple frock fixture to detect.This kind of detection mode, in continuous flow procedure, Needing by having extended labour time task, detection efficiency is low, and labor intensity is big.

How to improve detection efficiency, reduce labor intensity, become problem demanding prompt solution.

Utility model content

For the deficiencies in the prior art, the purpose of this utility model, it is to provide a kind of pressure vessel detection device, utilizes Cylinder lifts, is installed in parallel design, it is achieved that Product checking lifting merges, with being installed in parallel two functions, the effect used.Difference In conventional cycle type, the design of single type so that this utility model reduced footprint, decrease space requirement, enhance reality The property used.

This utility model is achieved in that a kind of pressure vessel detection device, including lowering or hoisting gear, detects device and consolidates Determining device, described lowering or hoisting gear is connected with described fixing device installation, and described detection device is positioned under described lowering or hoisting gear Side, described lowering or hoisting gear is for maybe taking the detection product described detection device of feeding detection product from described detection device Going out, described fixing device is for fixedly mounting to realize detection by described detection product.

Preferably, described lowering or hoisting gear includes controlling organization, lift cylinder, lifting guide pillar and lifting cross bar, described control Lift cylinder described in mechanism controls, it is dynamic that described lift cylinder drives described lifting cross bar to carry out lifting by described lifting guide pillar Make.

Preferably, described detection device includes detecting tank tower, and described detection tank tower includes detecting liquid, described detection liquid For detecting described detection product.

Preferably, described fixing device is arranged on described lifting cross bar, it is simple to described lift cylinder drives described fixing Device moves up and down.

Preferably, described fixing device is at least 1.

Preferably, described fixing device is lock tube device, and described lock tube device includes lock tube main body and lock tube outer shroud, described Lock tube main body one end arranges groove, and described groove side arranges O-ring seal, and described groove is for accommodating the swollen of pressure vessel Pipe, described lock tube outer shroud is positioned at the outside of described lock tube main body, and described lock tube outer shroud is used for fixing described lock tube main body.

Preferably, described lock tube device also includes that lock tube locking plate, described lock tube locking plate are positioned at described lock tube main body and described Between lock tube outer shroud, described lock tube locking plate is used for fixing described lock tube main body.

Preferably, described lock tube locking plate arranges lock tube double card near one end of described groove, and described lock tube double card is to described The direction of lock tube outer shroud and described groove extends, and described lock tube double card is used for holding in the palm the described lock tube outer shroud of load and described tube expansion.

Preferably, described lock tube locking plate is at least two lobes, for adapting to the caliber of described tube expansion.

Preferably, described lock tube outer body arranges lock tube snap ring, and described lock tube locking plate arranges recess, described lock tube card Ring matches with described recess.

This utility model provides a kind of pressure vessel detecting system, possesses described pressure vessel detection device.According to possessing The pressure vessel detecting system of pressure vessel detection dress, it is possible to make pressure vessel detecting system realize reduced footprint, subtract Lack space requirement, enhance practicality.

Compared with prior art, this utility model has the advantages that

(1) structure lift multiple products by fixed cylinder, being installed in parallel designs and coordinates, it is achieved quickly detect Effect.

(2) cylinder lifting arranges control simply, and the suitability is strong.

(3) being installed in parallel, equipment, utilization of area rate increase, and improve workshop utilization of area rate,

(4) improve production efficiency, reduce labor intensity.

(5) improve utilization rate of equipment and installations, saved raw and processed materials, and decreased artificial expenditure.

Accompanying drawing explanation

Fig. 1 is that pressure vessel of the present utility model detects device schematic front view.

Fig. 2 is that pressure vessel of the present utility model detects device schematic top plan view.

Fig. 3 is that pressure vessel of the present utility model detects device generalized section.

Fig. 4 is the schematic front view of lock tube device of the present utility model.

Fig. 5 is the generalized section of lock tube device of the present utility model.

Fig. 6 is the schematic top plan view of lock tube device of the present utility model.

Fig. 7 is to use pressure vessel detection denoising device schematic front view of the present utility model.

Fig. 8 is to use pressure vessel detection denoising device schematic top plan view of the present utility model.

Fig. 9 is to use pressure vessel detection denoising device generalized section of the present utility model.

Figure 10 is pressure vessel of the present utility model detection device and denoising device overall schematic.

Labelling in all accompanying drawings is as follows:

1-lock tube device, 11-lock tube main body, 12-lock tube snap ring, 13-lock tube locking plate, 14-O-ring seal, outside 15-lock tube Ring, 16-locking plate double card, 17-tube expansion, the former pipe of 18-pipe fitting, 19-detects product, and 2-detects device, 21-lift cylinder, and 22-lifts Guide pillar, 23-controlling organization, 24-lifts cross bar, and 25-detects tank tower, and 26-detects liquid, 3-denoising device, 31-relief pipeline, 32-sewer, 33-blocks wall, 34-cistern, 35-noise reduction pond.

Detailed description of the invention

Describe pressure vessel of the present utility model detection device below in conjunction with drawings and Examples and possess pressure appearance The structure structure of the pressure vessel detecting system of device detection device.

As shown in Figure 1, Figure 2 and Figure 3, a kind of pressure vessel detection device 2, including lowering or hoisting gear, detects device and fixes Device.Lowering or hoisting gear is connected with fixing device installation, and detection device is positioned at the lower section of lowering or hoisting gear, and lowering or hoisting gear is for will inspection Surveying product feeding detection device and maybe will detect product taking-up from detection device, fixing device will be for detecting product fixed installation To realize detection.

As shown in Figure 1, Figure 2 and Figure 3, lowering or hoisting gear includes controlling organization 23, lift cylinder 21, lifting guide pillar 22 and lifting Cross bar 24.Controlling organization 23 controls lift cylinder 21, and lift cylinder 21 drives lifting cross bar 24 to rise by lifting guide pillar 22 Fall action.

As shown in Figure 1, Figure 2 and Figure 3, detection device includes detecting tank tower 25, and detection tank tower 25 includes detecting liquid 26, inspection Survey liquid 26 to be used for detecting product 19.

As shown in Figure 1, Figure 2 and Figure 3, fixing device is arranged on lifting cross bar 24, it is simple to lift cylinder 21 drives fixing Device moves up and down.Fixing device is at least 1, it is simple to detect multiple detection products 19 simultaneously, improves detection efficiency. Fixing device can be lock tube device, it is also possible to for quick coupling, can realize fixing detection product 19.

As shown in Figure 4, Figure 5 and Figure 6, when fixing device is lock tube device 1, including lock tube main body 11, lock tube locking plate 13 and Lock tube outer shroud 15.Lock tube locking plate 13 is between lock tube main body 1 and lock tube outer shroud 15.Lock tube main body 1 is used for installing detection product The tube expansion 17 of 19, and connected by the inside of the former pipe of pipe fitting 18 with detection product 19.Lock tube locking plate 13 is for adapting to the pipe of tube expansion Footpath, lock tube outer shroud 15 is used for fixing whole lock tube device and detects detection product 19 with convenient.

As shown in Figure 4, Figure 5 and Figure 6, lock tube main body 11 includes pore (not shown), lock tube snap ring 12, groove (not shown) With O-ring seal 14.Arranging pore in the middle part of lock tube main body 11, described pore is connected with described groove setting.Pore be arranged on Tube expansion in groove communicates, to ensure the detection of packing pressure container.Lock tube snap ring 12 is set outside one end of lock tube main body 11, Lock tube snap ring 12 matches with the recess on lock tube locking plate 13 to arrange and coordinate and is arranged in recess.In lock tube main body 11 other end Side arranges groove, and groove is for accommodating the tube expansion 17 of pressure vessel.O-ring seal 14 is set on groove side, fluid sealant is set Circle, when pressure vessel is detected, the problem that can avoid or reduce gas leakage, increase sealing effectiveness.Preferably lock tube master Body 11 is metal lock tube main body, the lock tube main body 11 of metal material, is difficult to breakage occur, extends the service life of lock tube device.

As shown in Figure 4, Figure 5 and Figure 6, lock tube locking plate 13 includes locking plate double card 16 and recess.Lock tube double card 16 is arranged on to be leaned on One end of nearly groove, lock tube double card 16 extends to the direction of lock tube outer shroud 15 and groove, is used for holding in the palm load lock tube outer shroud 15 and tube expansion 17.Recess and lock tube snap ring 12 match settings, and the installation that cooperates, upper sliding lock overlaps outer shroud 15 when, lock tube snap ring 12 match with recess, are used for protecting assembly to scatter.Preferably lock tube locking plate 13 at least two lobes, for adapting to tube expansion 17 Caliber.Preferably lock tube locking plate 13 overlaps locking plate for metal latch.The lock tube locking plate of metal material, is difficult to breakage occur, improves lock tube dress The service life put.

Preferably lock tube outer shroud 15 is metal lock tube outer shroud.The lock tube outer shroud of metal material, is difficult to breakage occur, improves lock tube The service life of device.Lock tube outer shroud 15 matches with locking plate double card 16, and when locking, locking plate double card 16 ensure that outside lock tube Ring 15 will not glide.

When using this device to carry out pressure vessel detection, detection product 19 is fixedly mounted on lifting by lock tube device 1 On cross bar 24.Starting controlling organization 23, lift cylinder 21 is started working by the auxiliary of lifting guide pillar 22, and lift cylinder 21 drives Lifting cross bar 24 and detection product 19, drop to detect under detection liquid 26 plane in tank tower 25, after having detected, and lifting horizontal stroke Bar 24 rises automatically, completes detection.In application, owing to being whether detection pressure vessel leaks gas, therefore can adopt and use water as Detection liquid, but, the application is not limited to this, and those skilled in the art can according to actual needs, i.e. according to be detected The detection project of pressure vessel, suitably chooses detection liquid.

When using this utility model to carry out pressure vessel detection, in order to reduce noise, it is possible to use such as Fig. 7, Fig. 8 and Tu Pressure vessel detection 3 shown in 9, including the upper and lower structure.Superstructure includes sewer 32 and blocks wall 33, it is also possible to It is not provided with blocking wall 33.Understructure includes cistern 34 and noise reduction pond 35.Sewer 32 above cistern 34, cistern 34 tops being positioned at noise reduction pond 35, relief pipeline 31 passes through sewer 32, blocks wall 33, cistern 34 and noise reduction pond 35, The gas outlet of relief pipeline 31 is positioned at the bottom in noise reduction pond 35.

As shown in Figure 7, Figure 8 and Figure 9, denoising device 3 is preferably inverted trapezoidal, from sewer 32 to cistern 34 and noise reduction pond 35, width is sequentially reduced, the most viewed from above, the width of sewer 32, the width of cistern 34 and the width in noise reduction pond 35 Taper into.The setting of inverted trapezoidal, when waste water flows to cistern 34 and noise reduction pond 35 from sewer 32, it is ensured that cistern 34 and noise reduction pond 35 in all have a certain amount of water, and the noise reduction of beneficially pressure at expulsion discharges to realize follow-up noise reduction purpose, It is not take up the space of sewer 32 simultaneously and uses function normally, not destroying its outward appearance.

As shown in Figure 7, Figure 8 and Figure 9, preferably arrange bottom sewer 32 and block wall 33, block wall 33 and be positioned at cistern The top of 34, blocks wall 34 for stopping the waste water of sewer 32.Wall 33 is blocked in setting, can stop a certain amount of lower water of accumulation Road waste water, makes waste water energy pass through cistern cover plate aerofluxus inlet opening (not shown) and flows in cistern 34, and by sinking in waste water Under shallow lake thing stops, it is to avoid enter in cistern 34.Block wall 33 and be arranged at least one side of sewer 32, be used for realizing waste water energy Flowing in cistern, exceed the water blocking wall 33 height, major part directly flows away, and fraction enters in cistern 34.Preferably Blocking wall 33 is circular arc, for buffering the current in sewer 32, and stops precipitate and waste water drain is entered cistern In 34.Blocked the precipitate that wall 33 blocks directly to flow away under the drive not over the half current blocked, the most not shadow Ring the normal use of sewer.

As shown in Figure 7, Figure 8 and Figure 9, preferably sewer cover plate is set at sewer 32 top, is used for intercepting sewer 32 Space with sewer 32 top.Sewer 32 top arranges sewer cover plate, can be separated with upper space by sewer 32, Both can guarantee that the use safety of sewer, intercept noise reduction also by cover plate further.

As shown in Figure 7, Figure 8 and Figure 9, cistern 34 includes cistern cover plate (not shown) and cistern cover plate aerofluxus water inlet Hole (not shown).Cistern cover plate is arranged between sewer 32 and cistern 34, and cistern cover plate arranges at least 1 water-retention Basin lid plate aerofluxus inlet opening.Cistern cover plate is set, sewer 32 is separated with cistern 34, and by cistern cover plate Aerofluxus inlet opening, enters cistern 34 by the water drain in sewer 32, is arranged by the gas in cistern 34 to sewer 32, real Existing noise reduction.

As shown in Figure 7, Figure 8 and Figure 9, noise reduction pond 35 includes noise reduction basin lid plate (not shown) and noise reduction basin lid plate aerofluxus water inlet Hole (not shown).Noise reduction basin lid plate is arranged between cistern 34 and noise reduction pond 35, and noise reduction basin lid plate arranges at least 1 noise reduction Basin lid plate aerofluxus inlet opening.Noise reduction basin lid plate is set, noise reduction pond 35 is separated with cistern 34, and by noise reduction basin lid plate Aerofluxus inlet opening, enters noise reduction pond 35 by the water drain in cistern 34, is arranged by the gas in noise reduction pond 35 to cistern 34, real Existing noise reduction.Preferably noise reduction pond 35 and the superimposed setting of cistern 34, top, noise reduction pond 35 is positioned at cistern 34, coordinates storage simultaneously The setting of wall 33 is blocked at top, pond 34, makes precipitate directly be flowed away by sewer, thus avoids precipitate to enter cistern 34 and noise reduction pond 35 in, it is achieved that the effect that noise-reduction and draining are independent of each other.

As shown in Figure 7, Figure 8 and Figure 9, preferably noise reduction basin lid plate aerofluxus inlet opening is bigger than cistern cover plate aerofluxus inlet opening. At gas after disappointing pipeline 31 enters noise reduction pond 35, gas discharges when upwards erupting again, by reserve on noise reduction basin lid plate The dispersion of bigger noise reduction basin lid plate aerofluxus inlet opening, forms multiple larger bubble, more reserved small-sized on cistern cover plate The dispersion again of cistern cover plate aerofluxus inlet opening, forms numerous smaller bubble, when arriving sewer surface, sends vexed sound, Complete noise reduction.

During work, pressure vessel detecting system as shown in Figure 10, is surveyed including denoising device, lock tube device and pressure vessel Electricity testing device, is fixedly mounted on detection product 19 on detection device 2 by lock tube device 1, detection device 2 is passed through relief pipeline 31 are connected on denoising device 3.Open control mechanism 23, gas by electromagnetic valve automatically into pipeline, pipeline with pass through lock tube Device 1 hard-wired detection product 19 connects, and it is internal that gas is directly injected into detection product 19；While gas charge, lifting Cylinder 21 electromagnetic valve air inlet, lifting cross bar 24 drops to detect liquid 26, starts detection；After completing detection, lift cylinder 21 Solenoid valve vents, lifting cross bar 24 rises, and gas is by solenoid valve vents to sewer simultaneously, proceeds by noise reduction process, logical Cross sewer, cistern and the process of three layers of noise reduction pond, complete noise reduction.

This utility model uses vertical lift, is installed in parallel mode, carries out elevating control by cylinder, is installed in parallel multiple Product, reaches the effect of efficient low labor intensity.Solve traditional approach in terms of production efficiency, need the prolongation time to complete to appoint Business and labor intensity are relatively big, the problem being not suitable for long working.

Last it is noted that above-described each embodiment is merely to illustrate the technical solution of the utility model, rather than It is limited；Although this utility model being described in detail with reference to previous embodiment, those of ordinary skill in the art It is understood that the technical scheme described in previous embodiment still can be modified by it, or to the most part or all of Technical characteristic carries out equivalent；And these amendments or replacement, do not make the essence of appropriate technical solution depart from this utility model The scope of each embodiment technical scheme.

Claims (10)

1. a pressure vessel detection device, including lowering or hoisting gear, detection device and fixing device, it is characterised in that: described liter Falling unit is connected with described fixing device installation, and described detection device is positioned at the lower section of described lowering or hoisting gear, and described lifting fills Put for detection product is maybe taken out from described detection device by the detection product described detection device of feeding, described fixing device For fixedly mounting to realize detection by described detection product.

Pressure vessel the most according to claim 1 detection device, it is characterised in that: described lowering or hoisting gear includes control machine Structure, lift cylinder, lifting guide pillar and lifting cross bar, described controlling organization controls described lift cylinder, and described lift cylinder passes through Described lifting guide pillar drives described lifting cross bar to carry out lifting action.

Pressure vessel the most according to claim 1 detection device, it is characterised in that: described detection device includes detection case Frame, described detection tank tower includes detecting liquid, and described detection liquid is used for detecting described detection product.

Pressure vessel the most according to claim 2 detection device, it is characterised in that: described fixing device is arranged on described liter On fall cross bar, it is simple to described lift cylinder drives described fixing device to move up and down.

Pressure vessel the most according to claim 1 detection device, it is characterised in that: described fixing device is lock tube device, Described lock tube device includes that lock tube main body and lock tube outer shroud, described lock tube main body one end arrange groove, described groove side sets Putting O-ring seal, described groove is for accommodating the tube expansion of pressure vessel, and described lock tube outer shroud is positioned at the outside of described lock tube main body, Described lock tube outer shroud is used for fixing described lock tube main body.

Pressure vessel the most according to claim 5 detection device, it is characterised in that: described lock tube device also includes that lock tube is locked Sheet, described lock tube locking plate is between described lock tube main body and described lock tube outer shroud, and described lock tube locking plate is used for fixing described lock Set main body.

Pressure vessel the most according to claim 6 detection device, it is characterised in that: described lock tube locking plate is near described groove One end lock tube double card is set, described lock tube double card extends to the direction of described lock tube outer shroud and described groove, and described lock tube is double Card is used for holding in the palm the described lock tube outer shroud of load and described tube expansion.

8. detect device according to the pressure vessel described in claim 6 or 7, it is characterised in that: described lock tube locking plate is at least two Lobe, for adapting to the caliber of described tube expansion.

Pressure vessel the most according to claim 8 detection device, it is characterised in that: described lock tube outer body arranges lock tube Snap ring, described lock tube locking plate arranges recess, and described lock tube snap ring matches with described recess.

10. a pressure vessel detecting system, it is characterised in that include the pressure vessel according to any one of claim 1-9 Detection device.