CN205049325U - Detection apparatus for detect working property under hydraulic absorber alternating temperature environment - Google Patents

Abstract

The utility model relates to a detection device field especially relates to a detection apparatus for detect working property under hydraulic absorber alternating temperature environment, including base, mounting bracket, flexible striking structure and hydraulic absorber mounting structure, the hydraulic absorber that awaits measuring installation is fixed in hydraulic absorber mounting structure, and then with the base is fixed, flexible stable the installing of drive arrangement on the crossbeam to stabilize accurate striking the hydraulic absorber that awaits measuring of the last installation of hydraulic absorber mounting structure for the hydraulic absorber that awaits measuring does the compression and resumes the motion with the extension, the more excellent is, detection device still is equipped with mold temperature control system makes mounting structure's temperature becomes adjustable, can come set for near the temperature in hydraulic absorber of awaiting measuring according to the detection needs, has simulated the condition that the hydraulic absorber that awaits measuring used in different temperature environment in the real work, and then has realized the detection to the work function of hydraulic absorber under the alternating temperature environment.

Description

A kind of pick-up unit of the serviceability detected under bydraulic buffers varying temperature environment

Technical field

The utility model relates to pick-up unit field, particularly relates to a kind of pick-up unit of the serviceability detected under bydraulic buffers varying temperature environment.

Background technology

Bydraulic buffers deposits the cylinder body (12) of damping fluid by sealing and lower slide is located in this cylinder body (12) as shown in Figure 1, and the expansion link that upper end can realize stretching forms, telescopic end (11) and the cylinder body of expansion link are mounted on two parts that can be movable relatively respectively in actual applications, by the buffer action of expansion link between cylinder interior extruding damping fluid and elastic component realize two moving components.

Bydraulic buffers is mainly used in mechanical drive, hydrostatic transmission, pneumatic drive mechanisms; mechanism body is damaged for avoiding the impulsive force that between mechanism's parts, quick relative movement produces; and bydraulic buffers has been installed between mechanism's parts of two relative motions; it can absorb kinetic energy; thus available protecting mechanism body, extend the serviceable life of mechanism.Bydraulic buffers is mainly applicable to all kinds of automatic production line at present, as PET bottle blowing machine industry, and car body welding producing line industry, tire manufacturing equipment production industry, logistics equipment manufactures industry, papermaking equipment production industry, plastic welding machine manufacturing, tobacco equipment manufacturing, Robotics industry, steel plant, isolating switch, material processed, packaging, lathe, timber, amusement, body-building equipment, numerous industry such as Medical Devices.The quality of bydraulic buffers directly affects the reliability etc. of the usability of whole equipment, serviceable life, whole equipment, once bydraulic buffers goes wrong, serious words may cause device damage, its economic loss cannot be retrieved, so it is just aobvious particularly important to carry out Performance Detection accurately to bydraulic buffers.And be difficult to realize the long-term monitoring to bydraulic buffers product quality by experiences such as artificial feel, range estimations in prior art, so just need a kind of bydraulic buffers testing equipment to complete such work.

Utility model content

The purpose of this utility model is the pick-up unit proposing a kind of serviceability for detecting the hydraulic detector worked under alternating temperature working environment.

For reaching this object, the utility model by the following technical solutions:

Detect a pick-up unit for the serviceability under bydraulic buffers varying temperature environment, comprise base, erecting frame, flexible impact structure and bydraulic buffers mounting structure;

Further illustrate, described base upper surface is provided with workplace; Described erecting frame comprises column and crossbeam, and what described crossbeam was parallel to described workplace is located at above described base, and described column has two at least, being located at above described base perpendicular to described workplace, and is connected and fixed with the two ends of described crossbeam respectively; Described flexible impact structure comprises retractable driving device; Described retractable driving device is fixed on described crossbeam, and makes the drive end of described retractable driving device be parallel to described column, and does stretching motion immediately below described crossbeam; Described bydraulic buffers mounting structure is located at described workplace, for vertical for bydraulic buffers to be measured described workplace clamping is fixed on described base, and does stretching motion under the telescopic action of the drive end of described retractable driving device;

More excellent, be provided with mold temp. controlling system in described base, it to control the temperature of the cylinder body of bydraulic buffers to be measured, realizes bydraulic buffers to be measured serviceability at different temperatures for heating described bydraulic buffers mounting structure or cool.

More excellent, described bydraulic buffers mounting structure comprises mounting seat and block part; Described mounting seat is fixed on described workplace, and for the cylinder body of fixing bydraulic buffers to be tested, described block part covers the telescopic end being fixed on described bydraulic buffers; Make bydraulic buffers to be measured perpendicular to immediately below the drive end being located at described retractable driving device of described workplace.

More excellent, described block part is cylindric, and its upper surface is plane, and its lower surface is provided with the recessed cavity volume to described block part inside, and the telescopic end end of bydraulic buffers to be measured is fastened in described cavity volume.

More excellent, described mounting seat fixes the workplace of described base, forms the installation portion of a recess, corrects the described installation portion of insertion and fix under making the cylinder body of bydraulic buffers to be measured.

More excellent, described mold temp. controlling system comprises circulating fluid pipe and temperature control box; Described mounting seat is located at by described circulating fluid pipe, for described bydraulic buffers mounting structure the bydraulic buffers to be measured fixed heat or cool; Described temperature control box is communicated with described circulating fluid pipe, for heating the liquid of described circulating fluid pipe internal flow or freeze.

More excellent, described circulating fluid pipe is located in the sidewall of the installation portion of the recess that described mounting seat is provided with in the shape of a spiral, and around the outside being arranged at the cylinder body of bydraulic buffers to be measured.

Illustrate further, the Sidewall Height of the ring-type of described installation portion is 40-60mm, and described interior is provided with described circulating fluid pipe uniformly.

More excellent, described pick-up unit is also provided with information acquisition device, and described information acquisition device comprises temperature-detecting device and collects display device, the surface contact of the cylinder body of described temperature-detecting device and bydraulic buffers to be measured; When bydraulic buffers to be measured clashes into by described temperature-detecting device at every turn, the temperature on the surface of the cylinder body of described bydraulic buffers to be measured detects, and passes to described collection display device, and the information of collection carries out gathering display by described collection display device.

The utility model, according to foregoing, proposes a kind of pick-up unit of the serviceability for detecting hydraulic detector when working under varying temperature environment.Bydraulic buffers to be measured is mounted on described bydraulic buffers mounting structure, and then fix with described base, what described retractable driving device was stable is arranged on described crossbeam, and the bydraulic buffers to be measured that the described bydraulic buffers mounting structure of stable precisely shock is installed, bydraulic buffers to be measured is done and compresses and extend recovery motion; More optimizedly, described pick-up unit is also provided with described mold temp. controlling system, the temperature of described mounting structure is made to become adjustable, can according to detecting the temperature needing to set near bydraulic buffers to be measured, simulate the situation that in real work, bydraulic buffers to be measured uses in different operating environment, and then achieve the detection to the work functions of bydraulic buffers at different operating temperature.

Accompanying drawing explanation

Fig. 1 is the perspective view of an embodiment of bydraulic buffers to be measured;

Fig. 2 is the perspective view of the utility model embodiment;

Fig. 3 is the enlarged diagram that in Fig. 2, circle A irises out part;

Fig. 4 is the enlarged diagram that in Fig. 2, circle B irises out part;

Fig. 5 is the decomposing schematic representation of the part-structure of embodiment in Fig. 2.

Wherein: bydraulic buffers 10 to be measured, cylinder body 11, telescopic end 12, base 100, workplace 110, erecting frame 200, column 210, crossbeam 220, retractable driving device 300, bydraulic buffers mounting structure 400, mounting seat 410, installation portion 411, block part 420, circulating fluid pipe 610, temperature control box 620.

Embodiment

The technical solution of the utility model is further illustrated by embodiment below in conjunction with accompanying drawing.

As shown in Figure 2-5, a kind of pick-up unit of the serviceability detected under bydraulic buffers varying temperature environment, comprises base 100, erecting frame 200, flexible impact structure and bydraulic buffers mounting structure 400; Described base 100 upper surface is provided with workplace 110; Described erecting frame 200 comprises column 210 and crossbeam 220, what described crossbeam 220 was parallel to described workplace 110 is located at above described base 100, described column 210 has two, being located at above described base 100 perpendicular to described workplace 110, and be connected and fixed with the two ends of described crossbeam 220 respectively; Described flexible impact structure comprises retractable driving device 300; Described retractable driving device 300 is fixed on described crossbeam 220, and makes the drive end of described retractable driving device 300 be parallel to described column 210, and does stretching motion immediately below described crossbeam 220; Described bydraulic buffers mounting structure 400 is located at described workplace 110, for vertical for bydraulic buffers 10 to be measured described workplace 110 clamping is fixed on described base, and does stretching motion under the telescopic action of the drive end of described retractable driving device 300; Mold temp. controlling system is provided with in described base, it is for heating described bydraulic buffers mounting structure 400 or cool, to control the temperature of the cylinder body 11 of bydraulic buffers 10 to be measured, realize bydraulic buffers 10 to be measured serviceability at different temperatures.

Described bydraulic buffers mounting structure 400 comprises mounting seat 410 and block part 420; Described mounting seat 410 is fixed on described workplace 110, and for the cylinder body 11 of fixing bydraulic buffers to be tested, described block part 420 covers the telescopic end 12 being fixed on described bydraulic buffers; Make bydraulic buffers 10 to be measured perpendicular to immediately below the drive end being located at described retractable driving device 300 of described workplace 110.Described mounting seat 410 and described block part 420 are two parts separately, the cylinder body 11 of bydraulic buffers 10 to be measured and telescopic end 12 are fixed respectively, make the installation of bydraulic buffers 10 to be measured more simple and convenient.The telescopic end 12 of the bydraulic buffers to be measured 10 after being fixed and cylinder body 11 still can relative motions, when the described block part 420 of the flexible shock of drive end of described retractable driving device 300, described block part 420 drives the telescopic end 12 of bydraulic buffers 10 to be measured to move to cylinder body 11 together, achieves the contraction of bydraulic buffers 10 to be measured; When described block part 420 is left in the drive end contraction of described retractable driving device 300, extend under the effect of telescopic end 12 damping fluid and elastic component in cylinder body 11 of bydraulic buffers 10 to be measured and recover, thus drive described block part 420 to move to the position before being knocked, so repeatedly, the process of the reciprocal telescopic work of bydraulic buffers 10 to be measured has just been simulated.

Described block part 420 is cylindric, and its upper surface is plane, and its lower surface is provided with the recessed cavity volume to described block part 420 inside, and telescopic end 12 end of bydraulic buffers 10 to be measured is fastened in described cavity volume.The telescopic end 12 of bydraulic buffers 10 to be measured is fixed by described cavity volume, and fixed form is a lot, can be interference fit or adopts and arrange the mode such as latch and screw at cavity volume sidewall, and what make described block part 420 and bydraulic buffers 10 to be measured becomes as a whole.The drive end of described retractable driving device 300 is made to have larger striking face when clashing into bydraulic buffers 10 to be measured; skew is clashed into when avoiding shock; the telescopic end 12 of described block part 420 to bydraulic buffers 10 to be measured also plays the effect of protection simultaneously, avoids the telescopic end 12 of bydraulic buffers 10 to be measured to be directly knocked and causes damage.

Described mounting seat 410 fixes the workplace 110 of described base 100, forms the installation portion 411 of a recess, makes the cylinder body of bydraulic buffers 10 to be measured correct the described installation portion 411 of insertion for 11 times and fixes.The acting force that the cylinder body 11 of bydraulic buffers 10 to be measured is subject in the process of inspection side is that vertical described workplace 110 is downward all the time, therefore when installing bydraulic buffers 10 to be measured, its cylinder body 11 part is only needed to be inserted in described mounting seat 410, its degree of freedom on the direction of parallel described workplace 110 is made to be zero, therefore described mounting seat 410 and the installation fixed form of described workplace 110, make the installation process of the assembling of described pick-up unit and bydraulic buffers to be measured 10 more simple and convenient.

Described mold temp. controlling system comprises circulating fluid pipe 610 and temperature control box 620; Described mounting seat 410 is located at by described circulating fluid pipe 610, for described bydraulic buffers mounting structure 400 the bydraulic buffers to be measured 10 fixed heat or cool; Described temperature control box 620 is communicated with described circulating fluid pipe 610, for heating the liquid of described circulating fluid pipe 610 internal flow or freeze.Operator is by regulating the temperature setup parameter on described temperature control box 620, described temperature control box 620 heats according to the parameter of setting the liquid in described circulating fluid pipe 610 or cools, thus indirectly change the temperature of described mounting seat 410, the temperature of self is passed to the cylinder body 11 of bydraulic buffers 10 to be measured by described mounting seat 410 again, thus simulates bydraulic buffers 10 to be measured serviceability when ambient temperature is different.

Described circulating fluid pipe 610 is located in the sidewall of the installation portion 411 of the recess that described mounting seat 410 is provided with in the shape of a spiral, and around the outside being arranged at the cylinder body 11 of bydraulic buffers 10 to be measured.The sidewall of spiral helicine described circulating fluid pipe 610 to described installation portion 411 heats or cools, make described pick-up unit in use, described circulating fluid pipe 610 starts flowing, the temperature of described installation portion 411 can arrive setting value soon, greatly reduce described pick-up unit formally detect before setup time.

The Sidewall Height of the ring-type of described installation portion 411 is 40-60mm, and described interior is provided with described circulating fluid pipe 610 uniformly.The bydraulic buffers that described pick-up unit detects is different according to model, the height of cylinder body 11 is generally between 40-100mm, the sidewall of described installation portion 411 is located at 40-60mm, the height making the cylinder body 11 of bydraulic buffers 10 to be measured exceed half by described circulating fluid pipe 610 around, thus ensure that cylinder body 11 overwhelming majority of bydraulic buffers 10 to be measured can realize heating or cooling under the effect of described circulating fluid pipe 610.

Described pick-up unit is also provided with information acquisition device, and described information acquisition device comprises temperature-detecting device and collects display device, the surface contact of the cylinder body 11 of described temperature-detecting device and bydraulic buffers to be measured 10; When bydraulic buffers 10 to be measured clashes into by described temperature-detecting device at every turn, the temperature on the surface of the cylinder body 11 of described bydraulic buffers to be measured 10 detects, and passing to described collection display device, the information of collection carries out gathering display by described collection display device.The whole testing process being arranged so that described pick-up unit of described information acquisition device, the detection of the temperature of the cylinder body 11 of bydraulic buffers 10 to be measured, check and correction and display all realize intellectuality, also make the testing process of described detecting device more intelligent, testing result is more accurate.

Below know-why of the present utility model is described in conjunction with specific embodiments.These describe just in order to explain principle of the present utility model, and can not be interpreted as the restriction to the utility model protection domain by any way.Based on explanation herein, those skilled in the art does not need to pay performing creative labour can associate other embodiment of the present utility model, and these modes all will fall within protection domain of the present utility model.

Claims (8)

1. detect a pick-up unit for the serviceability under bydraulic buffers varying temperature environment, it is characterized in that, comprise base, erecting frame, flexible impact structure and bydraulic buffers mounting structure;

Described base upper surface is provided with workplace; Described erecting frame comprises column and crossbeam, and what described crossbeam was parallel to described workplace is located at above described base, and described column has two at least, being located at above described base perpendicular to described workplace, and is connected and fixed with the two ends of described crossbeam respectively; Described flexible impact structure comprises retractable driving device; Described retractable driving device is fixed on described crossbeam, and makes the drive end of described retractable driving device be parallel to described column, and does stretching motion immediately below described crossbeam;

Described bydraulic buffers mounting structure is located at described workplace, for vertical for bydraulic buffers to be measured described workplace clamping is fixed on described base, and does stretching motion under the telescopic action of the drive end of described retractable driving device;

Be provided with mold temp. controlling system in described base, it to control the temperature of the cylinder body of bydraulic buffers to be measured, realizes bydraulic buffers to be measured serviceability at different temperatures for heating described bydraulic buffers mounting structure or cool.

2. the pick-up unit of a kind of serviceability detected under bydraulic buffers varying temperature environment according to claim 1, is characterized in that, described bydraulic buffers mounting structure comprises mounting seat and block part; Described mounting seat is fixed on described workplace, and for the cylinder body of fixing bydraulic buffers to be tested, described block part covers the telescopic end being fixed on described bydraulic buffers; Make bydraulic buffers to be measured perpendicular to immediately below the drive end being located at described retractable driving device of described workplace.

3. the pick-up unit of a kind of serviceability detected under bydraulic buffers varying temperature environment according to claim 2, it is characterized in that, described block part is cylindric, its upper surface is plane, its lower surface is provided with the recessed cavity volume to described block part inside, and the telescopic end end of bydraulic buffers to be measured is fastened in described cavity volume.

4. the pick-up unit of a kind of serviceability detected under bydraulic buffers varying temperature environment according to claim 2, it is characterized in that, described mounting seat fixes the workplace of described base, form the installation portion of a recess, correct the described installation portion of insertion under making the cylinder body of bydraulic buffers to be measured and fix.

5. the pick-up unit of a kind of serviceability detected under bydraulic buffers varying temperature environment according to claim 2, it is characterized in that, described mold temp. controlling system comprises circulating fluid pipe and temperature control box; Described mounting seat is located at by described circulating fluid pipe, for described bydraulic buffers mounting structure the bydraulic buffers to be measured fixed heat or cool; Described temperature control box is communicated with described circulating fluid pipe, for heating the liquid of described circulating fluid pipe internal flow or freeze.

6. the pick-up unit of a kind of serviceability detected under bydraulic buffers varying temperature environment according to claim 5, it is characterized in that, described circulating fluid pipe is located in the sidewall of the installation portion of the recess that described mounting seat is provided with in the shape of a spiral, and around the outside being arranged at the cylinder body of bydraulic buffers to be measured.

7. the pick-up unit of a kind of serviceability detected under bydraulic buffers varying temperature environment according to claim 6, it is characterized in that, the Sidewall Height of the ring-type of described installation portion is 40-60mm, and described interior is provided with described circulating fluid pipe uniformly.

8. the pick-up unit of a kind of serviceability detected under bydraulic buffers varying temperature environment according to claim 1, it is characterized in that, described pick-up unit is also provided with information acquisition device, described information acquisition device comprises temperature-detecting device and collects display device, the surface contact of the cylinder body of described temperature-detecting device and bydraulic buffers to be measured; When bydraulic buffers to be measured clashes into by described temperature-detecting device at every turn, the temperature on the surface of the cylinder body of described bydraulic buffers to be measured detects, and passes to described collection display device, and the information of collection carries out gathering display by described collection display device.