CN206410862U - A kind of Bearing testing line - Google Patents

Abstract

The utility model discloses a kind of bearing parameter detection means, specifically a kind of Bearing testing line, including frame and rack-mounted detection platform, also include clamping device, the clamping device is arranged in detection platform by translating bracket, and affiliated clamping device is moved in the controllable domain of walk of translating bracket；Testing agency, is arranged in detection platform by link, and its test side portion is located at the top of clamping device；With the above mentioned technical proposal, a kind of Bearing testing line described in the utility model is by setting detection platform and the detection means in detection platform to detect the parameters of bearing, realize full-automatic detection, improve the precision of detection, simultaneously, shorten detection time, it is ensured that detection efficiency, be that follow-up processing and use provide guarantee.

Description

A kind of Bearing testing line

Technical field

The utility model is related to a kind of bearing parameter detection means, specifically a kind of Bearing testing line.

Background technology

The parameters of bearing play very important effect during the use of bearing, and every numerical value of parameter is No accurately also to directly affect the assembling of bearing and use, serious even influences the use process of whole machinery, therefore, in bearing Need to detect the parameter of bearing after machining, by incongruent goods rejection, in order to avoid follow-up procedure of processing is influenceed, The existing detection device of bearing is generally single parameter detection, i.e., one equipment can only detect a parameter, and high for bearing Degree is general by manual measurement, causes the follow-up processing of the inaccurate influence of measurement parameter and uses.

Utility model content

In order to make up, the above is not enough, and the utility model provides what a kind of automation was detected to the multiple parameters of bearing Bearing testing line, the problem of to solve in above-mentioned background technology.

The technical solution of the utility model is：

A kind of Bearing testing line, including frame and rack-mounted detection platform, in addition to

Clamping device, the clamping device is arranged in detection platform by translating bracket, and affiliated clamping device is flat Moved in the controllable domain of walk for moving support；

Testing agency, is arranged in detection platform by link, and its test side portion is located at the top of clamping device；

Elevating mechanism, below testing agency, the platform of lifting is driven by drive mechanism；

Feeding channel, including waste port and qualified port, positioned at testing agency's discharging side, by flat installed in detection Mechanical arm on platform is put into corresponding feeding port；

Feed mechanism, will be pushed into feeding channel positioned at the bearing of corresponding feeding port.

As preferred technical scheme, the bearing folder of the clamping device including circular tube shaped and be connected to bearing folder side, It is slidably mounted on the travelling carriage on the translating bracket, the testing agency includes being mounted vertically on link, passes through driving The rotary shaft of mechanism driving, the rotary shaft is located at bearing and presss from both sides top, and external diameter and interior through matching, the position of bearing of rotary shaft Installed in vertically arranged installation passage in detection platform immediately below the rotary shaft, the installation passage by lift cylinder driving Hoistable platform, be provided with vertically arranged standing groove in the middle part of the hoistable platform, the standing groove is set with rotating shaft coaxle line, The hoistable platform side connects and also installs vertically arranged on the link on the outside of bearing height detection base, the rotary shaft Detection bar, the detection bar is located at the surface of detection base, separately there is the amplitude detection probe being connected with bearing vibration measuring instrument Extend to rotary shaft side.

As preferred technical scheme, the feeding channel sets two, is the waste material being connected with waste port respectively Passage and the qualified passage being connected with qualified port, the feed mechanism include being located at the push of waste port opposite side waste material Block and the material push block positioned at qualified port opposite side, the waste material push block and material push block pass through hydraulic driving machine Structure drives it to move back and forth, and the mechanical arm is arranged on the top of feed mechanism.

As preferred technical scheme, the bearing folder includes two openable semi-circular tubes and is connected on the outside of semi-circular tube Opening pole, the outer end of the opening pole is connected on travelling carriage.

As preferred technical scheme, the upper surface of the translating bracket is provided with horizontally disposed translation groove, the slip The sliding block of the embedded translation groove of lower end connection of frame, the travelling carriage is driven by cylinder.

As preferred technical scheme, the upper surface of the detection base is horizontal.

By adopting the above-described technical solution, a kind of Bearing testing line described in the utility model is by setting detection platform And the detection means in detection platform is detected to the parameters of bearing, full-automatic detection is realized, inspection is improved The precision of survey, meanwhile, shorten detection time, it is ensured that detection efficiency, be that follow-up processing and use provide guarantee.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the accompanying drawing used required in description of the prior art is briefly described, it should be apparent that, drawings in the following description are only It is some embodiments of the present utility model, for those of ordinary skill in the art, before creative labor is not paid Put, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of the utility model embodiment；

Fig. 2 is dimensional structure diagram of the present utility model.

Embodiment

Embodiment one：As shown in figure 1, a kind of Bearing testing line described in the utility model, including frame 1 and it is arranged on Detection platform 2 in frame 1, the frame 1 is frame-like, and the detection platform 2 is horizontally set on the middle part of frame 1, the inspection Surveying on platform 2 is used to place testing agency, and the parameters to bearing are detected, described detection line also includes：

Clamping device, the clamping device is used to bearing is clamped and is put into testing agency, and the clamping device passes through Translating bracket 3 is arranged in detection platform 2, and the translating bracket 3 is horizontally disposed with, and the upper end of translating bracket 3 is provided with sliding groove, Affiliated clamping device is moved in the controllable domain of walk of translating bracket 3, and the length of the sliding groove is the level of clamping device Movable length, has an operating position point and a tapping point, the work when clamping device is slided on translating bracket 3 The position for making location point and detection means matches, and the tapping point is used to bearing being placed into clamping device.

Testing agency, is arranged in detection platform 2 by link, and the link is that inspection is connected on inverted L-shaped, link The probe of device is surveyed, the link and detection means are stationary state, rise by the elevating mechanism of bottom and send into bearing In testing agency.

Elevating mechanism, below testing agency, the hoistable platform that it is lifted is driven by drive mechanism；

Feeding channel, including waste port and qualified port, the waste port and qualified port connect two it is different Feeding channel, so as to unqualified bearing and qualified bearing be distinguished, positioned at testing agency's discharging side, by flat installed in detection Mechanical arm 4 on platform 2 is put into corresponding feeding port, and the mechanical arm 4 will detect that the bearing completed is pressed from both sides out and is put into corresponding Port, the control system of the mechanical arm 4 is connected with the control system of detection means, is sent out by testing result to mechanical arm 4 Corresponding signal is sent, so that the action of control machinery arm 4, this process has much in the prior art, is no longer gone to live in the household of one's in-laws on getting married herein State.

Feed mechanism, will be in the bearing of corresponding feeding port push-in feeding channel, and the mechanical arm 4 is by bearing It is placed at corresponding port, is pushed by feed mechanism and send into bearing in feeding channel.

The clamping device includes the bearing folder 4 of circular tube shaped and is connected to 4 sides of bearing folder, is slidably mounted on the translation Travelling carriage 5 on support 3, the bearing folder 4 includes two openable semi-circular tubes 401 and is connected to the outside of semi-circular tube 401 Pole 402 is opened, the outer end for opening pole 402 is connected on travelling carriage 5, and the bearing is put into bearing folder 4, is passed through Bearing folder 4 clamps bearing, and bearing folder 4 is moved to above elevating mechanism in the drive of travelling carriage 5, and bearing is put into lifting In mechanism, the vertically arranged installation passage in the detection platform 2 immediately below rotary shaft 7, the two ends of the installation passage are to open The hoistable platform 14 installed and driven by lift cylinder 17 in shape, the installation passage is put, the cylinder is located under detection platform 2 Side, the hoistable platform 14 is arranged in installation passage, and the middle part of hoistable platform 14 is provided with vertically arranged standing groove 15, institute State bearing folder 4 bearing to be put into standing groove 15, the standing groove 5 and bearing match settings, and the standing groove 15 is with rotating Axle 7 is coaxially set, the side of the hoistable platform 14 connection bearing height detection base 6, and the detection base 6 is tabular, Vertically arranged detection bar 8 is also installed, the detection bar 8 is being located at detection base 6 just on the link in the outside of rotary shaft 7 Top, hoistable platform 14 rises to specified location, and rotary shaft 7 is penetrated in the circular tube shaped passage in the middle part of bearing, now, detection bar 8 Lower end fit to the upper surface of bearing base 6, then the height of bearing is qualified, if the lower end of detection bar 8 and the upper surface of bearing base 6 With gap, then bearing height is unqualified, separately has the amplitude detection being connected with bearing vibration measuring instrument probe 9 to extend to rotary shaft 7 sides, the rotary shaft 7 rotates at a high speed with dynamic bearing, and amplitude detection, which is popped one's head in, is fitted in the outer surface of bearing, and detection bearing is turning During dynamic, the amplitude of outer surface.

The feeding channel sets two, be respectively the waste channel 10 that is connected with waste port and with qualified port The qualified passage 11 being connected, the feed mechanism is included positioned at waste port opposite side waste material push block 11 and positioned at go-side The material push block 12 of mouth opposite side, the waste material push block 11 and material push block 12 drive it by hydraulic drive mechanism Move back and forth, the mechanical arm 4 is arranged on the top of feed mechanism.

Bearing is put into corresponding feeding port by mechanical arm 4, and hydraulic drive mechanism drives push block reach, bearing is pushed away Enter in corresponding material channel, hydraulic drive mechanism has very in the prior art by way of hydraulic stem drive block is moved It is many, it will not be repeated here.

The upper surface of the translating bracket 3 is provided with horizontally disposed translation groove, and the translation groove is section in the shape of falling T Groove, the sliding block of the embedded translation groove of lower end connection of the travelling carriage 5, the section of the sliding block and groove match, the cunning Block can be slided in translation groove, and the travelling carriage 5 is driven by cylinder, and cylinder drives travelling carriage 5 to translate, so that bearing folder 4 Together move.

General principle of the present utility model, principal character and advantage of the present utility model has been shown and described above.One's own profession The technical staff of industry is it should be appreciated that the utility model is not restricted to the described embodiments, described in above-described embodiment and specification Simply illustrate principle of the present utility model, on the premise of the utility model spirit and scope are not departed from, the utility model is also Various changes and modifications are had, these changes and improvements are both fallen within the range of claimed the utility model.The utility model Claimed scope is by appended claims and its equivalent thereof.

Claims (6)

1. a kind of Bearing testing line, including frame (1) and the detection platform (2) in frame (1), it is characterised in that：Also Including

Clamping device, the clamping device is arranged in detection platform (2) by translating bracket (3), and affiliated clamping device exists Moved in the controllable domain of walk of translating bracket (3)；

Testing agency, is arranged in detection platform (2) by link, and its test side portion is located at the top of clamping device；

Elevating mechanism, below testing agency, the hoistable platform that it is lifted is driven by drive mechanism；

Feeding channel, including waste port and qualified port, positioned at testing agency's discharging side, by installed in detection platform (2) mechanical arm (4) on is put into corresponding feeding port；

Feed mechanism, will be pushed into feeding channel positioned at the bearing of corresponding feeding port.

2. a kind of Bearing testing line as claimed in claim 1, it is characterised in that：The clamping device includes the bearing of circular tube shaped Press from both sides (4) and be connected to bearing folder (4) side, the travelling carriage (5) being slidably mounted on the translating bracket (3), the detection machine Structure includes the rotary shaft (7) for being mounted vertically on link, being driven by drive mechanism, the external diameter and axle of the rotary shaft (7) That holds is interior through matching, the vertically arranged installation passage in the detection platform (2) immediately below rotary shaft (7), and the installation is led to Installed in road in the middle part of the hoistable platform (14) driven by lift cylinder (17), the hoistable platform (14) provided with vertically arranged Standing groove (15), the standing groove (15) is coaxially set with rotary shaft (7), and hoistable platform (14) the side connection bearing is high Vertically arranged detection bar (8), the detection bar are also installed on link on the outside of degree detection base (6), the rotary shaft (7) (8) it is located at the surface of detection base (6), separately has the amplitude detection being connected with bearing vibration measuring instrument probe (9) to extend to rotation Rotating shaft (7) side.

3. a kind of Bearing testing line as claimed in claim 2, it is characterised in that：The feeding channel sets two, is respectively The waste channel (10) being connected with waste port and the qualified passage (11) being connected with qualified port, the feed mechanism It is described including the material push block (12) positioned at waste port opposite side waste material push block (11) and positioned at qualified port opposite side Waste material push block (11) and material push block (12) drive it to move back and forth by hydraulic drive mechanism, the mechanical arm (4) Installed in the top of feed mechanism.

4. a kind of Bearing testing line as claimed in claim 2 or claim 3, it is characterised in that：The bearing folder (4), which includes two, to beat The semi-circular tube (401) opened and the opening pole (402) being connected on the outside of semi-circular tube (401), the outer end for opening pole (402) It is connected on travelling carriage (5).

5. a kind of Bearing testing line as claimed in claim 4, it is characterised in that：The upper surface of the translating bracket (3) is provided with Horizontally disposed translation groove (16), the sliding block of the embedded translation groove of lower end connection of the travelling carriage (5), the travelling carriage (5) is led to Cross cylinder driving.

6. a kind of Bearing testing line as claimed in claim 2, it is characterised in that：The upper surface of the detection base (6) is water It is flat-shaped.