CN205192433U - Inner tube detection device that beats - Google Patents

Abstract

The utility model discloses an inner tube detection device that beats, including detection platform (1), upper bracket (2) and lower carriage (3) the lower terminal surface of upper bracket has set firmly cylinder (21), be equipped with piston rod (22) in cylinder (21), be equipped with positioner on piston rod (22), the lower terminal surface of lower carriage (3) is equipped with servo motor (31), is connected with transmission shaft (33) at the lower extreme of lower carriage (3), transmission shaft (33) are connected by belt transmission with servo motor (31), the up end of lower carriage (3) is equipped with first detection platform (34) and second detection platform (35). The utility model discloses being provided with positioner and laser sensor, can realizing quick clamping and test, detection position changes in a flexible way, and the precision is high, simple structure, and the simple operation, detection efficiency is high, and application scope is wide.

Description

A kind of inner core jitter detection apparatus

Technical field

The utility model relates to mechanical manufacturing field, particularly a kind of inner core jitter detection apparatus.

Background technology

In mechanical manufacturing field, often can relate to the manufacture processing of cylindrical work.And cylindrical work very important index is exactly the Circular Run-out Tolerance of circumferential surface radial run-out and end face.Dial gauge is often used to measure under normal circumstances, and the clamping degree of tightness of dial gauge is very large to its Accuracy, fill too loose or tension all possibility indeterminacies, and the initial compression amount of dial gauge gauge head is bad selected, because the tolerance value of each gimbal is different, and the product come is random, when contacting with measured surface according to the use specifying measurement head of dial gauge, sounding rod should have the decrement of 0.3-1mm in advance, so some gimbal just there will be zero value (actual is negative value), cause measurement misalignment, the phenomenon occurring getting off a class time serious clamping shows several times.In usual factory, same the more than people of machine is in use, and everyone judgement is different, and this also can affect measuring accuracy, and the axle of adding location adopts screw element clamping, all needs artificial fastening nut or screw rod, effort again consuming time at every turn; Speed is slow, and inner core can only be inspected by random samples, can not realize full inspection, and the undetected situation of unacceptable product very easily occurs.

Utility model content

The technical problems to be solved in the utility model there is provided a kind of inner core jitter detection apparatus that can improve detection efficiency, realize detection fast.

The technical solution of the utility model is as follows:

A kind of inner core jitter detection apparatus, comprise monitor station, upper bracket and lower carriage, described upper bracket is installed in the upper end of monitor station, described lower carriage is installed in the lower end of monitor station, cylinder is installed with in the lower surface of described upper bracket, be provided with piston rod in described cylinder, described piston rod stretches out cylinder downwards, and its external part is provided with locating device;

The lower surface of described lower carriage is provided with servomotor, is provided with orienting lug at the middle part of lower carriage, and the lower end of described orienting lug is connected with transmission shaft, and described transmission shaft is connected by belt gear with servomotor; The upper surface of described lower carriage is provided with the first monitor station and the second monitor station, described first monitor station is provided with the first laser sensor, described first laser sensor is vertically arranged, described second monitor station is provided with the second laser sensor, described second laser sensor is horizontally disposed with, two described laser sensors are all connected with industrial computer, and described industrial computer is also connected with display.

Adopt above structure, inner core to be measured is spacing by orienting lug, upper bracket is provided with cylinder, arrange in cylinder piston rod stretch out cylinder and move down, and be fixed by the bottom surface madial wall of the locating device that external part is arranged by inner core to be measured, again by the surface of the first laser sensor on the first monitor station and the second monitor station and the second laser sensor contact measured inner core correspondence position, servomotor rotates through belt gear, drive drive axis, because transmission shaft is connected with orienting lug, therefore orienting lug drives the inner core to be measured be fixed also to rotate together thereupon, data are supplied to industrial computer by two laser sensors, industrial computer generates data in real time, the parameters such as chart, after detection, servomotor stops operating, and two laser sensors leave inner cylindrical surface to be measured respectively, and piston rod band dynamic positioning system is upwards moved back into initial position, take off inner core to be measured and can complete a sense cycle, data have all been finished and have been expressed by display by program now on industrial computer, and precision is high, and structure is simple, simple operation, sense cycle is short, and detection efficiency is high, applied widely.

For the ease of changeing fixed block or compact heap, the inner core of different size can be detected, as preferably, described locating device comprises fixed block and compact heap, described fixed block and piston rod are fixed by socket, described compact heap is socketed in the outside of fixed block, and the middle part of this compact heap lower surface is provided with pilot hole, and the profile of described pilot hole and orienting lug is suitable.

In order to avoid causing cosmetic injury to product, ensureing pressure intensity again simultaneously, as preferably, being installed with rubber blanket in the lower surface of described compact heap.

Mobile in order to make laser sensor be convenient to, reduce clamping times, to detect the product of different size or the parameter of a multiple position of product, as preferably, described first monitor station is provided with the first contiguous block, described first contiguous block slidably connects the first movable block, and described first movable block is provided with the first spring lever and is vertically installed with the first laser sensor on described first spring lever; Described second monitor station is provided with the second contiguous block, and described second contiguous block slidably connects the second movable block, and described second movable block is provided with the second spring lever, and on described second spring lever, level is installed with the second laser sensor.

In order to ensure in test process, measuring position can not offset, reduce metrical error, as preferably, described first contiguous block and the second contiguous block are equipped with fastening bolt, two described fastening bolts are fed through the first contiguous block and the second contiguous block respectively, and abut fixing respectively with the correspondence position on the first monitor station and the second monitor station.

Beneficial effect: the utility model is provided with locating device and laser sensor, can realize quick-clamping and test, and detect position conversion flexibly, precision is high, and structure is simple, and simple operation, detection efficiency is high, applied widely.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the A place enlarged drawing of Fig. 1.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail.

As depicted in figs. 1 and 2, the utility model is made up of monitor station 1, upper bracket 2 and lower carriage 3 etc., and described upper bracket 2 is installed in the upper end of monitor station 1, and described lower carriage 3 is installed in the lower end of monitor station 1.

Cylinder 21 is installed with in the lower surface of described upper bracket, piston rod 22 is provided with in described cylinder 21, described piston rod 22 stretches out cylinder 21 downwards, its external part is provided with locating device, described locating device comprises fixed block 23 and compact heap 24, and described fixed block 23 is fixed by socket with piston rod 22, and described compact heap 24 is socketed in the outside of fixed block 23, be installed with rubber blanket 25 in the lower surface of described compact heap 24, the middle part of this compact heap 24 lower surface is provided with pilot hole; The lower surface of described lower carriage 3 is provided with servomotor 31, orienting lug 32 is provided with at the middle part of lower carriage 3, the lower end of described orienting lug 32 is connected with transmission shaft 33, and described transmission shaft 33 is connected by belt gear with servomotor 31, and the profile of described pilot hole and orienting lug 32 is suitable.

The upper surface of described lower carriage 3 is provided with the first monitor station 34 and the second monitor station 35, described first monitor station 34 is provided with the first contiguous block 91, described first contiguous block 91 slidably connects the first movable block 71, described first movable block 71 is provided with the first spring lever 81, and described first spring lever 81 is vertically installed with the first laser sensor 41; Described second monitor station 35 is provided with the second contiguous block 92, described second contiguous block 92 slidably connects the second movable block 72, described second movable block 72 is provided with the second spring lever 82, on described second spring lever 82, level is installed with the second laser sensor 42, two described laser sensors are all connected with industrial computer 5, and described industrial computer 5 is also connected with display 6.

Described first contiguous block 91 and the second contiguous block 92 are equipped with fastening bolt 10, two described fastening bolts 10 are fed through the first contiguous block 91 and the second contiguous block 92 respectively, and abut fixing respectively with the correspondence position on the first monitor station 34 and the second monitor station 35.

Using method of the present utility model is as follows:

By shown in Fig. 1 to Fig. 2, when starting to test, the center of inner core to be measured (by illustrating) bottom is spacing by orienting lug 23, upper bracket 2 is provided with cylinder 21, arrange in cylinder 21 piston rod 22 stretch out cylinder 21 and move down, and be fixed by the bottom surface madial wall of the compact heap 24 that external part is arranged by inner core to be measured, owing to being provided with rubber blanket 25 in the lower surface of compact heap 24, therefore while being fixed, compact heap 24 lateral wall or incline can not cause damage to the madial wall of inner core to be measured, also can ensure the intensity of snap-in force simultaneously.

Then, regulate the first contiguous block 91, first movable block 71 and the first spring lever 81 on the first monitor station 34, make the first laser sensor 41 near to or in contact with the upper surface to inner core to be measured, the fastening bolt 10 on the first contiguous block 91 is tightened fixing; Regulate the second contiguous block 92, second movable block 72 and the second spring lever 82 on the second monitor station 35 again, make the second laser sensor 42 near to or in contact with the surface of inner core lateral wall correspondence position to be measured, the fastening bolt 10 on the second contiguous block 92 is tightened fixing.

Now, start servomotor 31, the output terminal of servomotor 31 rotates through belt gear, transmission shaft 33 is driven to rotate, because transmission shaft 33 is connected with orienting lug 32, therefore orienting lug 32 drives the inner core to be measured be fixed also to rotate together thereupon, the data of inner cylindrical surface detection limit " sudden change " to be measured and normal numerical value of measuring can be supplied to industrial computer 5 by two laser sensors together, and select the data etc. of deleting such as " sudden change " to be unfavorable for the data detected by industrial computer 5, generate the parameter such as data, chart in real time and show on the display 6; After detection, servomotor 31 stops operating, two laser sensors leave inner cylindrical surface to be measured respectively, and piston rod 22 drives fixed block 23 and compact heap 24 to be upwards moved back into initial position, take off inner core to be measured and can complete a sense cycle, precision is high, structure is simple, simple operation, and sense cycle is short, detection efficiency is high, applied widely.

In order to the inner core adapting to more specifications detects, the fixed block 23 in locating device and the pattern of compact heap 24 can adjust as required, and meanwhile, the fixed position of locating device also can adjust according to the pattern of product; In addition; the setting of orienting lug 32 also can adjust according to the pattern of inner core; such as be arranged on the positions such as the lateral wall of inner core; to realize the effect of positioning and guiding better; the present embodiment does not have uniqueness, and all locating devices with the identical or effects equivalent of the utility model are all in protection domain of the present utility model.

These are only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalent structure utilizing the utility model instructions and accompanying drawing content to do; directly or indirectly be used in the technical field that other are relevant, all in like manner within scope of patent protection of the present utility model.

Claims (5)

1. an inner core jitter detection apparatus, comprise monitor station (1), upper bracket (2) and lower carriage (3), described upper bracket (2) is installed in the upper end of monitor station (1), described lower carriage (3) is installed in the lower end of monitor station (1), it is characterized in that: be installed with cylinder (21) in the lower surface of described upper bracket, piston rod (22) is provided with in described cylinder (21), described piston rod (22) stretches out cylinder (21) downwards, and its external part is provided with locating device;

The lower surface of described lower carriage (3) is provided with servomotor (31), orienting lug (32) is provided with at the middle part of lower carriage (3), the lower end of described orienting lug (32) is connected with transmission shaft (33), and described transmission shaft (33) is connected by belt gear with servomotor (31); The upper surface of described lower carriage (3) is provided with the first monitor station (34) and the second monitor station (35), described first monitor station (34) is provided with the first laser sensor (41), described first laser sensor (41) is vertically arranged, described second monitor station (35) is provided with the second laser sensor (42), described second laser sensor (42) is horizontally disposed with, two described laser sensors are all connected with industrial computer (5), and described industrial computer (5) is also connected with display (6).

2. a kind of inner core jitter detection apparatus according to claim 1, it is characterized in that: described locating device comprises fixed block (23) and compact heap (24), described fixed block (23) and piston rod (22) are fixed by socket, described compact heap (24) is socketed in the outside of fixed block (23), the middle part of this compact heap (24) lower surface is provided with pilot hole, and the profile of described pilot hole and orienting lug (32) is suitable.

3. a kind of inner core jitter detection apparatus according to claim 2, is characterized in that: be installed with rubber blanket (25) in the lower surface of described compact heap (24).

4. a kind of inner core jitter detection apparatus according to claim 1, it is characterized in that: described first monitor station (34) is provided with the first contiguous block (91), described first contiguous block (91) slidably connects the first movable block (71), described first movable block (71) is provided with the first spring lever (81), and described first spring lever (81) is vertically installed with the first laser sensor (41); Described second monitor station (35) is provided with the second contiguous block (92), described second contiguous block (92) slidably connects the second movable block (72), described second movable block (72) is provided with the second spring lever (82), is installed with the second laser sensor (42) in the upper level of described second spring lever (82).

5. a kind of inner core jitter detection apparatus according to claim 4, it is characterized in that: on described first contiguous block (91) and the second contiguous block (92), be equipped with fastening bolt (10), two described fastening bolts (10) are fed through the first contiguous block (91) and the second contiguous block (92) respectively, and abut fixing respectively with the correspondence position on the first monitor station (34) and the second monitor station (35).