CN208953281U - A kind of automation vialog - Google Patents

Abstract

The utility model discloses a kind of automation vialogs, including pedestal, the upper surface of pedestal is fixedly connected there are two symmetrical fixed column, two fixed columns are fixedly connected with support rod between the side wall at top, automatic vialog main body is equipped between two fixed columns, and automatic vialog main body is located at the top of pedestal, the upper surface of automatic vialog main body is rotatably connected to adjusting screw rod by first bearing, the other end of adjusting screw rod is through support rod and upwardly extends, and adjusting screw rod is threadedly coupled with support rod, the lower surface of automatic vialog main body is fixedly connected with sleeve, the cylinder bottom of sleeve inner is fixedly connected with spring, the other end of spring is fixedly connected with and the matched slide bar of sleeve, and slide bar is slidably connected with sleeve, slide bar passes through the nozzle of sleeve far from one end of spring and extends downwardly.The utility model effectively reduces the test error of bearing, and positioning conveniently is fixed to the bearing of different model, convenient for test.

Description

A kind of automation vialog

Technical field

The utility model relates to mechanical detection technical field more particularly to a kind of automation vialogs.

Background technique

Vibration-detecting instrument is that have vibration detection, axis based on the newly designed machine state monitoring instrument of microprocessor Hold state analysis and infrared temperature measurement function.Its is easy to operate, and automatic instruction state alarm is very suitable to field device fortune Capable and maintenance personnel's monitor equipment status, finds the problem in time, guarantees the operation of equipment normal reliable.

In the prior art, the detecting head for automating vialog is mostly fixed structure, in bearing test process, detecting head Pressure between bearing cannot be regulated and controled as needed, to influence test error, and bearing is during the test not Positioning is conveniently fixed.

Utility model content

Purpose of the utility model is to solve the pressures automated between vialog detecting head and bearing in the prior art Power cannot be regulated and controled as needed and bearing is inconvenient to the problem of positioning is fixed during the test, and propose A kind of automation vialog.

To achieve the goals above, the utility model adopts the technical scheme that

A kind of automation vialog, including pedestal, the upper surface of the pedestal are fixedly connected there are two symmetrical fixation Column, two fixed columns are fixedly connected with support rod between the side wall at top, are equipped with certainly between two fixed columns Dynamic vialog main body, and automatic vialog main body is located at the top of pedestal, the upper surface of the automatic vialog main body pass through the One bearing is rotatably connected to adjusting screw rod, and the other end of the adjusting screw rod through support rod and upwardly extends, and adjusting screw rod It is threadedly coupled with support rod, the lower surface of the automatic vialog main body is fixedly connected with sleeve, the cylinder bottom of the sleeve inner Be fixedly connected with spring, the other end of the spring be fixedly connected with the matched slide bar of sleeve, and slide bar and sleeve sliding connect It connects, the slide bar passes through the nozzle of sleeve far from one end of spring and extends downwardly, and is fixedly connected with detecting head.

Preferably, the upper surface of the pedestal corresponds to and offers first sliding groove at the position of detecting head, the first sliding groove Inside be slidably connected there are two with matched first sliding block of first sliding groove, and two the first sliding blocks are symmetrical, in the first sliding groove It is set equipped with screw rod, and on screw rod there are two types of contrary screw thread, one end of the screw rod passes through second bearing and first sliding groove Side wall rotation connection, the other end of the screw rod sequentially passes through the side wall of two the first sliding blocks and first sliding groove far from bearing simultaneously Extend outwardly, the screw rod is threadedly coupled with two the first sliding blocks, and screw rod and first sliding groove rotate far from the side wall of bearing and connect It connects, the upper surface of two first sliding blocks is fixedly connected to curved splint.

Preferably, the adjusting screw rod is fixedly connected with handle far from one end of first bearing.

Preferably, second sliding slot, the automatic vialog master are symmetrically offered on the opposite side wall of two fixed columns The side wall of body correspond to be fixedly connected at the position of second sliding slot with matched second sliding block of second sliding slot, and the second sliding block with it is right The second sliding slot answered is slidably connected.

Preferably, first sliding block offers ball grooves, rolling in the ball grooves close to the side of first sliding groove slot bottom Dynamic to be connected with ball, the ball passes through the notch of ball grooves far from one end of ball grooves slot bottom and extends outwardly, and the company of rolling Connect the slot bottom in first sliding groove.

Preferably, the screw rod is fixedly connected with rotating block far from one end of second bearing.

Compared with prior art, the utility model provides a kind of automation vialog, have it is following the utility model has the advantages that

1, automation vialog, by the way that pedestal, support rod, automatic vialog main body, adjusting screw rod, sleeve, bullet is arranged Bearing to be tested is placed in base upper surface, corresponding detecting head position, rotation and support rod screw thread by spring, slide bar and detecting head The adjusting screw rod of connection drives the automatic vialog main body of rotation connection to move down, and after detecting head and bearing conflict, continues to turn Dynamic adjusting screw rod, slides slide bar towards the cylinder bottom direction of sleeve, compressed spring changes the decrement of spring, to change spy Pressure between gauge head and bearing, so that the pressure between detecting head and bearing can according to need, and then can be with Test out under different pressures state as a result, reducing the error of bearing test in turn.

2, the automation vialog rotates silk by setting pedestal, first sliding groove, the first sliding block, screw rod and curved splint Bar, there are two types of contrary screw threads on screw rod, so that two the first sliding blocks being threadedly coupled (or phase opposite in first sliding groove Back) sliding, meanwhile, the first sliding block drives curved splint to move synchronously, and determines so that bearing to be tested on pedestal is fixed Position, and positioning conveniently is fixed for the bearing of different model, improve applicability.

It is not directed to part in the device to be the same as those in the prior art or can be realized by using the prior art, the utility model The test error of bearing is effectively reduced, and positioning conveniently is fixed to the bearing of different model, convenient for test.

Detailed description of the invention

Fig. 1 be the utility model proposes a kind of automation vialog structural schematic diagram；

Fig. 2 is the enlarged drawing of part A in Fig. 1；

Fig. 3 is the enlarged drawing of part B in Fig. 1.

In figure: 1 pedestal, 2 fixed columns, 3 support rods, 4 automatic vialog main bodys, 5 adjusting screw rods, 6 sleeves, 7 springs, 8 are slided Bar, 9 detecting heads, 10 first sliding grooves, 11 first sliding blocks, 12 screw rods, 13 curved splints, 14 handles, 15 second sliding slots, 16 second are slided Block, 17 ball grooves, 18 balls, 19 rotating blocks.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

In the description of the present invention, it should be understood that term " on ", "lower", "front", "rear", "left", "right", The orientation or positional relationship of the instructions such as "top", "bottom", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.

Referring to Fig.1-3, a kind of automation vialog, including pedestal 1, the upper surface of pedestal 1 are fixedly connected with that there are two opposite The fixed column 2 of title, two fixed columns 2 are fixedly connected with support rod 3 between the side wall at top, set between two fixed columns 2 There is automatic vialog main body 4, and automatic vialog main body 4 is located at the top of pedestal 1, the upper surface of automatic vialog main body 4 is logical It crosses first bearing and is rotatably connected to adjusting screw rod 5, the other end of adjusting screw rod 5 through support rod 3 and upwardly extends, and adjusts spiral shell Bar 5 is threadedly coupled with support rod 3, and the lower surface of automatic vialog main body 4 is fixedly connected with sleeve 6, and the cylinder bottom inside sleeve 6 is solid Surely be connected with spring 7, the other end of spring 7 be fixedly connected with the matched slide bar 8 of sleeve 6, and slide bar 8 and the sliding of sleeve 6 connect It connects, slide bar 8 passes through the nozzle of sleeve 6 far from one end of spring 7 and extends downwardly, and is fixedly connected with detecting head 9, will be to be tested Bearing be placed in 1 upper surface of pedestal, corresponding 9 position of detecting head rotates the adjusting screw rod 5 being threadedly coupled with support rod 3, with turn The automatic vialog main body 4 of dynamic connection moves down, and after detecting head 9 and bearing conflict, continues to rotate adjusting screw rod 5, makes slide bar 8 It is slided towards the cylinder bottom direction of sleeve 6, compressed spring 7, changes the decrement of spring 7, to change between detecting head 9 and bearing Pressure so that the pressure between detecting head 9 and bearing can according to need, and then different pressures can be tested out It is under state as a result, in turn reduce bearing test error.

The upper surface of pedestal 1 corresponds to and offers first sliding groove 10 at the position of detecting head 9, is slidably connected in first sliding groove 10 There are two with matched first sliding block 11 of first sliding groove 10, and two the first sliding blocks 11 are symmetrical, and silk is equipped in first sliding groove 10 Bar 12, and set on screw rod 12 there are two types of contrary screw thread, one end of screw rod 12 passes through second bearing and first sliding groove 10 Side wall rotation connection, the other end of screw rod 12 sequentially pass through two the first sliding blocks 11 and side wall of the first sliding groove 10 far from bearing simultaneously Extend outwardly, screw rod 12 is threadedly coupled with two the first sliding blocks 11, and screw rod 12 and first sliding groove 10 turn far from the side wall of bearing Dynamic connection, the upper surface of two the first sliding blocks 11 are fixedly connected to curved splint 13, rotary screw rod 12, on screw rod 12 there are two types of Contrary screw thread, so that two the first sliding blocks 11 being threadedly coupled (or opposite) sliding opposite in first sliding groove 10, together When, the first sliding block 11 drives curved splint 13 to move synchronously, so that positioning is fixed in bearing to be tested on pedestal 1, and And positioning conveniently is fixed for the bearing of different model, improve applicability.

Adjusting screw rod 5 is fixedly connected with handle 14 far from one end of first bearing, facilitates the rotation for controlling to adjust screw rod 5.

Second sliding slot 15 is symmetrically offered on the opposite side wall of two fixed columns 2, the side wall of automatic vialog main body 4 is corresponding Be fixedly connected at the position of second sliding slot 15 with matched second sliding block 16 of second sliding slot 15, and the second sliding block 16 with it is corresponding Second sliding slot 15 is slidably connected, and when preventing adjusting screw rod 5 from rotating, automatic vialog main body 4 is driven to deflect.

First sliding block 11 offers ball grooves 17 close to the side of 10 slot bottom of first sliding groove, rolls and is connected in ball grooves 17 Ball 18, ball 18 passes through the notch of ball grooves 17 far from one end of 17 slot bottom of ball grooves and extends outwardly, and rolls and be connected to The slot bottom of first sliding groove 10 reduces the frictional force between the first sliding block 11 and first sliding groove 10.

Screw rod 12 is fixedly connected with rotating block 19 far from one end of second bearing, convenient for controlling the rotation of screw rod 12.

In the utility model, bearing to be tested is placed in 1 upper surface of pedestal, corresponding 9 position of detecting head, rotation and support The adjusting screw rod 5 that bar 3 is threadedly coupled, drives the automatic vialog main body 4 of rotation connection to move down, detecting head 9 is supported with bearing After touch, adjusting screw rod 5 is continued to rotate, slides slide bar 8 towards the cylinder bottom direction of sleeve 6, compressed spring 7 changes the pressure of spring 7 Contracting amount, to change the pressure between detecting head 9 and bearing, so that the pressure between detecting head 9 and bearing can according to need Regulated and controled, and then can test out under different pressures state as a result, reducing the error of bearing test in turn；Rotary screw rod 12, there are two types of contrary screw threads on screw rod 12, so that two the first sliding block 11 phases in first sliding groove 10 being threadedly coupled To (or opposite) sliding, meanwhile, the first sliding block 11 drives curved splint 13 to move synchronously, thus by axis to be tested on pedestal 1 It holds and positioning is fixed, and positioning conveniently is fixed for the bearing of different model, improve applicability.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. a kind of automation vialog, including pedestal (1), which is characterized in that the upper surface of the pedestal (1) is fixedly connected with two A symmetrical fixed column (2), two fixed columns (2) are fixedly connected with support rod (3) between the side wall at top, and two Automatic vialog main body (4) is equipped between a fixed column (2), and automatic vialog main body (4) is located at the upper of pedestal (1) Side, the upper surface of the automatic vialog main body (4) are rotatably connected to adjusting screw rod (5) by first bearing, the adjusting spiral shell The other end of bar (5) is through support rod (3) and upwardly extending, and adjusting screw rod (5) is threadedly coupled with support rod (3), it is described oneself The lower surface of dynamic vialog main body (4) is fixedly connected with sleeve (6), and the internal cylinder bottom of the sleeve (6) is fixedly connected with spring (7), the other end of the spring (7) be fixedly connected with sleeve (6) matched slide bar (8), and slide bar (8) and sleeve (6) are sliding Dynamic connection, the slide bar (8) passes through the nozzle of sleeve (6) far from the one end of spring (7) and extends downwardly, and is fixedly connected with spy Gauge head (9).

2. a kind of automation vialog according to claim 1, which is characterized in that the upper surface of the pedestal (1) is corresponding It is offered at the position of detecting head (9) first sliding groove (10), being slidably connected in the first sliding groove (10), there are two slide with first Matched first sliding block (11) of slot (10), and two the first sliding blocks (11) are symmetrical, and screw rod is equipped in the first sliding groove (10) (12), it and on screw rod (12) sets there are two types of contrary screw thread, one end of the screw rod (12) passes through second bearing and first The side wall of sliding slot (10) is rotatablely connected, and the other end of the screw rod (12) sequentially passes through two the first sliding blocks (11) and first sliding groove (10) far from bearing side wall and extend outwardly, the screw rod (12) is threadedly coupled with two the first sliding blocks (11), and screw rod (12) it is rotatablely connected with first sliding groove (10) far from the side wall of bearing, the upper surface of two first sliding blocks (11) is fixed to be connected It is connected to curved splint (13).

3. a kind of automation vialog according to claim 1, which is characterized in that the adjusting screw rod (5) is far from first One end of bearing is fixedly connected with handle (14).

4. a kind of automation vialog according to claim 1, which is characterized in that two fixed columns (2) it is opposite It is symmetrically offered on side wall second sliding slot (15), the side wall of the automatic vialog main body (4) corresponds to the position of second sliding slot (15) The place of setting is fixedly connected with and second sliding slot (15) matched second sliding block (16), and the second sliding block (16) and corresponding second sliding slot (15) it is slidably connected.

5. a kind of automation vialog according to claim 2, which is characterized in that first sliding block (11) is close to first The side of sliding slot (10) slot bottom offers ball grooves (17), rolls in the ball grooves (17) and is connected with ball (18), the rolling Pearl (18) passes through the notch of ball grooves (17) far from one end of ball grooves (17) slot bottom and extends outwardly, and rolls and be connected to first The slot bottom of sliding slot (10).

6. a kind of automation vialog according to claim 2, which is characterized in that the screw rod (12) is far from second bearing One end be fixedly connected with rotating block (19).