CN204413293U - A kind of slide-like saw and vibration measurement device thereof - Google Patents

Abstract

The utility model discloses a kind of vibration measurement device of slide-like saw, comprise the first bow pen and the first data board, described first bow pen is arranged on the sidewall of the upper saddle of described slide-like saw, and the length direction of described first bow pen is perpendicular to the theoretical sawing plane of described upper saddle, the nib of described first data board and described first bow pen fits tightly, and vertical with its length direction.The vibration measurement device of slide-like saw disclosed in the utility model, slide-like saw motion state is operationally simulated by the first bow pen and the first data board, ensure that the vibrational state of saw is delivered on the first bow pen truly by the length direction of the first bow pen perpendicular to the restriction of the theoretical sawing plane of upper saddle, then paint on the first data board oscillation trajectory, technical staff knows the vibrational state of slide-like saw accordingly in real time.The invention also discloses a kind of slide-like saw comprising above-mentioned vibration measurement device.

Description

A kind of slide-like saw and vibration measurement device thereof

Technical field

The utility model relates to machine-building and Process engineering field, particularly a kind of vibration measurement device of slide-like saw.The utility model also relates to a kind of slide-like saw comprising above-mentioned vibration measurement device.

Background technology

Along with the development of Chinese mechanical industry, production technology also constantly improve in, the manufacture of such as metallurgical equipment and the operation detection etc. of large-scale slide-like equipment.

At present, in present metallurgical production, sawing is the important step of production.Generally use the gas flame cuttiug of Technical comparing maturation and sawing to cut two kinds of modes now, and the main saw that adopts carry out sawing in Section Steel Production process.Along with the upgrading of shaped steel product, its specification is increasing, and the saw equipment adopted is also increasing.And the equipment of heavy section steel generally adopts slide-like saw now, this saw adopts upper lower slider form.Because the upper saddle of slide-like saw adopts pulley support, have the advantages such as compact conformation, cutting-rate is high, saw cutting speed is fast, therefore slide-like saw widely uses in metallurgical industry.

But, because the power of slide-like saw is large, saw blade is easily subject to the moment interference effect of cut workpiece when high-speed cruising, small disturbance also can be amplified rapidly, slide-like saw is caused to produce larger vertical vibration when sawing, thus making workpiece machining surface deep mixed, roughness is comparatively large, and product quality is lower.

Utility model content

The purpose of this utility model is to provide a kind of vibration measurement device of slide-like saw, can detect in real time and record the sawing vibrational state of slide-like saw, thus makes technical staff make reply operation in time, improves the quality of products.Another object of the present utility model is to provide a kind of slide-like saw comprising above-mentioned vibration measurement device.

For solving the problems of the technologies described above, the utility model provides a kind of vibration measurement device of slide-like saw, comprise mounting rod, the first bow pen, the first data board and the first mount pad, described mounting rod is connected with the sidewall of the upper saddle of described slide-like saw, described first bow pen is arranged on described mounting rod, described first data board is arranged on described first mount pad, the nib close contact of its drawing surface and described first bow pen, and the theoretical sawing plane being parallel to described upper saddle.

Preferably, described mounting rod is perpendicular to the sidewall of described upper saddle, and the length direction of described first bow pen is parallel to described mounting rod, and simultaneously perpendicular to the drawing surface of described first data board.

Preferably, described first data board is rectangular, and its length direction is parallel to the sawing motion direction of described upper saddle.

Preferably, on described first data board along its length, be provided with the center line of the theoretical sawing motion track of the described upper saddle of mark therebetween, be respectively arranged with longitudinal scale in its both sides; Another along its width, be respectively arranged with horizontal scale in its both sides.

Preferably, also comprise the second bow pen, the second data board, the second mount pad and elastic component, described second bow pen is arranged on described mounting rod, described second data board is arranged on described second mount pad, the nib close contact of its drawing surface and described second bow pen, and perpendicular to the theoretical sawing plane of described upper saddle; Described elastic component is arranged at described mounting rod and the first bow pen and between described mounting rod and the second bow pen, and the telescopic direction of described elastic component is all parallel with the length direction of bow pen corresponding separately.

Preferably, described mounting rod is perpendicular to the sidewall of described upper saddle, and the length direction of described second bow pen is perpendicular to described mounting rod, and simultaneously perpendicular to the drawing surface of described second data board.

Preferably, described first bow pen is all connected with described mounting rod by connector with the second bow pen.

Preferably, described elastic component is spring, and the circumference of connector described in described spring wrap is arranged on described mounting rod and described first bow pen and between described mounting rod and the second bow pen.

Preferably, also comprise support bar, described support bar one end is connected with described second mount pad, and the other end is connected with the back side of described second data board.

The utility model also provides a kind of slide-like saw, and comprise fuselage and be arranged at the vibration measurement device on described fuselage, wherein, described vibration measurement device is the vibration measurement device described in above-mentioned any one.

The vibration measurement device of slide-like saw provided by the utility model, mainly comprises mounting rod, the first bow pen, the first data board and the first mount pad.Wherein, mounting rod is connected with the sidewall of upper saddle, is mainly used in installation first bow pen and all the other parts.First bow pen is arranged on mounting rod, is mainly used in painting on the first data board and records vertical vibration track when slide-like saw runs.First data board is mainly used in for the first bow pen work, and record the track of saw vibration, it is arranged on the first mount pad, when saw moves, ensures the first bow pen and self there is relative motion.In addition; the drawing surface of the first data board and the nib of the first bow pen fit tightly; ensure that track drawing is clear; and the drawing surface of the first data board also needs the theoretical sawing plane being parallel to upper saddle---due to slide-like saw operationally; its vibrational state mainly with displacement horizontal plane for benchmark, vertically vibration be main.Therefore, when saw moves, first bow pen carries out with it being synchronized with the movement, synchronous vibration, motion and the vibration of its nib are all carry out in same horizontal plane, so this horizontal plane (i.e. the drawing surface of the first data board) is parallel to the theoretical sawing plane of upper saddle, ensure that the track that the first bow pen is painted on the first data board is true and reliable.In sum, the vibration measurement device of slide-like saw provided by the utility model, by mounting rod, the first bow pen is installed, by the first mount pad, the first data board is installed again, vibrational state when saw runs is simulated in cooperation finally by the first bow pen and the first data board, and oscillation trajectory when saw runs under synchronous recording, therefore operating personnel can learn the running status of saw in real time, and take countermeasure, ensure product quality.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiment of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the accompanying drawing provided.

Fig. 1 is the overall structure schematic diagram of the first detailed description of the invention provided by the utility model;

Fig. 2 is the concrete structure schematic diagram of the first data board shown in Fig. 1;

Fig. 3 is the overall structure schematic diagram of the second detailed description of the invention provided by the utility model.

Wherein, in Fig. 1-2:

Upper saddle-1, mounting rod-2, the first bow pen-3, the first data board-4, the first mount pad-5, center line-401, longitudinal scale-402, horizontal scale-403.

In Fig. 3:

Second bow pen-6, the second data board-7, the second mount pad-8, elastic component-9, connector-10, support bar-11.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Please refer to Fig. 1, Fig. 1 is the overall structure schematic diagram of the first detailed description of the invention provided by the utility model.

In the first detailed description of the invention provided by the utility model, the vibration measurement device of slide-like saw mainly comprises mounting rod 2, first bow pen 3, first data board 4 and the first mount pad 5.

Wherein, mounting rod 2 is arranged on the sidewall of upper saddle 1 (slide-like saw is generally provided with lower slider) of slide-like saw, and one end is connected with it, and the other end is vacated, and is mainly used in installation first bow pen 3 and all the other parts.First bow pen 3 is arranged on mounting rod 2, is mainly used in synchronously ruling when saw runs, and records the oscillation trajectory of saw.And in order to rule conveniently, can the tail end of the first bow pen 3 is fixed on mounting rod 2, nib is vacated.

As shown in Figure 2, Fig. 2 is the concrete structure schematic diagram of the first data board shown in Fig. 1.

First data board 4 is arranged in the first mount pad 5, maintains static, and ensure saw operationally, the first bow pen 3 carries out relative motion with it, to rule smoothly.First data board 4 is the parts being mainly used in painting for the first bow pen 3, the nib close contact of its drawing surface and the first bow pen 3, and this drawing surface needs to be parallel to the theoretical sawing plane of upper saddle 1, and (upper saddle 1 is when normal sawing simultaneously, can move along straight line in theory, certainly in fact can ceaselessly up-down vibration when moving, and the also synchronous linear motion when High Rotation Speed of the sawing sheet of centre, and the Plane of rotation of this sawing sheet is exactly the theoretical sawing plane of upper saddle 1).Due to slide-like saw operationally, upper saddle 1 is also vertical vibration while rectilinear motion, also the compound motion of rectilinear motion and vertical vibration superposition is synchronously carried out by the first bow pen 3 that mounting rod 2 is disposed thereon, and now the nib of the first bow pen 3 carries out this superimposed motion equally, no matter but be this rectilinear motion or vertical vibration, all carry out in same horizontal plane.So this plane-parallel is in the theoretical sawing plane of upper saddle 1, just can ensure saw operationally, the synchronous track of painting on the first data board 4 of the first bow pen 3, and ensure that track is true and reliable.

Herein preferably, the first data board 4 is rectangular, and its length direction is parallel to the sawing motion direction of upper saddle 1.Because slide-like saw operationally linearly cuts in theory, therefore the shape of the first data board 4 so arranges the ruuning situation can complying with slide-like saw well.Certainly, the first data board 4 is not limited only to this kind of shape of rectangle, and all the other shapes all can adopt, but will ensure that the area of its drawing surface is enough large, guarantees the integrality of drawing track.

And in order to the oscillation trajectory figure of precise quantification slide-like saw, the present embodiment also on the first data board 4 along its length direction, be provided with center line 401 in centre position.This center line 401 can identify the theoretical sawing motion track of upper saddle 1, i.e. straight line.Then, be along its length equally, be also provided with longitudinal scale 402 in its both sides.Due to the existence of longitudinal scale 402, the vibration wavelength of reciprocating saw machine vibration track just can be quantized; In addition, along the width of the first data board 4, the present embodiment is also provided with horizontal scale 403 in its both sides.Due to the existence of horizontal scale 403, the Oscillation Amplitude of reciprocating saw machine vibration track just can be quantized.

Further, before mentioned mounting rod 2 and be connected with the sidewall of upper saddle 1, and the first bow pen 4 is arranged on mounting rod 2.Herein preferably, mounting rod 2 is also perpendicular to this sidewall while being connected with the sidewall of upper saddle 1, and the length direction of the first bow pen 3 is parallel to this mounting rod 2, and now the length direction of the first bow pen 3 is also simultaneously perpendicular to the drawing surface of the first data board 4.Setting like this, can optimize mounting rod 2 and the connected mode of the sidewall of upper saddle 1, optimize the connected mode of mounting rod 2 and the first bow pen 3, the Appropriate application external fuselage space of slide-like saw while being convenient to installation, maintenance.Certainly, mounting rod 2 out of plumb all right with the sidewall of upper saddle 1, form an angle feasible too, and the length direction of mounting rod 2 and the first bow pen 3 also can be not parallel, form an angle feasible too, only need ensure the drawing plane of the first data board 4 and the nib close contact of the first bow pen 3, and be parallel to the theoretical sawing plane of upper saddle 1 simultaneously.

In sum, the vibration measurement device of the slide-like saw that the present embodiment provides, by mounting rod 2, first bow pen 3 is installed, install the first data board 4 by the first mount pad 5, the cooperation finally by the first bow pen 3 and the first data board 4 detects in real time and records the operational shock track of slide-like saw.And by the drawing surface of the first data board 4 and the nib close contact of the first bow pen 3, the restriction being parallel to the theoretical sawing plane of upper saddle 1 ensures that the track that the first bow pen 3 is painted on the first data board 4 is true and reliable simultaneously.Therefore, the vibration measurement device of the slide-like saw that the present embodiment provides, can detect in real time and record the oscillation trajectory of slide-like saw, making technical staff grasp the running status of slide-like saw in real time, and make corresponding operating, be conducive to the total quality improving product.

The present embodiment also provides a kind of slide-like saw, and comprise fuselage and be arranged on the vibration measurement device on fuselage, wherein, this vibration measurement device is identical with foregoing teachings, repeats no more herein.

Please refer to Fig. 3, Fig. 3 is the overall structure schematic diagram of the second detailed description of the invention provided by the utility model.

The second detailed description of the invention provided by the utility model, the basis of the first detailed description of the invention is improved, is mainly: set up the second bow pen 6, second data board 7, second mount pad 8 and elastic component 9.The remainder of the vibration measurement device of the slide-like saw that the present embodiment provides is identical with foregoing teachings, repeats no more herein.

In the second detailed description of the invention provided by the utility model, consider that slide-like saw operationally not only exists vertical vibration, also may there is the situation of left and right deflection, for this reason, the present embodiment the first embodiment detection and the basis of recording reciprocating saw machine vibration state has been set up for detecting and recording a set of mechanism of slide-like saw deflected condition, mainly comprise: the second bow pen 6, second data board 7, second mount pad 8 and elastic component 9.

Wherein, the second bow pen 6 is the same with the first bow pen 3 to be all arranged on mounting rod 2, is mainly used in painting and records the deflection track that slide-like saw operationally exists.In order to rule conveniently, the tail end of the second bow pen 6 can be arranged on mounting rod 2, and the nib of the second bow pen 6 is vacated.

Second data board 7 also with the first data board 4 is the same, but it is arranged in the second mount pad 8, maintains static, and ensure saw operationally, the second bow pen 6 carries out relative motion with it, to rule smoothly.Second data board 7 is the parts being mainly used in painting for the second bow pen 6, the nib close contact of its drawing surface and the second bow pen 6, and this drawing surface needs simultaneously perpendicular to the theoretical sawing plane of upper saddle 1.About this theoretical sawing plane, before had and discussed in detail, repeat no more herein.Due to slide-like saw operationally, upper saddle 1 goes back left and right deflection while rectilinear motion, also the compound motion of rectilinear motion and the superposition of left and right deflection is synchronously carried out by the second bow pen 6 that mounting rod 2 is disposed thereon, and now the nib of the second bow pen 6 carries out this superimposed motion equally, no matter but be this rectilinear motion or left and right deflection motions, in theory all with same horizontal plane for benchmark carries out.So this horizontal plane is in the theoretical sawing plane of upper saddle 1, just can ensure saw operationally, the synchronous track of painting on the second data board 7 of the second bow pen 6, and ensure that track is true and reliable.

Mention above, mounting rod 2 is connected with the sidewall of upper saddle 1, and the second bow pen 6 is the same with the first bow pen 3 is all arranged on mounting rod 2.Herein preferably, mounting rod 2 while being connected with the sidewall of upper saddle 1 also perpendicular to this sidewall, and the length direction of the second bow pen 6 is perpendicular to this mounting rod 2, now the length direction of the second bow pen 6 is also simultaneously perpendicular to the drawing surface of the second data board 7.Setting like this, can optimize mounting rod 2 and the connected mode of the sidewall of upper saddle 1, optimize the connected mode of mounting rod 2 and the second bow pen 6, the Appropriate application external fuselage space of slide-like saw while being convenient to installation, maintenance.Certainly, mounting rod 2 out of plumb all right with the sidewall of upper saddle 1, form an angle feasible too, and the length direction of mounting rod 2 and the second bow pen 6 also can out of plumb, form an angle feasible too, only need ensure the drawing plane of the second data board 7 and the nib close contact of the second bow pen 6, and simultaneously perpendicular to the theoretical sawing plane of upper saddle 1.

In addition, owing to operationally owing to there is the situation of vertical vibration and left and right deflection simultaneously in slide-like saw, so the first bow pen 3 and the second bow pen 6 operationally also may be in the superimposed motion state of vertical vibration and left and right deflection simultaneously, and this will cause the first bow pen 3 or the second bow pen 6 when painting track owing to disengaging with the first data board 4 or the second data board 7 and occurring the situation that track interrupts.For this, the present embodiment between mounting rod 2 and the first bow pen 3, and is all provided with elastic component 9 between mounting rod 2 and the second bow pen 6, and the telescopic direction of this elastic component 9 is all parallel with the length direction of bow pen corresponding separately.Setting like this, when the first bow pen 3 or the second bow pen 6 are about to occur occurring situation about disengaging with the first data board 4 or the second data board 7 due to the motion state of superposition, under the effect of elastic component 9, first bow pen 3 or the second bow pen 6 keep good contact with the first data board 4 or the second data board 7 all the time by under the effect of elastic potential energy, ensure that drawing track is continuous, undistorted.

Further, in order to strengthen mounting rod 2 and the annexation between the first bow pen 3 and the second bow pen 6, the present embodiment has set up connector 10 on mounting rod 2, and the first bow pen 3 and the second bow pen 6 just can be connected with mounting rod 2 by connector 10, improve connective stability.Herein preferably, the elastic component 9 be arranged between mounting rod 2 and the first bow pen 3, second bow pen 6 is spring, and the axis of this spring wrap connector 10 is arranged.Certainly, elastic component 9 is not limited only to the form in spring, and all the other such as elastic rod structures are feasible too.

Further, in order to Appropriate application external fuselage space, the present embodiment is provided with support bar 11 between the back side of the second data board 7 and the second mount pad 8, this support bar 11 can help the second data board 7 to keep stable when being subject to the pressure of the second bow pen 6, balancing further, reduce the distortion factor of drawing track, and support bar 11 make use of vertical space, the structure of the second mount pad 8 can be made more to optimize material-saving.

The present embodiment also provides a kind of slide-like saw, and comprise fuselage and be arranged on the vibration measurement device on fuselage, wherein, this vibration measurement device is identical with foregoing teachings, repeats no more herein.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the utility model.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein when not departing from spirit or scope of the present utility model, can realize in other embodiments.Therefore, the utility model can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (10)

1. the vibration measurement device of a slide-like saw, it is characterized in that, comprise mounting rod (2), first bow pen (3), first data board (4) and the first mount pad (5), described mounting rod (2) is connected with the sidewall of the upper saddle (1) of described slide-like saw, described first bow pen (3) is arranged on described mounting rod (2), described first data board (4) is arranged on described first mount pad (5), the nib close contact of its drawing surface and described first bow pen (3), and be parallel to the theoretical sawing plane of described upper saddle (1).

2. vibration measurement device according to claim 1, it is characterized in that, described mounting rod (2) is perpendicular to the sidewall of described upper saddle (1), and the length direction of described first bow pen (3) is parallel to described mounting rod (2), and simultaneously perpendicular to the drawing surface of described first data board (4).

3. vibration measurement device according to claim 1, is characterized in that, described first data board (4) is rectangular, and its length direction is parallel to the sawing motion direction of described upper saddle (1).

4. vibration measurement device according to claim 3, it is characterized in that, on described first data board (4) along its length, be provided with the center line (401) of the theoretical sawing motion track of the described upper saddle of mark (1) therebetween, be respectively arranged with longitudinal scale (402) in its both sides; Another along its width, horizontal scale (403) is respectively arranged with in its both sides.

5. vibration measurement device according to claim 1, it is characterized in that, also comprise the second bow pen (6), the second data board (7), the second mount pad (8) and elastic component (9), described second bow pen (6) is arranged on described mounting rod (2), described second data board (7) is arranged on described second mount pad (8), the nib close contact of its drawing surface and described second bow pen (6), and perpendicular to the theoretical sawing plane of described upper saddle (1); Described elastic component (9) is arranged at described mounting rod (2) and the first bow pen (3) and between described mounting rod (2) and the second bow pen (6), and the telescopic direction of described elastic component (9) is all parallel with the length direction of bow pen corresponding separately.

6. vibration measurement device according to claim 5, it is characterized in that, described mounting rod (2) is perpendicular to the sidewall of described upper saddle (1), and the length direction of described second bow pen (6) is perpendicular to described mounting rod (2), and simultaneously perpendicular to the drawing surface of described second data board (7).

7. vibration measurement device according to claim 5, is characterized in that, described first bow pen (3) is all connected with described mounting rod (2) by connector (10) with the second bow pen (6).

8. vibration measurement device according to claim 7, it is characterized in that, described elastic component (9) is spring, and the circumference of connector (10) described in described spring wrap is arranged on described mounting rod (2) and described first bow pen (3) and between described mounting rod (2) and the second bow pen (6).

9. vibration measurement device according to claim 5, it is characterized in that, also comprise support bar (11), described support bar (11) one end is connected with described second mount pad (8), and the other end is connected with the back side of described second data board (7).

10. a slide-like saw, comprise fuselage and be arranged at the vibration measurement device on described fuselage, it is characterized in that, described vibration measurement device is the vibration measurement device described in any one of claim 1-9.