CN202701031U - Detection probe structure for horizontal-type pressure straightening machine - Google Patents

Abstract

The utility model relates to a detection probe structure for a horizontal-type pressure straightening machine, and the detection probe structure is characterized by comprising a supporting seat which is installed on a pressure bearing stander and a probe which is arranged on the outer side of the supporting seat, wherein the position of the probe, which is close to the upper end, is connected with the supporting seat in a rotating way through a first pin shaft, an inward elastic close-in structure and an outward elastic pushing structure are respectively arranged above and below the first pin shaft between the supporting seat and the probe; and the detection probe structure also comprises an approaching switch which is installed on the supporting seat and used for detecting the displacement of the elastic pushing structure. By adopting the detection probe structure, when a feeding trolley conveys materials to an anvil block, the detection probe structure is firstly contacted with a probe, the probe swings and acts on the elastic pushing structure, the approaching switch can accurately and timely feed back a signal that a workpiece to be straightened is contacted with the anvil block to a control system of the straightening machine, so that the work of a straightening part can be rapidly started. Compared with the existing manual visual observation way, an arrival signal of the workpiece to be straightened can be collected and fed back in time, so that the workpiece can be adjusted to a designated position in one step, the adjustment time is saved, and the working efficiency is improved.

Description

Horizontal gag straightener detector probe structure

Technical field

The utility model relates to the straightener technical field, particularly horizontal gag straightener detector probe structure.

Background technology

During horizontal gag straightener work, because plug class workpiece has bending in various degree, so workpiece can be simultaneously near the anvil block on the bearing, the general artificial visually examine's of employing method detects the different position of workpiece and when touches anvil block at present.The accuracy of this kind detection mode is relatively poor, and has certain time-delay, usually need to be through repeatedly just adjusting to the right place, thus affected the operating efficiency of straightener.

Summary of the invention

The utility model provides a kind of horizontal gag straightener detector probe structure for solving the technical problem that exists in the known technology, this structure can accurately and timely detect workpiece and contact with anvil block, thereby reduced the adjustment number of times of workpiece, improved the operating efficiency of straightener.

The technical scheme that the utility model is taked for the technical problem that exists in the solution known technology is:

Horizontal gag straightener detector probe structure, it is characterized in that: comprise the bearing that is installed on the pressure-bearing frame, the probe that is located at support outer, described probe is being rotationally connected by the first bearing pin and bearing near the position of upper end, is respectively equipped with inside elasticity further structure and outside elasticity ejection structure between described bearing and the probe in the position, above and below of the first bearing pin; Described detector probe structure also comprises the approach switch that is installed on the bearing for detection of elasticity ejection displacement structure.

The technical scheme that the utility model can also be taked is:

The described elasticity mechanism that furthers consists of by connecting bearing and the extension spring of probe and the locating part that is installed on the bearing; Described locating part is located at the position near the probe medial surface; Slidable push rod consists of with the Compress Spring that is sleeved on the push rod described elasticity ejection structure on the bearing by being installed in, and described Compress Spring makes the front end of push rod contact with the medial surface of probe; Described approach switch is installed in the position that the rear end with push rod aligns mutually.

One end of described extension spring is hook end, and the other end is the screw rod end, at probe the second bearing pin is installed, and the hook end dogging of extension spring is on the second bearing pin, and the screw rod end of extension spring is fixedly connected with bearing by nut.

The quantity of described extension spring is two, and two extension springs are symmetricly set on the both sides, front and back of probe.

Described locating part adopts screw, and the threaded portion of screw is connected with bearing, and the head of screw is located at the side near the probe medial surface.

Described approach switch is optoelectronic switch.

Advantage and the good effect that the utlity model has are:

Adopt above-mentioned detector probe structure, at first contact with probe during to the anvil block convey materials at feeding trolley, probe swings and acts on the elasticity ejection structure, the signal feedback that approach switch can be accurately and timely will workpiece be aligned contacts with anvil block is to the control system of complete machine, with quick startup aligning some work.This detector probe structure structure is than existing artificial visually examine's mode, realized workpiece to be aligned put in place timely collection and the feedback of signal, can realize that therefore workpiece once adjusts to the right place, saved the adjustment time, improved the operating efficiency of straightener.

Description of drawings

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

Fig. 2 is the top view of Fig. 1;

Fig. 3 is the A-A cutaway view of Fig. 1;

Fig. 4 is the B-B cutaway view of Fig. 1;

Fig. 5 is the C-C cutaway view of Fig. 1.

Among the figure: 1, bearing; 2, probe; 3, the first bearing pin; 4, the elasticity structure that furthers; 4-1, extension spring; 4-1-1, hook end; 4-1-2 screw rod end; 4-2, locating part; 5, elasticity ejection structure; 6, approach switch; 7, the second bearing pin; 8, nut; 9, push rod; 9-1, end emit; 10, Compress Spring; 11, bearing block; 12, linear bearing; 13, workpiece to be aligned.

The specific embodiment

For further understanding summary of the invention of the present utility model, Characteristic, hereby exemplify following examples, and cooperate accompanying drawing to be described in detail as follows:

See also Fig. 1-5, horizontal gag straightener detector probe structure comprises the bearing 1 that is installed on the forcing press pressure-bearing frame, the probe 2 that is located at support outer.Concrete, bearing is installed in the anvil block annex, and probe is positioned at the outside of anvil block.Described probe is rotationally connected with bearing by the first bearing pin 3 in the position near the upper end.Concrete, when power was applied on the lateral surface of probe outside, probe can swing forward or backwards along the first bearing pin in the certain angle scope.Be respectively equipped with inside elasticity further structure 4 and outside elasticity ejection structure 5 between described bearing and the probe in the position, above and below of the first bearing pin.Concrete, feeding trolley drives workpiece motion s to be aligned to contacting follow-up reforwarding with the lateral surface of probe when moving, workpiece to be aligned promotes probe and clockwise rotates centered by the first bearing pin, elasticity ejection structure below this moment compresses the medial surface of probe, impose on outside thrust of probe, simultaneously the elasticity of the top structure that furthers imposes on inside tightening force of probe.Along with the increase of probe pendulum angle, above-mentioned thrust and pulling force increase gradually.When workpiece to be aligned contacts with anvil block, workpiece stop motion to be aligned, this moment, probe swung to a fixing locus, in order to carry out follow-up aligning work.Described detector probe structure comprises also and being installed on the bearing for detection of the approach switch 6 of elasticity ejection displacement structure that this approach switch can further adopt optoelectronic switch.Concrete, when workpiece to be aligned 13 contact with anvil block, approach switch just detected this position signalling, then in time sends an aligning working signal to complete machine control system, aligns some work with driving.

In the above-mentioned technical approach: the described elasticity structure that furthers can be further consist of by connecting bearing and the extension spring 4-1 of probe and the locating part 4-2 that is installed on the bearing.Described locating part is located at the position near the probe medial surface.Concrete, extension spring can adopt two ends to be the spring structure of hook, when adopting this structure, need to be fixedly mounted with respectively spring-hanging column or the bearing pin of coupling hook with probe on bearing.For ease of adjusting the tightening force of extension spring, in the utility model, one end of extension spring is hook end 4-1-1, the other end is screw rod end 4-1-2, at probe the second bearing pin 7 is installed, the hook end dogging of extension spring is on the second bearing pin, and the screw rod end of extension spring is fixedly connected with bearing by nut 8.Adopt this structure can realize the tension of extension spring by adjusting nut and loosen.Above-mentioned extension spring can adopt single or multiple, and in the utility model, from compact overall structure, the angle of probe stability under loading considers that the quantity of above-mentioned extension spring is two, and two extension springs are symmetricly set on the both sides, front and back of probe.Slidable push rod 9 consists of with the Compress Spring 10 that is sleeved on the push rod described elasticity ejection structure on the bearing by being installed in, and described Compress Spring makes the front end of push rod contact with the medial surface of probe.Described approach switch is installed in the position that the rear end with push rod aligns mutually.Concrete, be fixedly mounted with bearing block 11 at bearing, linear bearing 12 is installed in bearing block, above-mentioned Compress Spring is sleeved on push rod after, its back segment partly is inserted in the linear bearing, the end that this moment, Compress Spring was placed in bearing block end face and push rod emits between the 9-1.Adopt said structure, when workpiece to be aligned promoted the probe swing, push rod moved towards the approach switch direction under the promotion of probe.

Above-mentioned locating part and extension spring and Compress Spring acting in conjunction, after the workpiece after guaranteeing to align left anvil block, detector probe resetted, and waited for detection next time.From simple in structure, the angle of being convenient to install and adjust considers that above-mentioned locating part adopts screw, and the threaded portion of screw is connected with bearing, and the head of screw is located at the side near the probe medial surface.After probe resetted, the head end of screw was pressed on the medial surface of probe.

Workpiece above-mentioned to be aligned can be tubing, bar, section bar etc.

Operation principle of the present utility model:

Adopt above-mentioned detector probe structure, when feeding trolley is sent to the anvil block position with workpiece to be detected, workpiece to be detected at first contacts with the middle and lower part of probe, promoting probe swings towards the bearing direction, probe promotes push rod and moves towards the approach switch direction, when approach switch detected push rod, workpiece to be detected contacted just contact with anvil block.Approach switch sends the signal that puts in place to control system, thereby in time starts the aligning some work.

Claims (7)

1. horizontal gag straightener detector probe structure, it is characterized in that: comprise the bearing that is installed on the pressure-bearing frame, the probe that is located at support outer, described probe is being rotationally connected by the first bearing pin and bearing near the position of upper end, is respectively equipped with inside elasticity further structure and outside elasticity ejection structure between described bearing and the probe in the position, above and below of the first bearing pin; Described detector probe structure also comprises the approach switch that is installed on the bearing for detection of elasticity ejection displacement structure.

2. horizontal gag straightener according to claim 1 detector probe structure is characterized in that: the described elasticity mechanism that furthers consists of by connecting bearing and the extension spring of probe and the locating part that is installed on the bearing; Described locating part is located at the position near the probe medial surface; Slidable push rod consists of with the Compress Spring that is sleeved on the push rod described elasticity ejection structure on the bearing by being installed in, and described Compress Spring makes the front end of push rod contact with the medial surface of probe; Described approach switch is installed in the position that the rear end with push rod aligns mutually.

3. horizontal gag straightener according to claim 2 detector probe structure, it is characterized in that: an end of described extension spring is hook end, the other end is the screw rod end, at probe the second bearing pin is installed, the hook end dogging of extension spring is on the second bearing pin, and the screw rod end of extension spring is fixedly connected with bearing by nut.

4. horizontal gag straightener according to claim 3 detector probe structure, it is characterized in that: the quantity of described extension spring is two, two extension springs are symmetricly set on the both sides, front and back of probe.

5. arbitrary described horizontal gag straightener detector probe structure according to claim 2-4 is characterized in that: described locating part adopts screw, and the threaded portion of screw is connected with bearing, and the head of screw is located at a side of close probe medial surface.

6. arbitrary described horizontal gag straightener detector probe structure according to claim 1-4, it is characterized in that: described approach switch is optoelectronic switch.

7. horizontal gag straightener according to claim 5 detector probe structure, it is characterized in that: described approach switch is optoelectronic switch.

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