CN209589024U - Prefabricated rods detection device - Google Patents

Abstract

The utility model provides a kind of prefabricated rods detection device, the prefabricated rods detection device includes supporter, send stick platform and measurement diameter system, the measurement diameter system is arranged inside the supporter, it is described that stick platform is sent to be slidingly arranged at below the measurement diameter system and cooperate with the measurement diameter system, for the prefabricated rods weight and diameter measure.Prefabricated rods detection device provided by the utility model, it is easy to operate, use reliable, high degree of automation, it realizes to the precise measurements of prefabricated rods.

Description

Prefabricated rods detection device

Technical field

The utility model relates to detection field, especially a kind of prefabricated rods detection device.

Background technique

Preform is the core starting materials for manufacturing quartzy series fibre.Briefly, for wire-drawing shape optical fiber The extraordinary prefabricated big stick-means of intimidation of glass.People will first produce soot preforms when manufacturing optical fiber, and diameter is generally several millimeters to several Ten millimeters.The internal structure of optical fiber is formed in prefabricated rods, thus the production of prefabricated rods is most important in optical fiber fabrication technology Part.

Prefabricated rods need to carry out diameter detection after producing, it is not high that tradition calibrates technology measurement accuracy, measurement it is time-consuming compared with It is long, prefabricated rods can only be put individually and be measured, it can not accurate description powder stick diameter distribution situation.It simultaneously also can not be prefabricated Stick is weighed after producing, and technique adjustment has lag, is unfavorable for the control of prefabricated rods parameter.

Utility model content

In view of this, structure is simple, easy to use it is necessary to provide a kind of prefabricated rods detection device, it can be quickly accurate The diameter and weight of prefabricated rods are measured in ground, are conducive to the parameter for advanced optimizing prefabricated rods.

A kind of prefabricated rods detection device, the prefabricated rods detection device include supporter, send stick platform and measurement diameter system, institute Measurement diameter system is stated to be arranged inside the supporter, it is described send stick platform be slidingly arranged at below the measurement diameter system and with institute State measurement diameter system cooperation, for the prefabricated rods weight and diameter measure.

It is further, described that send stick platform include supporting element, load-bearing part and the first transmission system, first transmission system Including two parallel first straight line guide rails and an at least first motor, each first straight line guide rail is installed on wherein one On the end face of support member, the first motor is installed on the described wherein one end of a supporting element far from the supporter, and is located at pair The one end for the first straight line guide rail answered, the load-bearing part are separately positioned on the first straight line guide rail, the prefabricated rods Both ends are erected on the load-bearing part.

Further, first transmission system further includes a ball screw, and each first straight line guide rail includes the One sliding rail and the first sliding block, wherein installing a ball screw, described ball screw one end and institute on a first straight line guide rail It states first motor to be connected, each first sliding block is slidably arranged on first sliding rail, wherein first sliding block It is sheathed on the ball screw, and is slidably matched with the ball screw by screw thread.

Further, first transmission system further includes two ball screws, and each first straight line guide rail includes First sliding rail and the first sliding block install a ball screw, described ball screw one end and wherein one on each first straight line guide rail The first motor is connected, and each first sliding block is slidably arranged on first sliding rail, and is sheathed on described in correspondence On ball screw, each first sliding block is slidably matched with the ball screw by screw thread.

Further, described to send stick platform further include locating piece and poidometer, and the locating piece is disposed therein described in one On load-bearing part, the load-bearing part is separately positioned on each first sliding block, and the poidometer is arranged in a load-bearing part Lower section, for detecting the prefabricated rods weight.

Further, the supporter generally frame structure comprising at least two bracket and be connected to two branch Several crossbeams between frame.

Further, the measurement diameter system includes caliper, the second transmission system and the position being arranged on the caliper Sensor, the caliper generally concave shape shape are set, setting is passed in described bracket one end, the caliper and described second Dynamic system is connected, and then drives the caliper mobile.

Further, second transmission system includes that synchronous belt, two synchronizing wheels and the driving synchronous belt move Second motor, wherein a synchronizing wheel and the second motor are separately positioned on the corresponding crossbeam, another synchronizing wheel Connect with second motor, the synchronous belt both ends are respectively sleeved in the synchronizing wheel, described caliper one end with it is described Synchronous belt is connected, and the second motor driven synchronizing wheel rotation drives the transmission of the synchronous belt, thus drive be connected to it is described The movement of caliper on synchronous belt.

Further, second transmission system further includes that at least one second straight line parallel with the synchronous belt is led Rail, the second straight line guide rail include the second sliding rail and the second sliding block, and second sliding rail both ends are separately positioned on corresponding institute It states on crossbeam, and is parallel to the synchronous belt, the setting of the second sliding block sliding is in second sliding rail, the caliper one End is connected to second sliding block.

Further, the prefabricated rods detection device further includes power control cabinet and Computer cabinet, is equipped with electricity inside the power control cabinet Unit is controlled, is equipped with computer system in the Computer cabinet, the electronic control unit is connected with the computer system, for controlling The movement for sending stick platform and the measurement diameter system is stated, and directly displays out by the data measured by computer system.

Compared with prior art, the prefabricated rods detection device includes supporter, send stick platform and measurement diameter system, the survey Diameter system is arranged inside the supporter, it is described send stick platform be slidingly arranged at below the measurement diameter system and with the survey Diameter system cooperation, for the prefabricated rods weight and diameter measure.Prefabricated rods detection provided by the utility model is set Standby the degree of automation, working efficiency, data accuracy etc., more have advantage.The data of measurement can be uploaded to meter automatically Calculation machine is handled, and data that treated can describe the stick diameter distribution situation of whole prefabricated rods.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the prefabricated rods detection device in the utility model first embodiment.

Main element symbol description

The following detailed description will be further explained with reference to the above drawings the utility model.

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 describing, it is clear that described embodiment is a part of the embodiment of only the utility model, rather than all Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise Under every other embodiment obtained, fall within the protection scope of the utility model.

It should be noted that it can be directly on another component when component is referred to as " being fixed on " another component Or there may also be components placed in the middle.When a component is considered as " connection " another component, it, which can be, is directly connected to To another component or it may be simultaneously present component placed in the middle.When a component is considered as " being set to " another component, it It can be and be set up directly on another component or may be simultaneously present component placed in the middle.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term as used herein " and/or " include Any and all combinations of one or more related listed items.

Referring to Fig. 1, Fig. 1 is the structural representation of the prefabricated rods detection device 100 in the utility model first embodiment Figure, the prefabricated rods detection device 100 is for the diameter of the prefabricated rods 18 and the detection of weight.The prefabricated rods detection is set Include supporter 10 for 100, send stick platform 20, measurement diameter system 30, power control cabinet (not shown) and Computer cabinet (not shown).The survey Diameter system 30 is arranged inside the supporter 10, described that stick platform 20 is sent to be slidingly arranged at 30 lower section of measurement diameter system simultaneously Cooperate with the measurement diameter system 30.

The supporter 10 generally frame structure comprising at least two bracket 11 and be connected to described two brackets 11 Between several crossbeams 101, the bracket 11 is square frame structure or plate body structure, and two brackets 11 are relatively parallel Setting forms a framework supporter 10 by the connection of several crossbeams 101 being connected between the bracket 11.Each bracket 11 include at least a crossbeam 112, and the corresponding crossbeam 112 on two brackets 11 is arranged in parallel, for calibrating described in fixation System 30.The supporter 10 can be made of metal or plastic material, and in the present embodiment, the supporter 10 is metal Material is made, for installing the measurement diameter system 30.

It is described that stick platform 20 is sent to include two supporting elements 21 being oppositely arranged and set in the utility model first embodiment Set the first transmission system 22, locating piece 23, poidometer 24 and load-bearing part 25 on the supporting element 21, each supporting element 21 are held in a wherein bracket 11, and parallel with the bracket 11, and two supporting element 21 is used to support installation described first and passes Dynamic system 22, locating piece 23, poidometer 24 and load-bearing part 25.First transmission system 22 includes two parallel first straight lines Guide rail 221, ball screw 222 and first motor 223, each first straight line guide rail 221 are installed on a wherein supporting element 21 End face on, the first motor 223 is installed on the described wherein one end of a supporting element 21 far from the supporter 10, and is located at One end of the corresponding first straight line guide rail 221.A ball screw 222 wherein is installed on a first straight line guide rail 221, Described 222 one end of ball screw is connected with the first motor 223, and each first straight line guide rail 221 includes the first sliding rail 2211 and first sliding block 2212, each first sliding block 2212 be slidably arranged on first sliding rail 2211.Wherein one First sliding block 2212 is sheathed on the ball screw 222, and is slidably matched with the ball screw 222 by screw thread, The first motor 223 in operation, drives the ball screw 222 to move, and is connected to drive with the ball screw 222 The first sliding block 2212 moved along corresponding first sliding rail 2211.The locating piece 23 is disposed therein a load-bearing part On 25, for prefabricated rods 18 described in axially position.The load-bearing part 25 is separately positioned on each first sliding block 2212, institute 18 both ends of prefabricated rods are stated to be erected on the load-bearing part 25.The underface of a load-bearing part 25 is arranged in the poidometer 24, For detecting the weight of the prefabricated rods 18.

In other embodiments, present embodiment, which is different from the first embodiment, is: first transmission system 22 Including two parallel first straight line guide rails 221, each supporting element 21 is equipped with one far from one end of the supporter 10 The first motor 223, the first motor 223 are located at corresponding 221 one end of first straight line guide rail.Each first straight line One ball screw 222 is installed, described 222 one end of ball screw is connected with the first motor 223, each described on guide rail 221 First sliding block 2212 is slidably arranged on first sliding rail 2211.Each first sliding block 2212 is sheathed on the ball On screw rod 222, and it is slidably matched with the ball screw 222 by screw thread.

The measurement diameter system 30 includes caliper 31, the second transmission system 32 for driving the caliper 31 and setting Position sensor (not shown) on the caliper 31, second transmission system 32 are connected with the caliper 31, use In driving the caliper 31 move axially along the prefabricated rods 18, realization is to the prefabricated rods 18 in axial direction different location Diameter measurement.In the present embodiment, the caliper 31 generally concave shape shape, and the prefabricated rods 18 can be enclosed in Outside.Described 31 one end of caliper is connected with second transmission system 32, then drives the caliper 31 mobile.

Second transmission system 32 includes 321, two synchronizing wheel (not labeled) of synchronous belt and the driving synchronous belt 321 Second motor 322 of movement, wherein a synchronizing wheel and the second motor 322 are separately positioned on the corresponding crossbeam 112, Another synchronizing wheel is connect with second motor 322, with being rotated by second motor 322.The synchronization 321 both ends of band are respectively sleeved in the synchronizing wheel (not labeled), and described 31 one end of caliper is connected with the synchronous belt 321. Second motor 322 drives the rotation of synchronizing wheel (not labeled), to drive the caliper 31 being connected on the synchronous belt 321 Movement.In present embodiment, it is provided with buckle on 321 surface of synchronous belt, the card with 31 bottom of caliper setting It is buckle-shaped at clamping.The position sensor is used to incude the position of the caliper 31, efficiently controls the movement of caliper 31 Speed.

In other embodiments, present embodiment, which is different from the first embodiment, is: second transmission system 32 It further include at least one second straight line guide rail 323 parallel with the synchronous belt 321, the second straight line guide rail 323 includes the Two sliding rails 3231 and the second sliding block 3232,3231 both ends of the second sliding rail are separately positioned on the corresponding crossbeam 112, and It is parallel to the synchronous belt 321.The setting that second sliding block 3232 slides is on second sliding rail 3231.The caliper 31 one end are connected to second sliding block 3232.In the present embodiment, second transmission system 32 includes synchronous belt and two The root second straight line guide rail 323 parallel with the synchronous belt 321, and two second straight line guide rails be symmetrically distributed in it is described same Step band two sides.

The power control cabinet (not shown) and the Computer cabinet are all substantially box typed structure, in the power control cabinet (not shown) Portion is equipped with electronic control unit, is equipped with computer system, the electronic control unit and the department of computer science in the Computer cabinet (not shown) System is connected, and will measure for controlling the movement for sending stick platform 20 and the measurement diameter system 30, and by computer system Data directly display out.

The prefabricated rods detection device 100 in use, inputs the prefabricated rods 18 in computer system and needs to survey The range and caliper 31 of amount need mobile speed and tranmitting frequency, and first passing through external hanging device (not shown) will 18 both ends of prefabricated rods are erected on the load-bearing part 25, so that 18 one end of the prefabricated rods is contacted with the locating piece 23. After the prefabricated rods 18 are stablized, poidometer 24 measures the weight of the prefabricated rods 18.After completing weight measurement, the electricity It controls the electronic control unit inside cabinet and controls the first motor 223 and operate, drive the prefabricated rods 18 along first sliding rail to leaning on The direction of the nearly supporter 10 is mobile, reaches and stops immediately below caliper 31.The caliper 31 starts to move, from synchronous belt 321 one end are moved to 321 other end of synchronous belt according to preset speed and stop.It is described to send stick platform 20 after completing diameter measurement It is translated along the first sliding rail to the direction far from the supporter 10, until contacting stopping with the locating piece 23.The caliper 31 It is mobile to 321 other end of synchronous belt.The computer system 40 shows the diameter and weight data of the prefabricated rods 18, and is in Reveal the fluctuation of stick diameter and outward curve.

Prefabricated rods detection device provided by the utility model uses automation control, easy to operate, uses reliable, accuracy Height improves efficiency, and realizes the precise measurement of preform diameter and weight, is conducive to the Optical Parametric for advanced optimizing prefabricated rods Number.

Those skilled in the art it should be appreciated that more than embodiment be intended merely to illustrate that this is practical new Type, and be not used as the restriction to the utility model, as long as implementing in the spirit of the utility model to above Suitably change and change made by mode and all falls in the range of the requires of the utility model protection.

Claims (10)

1. a kind of prefabricated rods detection device, it is characterised in that: the prefabricated rods detection device includes supporter, send stick platform and survey Diameter system, the measurement diameter system is arranged inside the supporter, described that stick platform is sent to be slidingly arranged at the measurement diameter system Lower section simultaneously with the measurement diameter system cooperate, for the prefabricated rods weight and diameter measure.

2. prefabricated rods detection device as described in claim 1, it is characterised in that: described that stick platform is sent to include supporting element, carry Part and the first transmission system, first transmission system include two parallel first straight line guide rails and an at least first motor, Each first straight line guide rail is installed on the wherein end face of a supporting element, and the first motor is installed on a wherein branch The one end of support member far from the supporter, and it is located at one end of the corresponding first straight line guide rail, the load-bearing part is set respectively It sets on the first straight line guide rail, the prefabricated rods both ends are erected on the load-bearing part.

3. prefabricated rods detection device as claimed in claim 2, it is characterised in that: first transmission system further includes a ball Screw rod, each first straight line guide rail includes the first sliding rail and the first sliding block, wherein installing on a first straight line guide rail One ball screw, described ball screw one end are connected with the first motor, and each first sliding block is slidably arranged in institute It states on the first sliding rail, wherein first slide block set is set on the ball screw, and passes through screw thread with the ball screw It is slidably matched.

4. prefabricated rods detection device as claimed in claim 2, it is characterised in that: first transmission system further includes two rollings Ballscrew, each first straight line guide rail include the first sliding rail and the first sliding block, one rolling of installation on each first straight line guide rail Ballscrew, described ball screw one end are connected with wherein one first motor, and each first sliding block is slidably arranged in It on first sliding rail, and is sheathed on the corresponding ball screw, each first sliding block passes through with the ball screw Screw thread is slidably matched.

5. prefabricated rods detection device as described in claim 3 or 4, it is characterised in that: described to send stick platform further include locating piece And poidometer, the locating piece are disposed therein on a load-bearing part, the load-bearing part is separately positioned on each described first On sliding block, the lower section of a load-bearing part is arranged in the poidometer, for detecting the prefabricated rods weight.

6. prefabricated rods detection device as described in claim 1, it is characterised in that: the supporter generally frame structure, Including at least two bracket and several crossbeams being connected between two brackets.

7. prefabricated rods detection device as claimed in claim 6, it is characterised in that: the measurement diameter system includes caliper, second Transmission system and the position sensor being arranged on the caliper, the caliper generally concave shape shape are arranged in institute Bracket one end is stated, the caliper is connected with second transmission system, then drives the caliper mobile.

8. prefabricated rods detection device as claimed in claim 7, it is characterised in that: second transmission system include synchronous belt, Two synchronizing wheels and the second motor of the driving synchronous belt movement, wherein a synchronizing wheel and the second motor are separately positioned on On the corresponding crossbeam, another synchronizing wheel is connect with second motor, and the synchronous belt both ends are respectively sleeved at institute It states in synchronizing wheel, described caliper one end is connected with the synchronous belt, the second motor driven synchronizing wheel rotation, described in drive The transmission of synchronous belt, to drive the movement for the caliper being connected on the synchronous belt.

9. prefabricated rods detection device as claimed in claim 8, it is characterised in that: second transmission system further includes at least one The root second straight line guide rail parallel with the synchronous belt, the second straight line guide rail includes the second sliding rail and the second sliding block, described Second sliding rail both ends are separately positioned on the corresponding crossbeam, and are parallel to the synchronous belt, the second sliding block sliding It is arranged in second sliding rail, described caliper one end is connected to second sliding block.

10. prefabricated rods detection device as described in claim 1, it is characterised in that: the prefabricated rods detection device further includes electricity Cabinet and Computer cabinet are controlled, electronic control unit is equipped with inside the power control cabinet, is equipped with computer system, the automatically controlled list in the Computer cabinet It is first to be connected with the computer system, for control it is described send the movement of stick platform and the measurement diameter system, and pass through computer The data measured are directly displayed out by system.