CN113188416B - Character depth size detection device on glass mold - Google Patents

Character depth size detection device on glass mold Download PDF

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Publication number
CN113188416B
CN113188416B CN202110555295.9A CN202110555295A CN113188416B CN 113188416 B CN113188416 B CN 113188416B CN 202110555295 A CN202110555295 A CN 202110555295A CN 113188416 B CN113188416 B CN 113188416B
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China
Prior art keywords
seat
displacement
screw seat
screw
longitudinal screw
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CN113188416A (en
Inventor
马军英
邓建军
郑成军
何忠
沈军
郁伟峰
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Changshu Jianhua Mould Technology Co ltd
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Changshu Jianhua Mould Technology Co ltd
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Publication of CN113188416A publication Critical patent/CN113188416A/en
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01BMEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
    • G01B5/00Measuring arrangements characterised by the use of mechanical techniques
    • G01B5/18Measuring arrangements characterised by the use of mechanical techniques for measuring depth
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P40/00Technologies relating to the processing of minerals
    • Y02P40/50Glass production, e.g. reusing waste heat during processing or shaping
    • Y02P40/57Improving the yield, e-g- reduction of reject rates

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • A Measuring Device Byusing Mechanical Method (AREA)

Abstract

A character depth dimension detection device on a glass mold comprises a detection platform seat; the detection platform is fixed with one upward side of the detection platform seat; the longitudinal screw seat adjusting frame left-right displacement operating mechanism is arranged on the detection platform seat, the lower end of the longitudinal screw seat adjusting frame is in sliding fit with the detection platform and is connected with the longitudinal screw seat adjusting frame left-right displacement operating mechanism, and the upper end of the longitudinal screw seat adjusting frame extends upwards towards the direction far away from the detection platform; the dial indicator vertical displacement adjusting mechanism is arranged on the right side of the upper end of the longitudinal screw rod seat adjusting frame; the front and rear displacement adjusting mechanism of the mould bearing platform is arranged on the detection platform; the mould bearing platform rotation operating mechanism is arranged on the front and rear displacement adjusting mechanism of the mould bearing platform; and the mould bearing platform is arranged on the mould bearing platform rotating operation mechanism and corresponds to the right side of the dial indicator vertical displacement adjusting mechanism. The detection efficiency of the depth dimension of the characters on the glass mold is improved, and ideal detection precision is guaranteed.

Description

Character depth size detection device on glass mold
Technical Field
The invention belongs to the technical field of detection equipment for processing a glass mold, and particularly relates to a character depth dimension detection device on the glass mold.
Background
As is known in the art, the number of glass bottles in the category of glass containers, which is an order for one time, which is an order for producing molded glass bottles, is usually as large as ten thousands or hundreds of thousands, or even more, and in order to improve production efficiency and shorten production time, i.e., to shorten delivery time to users, glass container manufacturers generally need to use multiple sets of molds to produce glass containers of the same specification, such as the glass bottles mentioned above, and after multiple sets of glass molds are blow molded, the glass molds need to advance and retreat from a furnace, and gradually anneal and cool from high temperature to low temperature to increase stress between glass molecules. The letters or arabic numerals or roman numerals, etc. are engraved on the glass molds and usually on the bottom molds to identify which set of glass molds the corresponding glass containers are produced from, and once a quality problem occurs, manufacturers of the glass molds can conveniently and quickly trace back to the manufacturers of the glass molds (because some bottom molds also have marks for distinguishing manufacturer of the glass molds, names, etc.).
In view of the above, glass mold manufacturers generally engrave characters, letters or symbols on the bottom mold of the bottle (a pair of glass molds generally consists of a bottle body mold, a bottle mouth mold and a bottom mold of the bottle), for example, 1, 2 and 3 are engraved 8230; a, B and C8230; i, ii and iii 8230; a < delta > and a > 8230; etc. Still as is known in the art, the structure of the glass mold seems simple from the surface, but both the material, the links in the preparation process, the detection and the like are very strict, so the glass mold is actually the glass product production equipment with very high technological content. The requirements for the above-mentioned lettering on the counter form are also very strict, i.e. it is necessary to comply with design requirements, for example, too shallow may obscure the glass container and make it difficult to recognize, too deep may unnecessarily increase the laser lettering workload, and may adversely affect the strength of the glass product.
The prior art mainly has two methods for detecting the depth of characters engraved on a glass mold such as a bottom mold (the same applies below): firstly hold in the palm by a measurement personnel hand and hold between the fingers the die block or will arrange the die block on examining the test table in and press, the test of character position is aimed at like the percentage table to the test with examining the table for one hand, according to the pointer indicating value on the percentage table to know the degree of depth, the shortcoming of this kind of mode lies in: the detection operation intensity is high, the detection efficiency is low, and the accuracy of the detection precision is influenced because the hand of a detector does not shake (shake) in the detection process; secondly, the dial indicator is simply clamped and fixed on the machine by utilizing machine detection, a detector moves the bottom die to the position, corresponding to the lower part of the dial indicator, on the workbench of the detection machine in a manual mode, and then the dial indicator is moved downwards through operation to detect the depth of the character. In view of the foregoing, it is of positive significance to design a device suitable for detecting the lettering depth of a counter mold, and the technical solutions to be described below are made in this context.
Disclosure of Invention
The invention aims to provide a character depth dimension detection device on a glass mold, which is beneficial to improving detection efficiency, guaranteeing detection precision and reducing detection operation intensity of a detector.
The task of the invention is accomplished in this way, a character depth dimension detection device on a glass mold comprises a detection platform seat; the detection platform is fixed with one upward side of the detection platform seat; the longitudinal screw seat adjusting frame left-right displacement operating mechanism is arranged on the detection platform seat at a position below the detection platform, the lower end of the longitudinal screw seat adjusting frame is in sliding fit with the detection platform and is simultaneously connected with the longitudinal screw seat adjusting frame left-right displacement operating mechanism, and the upper end of the longitudinal screw seat adjusting frame extends upwards towards the direction far away from the detection platform; the dial indicator vertical displacement adjusting mechanism is arranged on the right side of the upper end of the longitudinal screw rod seat adjusting frame in a vertically adjustable manner; the die bearing platform front-rear displacement adjusting mechanism is arranged on the detection platform at a position corresponding to the right side of the dial indicator up-down displacement adjusting mechanism; the mould bearing platform rotating operation mechanism is arranged on the mould bearing platform front and back displacement adjusting mechanism; and the mould bearing platform is arranged on the mould bearing platform rotating operation mechanism and corresponds to the right side of the dial indicator up-down displacement adjusting mechanism.
In a specific embodiment of the present invention, the detection platform seat comprises a detection platform seat bottom plate, a left surrounding plate, a front surrounding plate and a back surrounding plate, wherein a longitudinal screw slider guide rail plate matching groove is formed in the upward side of the front end of the detection platform seat bottom plate from left to right, the left surrounding plate is fixed to the left edge of the upward side of the detection platform seat bottom plate, the front surrounding plate is fixed to the front edge of the upward side of the detection platform seat bottom plate and the left end of the front surrounding plate is connected to the front end of the left surrounding plate, the back surrounding plate is fixed to the back edge of the upward side of the detection platform seat bottom plate and the left end of the back surrounding plate is connected to the back end of the left surrounding plate; the detection platform is fixed with the upper surfaces of the left enclosing plate, the front enclosing plate and the rear enclosing plate, a space between the detection platform and the bottom plate of the detection platform seat is formed into a left-right displacement operating mechanism cavity, the right side of the left-right displacement operating mechanism cavity is formed into an opening, a longitudinal screw seat adjusting frame sliding cavity communicated with the left-right displacement operating mechanism cavity is formed in the position, corresponding to the lower end of the longitudinal screw seat adjusting frame, on the detection platform, a pair of slide rail mounting grooves is formed in one upward side of the detection platform and in the positions, corresponding to the longitudinal screw seat adjusting frame and the left side of the dial indicator vertical displacement adjusting mechanism, and the pair of slide rail mounting grooves extend from the front end to the rear end of the detection platform; the longitudinal screw seat adjusting frame left-right displacement operating mechanism is fixed with one upward side of the bottom plate of the detection platform seat at a position corresponding to the longitudinal screw slider guide rail plate matching groove, and the lower end of the longitudinal screw seat adjusting frame is in sliding fit with the detection platform at a position corresponding to the sliding cavity of the longitudinal screw seat adjusting frame and is connected with the longitudinal screw seat adjusting frame left-right displacement operating mechanism; the mould bearing platform rotation operating mechanism and the mould bearing platform carried by the mould bearing platform front and back displacement adjusting mechanism are arranged on the detection platform at positions corresponding to the pair of slide rail mounting grooves.
In another specific embodiment of the present invention, the longitudinal screw seat adjusting frame left and right displacement operating mechanism comprises a longitudinal screw seat slider guide rail plate, a longitudinal screw seat slider guide rail, a longitudinal screw seat nut slider moving screw, a longitudinal screw seat nut slider and a longitudinal screw seat nut slider moving screw operating handwheel, wherein the longitudinal screw seat slider guide rail plate is fixed with the upward side of the detection platform seat bottom plate at the position corresponding to the longitudinal screw slider guide rail plate matching groove, the longitudinal screw seat slider guide rail is fixed at the upward side of the longitudinal screw seat slider guide rail plate and extends from the left end to the right end of the longitudinal screw seat slider guide rail plate, the left end and the right end of the longitudinal screw seat nut slider moving screw are respectively and rotatably supported on the longitudinal screw seat nut slider moving screw seat and correspond to the upper side of the longitudinal screw seat slider guide rail, the two longitudinal screw seat nut slider moving screw seats are fixed on the longitudinal screw seat slider guide rail plate at the positions corresponding to the left end and the right end of the longitudinal screw seat slider moving screw slider guide rail, the longitudinal screw seat nut slider moving screw is in threaded fit with the longitudinal screw seat slider moving screw seat slider and is fixed at the right end of the longitudinal screw seat slider moving screw sliding operating handwheel moving mechanism at the position corresponding to the left and right end of the longitudinal screw seat slider moving screw moving mechanism; the lower end of the longitudinal screw seat adjusting frame is connected with the upper end of the longitudinal screw seat nut slide block at a position corresponding to the sliding cavity of the longitudinal screw seat adjusting frame, and the right side of the upper end of the longitudinal screw seat adjusting frame is provided with a cavity matched with a guide rail plate of an up-and-down displacement adjusting screw seat; the dial indicator vertical displacement adjusting mechanism is fixed with the upper end of the longitudinal screw seat adjusting frame at a position corresponding to the matching concave cavity of the vertical displacement adjusting screw seat guide rail plate; the mould bearing platform front-rear displacement adjusting mechanism carries the mould bearing platform rotation operating mechanism and the mould bearing platform front-rear displacement is arranged on the detection platform at the position corresponding to the pair of slide rail mounting grooves.
In another embodiment of the present invention, an adjusting frame clamping balance block is fixed at the lower part of the left side of the adjusting frame of the longitudinal screw seat, the middle part of the adjusting frame clamping balance block corresponds to the sliding cavity of the adjusting frame of the longitudinal screw seat, and the bottom surfaces of the front end and the rear end of the adjusting frame clamping balance block and the upward side surface of the detection platform form a sliding pair.
In still another specific embodiment of the present invention, the dial indicator vertical displacement adjustment mechanism comprises a vertical displacement adjustment screw seat guide rail plate, a vertical displacement adjustment screw seat slide rail, a vertical displacement adjustment screw seat nut block moving screw, a vertical displacement adjustment screw seat nut block, a vertical displacement screw seat nut block moving screw operating hand wheel, a dial indicator mounting bracket, a mounting bracket connecting block seat and a dial indicator, wherein the vertical displacement adjustment screw seat guide rail plate corresponds to the right side of the longitudinal screw seat adjustment frame and the lower end of the vertical displacement adjustment screw seat guide rail plate is fixed with the longitudinal screw seat adjustment frame through a vertical displacement adjustment screw seat guide rail plate fixing screw at a position corresponding to the vertical displacement adjustment screw seat guide rail plate matching cavity, and the upper end of the vertical displacement adjustment screw seat guide rail plate extends out of the upper part of the longitudinal screw seat adjustment frame, an up-down displacement adjusting screw base slide block guide rail is fixed on the right side of the up-down displacement adjusting screw base guide rail plate in a longitudinal state, the lower end of a up-down displacement adjusting screw base nut block moving screw is rotatably supported on a screw lower support base, while the upper end is rotatably supported on a screw upper support base, the screw lower support base is directly formed on the up-down displacement adjusting screw base guide rail plate at a position corresponding to the lower end of the up-down displacement adjusting screw base slide block guide rail, the screw upper support base is fixed on the up-down displacement adjusting screw base guide rail plate at a position corresponding to the upper end of the up-down displacement adjusting screw base slide block guide rail, the up-down displacement adjusting screw base nut block is in threaded fit with the up-down displacement adjusting screw base nut block moving screw, and the left side of the up-down displacement adjusting screw base nut block is in sliding fit with the up-down displacement adjusting screw base slide block guide rail, an up-down displacement screw seat nut block moving screw operating hand wheel is fixed with a screw head at the upper part of an up-down displacement adjusting screw seat nut block moving screw, a mounting bracket connecting block seat is fixed at the right side of the up-down displacement adjusting screw seat nut block, a shaft head seat is formed at the right side of the mounting bracket connecting block seat, the mounting bracket connecting block is fixed with the mounting bracket connecting block seat, a connecting block shaft head extends from the bottom of the mounting bracket connecting block, one end of a dial indicator mounting bracket facing the shaft head seat is provided with a pair of shaft head seat matching lugs, the shaft head seat corresponds to the space between the pair of shaft head seat matching lugs, the connecting block shaft head is inserted into a matching lug hole on the shaft head seat matching lug and a shaft head seat hole on the shaft head seat, one end of the dial indicator mounting bracket far away from the shaft head seat is formed into a cantilever end and is provided with a dial indicator supporting hole, and a dial indicator is arranged on the dial indicator mounting bracket at a position corresponding to the dial indicator supporting hole and locked by a dial indicator locking screw arranged on the dial indicator mounting bracket; and the mold bearing platform front-rear displacement adjusting mechanism on the detection platform, the mold bearing platform rotation operating mechanism and the right side of the mold bearing platform corresponding to the up-down displacement adjusting screw rod seat nut block moving screw rod are arranged in a front-rear displacement mode at positions corresponding to the pair of slide rail mounting grooves.
In yet another specific embodiment of the present invention, the front and rear displacement adjusting mechanism of the mold carrying platform comprises a pair of front and rear displacement slide block guide rails, a pair of front and rear displacement slide blocks, a front and rear displacement nut block seat, a front and rear displacement nut block moving screw, a front and rear displacement nut block and a front and rear displacement nut block moving screw operating hand wheel, the pair of front and rear displacement slide block guide rails are fixed on the detection platform at positions corresponding to the pair of slide rail mounting grooves, the pair of front and rear displacement slide blocks are respectively in sliding fit with the pair of front and rear displacement slide block guide rails, the front and rear displacement nut block seat is fixed with one upward side of the pair of front and rear displacement slide blocks, a nut block cavity is formed in the middle of the front and rear displacement nut block seat and at a position corresponding to the front and rear displacement nut block, a front and rear displacement nut block is arranged and fixed in the nut block cavity, the front and rear displacement nut block is in threaded fit with a front and rear displacement nut block moving screw, the front end of the front and rear displacement nut block moving screw is rotatably supported on a screw front support, the rear end of the front and rear displacement nut block moving screw is supported on a screw rear support, the middle part of the front and rear displacement nut block moving screw corresponds to the right side of the up-down displacement adjusting screw seat nut block moving screw, the screw front support is fixed on the detection platform at a position between the front ends corresponding to a pair of front and rear displacement slide block guide slide rails, the screw rear support is fixed on the detection platform at a position between the rear ends corresponding to a pair of front and rear displacement slide block guide slide rails and corresponds to the screw front support, and the front and rear displacement nut block moving screw operates a hand wheel to fix the rear ends of the front and rear displacement nut block moving screw; the mold bearing platform rotation operating mechanism and the mold bearing platform are arranged on the front and rear displacement nut block seats at the positions corresponding to the right side of the nut block moving screw of the up-down displacement adjusting screw seat.
In a more specific embodiment of the present invention, the mold carrying platform rotation operating mechanism includes a worm and gear box seat, a worm and gear box, and a worm and gear box operating hand wheel, the worm and gear box seat is fixed on the upper portion of the front and rear displacement nut block seats, the worm and gear box is arranged on the right end of the worm and gear box seat, the worm and gear box operating hand wheel is fixed on the rear end of the worm shaft of the worm and gear box, and the worm shaft is in transmission fit with the worm wheel of the worm and gear box, the worm wheel shaft of the worm wheel extends out of the worm and gear box and corresponds to the upper left end of the worm and gear box seat; the mould bearing platform is arranged at the left end of the worm gear box seat and is connected with the worm gear shaft.
In a further embodiment of the present invention, the mold supporting platform comprises a mold supporting rotary platform base and a mold supporting transmission platform, the mold supporting rotary platform base is fixed on the worm gear box base, a pair of worm gear shaft matching bases is formed on the upper portion of the mold supporting rotary platform base, the worm gear shafts are rotatably arranged on the pair of worm gear shaft matching bases, a platform base fixing sleeve is formed on one side of the mold supporting transmission platform facing the mold supporting rotary platform base, the platform base fixing sleeve is sleeved on the worm gear shaft at a position corresponding to the space between the pair of worm gear shaft matching bases and is locked by platform base fixing sleeve locking screws, and a mold positioning hole is formed in the center position of one side of the mold supporting transmission platform facing away from the mold supporting rotary platform base.
In yet a more specific embodiment of the present invention, a screw seat mounting groove is formed on the inspection platform at a position corresponding to between the pair of rail mounting grooves, and the screw front seat and the screw rear seat are fixed to the inspection platform at positions corresponding to a front end and a rear end of the screw seat mounting groove, respectively.
The technical scheme provided by the invention has the technical effects that: because the longitudinal screw seat adjusting frame left and right displacement operating mechanism drives the dial indicator up and down displacement adjusting mechanism to move left and right, and because the dial indicator up and down displacement adjusting mechanism enables the dial indicator to move up and down, and because the mold bearing platform front and back displacement adjusting mechanism drives the mold bearing platform rotation operating mechanism and the mold bearing platform front and back to move, thereby enabling the glass mold arranged on the mold bearing platform to correspondingly move front and back, and further because the mold bearing platform rotation operating mechanism enables the mold bearing platform to rotate with the bottom mold temporarily arranged on the mold bearing platform by a required angle, the detection efficiency of the character depth dimension on the glass mold is improved, the ideal detection precision is ensured, and the detection advancing strength of a detector is favorably reduced.
Drawings
FIG. 1 is a block diagram of an embodiment of the present invention.
FIG. 2 is a schematic view of the present invention in a state of detecting the depth of characters on a glass mold.
Detailed Description
In order to clearly understand the technical spirit and the advantages of the present invention, the applicant below describes in detail by way of example, but the description of the example is not intended to limit the technical scope of the present invention, and any equivalent changes made according to the present inventive concept, which are merely in form and not in material, should be considered as the technical scope of the present invention.
In the following description, all the concepts related to the directions or orientations of up, down, left, right, front and rear are based on the position state of fig. 1, and thus, it should not be understood as a particular limitation to the technical solution provided by the present invention.
Referring to fig. 1, a detection platform base 1 is shown, wherein the detection platform base 1 is arranged on a detection workbench in a use state; an inspection platform 2 is shown, the inspection platform 2 is fixed with one side of the inspection platform base 1 facing upwards; a longitudinal screw seat adjusting frame left and right displacement operating mechanism 3 and a longitudinal screw seat adjusting frame 4 are shown, the longitudinal screw seat adjusting frame left and right displacement operating mechanism 3 is arranged on the detection platform seat 1 at a position below the detection platform 2 and is positioned at the front end of the detection platform seat 1, the lower end of the longitudinal screw seat adjusting frame 4 is in sliding fit with the detection platform 2 and is simultaneously connected with the longitudinal screw seat adjusting frame left and right displacement operating mechanism 3, and the upper end extends upwards towards the direction far away from the detection platform 2; a dial indicator vertical displacement adjusting mechanism 5 is shown, and the dial indicator vertical displacement adjusting mechanism 5 is arranged on the right side of the upper end of the longitudinal screw seat adjusting frame 4 in a vertical adjusting mode; a mold bearing platform front-back displacement adjusting mechanism 6 is shown, and the mold bearing platform front-back displacement adjusting mechanism 6 is arranged on the detection platform 2 at a position corresponding to the right side of the dial indicator up-down displacement adjusting mechanism 5; a mould carrying platform rotation operating mechanism 7 is shown, the mould carrying platform rotation operating mechanism 7 is arranged on the mould carrying platform front and back displacement adjusting mechanism 6; a mould carrying platform 8 is shown, which mould carrying platform 8 is arranged on the mould carrying platform rotating operation mechanism 7 and corresponds to the right side of the dial indicator up-down displacement adjusting mechanism 5.
The detection platform seat 1 comprises a detection platform seat bottom plate 11, a left enclosing plate 12, a front enclosing plate 13 and a rear enclosing plate 14, wherein a longitudinal screw slider guide rail plate matching groove 111 is formed in the upward side of the front end of the detection platform seat bottom plate 11 from left to right, the left enclosing plate 12 is fixed with the left edge part of the upward side of the detection platform seat bottom plate 11, the front enclosing plate 13 is fixed with the front edge part of the upward side of the detection platform seat bottom plate 11, the left end of the front enclosing plate 13 is connected with the front end of the left enclosing plate 12, the rear enclosing plate 14 is fixed with the rear edge part of the upward side of the detection platform seat bottom plate 11, and the left end of the rear enclosing plate 14 is connected with the rear end of the left enclosing plate 12; the detection platform 2 is fixed with the upper surfaces of the left coaming 12, the front coaming 13 and the back coaming 14 through a detection platform fixing screw 24, the space between the detection platform 2 and the detection platform seat bottom plate 11 is formed into a left-right displacement operation mechanism cavity 15, the right side of the left-right displacement operation mechanism cavity 15 is formed into an unsealed opening without coaming, namely, an opening without coaming, a longitudinal screw seat adjusting frame sliding cavity 21 communicated with the left-right displacement operation mechanism cavity 15 is formed in the position, corresponding to the lower end of the longitudinal screw seat adjusting frame 4, on the detection platform 2, a pair of slide rail mounting grooves 22 are formed in the positions, corresponding to the longitudinal screw seat adjusting frame 4 and the left side of the dial indicator vertical displacement adjusting mechanism 5, on the upward side of the detection platform 2, and the pair of slide rail mounting grooves 22 extend from the front end to the rear end of the detection platform 2; the longitudinal screw seat adjusting frame left-right displacement operating mechanism 3 is fixed with one upward side of the detection platform seat bottom plate 11 at a position corresponding to the longitudinal screw slider guide rail plate matching groove 111, and the lower end of the longitudinal screw seat adjusting frame 4 is in sliding fit with the detection platform 2 at a position corresponding to the longitudinal screw seat adjusting frame sliding cavity 21 and is connected with the longitudinal screw seat adjusting frame left-right displacement operating mechanism 3; the mold platen rotation operating mechanism 7 and the mold platen 8 carried by the mold platen fore-and-aft displacement adjusting mechanism 6 are disposed on the inspection platform 2 at positions corresponding to the pair of slide rail mounting grooves 22.
Continuing to refer to fig. 1, the aforesaid left and right displacement operating mechanism 3 of the longitudinal screw seat adjusting bracket comprises a longitudinal screw seat slider guide rail plate 31, a longitudinal screw seat slider guide rail 32, a longitudinal screw seat nut slider moving screw 33, a longitudinal screw seat nut slider 34 and a longitudinal screw seat nut slider moving screw operating handwheel 35, the longitudinal screw seat slider guide rail plate 31 is fixed with the upward side of the aforesaid detection platform seat bottom plate 11 by a longitudinal screw seat slider guide rail plate screw 311 at a position corresponding to the aforesaid longitudinal screw seat slider guide rail plate fitting groove 111, the longitudinal screw seat slider guide rail 32 is fixed with the upward side of the longitudinal screw seat slider guide rail plate 31 by a screw and extends from the left end to the right end of the longitudinal screw seat slider guide rail plate 31, the left end and the right end of a longitudinal screw seat nut slide block moving screw 33 are respectively and rotatably supported on a longitudinal screw seat nut slide block moving screw seat 331 and correspond to the upper part of the longitudinal screw seat slide block guide rail 32, two longitudinal screw seat nut slide block moving screw seats 331 are fixed on a longitudinal screw seat slide block guide rail plate 31 at positions corresponding to the left end and the right end of the longitudinal screw seat slide block guide rail 32 respectively, a longitudinal screw seat nut slide block 34 is in threaded fit with the longitudinal screw seat nut slide block moving screw 33 and the bottom of the longitudinal screw seat nut slide block 34 is in sliding fit with the longitudinal screw seat slide block guide rail 32, and a longitudinal screw seat nut slide block moving screw operating hand wheel 35 is fixed at the right end of the longitudinal screw seat nut slide block moving screw 33 and at a right side opening part corresponding to the left and right displacement operating mechanism cavity 15; the lower end of the longitudinal screw seat adjusting frame 4 is fixedly connected with the upper end of the longitudinal screw seat nut slide block 34 at a position corresponding to the sliding cavity 21 of the longitudinal screw seat adjusting frame through a fixing screw, and the right side of the upper end of the longitudinal screw seat adjusting frame 4 is provided with a matching cavity 41 for adjusting a screw seat guide rail plate up and down; the dial indicator vertical displacement adjusting mechanism 5 is fixed with the upper end of the longitudinal screw seat adjusting frame 4 at a position corresponding to the matching concave cavity 41 of the vertical displacement adjusting screw seat guide rail plate; the mold platen forward/backward displacement adjusting mechanism 6 is provided on the inspection platen 2 so as to be displaced forward/backward at a position corresponding to the pair of slide rail mounting grooves 22, with the mold platen rotation operating mechanism 7 and the mold platen 8 being mounted thereon.
When the inspector manually moves the longitudinal screw seat nut slider moving screw operating hand wheel 35 clockwise, the inspector drives the longitudinal screw seat nut slider moving screw 33 to rotate clockwise, so that the longitudinal screw seat nut slider 34 moves rightwards along the longitudinal screw seat slider guide rail 32, the longitudinal screw seat adjusting frame 4 is driven to move rightwards synchronously, and the longitudinal screw seat adjusting frame 4 drives the dial indicator up-down displacement adjusting mechanism 5 to move forwards correspondingly.
In order to avoid the side inclination of the longitudinal screw seat adjusting frame 4, the invention is fixed with an adjusting frame clamping balance block 42 at the lower part of the left side of the longitudinal screw seat adjusting frame 4, the middle part of the adjusting frame clamping balance block 42 corresponds to the sliding cavity 21 of the longitudinal screw seat adjusting frame, the bottom surfaces of the front end and the rear end of the adjusting frame clamping balance block 42 and the upward side surface of the detection platform 2 form a sliding pair, and when the longitudinal screw seat adjusting frame 4 moves rightwards or leftwards, the adjusting frame clamping balance block 42 also moves rightwards or leftwards correspondingly.
The dial indicator vertical displacement adjusting mechanism 5 comprises a vertical displacement adjusting screw seat guide rail plate 51, a vertical displacement adjusting screw seat slide block guide rail 52, a vertical displacement adjusting screw seat nut block moving screw 53, a vertical displacement adjusting screw seat nut block 54, a vertical displacement screw seat nut block moving screw operating hand wheel 55, a dial indicator mounting bracket 56, a mounting bracket connecting block 57, a mounting bracket connecting block seat 58 and a dial indicator 59, wherein the vertical displacement adjusting screw seat guide rail plate 51 corresponds to the right side of the longitudinal screw seat adjusting frame 4, the lower end of the vertical displacement adjusting screw seat guide rail plate 51 is fixed with the longitudinal screw seat adjusting frame 4 through a vertical displacement adjusting screw seat guide rail plate fixing screw 511 at a position corresponding to the vertical displacement adjusting screw seat guide rail plate matching cavity 41 (fixed at the adjusted position), and the upper end of the vertical displacement adjusting screw seat guide rail plate 51 extends out of the upper part of the longitudinal screw seat adjusting frame 4, the upper and lower displacement adjusting screw base slide block guide rail 52 is fixed in a longitudinal state on the right side of the upper and lower displacement adjusting screw base guide rail plate 51, the lower end of the upper and lower displacement adjusting screw base nut block moving screw 53 is rotatably supported on the screw lower support base 531, and the upper end is rotatably supported on the screw upper support base 532, the screw lower support base 531 is directly formed on the upper and lower displacement adjusting screw base guide rail plate 51 at a position corresponding to the lower end of the upper and lower displacement adjusting screw base slide block guide rail 52, the screw upper support base 532 is fixed on the upper and lower displacement adjusting screw base guide rail plate 51 at a position corresponding to the upper end of the upper and lower displacement adjusting screw base slide block guide rail 52, the upper and lower displacement adjusting screw base nut block 54 is screw-fitted to the upper and lower displacement adjusting screw base nut block moving screw 53 and the left side of the upper and lower displacement adjusting screw base nut block 54 is screw-fitted to the upper and lower displacement adjusting screw base guide rail plate 51 The slide block guide rail 52 is in sliding fit, the up-down displacement screw seat nut block moving screw operating hand wheel 55 is fixed with a screw head 533 at the upper part of an up-down displacement adjustment screw seat nut block moving screw 53, the mounting bracket connecting block seat 58 is fixed at the right side of the up-down displacement adjustment screw seat nut block 54, a shaft head seat 581 is formed at the right side of the mounting bracket connecting block seat 58, the mounting bracket connecting block 57 is fixed with the mounting bracket connecting block seat 58, a connecting block shaft head 571 extends from the bottom of the mounting bracket connecting block 57, one end of the dial indicator mounting bracket 56 facing the shaft head seat 581 is formed with a pair of shaft head seat matching lugs 561, the shaft head seat 581 corresponds to a pair of shaft head seat matching lugs 561, the connecting block shaft head 571 is inserted into a matching lug hole 5611 on the shaft head seat 561 and a shaft head seat hole 5811 on the shaft head seat 581, one end of the dial indicator mounting bracket 56 far away from the shaft head seat 581 is formed as a cantilever end and is provided with a dial indicator supporting hole 562, and the dial indicator 59 is arranged on the dial indicator mounting bracket 56 at a position corresponding to the dial indicator hole 562 and is locked by a dial indicator locking dial indicator 56563; the mold platen forward/backward displacement adjusting mechanism 6 on the inspection platform 2 is provided at a position corresponding to the pair of slide rail mounting grooves 22 so as to be displaced forward/backward, together with the mold platen rotation operating mechanism 7 and the mold platen 8, corresponding to the right side of the vertical displacement adjusting screw block nut block moving screw 53.
Preferably, a first mounting bracket connecting block screw i 572 and a second mounting bracket connecting block screw ii 573 are provided on the mounting bracket connecting block 57, the first mounting bracket connecting block screw i 572 is fixed to the head base 58, and the second mounting bracket connecting block screw ii 573 is fixed to the dial indicator mounting bracket 56.
When the inspector operates the up-down displacement screw seat nut block moving screw operating hand wheel 55 clockwise, the up-down displacement adjusting screw seat nut block moving screw 53 is driven by the up-down displacement screw seat nut block moving hand wheel to correspondingly rotate clockwise, so that the up-down displacement adjusting screw seat nut block 54 moves downwards, and the up-down displacement adjusting screw seat nut block 54 drives the mounting bracket connecting block seat 58, the mounting bracket connecting block 57, the dial indicator mounting bracket 56 and the dial indicator 59 to correspondingly move downwards, otherwise, the description is not repeated.
Continuing to refer to fig. 1, the aforementioned front-rear displacement adjusting mechanism 6 of the mold supporting platform comprises a pair of front-rear displacement slide block guide rails 61, a pair of front-rear displacement slide blocks 62, a front-rear displacement nut block seat 63, a front-rear displacement nut block moving screw 64, a front-rear displacement nut block 65 and a front-rear displacement nut block moving screw operating hand wheel 66, the pair of front-rear displacement slide block guide rails 61 are fixed on the detection platform 2 by screws at positions respectively corresponding to the pair of slide rail mounting grooves 22, the pair of front-rear displacement slide blocks 62 are respectively in sliding fit with the pair of front-rear displacement slide block guide rails 61, the front-rear displacement nut block seat 63 is fixed on the upward side of the pair of front-rear displacement slide blocks 62, a nut block cavity 631 is formed at the middle portion of the front-rear displacement nut block seat 63 and at a position corresponding to the front-rear displacement nut block 65, a front and rear displacement nut block 65 is disposed and fixed in the nut block chamber 631, the front and rear displacement nut block 65 is screw-engaged with the front and rear displacement nut block moving screw 64, and the front end of the front and rear displacement nut block moving screw 64 is rotatably supported on the screw front support 641, and the rear end is supported on the screw rear support 642, and the middle portion corresponds to the right side of the aforementioned up-down displacement adjusting screw block nut block moving screw 53, the screw front support 641 is fixed on the aforementioned detection platform 2 at a position corresponding to between the front ends of the pair of front and rear displacement block guide rails 61, and the screw rear support 642 is fixed on the detection platform 2 at a position corresponding to between the rear ends of the pair of front and rear displacement block guide rails 61 and corresponds to the screw front support 641, and the front and rear displacement nut block moving screw operating handwheel 66 is fixed at the rear ends of the front and rear displacement nut block moving screws 64; the aforementioned mold carrying table rotation operating mechanism 7 is provided on the aforementioned front-rear displacement nut block seat 63 together with the mold carrying table 8 at a position corresponding to the right side of the aforementioned up-down displacement adjusting screw seat nut block moving screw 53.
When the inspector operates the front and rear displacement nut block moving screw operating hand wheel 66 clockwise, the front and rear displacement nut block moving screw 64 is driven by the hand wheel to rotate clockwise correspondingly, so that the front and rear displacement nut blocks 65, the front and rear displacement nut block seats 63 and the pair of front and rear displacement sliders 62 move backwards along the pair of front and rear displacement slider guide slide rails 61 in a state of carrying the mold carrying platform rotating operating mechanism 7 and the mold carrying platform 8, otherwise, the description is not repeated.
Continuing to refer to fig. 1, the mold carrying platform rotation operating mechanism 7 includes a worm and gear box seat 71, a worm and gear box 72 and a worm and gear box operating handwheel 73, the worm and gear box seat 71 is fixed on the upper portion of the front and rear displacement nut block seat 63 by worm and gear box seat fixing screws 711, the worm and gear box 72 is disposed at the right end of the worm and gear box seat 71, the worm and gear box operating handwheel 73 is fixed on the rear end of the worm shaft 721 of the worm and gear box 72, and the worm shaft 721 is in driving fit with the worm gear of the worm and gear box 72, and the worm shaft 722 of the worm gear extends out of the worm and gear box 72 and corresponds to the upper left end of the worm and gear box seat 71; the mold supporting platform 8 is disposed at the left end of the worm gear housing 71 and connected to the worm gear shaft 722.
The mold carrying stage 8 includes a mold supporting rotary stage base 81 and a mold supporting transmission stage 82, the mold supporting rotary stage base 81 is fixed to the worm-gear box base 71 by mold supporting rotary stage base fixing screws 812, a pair of worm-gear shaft fitting bases 811 is formed at an upper portion of the mold supporting rotary stage base 81, the worm-gear shaft 722 is rotatably provided on the pair of worm-gear shaft fitting bases 811, a stage fixing sleeve 821 is formed at a side of the mold supporting transmission stage 82 facing the mold supporting rotary stage base 81, the stage fixing sleeve 821 is fitted on the worm-gear shaft 722 at a position corresponding to between the pair of worm-gear shaft fitting bases 811, that is, the worm-gear shaft 722 passes through the stage fixing sleeve 821 and is locked by stage fixing sleeve locking screws 8211, and a mold positioning hole 822 is formed at a central position of a side of the mold supporting transmission stage 82 facing away from the mold supporting rotary stage base 81.
When the operator operates the worm gear box operating handwheel 73, the worm gear is driven by the worm shaft 721 of the worm gear box 72, and the mold supporting transmission platform 82 is driven by the worm shaft 722 of the worm gear through the platform fixing sleeve 821 to turn forward, i.e. to the direction of the dial indicator 59, by a certain angle and to assume the state shown in fig. 2, or vice versa, which is not repeated.
As shown in fig. 1, a screw holder mounting groove 23 is formed in the inspection platform 2 at a position corresponding to a position between the pair of rail mounting grooves 22, and the screw front holder 641 and the screw rear holder 642 are fixed to the inspection platform 2 by screws at positions corresponding to the front end and the rear end of the screw holder mounting groove 23, respectively.
Referring to fig. 2 in conjunction with fig. 1, when the depth of the character 91 on the bottom mold 9 of the glass mold illustrated in fig. 2 is to be detected, the bottom mold 9 is positioned on the mold support transmission table 82, specifically, the flange originally formed on the bottom mold is engaged with the aforementioned mold positioning hole 822, and the applicant operates as described above for each mechanism, so that the depth of the character 91 is measured by the dial gauge 59, and the specific value is indicated by the dial gauge pointer on the dial gauge 59. In the detection process, an operator can operate the left-right displacement operating mechanism 3 of the longitudinal screw seat adjusting frame, the vertical displacement adjusting mechanism 5 of the dial indicator, the front-back displacement adjusting mechanism 6 of the die bearing platform and the rotating operating mechanism 7 of the die bearing platform according to requirements. That is, in the foregoing detection process, the left-right position adjustment of the dial indicator 59 is realized by the operation of the longitudinal screw seat adjusting frame left-right displacement operating mechanism 3; the up-down displacement position adjustment of the dial indicator 59 is realized by operating the dial indicator up-down displacement adjusting mechanism 5; the displacement adjustment of the front and back positions of the bottom die 9 is realized by operating the front and back displacement adjusting mechanism 6 of the die bearing platform; the adjustment of the rotation angle position of the bottom die 9 is realized by operating the rotation operating mechanism 7 of the die bearing platform, so as to meet the detection requirement of the bottom die 9. Furthermore, in order to satisfy only the requirements of the problem, only the arabic numeral 1 is shown on the aforementioned bottom mold 9, this numeral 1 being inverted and hollow, so as to form a positive and solid 1 on a glass container, such as a glass bottle, as is the principle of the inscribed stamp.
In conclusion, the technical scheme provided by the invention overcomes the defects in the prior art, successfully completes the invention task and truly realizes the technical effects of the applicant in the technical effect column.

Claims (8)

1. A character depth size detection device on a glass mold is characterized by comprising a detection platform base (1); the detection platform (2), the detection platform (2) and one upward side of the detection platform base (1) are fixed; the left and right displacement operating mechanism (3) of the longitudinal screw seat adjusting frame and the longitudinal screw seat adjusting frame (4) are arranged on the detection platform seat (1) at the position below the detection platform (2), the lower end of the longitudinal screw seat adjusting frame (4) is in sliding fit with the detection platform (2) and is connected with the left and right displacement operating mechanism (3) of the longitudinal screw seat adjusting frame at the same time, and the upper end extends upwards in the direction away from the detection platform (2); a dial indicator vertical displacement adjusting mechanism (5), wherein the dial indicator vertical displacement adjusting mechanism (5) is vertically adjusted and arranged on the right side of the upper end of the longitudinal screw rod seat adjusting frame (4); the mold bearing platform front-back displacement adjusting mechanism (6) is arranged on the detection platform (2) at a position corresponding to the right side of the dial indicator upper-lower displacement adjusting mechanism (5); the mould bearing platform rotating operation mechanism (7), the mould bearing platform rotating operation mechanism (7) is arranged on the mould bearing platform front and back displacement adjusting mechanism (6); the mould bearing platform (8) is arranged on the mould bearing platform rotating operation mechanism (7) and corresponds to the right side of the dial indicator up-down displacement adjusting mechanism (5); the detection platform seat (1) comprises a detection platform seat bottom plate (11), a left enclosing plate (12), a front enclosing plate (13) and a rear enclosing plate (14), wherein a longitudinal screw slider guide rail plate matching groove (111) is formed in the upward side of the front end of the detection platform seat bottom plate (11) from left to right, the left enclosing plate (12) is fixed to the left edge part of the upward side of the detection platform seat bottom plate (11), the front enclosing plate (13) is fixed to the front edge part of the upward side of the detection platform seat bottom plate (11), the left end of the front enclosing plate (13) is connected with the front end of the left enclosing plate (12), the rear enclosing plate (14) is fixed to the rear edge part of the upward side of the detection platform seat bottom plate (11), and the left end of the rear enclosing plate (14) is connected with the rear end of the left enclosing plate (12); the detection platform (2) is fixed with the upper surfaces of the left enclosing plate (12), the front enclosing plate (13) and the rear enclosing plate (14), the space between the detection platform (2) and the detection platform seat bottom plate (11) is formed into a left-right displacement operating mechanism cavity (15), the right side of the left-right displacement operating mechanism cavity (15) is formed into an opening, a longitudinal screw seat adjusting frame sliding cavity (21) communicated with the left-right displacement operating mechanism cavity (15) is formed in the position, corresponding to the lower end of the longitudinal screw seat adjusting frame (4), on the detection platform (2), a pair of slide rail mounting grooves (22) are formed in the position, corresponding to the longitudinal screw seat adjusting frame (4) and the left side of the dial indicator vertical displacement adjusting mechanism (5), on one upward side of the detection platform (2), and the pair of slide rail mounting grooves (22) extends from the front end to the rear end of the detection platform (2); the longitudinal screw seat adjusting frame left and right displacement operating mechanism (3) is fixed with one upward side of the detection platform seat bottom plate (11) at a position corresponding to the longitudinal screw slider guide rail plate matching groove (111), and the lower end of the longitudinal screw seat adjusting frame (4) is in sliding fit with the detection platform (2) at a position corresponding to the longitudinal screw seat adjusting frame sliding cavity (21) and is connected with the longitudinal screw seat adjusting frame left and right displacement operating mechanism (3); the mold bearing platform rotating operation mechanism (7) and the mold bearing platform (8) carried by the mold bearing platform fore-and-aft displacement adjusting mechanism (6) are arranged on the detection platform (2) at positions corresponding to the pair of slide rail mounting grooves (22).
2. The device for detecting the depth dimension of a character on a glass mold according to claim 1, wherein the longitudinal screw seat adjusting bracket left-right displacement operating mechanism (3) comprises a longitudinal screw seat slider guide rail plate (31), a longitudinal screw seat slider guide rail (32), a longitudinal screw seat nut slider moving screw (33), a longitudinal screw seat nut slider (34) and a longitudinal screw seat nut slider moving screw operating handwheel (35), the longitudinal screw seat slider guide rail plate (31) is fixed at a position corresponding to the longitudinal screw seat slider guide rail plate fitting groove (111) and the upward side of the detection platform seat bottom plate (11), the longitudinal screw seat slider guide rail (32) is fixed at the upward side of the longitudinal screw seat slider guide rail plate (31) and extends from the left end to the right end of the longitudinal screw seat slider guide rail plate (31), the left end and the right end of a longitudinal screw seat nut slide block moving screw (33) are respectively and rotatably supported on a longitudinal screw seat nut slide block moving screw seat (331) and correspond to the upper part of a longitudinal screw seat slide block guide rail (32), two longitudinal screw seat nut slide block moving screw seats (331) are fixed on a longitudinal screw seat slide block guide rail plate (31) at positions respectively corresponding to the left end and the right end of the longitudinal screw seat slide block guide rail (32), the longitudinal screw seat nut slide block (34) is in threaded fit with the longitudinal screw seat nut slide block moving screw (33), and the bottom of the longitudinal screw seat nut slide block (34) is in sliding fit with the longitudinal screw seat slide block guide rail (32) A longitudinal screw seat, nut and slide block moving screw operating hand wheel (35) is fixed at the right end of a longitudinal screw seat, nut and slide block moving screw (33) and is arranged at the right side opening part corresponding to the left and right displacement operating mechanism cavity (15); the lower end of the longitudinal screw seat adjusting frame (4) is connected with the upper end of the longitudinal screw seat nut slide block (34) at a position corresponding to the sliding cavity (21) of the longitudinal screw seat adjusting frame, and the right side of the upper end of the longitudinal screw seat adjusting frame (4) is provided with a matching cavity (41) for adjusting a screw seat guide rail plate by up-down displacement; the dial indicator vertical displacement adjusting mechanism (5) is fixed with the upper end of the longitudinal screw seat adjusting frame (4) at a position corresponding to the vertical displacement adjusting screw seat guide rail plate matching concave cavity (41); the mold bearing platform front-back displacement adjusting mechanism (6) carries the mold bearing platform rotation operating mechanism (7) and the mold bearing platform (8) and is arranged on the detection platform (2) in a front-back displacement mode at the position corresponding to the pair of slide rail mounting grooves (22).
3. The device for detecting the depth dimension of a character on a glass mold according to claim 2, wherein an adjusting frame clamping balance block (42) is fixed at the lower part of the left side of the adjusting frame (4) of the longitudinal screw seat, the middle part of the adjusting frame clamping balance block (42) corresponds to the sliding cavity (21) of the adjusting frame of the longitudinal screw seat, and the bottom surface of the front end and the bottom surface of the rear end of the adjusting frame clamping balance block (42) and the upward side surface of the detection platform (2) form a sliding pair.
4. The device for detecting the depth dimension of a character on a glass mold according to claim 2, wherein the dial indicator vertical displacement adjusting mechanism (5) comprises a vertical displacement adjusting screw seat guide rail plate (51), a vertical displacement adjusting screw seat slide block guide rail (52), a vertical displacement adjusting screw seat nut block moving screw (53), a vertical displacement adjusting screw seat nut block (54), a vertical displacement screw seat nut block moving screw operating hand wheel (55), a dial indicator mounting bracket (56), a mounting bracket connecting block (57), a mounting bracket connecting block seat (58) and a dial indicator (59), the lower end of the up-and-down displacement adjusting screw seat guide plate (51) corresponds to the right side of the longitudinal screw seat adjusting frame (4) and the lower end of the up-and-down displacement adjusting screw seat guide plate (51) is fixed with the longitudinal screw seat adjusting frame (4) through an up-and-down displacement adjusting screw seat guide plate fixing screw (511) at a position corresponding to the up-and-down displacement adjusting screw seat guide plate matching cavity (41), while the upper end of the up-and-down displacement adjusting screw seat guide plate (51) extends out of the upper part of the longitudinal screw seat adjusting frame (4), the up-and-down displacement adjusting screw seat slide block guide rail (52) is fixed on the right side of the up-and-down displacement adjusting screw seat guide plate (51) in a longitudinal state, the lower end of the up-and-down displacement adjusting screw seat nut block moving screw (53) is rotatably supported on the screw lower support seat (531), while the upper end is rotatably supported on the screw upper support seat (532), a screw lower bearing seat (531) is directly formed on the up-down displacement adjusting screw seat guide rail plate (51) at a position corresponding to the lower end of the up-down displacement adjusting screw seat slide rail (52), a screw upper bearing seat (532) is fixed on the up-down displacement adjusting screw seat guide rail plate (51) at a position corresponding to the upper end of the up-down displacement adjusting screw seat slide rail (52), an up-down displacement adjusting screw seat nut block (54) is in threaded fit with an up-down displacement adjusting screw seat nut block moving screw (53) and the left side of the up-down displacement adjusting screw seat nut block (54) is in sliding fit with the up-down displacement adjusting screw seat slide rail (52), an up-down displacement screw seat nut block moving screw operating hand wheel (55) is fixed with an up-down displacement adjusting screw seat nut block moving screw (53) upper screw head (533), a mounting bracket connecting block seat (58) is fixed on the right side of the up-down displacement adjusting screw seat nut block moving screw block (54), a shaft head (shaft head) is formed on the right side of the mounting bracket connecting block seat (581) of the mounting bracket connecting block seat (58), a connecting block (57) is connected with a mounting bracket (57), a pair of mounting bracket (56) extending towards the bottom of a pair of mounting bracket (56) corresponding to form a dial gauge connecting block base (561), the connecting block shaft head (571) is inserted into a matching lug hole (5611) on a shaft head seat matching lug (561) and a shaft head seat hole (5811) on a shaft head seat (581), one end, far away from the shaft head seat (581), of the dial indicator mounting bracket (56) is formed into a cantilever end and is provided with a dial indicator supporting hole (562), and the dial indicator (59) is arranged on the dial indicator mounting bracket (56) at a position corresponding to the dial indicator supporting hole (562) and is locked by a dial indicator locking screw (563) arranged on the dial indicator mounting bracket (56); and the mold bearing platform front-rear displacement adjusting mechanism (6) on the detection platform (2) is arranged at the position corresponding to the pair of slide rail mounting grooves (22) in a front-rear displacement mode, and the mold bearing platform rotation operating mechanism (7) and the mold bearing platform (8) correspond to the right side of the nut block moving screw (53) of the up-down displacement adjusting screw seat.
5. The device for detecting the depth dimension of a character on a glass mold according to claim 4, wherein the mold carrying platform forward and backward displacement adjusting mechanism (6) comprises a pair of forward and backward displacement slide block guide rails (61), a pair of forward and backward displacement slide blocks (62), a forward and backward displacement nut block seat (63), a forward and backward displacement nut block moving screw (64), a forward and backward displacement nut block (65), and a forward and backward displacement nut block moving screw operating hand wheel (66), the pair of forward and backward displacement slide block guide rails (61) are fixed on the detection platform (2) at positions corresponding to the pair of slide rail mounting grooves (22), respectively, the pair of forward and backward displacement slide blocks (62) are slidably fitted with the pair of forward and backward displacement slide block guide rails (61), respectively, a front and rear displacement nut block holder 63 is fixed to one side of a pair of front and rear displacement blocks 62 facing upward, a nut block chamber 631 is formed in the middle of the front and rear displacement nut block holder 63 at a position corresponding to the front and rear displacement nut block 65, the front and rear displacement nut block 65 is disposed and fixed in the nut block chamber 631, the front and rear displacement nut block 65 is screw-engaged with the front and rear displacement nut block moving screw 64, the front end of the front and rear displacement nut block moving screw 64 is rotatably supported on a screw front support 641, the rear end is supported on a screw rear support 642, and the middle corresponds to the right side of the up and down displacement adjusting screw holder nut block moving screw 53 A screw front mount (641) fixed to the inspection platform (2) at a position corresponding to between the front ends of the pair of front and rear displacement block guide rails (61), a screw rear mount (642) fixed to the inspection platform (2) at a position corresponding to between the rear ends of the pair of front and rear displacement block guide rails (61) and corresponding to the screw front mount (641), and a front and rear displacement nut block moving screw operating handwheel (66) fixed to the rear ends of the front and rear displacement nut block moving screws (64); the mold bearing platform rotation operating mechanism (7) and the mold bearing platform (8) are arranged on the front and rear displacement nut block seats (63) at the positions corresponding to the right side of the nut block moving screw (53) of the up and down displacement adjusting screw seat.
6. The device for detecting the depth dimension of a character on a glass mold according to claim 5, wherein the mold carrying platform rotation operating mechanism (7) comprises a worm and gear box base (71), a worm and gear box (72) and a worm and gear box operating hand wheel (73), the worm and gear box base (71) is fixed on the upper portion of the front and rear displacement nut block base (63), the worm and gear box (72) is arranged at the right end of the worm and gear box base (71), the worm and gear box operating hand wheel (73) is fixed at the rear end of a worm shaft (721) of the worm and gear box (72), the worm shaft (721) is in transmission fit with the worm wheel of the worm and gear box (72), and a worm wheel shaft (722) of the worm wheel extends out of the worm and gear box (72) and corresponds to the upper left end of the worm and gear box base (71); the mould bearing platform (8) is arranged at the left end of the worm gear box seat (71) and is connected with the worm gear shaft (722).
7. The apparatus for detecting the depth dimension of a character on a glass mold as claimed in claim 6, wherein said mold supporting table (8) comprises a mold supporting rotary table base (81) and a mold supporting transmission table (82), said mold supporting rotary table base (81) being fixed to said worm gear box base (71), a pair of worm gear shaft fitting bases (811) being formed on an upper portion of said mold supporting rotary table base (81), said worm gear shaft (722) being rotatably provided on said pair of worm gear shaft fitting bases (811), a table base fixing sleeve (821) being formed on a side of said mold supporting transmission table (82) facing said mold supporting rotary table base (81), said table base fixing sleeve (821) being fitted on said worm gear shaft (722) at a position corresponding to between said pair of worm gear shaft fitting bases (811) and being locked by a table base locking screw (8211), and a mold positioning hole (822) being formed at a central position of a side of said mold supporting transmission table (82) facing away from said mold supporting rotary table base (81).
8. The apparatus for detecting depth dimension of characters on a glass mold according to claim 5, wherein a screw seat mounting groove (23) is formed on the inspection platform (2) at a position corresponding to between the pair of rail mounting grooves (22), and the screw front seat (641) and the screw rear seat (642) are fixed to the inspection platform (2) at positions corresponding to a front end and a rear end of the screw seat mounting groove (23), respectively.
CN202110555295.9A 2021-05-21 2021-05-21 Character depth size detection device on glass mold Active CN113188416B (en)

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CN113607033B (en) * 2021-08-02 2024-01-26 常熟纺织机械厂有限公司 Cam curve parameter detection device

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GB576002A (en) * 1943-11-23 1946-03-14 Angus Henry Farquhar Bowness Improvements relating to gauging apparatus
GB1452280A (en) * 1973-03-02 1976-10-13 British United Shoe Machinery Measuring machines
JPH0251001A (en) * 1988-08-12 1990-02-21 Yazaki Corp Method and device for measuring height of burr
CN207515673U (en) * 2017-12-12 2018-06-19 江西联思触控技术有限公司 Bend glass size measurement tool
CN108202246A (en) * 2018-03-12 2018-06-26 苏州东方模具科技股份有限公司 The frock clamp of mating glass mold carving milling with machining center
CN208254360U (en) * 2018-05-22 2018-12-18 上海康耐特光学有限公司 A kind of lens mold mistake high detection instrument
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