CN204831269U - Reed plane degree tester - Google Patents

Reed plane degree tester Download PDF

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Publication number
CN204831269U
CN204831269U CN201520505851.1U CN201520505851U CN204831269U CN 204831269 U CN204831269 U CN 204831269U CN 201520505851 U CN201520505851 U CN 201520505851U CN 204831269 U CN204831269 U CN 204831269U
Authority
CN
China
Prior art keywords
horizontal
sensor
display bracket
guide rail
display
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201520505851.1U
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Chinese (zh)
Inventor
杨瀛洲
莫杰
钱明春
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Tianjin Textile Engineering Research Institute Co Ltd
Original Assignee
Tianjin Textile Engineering Research Institute Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Tianjin Textile Engineering Research Institute Co Ltd filed Critical Tianjin Textile Engineering Research Institute Co Ltd
Priority to CN201520505851.1U priority Critical patent/CN204831269U/en
Application granted granted Critical
Publication of CN204831269U publication Critical patent/CN204831269U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model provides a reed plane degree tester, reed plane degree tester includes base station, electrical system, drive arrangement, test body, the demonstration body, the base station includes the rack, controls the panel, baseboard, chang liang, stub beam, end cap, test platform, drive arrangement includes first shaft coupling, motor flange, main motor flange, main motor, the test body includes horizontal linearity module, vertical linearity module, sensor upper plate, plane degree sensor, sensor hypoplastron, counts the reed sensor, show the body end cap, display support sleeve pipe, display support shaft before display support base, display support datum axle, display support, display support. The beneficial effects of the utility model are that mechanization is controlled totally to test procedure, easy operation, convenience, and the measuring accuracy far exceedes current measuring technology level.

Description

A kind of reed instrument for measuring flatness
Technical field
The utility model belongs to textile testing apparatus field, especially relates to a kind of reed instrument for measuring flatness.
Background technology
The flatness quality of reed, be an important indicator of examination reed quality, it directly affects the quality of fabric.No matter be weaving reed or industrial reed, be proposed very high requirement in a standard for this reason.Domestic on reed quality determining method at present, the method for feel range estimation is still continued to use in the measurement of flatness, is namely placed on reed face with 300mm edge of a knife chi, then measures with clearance gauge.Measurement result accurately can not reflect the flatness quality of reed.How to improve the direction that measuring accuracy becomes this research and development of products design.
Summary of the invention
The purpose of this utility model is to provide the reed instrument for measuring flatness that a kind of structure is simple, simple to operate, measuring accuracy is high.
The technical solution of the utility model is: a kind of reed instrument for measuring flatness, described reed instrument for measuring flatness comprises base station, electric-control system, drive unit, test body, display body, described base station comprises rack, control panel, skirting board, long beam, short beam, plug, test platform, electric-control system and main frame is provided with in described rack, described rack left hand external is provided with control panel, described rack is provided with some skirting boards, described long beam and short beam are in turn connected into rectangular frame by plug head and the tail, some described skirting boards are provided with rectangular frame, described rectangular frame is provided with test platform,
Described drive unit comprises the first shaft coupling, motor joint flange, mair motor flange, mair motor, and described shaft coupling, motor joint flange, mair motor flange, mair motor are according to being sequentially in transmission connection successively from right to left;
Described test body comprises horizontal linearity module, vertical linearity module, sensor upper plate, flatness sensor, sensor lower plate, number reed sensor, described test platform is provided with horizontal linearity module, described horizontal linearity module comprises horizontal guide rail, horizontal guide rail slide block, described test platform is provided with horizontal guide rail, described horizontal guide rail is provided with horizontal guide rail slide block, vertical linearity module is provided with above described horizontal linearity module, described vertical linearity module comprises vertical-horizontal web joint, bracing frame, rubber block, ball-screw, vertical guide rail slide block, vertical guide rail, second shaft coupling, direct current generator, described horizontal guide rail slide block is provided with vertical-horizontal web joint, described vertical-horizontal web joint is provided with bracing frame, the inner least significant end of support frame as described above is provided with rubber block, support frame as described above bosom is provided with ball-screw, described ball-screw is provided with vertical guide rail slide block, the inner both sides of support frame as described above are provided with vertical guide rail, described ball-screw upper end is provided with the second shaft coupling, described second shaft coupling is connected by the horizontal supporting plate of holding screw with bracing frame inside, described second shaft coupling upper end is provided with direct current generator, described vertical guide rail slide block can be slided in the vertical direction by DC motor Driver on ball-screw and vertical guide rail, described vertical guide rail slip front is connected with sensor upper plate, described sensor upper plate front connecting sensor lower plate, flatness sensor and number reed sensor is respectively equipped with before and after described sensor lower plate, the reed of test is put in the top of the front test platform of described horizontal module, described vertical linearity module can be driven by mair motor and slide in the horizontal direction on horizontal linearity module,
Described test platform right-hand member is provided with display body, described display body comprises display bracket base, display bracket datum axle, display bracket, plug before display bracket, display bracket sleeve pipe, display bracket axle, display, display bracket base is provided with above described test platform right-hand member, described display bracket base is provided with display bracket axle, described display bracket axle horizontal direction is socketed with display bracket, described display bracket right-hand member is provided with display bracket sleeve pipe, display bracket axle is provided with in described display bracket sleeve pipe, described display bracket right output port is provided with plug before display bracket, described display bracket axle is provided with display, described display is connected with main frame.
The advantage that the utility model has and good effect are: owing to adopting technique scheme, the mechanization of test process Full-numerical-control, simple, convenient, measuring accuracy far exceedes existing measuring technology level.
Accompanying drawing explanation
Fig. 1 is the front view after the utility model removes sensor upper plate, flatness sensor, sensor lower plate, number reed sensor;
Fig. 2 is the side view that the utility model removes rack, drive unit, display body.
In figure:
1, rack; 2, control panel; 3, skirting board; 4, Chang Liang; 5, short beam; 6, plug; 7, test platform; 8, the first shaft coupling; 9, motor joint flange; 10, mair motor flange; 11, mair motor; 12, horizontal linearity module; 13, vertical linearity module; 14, sensor upper plate; 15, flatness sensor; 16, sensor lower plate; 17, reed sensor is counted; 18, horizontal guide rail; 19, horizontal guide rail slide block; 20, reed; 21, vertical linearity module comprises vertical-horizontal web joint; 22, bracing frame; 23, rubber block; 24, ball-screw; 25, vertical guide rail slide block; 26, vertical guide rail; 27, the second shaft coupling; 28, direct current generator; 29, display bracket base; 30, display bracket datum axle; 31, display bracket; 32, plug before display bracket; 33, display bracket sleeve pipe; 34, display bracket axle; 35, display.
Embodiment
Below in conjunction with accompanying drawing, the utility model is elaborated.
As Fig. 1, shown in 2, a kind of reed instrument for measuring flatness of the utility model, it is characterized in that: described reed instrument for measuring flatness comprises base station, electric-control system, drive unit, test body, display body, described base station comprises rack 1, control panel 2, skirting board 3, long beam 4, short beam 5, plug 6, test platform 7, electric-control system and main frame is provided with in described rack, described rack 1 left hand external is provided with control panel 2, described rack 1 is provided with some skirting boards 3, described long beam 4 and short beam 5 are in turn connected into rectangular frame by plug 6 head and the tail, on some described skirting boards, 3 are provided with rectangular frame, described rectangular frame is provided with test platform 7,
Described drive unit comprises the first shaft coupling 8, motor joint flange 9, mair motor flange 10, mair motor 11, and described first shaft coupling 8, motor joint flange 9, mair motor flange 10, mair motor 11 are according to being sequentially in transmission connection successively from right to left;
Described test body comprises horizontal linearity module 12, vertical linearity module 13, sensor upper plate 14, flatness sensor 15, sensor lower plate 16, number reed sensor 17, described test platform 7 is provided with horizontal linearity module 12, described horizontal linearity module 12 comprises horizontal guide rail 18, horizontal guide rail slide block 19, described test platform 7 is provided with horizontal guide rail 18, described horizontal guide rail 18 is provided with horizontal guide rail slide block 19, vertical linearity module 13 is provided with above described horizontal linearity module 12, described vertical linearity module 13 comprises vertical-horizontal web joint 21, bracing frame 22, rubber block 23, ball-screw 24, vertical guide rail slide block 25, vertical guide rail 26, second shaft coupling 27, direct current generator 28, sensor upper plate 14, sensor lower plate 16, flatness sensor 15, number reed sensor 17, described horizontal guide rail slide block 19 is provided with vertical-horizontal web joint 21, described vertical-horizontal web joint 21 is provided with bracing frame 22, the inner least significant end of support frame as described above 22 is provided with rubber block 23, support frame as described above 22 bosom is provided with ball-screw 24, described ball-screw 24 is provided with vertical guide rail slide block 25, the inner both sides of support frame as described above 22 are provided with vertical guide rail 26, described ball-screw 24 upper end is provided with the second shaft coupling 27, described second shaft coupling 27 is connected by the horizontal supporting plate of holding screw with bracing frame 22 inside, described second shaft coupling 27 upper end is provided with direct current generator 28, described vertical guide rail slide block 25 can be driven by direct current generator 28 and slide in the vertical direction on ball-screw 24 and vertical guide rail 26, described vertical guide rail slide block 25 front end is connected with sensor upper plate 14, described sensor upper plate 14 front connecting sensor lower plate 16, flatness sensor 15 and number reed sensor 17 is respectively equipped with before and after described sensor lower plate 16, the reed 20 of test is put in the top of the front test platform 7 of described horizontal module 12, described vertical linearity module 13 can be driven by mair motor 11 and slide in the horizontal direction on horizontal linearity module 12,
Described test platform right-hand member is provided with display body, described display body comprises display bracket base 29, display bracket datum axle 30, display bracket 31, plug 32 before display bracket, display bracket sleeve pipe 33, display bracket axle 34, display 35, display bracket base 29 is provided with above described test platform 7 right-hand member, described display bracket base 29 is provided with display bracket axle 30, described display bracket axle 30 horizontal direction is socketed with display bracket 31, described display bracket 31 right-hand member is provided with display bracket sleeve pipe 33, display bracket axle 34 is provided with in described display bracket sleeve pipe 33, described display bracket 34 right output port is provided with plug 32 before display bracket, described display bracket axle 34 is provided with display 35, described display 35 is connected with main frame.
The course of work of this example: if need test reed 20 flatness, then will some reed 20 of test be needed to be placed on after on test platform 7, open the button on control panel 2, open whole reed 20 instrument for measuring flatness, then the vertical guide rail slide block 25 controlled in whole reed instrument for measuring flatness vertical linearity module 13 by main frame is with dynamic sensor upper plate 14 to move down, after making flatness sensor 15 and number reed sensor 17 be moved down into reed 20 place, horizontal direction moves from left to right again, test is completed in moving process, namely the quantity of reed 20 and the rough particular location of concrete reed 20 is tested out, test result shows by display 35, flatness sensor 15 and number reed sensor 17 are moved horizontally to reed 20 end, after completing test, stop auto-returned after 5 seconds, move to initial position from right to left, wait for and testing next time, if do not need to continue test, then close whole reed instrument for measuring flatness by control panel 2.
Above an embodiment of the present utility model has been described in detail, but described content being only preferred embodiment of the present utility model, can not being considered to for limiting practical range of the present utility model.All equalizations done according to the utility model application range change and improve, and all should still belong within patent covering scope of the present utility model.

Claims (1)

1. a reed instrument for measuring flatness, it is characterized in that: described reed instrument for measuring flatness comprises base station, electric-control system, drive unit, test body, display body, described base station comprises rack, control panel, skirting board, Chang Liang, short beam, plug, test platform, electric-control system is provided with in described rack, described rack left hand external is provided with control panel, described rack is provided with some skirting boards, described long beam and short beam are in turn connected into rectangular frame by plug head and the tail, some described skirting boards are provided with rectangular frame, and described rectangular frame is provided with test platform;
Described drive unit comprises the first shaft coupling, motor joint flange, mair motor flange, mair motor, and described first shaft coupling, motor joint flange, mair motor flange, mair motor are according to being sequentially in transmission connection successively from right to left;
Described test body comprises horizontal linearity module, vertical linearity module, sensor upper plate, flatness sensor, sensor lower plate, number reed sensor, described test platform is provided with horizontal linearity module, described horizontal linearity module comprises horizontal guide rail, horizontal guide rail slide block, described test platform is provided with horizontal guide rail, described horizontal guide rail is provided with horizontal guide rail slide block, vertical linearity module is provided with above described horizontal linearity module, described vertical linearity module comprises vertical-horizontal web joint, bracing frame, rubber block, ball-screw, vertical guide rail slide block, vertical guide rail, second shaft coupling, direct current generator, described horizontal guide rail slide block is provided with vertical-horizontal web joint, described vertical-horizontal web joint is provided with bracing frame, the inner least significant end of support frame as described above is provided with rubber block, support frame as described above bosom is provided with ball-screw, described ball-screw is provided with vertical guide rail slide block, the inner both sides of support frame as described above are provided with vertical guide rail, described ball-screw upper end is provided with the second shaft coupling, described second shaft coupling is connected by the horizontal supporting plate of holding screw with bracing frame inside, described second shaft coupling upper end is provided with direct current generator, described vertical guide rail slide block can be slided in the vertical direction by DC motor Driver on ball-screw and vertical guide rail, described vertical guide rail slip front is connected with sensor upper plate, described sensor upper plate front connecting sensor lower plate, flatness sensor and number reed sensor is respectively equipped with before and after described sensor lower plate, the reed of test is put in the top of the front test platform of described horizontal module, described vertical linearity module can be driven by mair motor and slide in the horizontal direction on horizontal linearity module,
Described test platform right-hand member is provided with display body, described display body comprises display bracket base, display bracket datum axle, display bracket, plug before display bracket, display bracket sleeve pipe, display bracket axle, display, display bracket base is provided with above described test platform right-hand member, described display bracket base is provided with display bracket axle, described display bracket axle horizontal direction is socketed with display bracket, described display bracket right-hand member is provided with display bracket sleeve pipe, display bracket axle is provided with in described display bracket sleeve pipe, described display bracket right output port is provided with plug before display bracket, described display bracket axle is provided with display, described display is connected with main frame.
CN201520505851.1U 2015-07-13 2015-07-13 Reed plane degree tester Expired - Fee Related CN204831269U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201520505851.1U CN204831269U (en) 2015-07-13 2015-07-13 Reed plane degree tester

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201520505851.1U CN204831269U (en) 2015-07-13 2015-07-13 Reed plane degree tester

Publications (1)

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CN204831269U true CN204831269U (en) 2015-12-02

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106019110A (en) * 2016-05-17 2016-10-12 西北工业大学 Automatic light-emitting electronic component detection device
CN113074771A (en) * 2021-03-24 2021-07-06 三峡大学 Automatic detection device for computer host

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106019110A (en) * 2016-05-17 2016-10-12 西北工业大学 Automatic light-emitting electronic component detection device
CN106019110B (en) * 2016-05-17 2019-01-22 西北工业大学 A kind of automatic detection device of illuminating electronic element
CN113074771A (en) * 2021-03-24 2021-07-06 三峡大学 Automatic detection device for computer host

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GR01 Patent grant
C14 Grant of patent or utility model
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20151202

Termination date: 20160713

CF01 Termination of patent right due to non-payment of annual fee