CN209264463U - A kind of sock automatic tension meter - Google Patents

Abstract

The utility model relates to a kind of sock automatic tension meters, it is related to socks processing equipment field, it is intended to provide a kind of simple and highly efficient sock stretching tester of structure, the upper surface of the rack offers sliding groove, slide assemblies are provided in the sliding groove, the slide assemblies are fixedly connected with the stretching assembly for fixing socks, and the inside of the rack is equipped with the driving assembly for driving slide assemblies.The utility model can quickly and efficiently stretch socks, carry out extension value test, and structure is simple, manufacturing cost is lower.

Description

A kind of sock automatic tension meter

Technical field

The utility model relates to the technical fields of socks process equipment, more particularly, to a kind of sock automatic tension meter.

Background technique

The extension value of socks be evaluate socks inherent quality important indicator and optimized production process important evidence, Socks extension value is tested, mainly socks are applied with the elongation of constant pulling force and Accurate Determining socks.

Notification number is that the Chinese patent of CN 201335800Y discloses a kind of mechanical stocking stretching tester, technical points Are as follows: a kind of mechanical stocking stretching tester, including pedestal, slide block guide rail, sliding block, steady brace, mobile pull rod, handle, tuck are sliding Block locking mechanism, link block, tuck jack and contact pin.Link block bottom surface fastens, and slide block guide rail front fastens.Slide block guide rail passes through Square hole among sliding block, sliding block easily slide up and down on guide rail.Steady brace and mobile pull rod are separately mounted to guide rail and cunning On block.It is embedded in one group of tuck in the upper end of guide rail, has one group of tuck jack in sliding block front upper right side.Have one in the upper end of guide rail Slider locks mechanism can make sliding block locked in guide rail upper end.

The utility model is a kind of full mechanical realization, structure is simple, it is exquisite, easy to operate, be not required to energy consumption but measuring accuracy It is higher, but the degree of automation is not high, and working efficiency is low.

Therefore it needs to propose the new scheme of one kind to solve this problem.

Utility model content

The purpose of the utility model is to provide a kind of sock automatic tension meters, can automatically and efficiently carry out socks and stretch inspection The work of survey.

The above-mentioned purpose of utility model of the utility model has the technical scheme that

A kind of sock automatic tension meter, including rack, the upper surface of the rack offer sliding groove, in the sliding groove It is provided with stretching assembly, the slide assemblies for starting or closing stretching assembly are provided in the sliding groove, the rack Inside is equipped with the driving assembly for driving slide assemblies.

By using above-mentioned technical proposal, when being worked, the fixing end and shifting that socks are sheathed in stretching assembly Moved end, starting driving assembly driving slide assemblies reciprocatingly slide in sliding slot, and the mobile terminal of stretching assembly is driven to be moved, from And socks are stretched, it realizes to the Automatic-drawing of socks, detects the extension value of socks.

The utility model is further arranged to: the slide assemblies include being fixedly connected on sliding along sliding groove length direction Sliding bar in slot, the sliding bar slidably connect the first sliding panel, and the lower surface of first sliding panel is fixedly connected on Driving assembly, the mobile terminal of the stretching assembly are fixedly connected on the upper surface of the first sliding panel.

By using above-mentioned technical proposal, the first sliding panel is driven to slide on sliding bar by driving assembly, thus band The dynamic stretching assembly being set on the first sliding panel is moved, and carries out drawing work to the socks being sheathed in stretching assembly.

The utility model is further arranged to: the stretching assembly includes being fixedly connected on sliding groove one end and is in set vertically The fixation strut set, the top of the fixed strut are fixedly connected in horizontally disposed steady brace, first sliding panel Upper surface be fixedly connected in the mobile strut that is vertically arranged, the top of the mobile strut is fixedly connected in horizontally disposed Mobile pull rod, one end of socks is connected to steady brace, and the other end is connected to mobile pull rod.

By using above-mentioned technical proposal, when carrying out drawing work, stocking blank is sheathed on steady brace and mobile pull rod, Driving assembly by driving the first sliding panel to be slided, drive be fixedly connected on the mobile pull rod of the first sliding panel upper surface into Row movement, since stocking blank is sheathed on steady brace and mobile pull rod, to carry out drawing work to socks.

The utility model is further arranged to: the driving component includes be rotationally connected with frame bottom inner sidewall first Rotating bar, the vertical fixing sleeve of first rotating bar are connected to the second rotating bar, and the end of second rotating bar is rotatably connected to Third rotating bar, the end of the third rotating bar are rotatably connected to the 4th rotating bar, and the 4th rotating bar is fixedly connected on The lower surface of first sliding panel, the lateral wall of the rack are fixedly connected with motor, and the output shaft of the motor is fixedly connected with In the drive rod that Z-shaped is bent, the second rotating bar sliding sleeve is connected to drive block, and the end of the drive rod is rotationally connected with biography The side wall of motion block.

By using above-mentioned technical proposal, motor drives drive rod rotation, thus make drive rod drive drive block into Row circular-rotation, drive block drive the second rotating bar to carry out reciprocally swinging when carrying out circular motion, to be rotated by third Rotation connection between bar and the 4th rotating bar finally drives the first sliding shoe to slidably reciprocate on sliding bar.

The utility model is further arranged to: the drive rod includes two axial drive rods and a root diameter to drive rod, The radial direction drive rod includes that one end is fixedly connected on the wherein interior hollow pipe of axial drive rod and one end and is fixedly connected on The hollow outer tube of another axial drive rod, the interior hollow pipe are socketed in the hollow outer tube, the hollow outer tube and institute The end for stating interior hollow pipe connection offers fluting, and the lateral wall of the hollow outer tube is threaded with expansion set.

Need to change socks when needing the socks to different batches to detect by using above-mentioned technical proposal Pulling rope length unscrews expansion set, and hollow pipe is in the length in hollow outer tube in change, to change the length of radial drive rod, thus Change the radius of gyration of drive block, to change the swing angle of the second rotating bar, finally change the sliding distance of the first sliding shoe, Realize the tensile elongation for changing socks.

The utility model is further arranged to: one end of the sliding bar slidably connects the second sliding panel, and described second The upper surface of sliding panel is threaded with bolt, and the end of the bolt is pushed against in the side wall of sliding bar, and the fixed strut is solid Surely it is connected to the upper surface of the second sliding panel.

By using above-mentioned technical proposal, when being worth different socks to different batches extension and detecting, needed for socks The length of drawstring is different, when having adjusted the mobile distance of the first sliding shoe, by loosering a bolt, adjusts the position of the second sliding panel It sets, pushes against the first sliding panel with the second sliding panel when sliding initial position, then bolt is tightened, the second sliding panel is carried out It is fixed.

The utility model is further arranged to: if the steady brace be fixedly connected with backwards to the side wall of mobile pull rod it is solid Determine needle, the mobile pull rod is fixedly connected with several fixed pins backwards to the side wall of steady brace.

By using above-mentioned technical proposal, when socks are stretched, may fall off from stretching assembly, it is solid by being arranged Determine needle, when socks are sheathed on steady brace and mobile pull rod, fixed pin passes through socks, can avoid socks and takes off during stretching It falls.

The utility model is further arranged to: the fixed pin is arranged with the rubber sleeve that can be dismantled at any time.

By using above-mentioned technical proposal, in a non-operative state when, to avoid fixed pin from damaging staff, It is played a protective role by being arranged rubber sleeve.

In conclusion the advantageous effects of the utility model are as follows:

1. socks are sheathed on fixing end and mobile terminal in stretching assembly, starting driving assembly drives when being worked Dynamic slide assemblies reciprocatingly slide in sliding slot, and the mobile terminal of stretching assembly is driven to be moved, so that socks are stretched, it is real Now to the Automatic-drawing of socks, the extension value of socks is detected；

It, can be to variety classes, different extension values 2. the sliding distance of adjustable sliding component changes the pulling rope length of socks Socks carry out extension test.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the utility model；

Fig. 2 is the structural schematic diagram of slide assemblies and stretching assembly；

Fig. 3 is the structural schematic diagram of driving assembly；

Fig. 4 is the perspective view of the explosion of drive rod.

In figure: 1, rack；2, sliding groove；3, slide assemblies；4, stretching assembly；5, driving assembly；6, sliding bar；7, first Sliding panel；8, the second sliding panel；9, fixed strut；10, steady brace；11, mobile strut；12, mobile pull rod；13, first turn Lever；14, the second rotating bar；15, third rotating bar；16, the 4th rotating bar；17, motor；18, drive rod；19, drive block； 20, axial drive rod；21, radial drive rod；22, interior hollow pipe；23, hollow outer tube；24, it slots；25, expansion set；26, bolt； 27, fixed pin；28, rubber sleeve.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

It referring to Fig.1, is a kind of sock automatic tension meter disclosed by the utility model, including machine, 1, the upper surface of rack 1 is opened Equipped with sliding groove 2, it is provided with stretching assembly 4 in sliding groove 2, is provided in sliding groove 2 for starting or closing stretching assembly 4 Slide assemblies 3, the inside of rack 1 are equipped with the driving assembly 5 for driving slide assemblies 3.When being worked, socks are arranged In stretching assembly 4, start driving assembly 5 and slide assemblies 3 is driven to reciprocatingly slide in sliding groove 2, to be carried out to socks It stretches, realizes to the Automatic-drawing of socks, test the extension value of socks.

Referring to Fig. 2, slide assemblies 3 include the sliding bar 6 being fixedly connected in sliding groove 2 along 2 length direction of sliding groove, sliding Lever 6 slidably connects the first sliding panel 7 and the second sliding panel 8 for being fixedly connected on 6 one end of sliding bar, passes through driving assembly 5 The first sliding panel 7 is driven to slide on sliding bar 6, so that stretching assembly 4 be driven to be moved, to being sheathed in stretching assembly 4 Socks carry out drawing work.

Referring to Fig. 2, stretching assembly 4 includes being fixedly connected on 7 upper surface of the first sliding panel in the mobile strut being vertically arranged 11, the upper end of mobile strut 11 is fixedly connected in horizontally disposed steady brace 10, the upper surface screw thread of the second sliding panel 8 It is connected with bolt 26, the first sliding panel 7 is adjusted on sliding bar 6 by bolt 26 in sliding bar 6 in the end abutment of bolt 26 Position.The upper surface of second sliding panel 8 is fixedly connected in the fixation strut 9 being vertically arranged, and the upper end of fixed strut 9 is solid Surely it is connected in horizontally disposed steady brace 10.If steady brace 10 is fixedly connected with solid backwards to the side wall of mobile pull rod 12 Determine needle 27, mobile pull rod 12 is fixedly connected with several fixed pins 27 backwards to the side wall of steady brace 10, socks are sheathed on fixation When pull rod 10 and mobile pull rod 12, fixed pin 27 is passed through into socks, socks is can be avoided and falls off when stretching.Fixed pin 27 is arranged Have the rubber sleeve 28 that can be dismantled at any time, in a non-operative state when, rubber sleeve 28 is sheathed on fixed pin 27, under working condition When, rubber sleeve 28 is removed, avoid equipment in a non-operative state when staff is damaged.

Referring to Fig. 3, driving assembly 5 includes the first rotating bar 13 for being rotationally connected with 1 inner sidewall of rack, the first rotating bar 13 Fixing sleeve is connected to the second rotating bar 14, and the end of the second rotating bar 14 is rotatably connected to third rotating bar 15, third rotating bar 15 End be rotatably connected to the 4th rotating bar 16, the 4th rotating bar 16 is fixedly connected on the lower surface of the first sliding panel 7, rack 1 Lateral wall be fixedly connected with motor 17, the output shaft of motor 17 is fixedly connected with the drive rod 18 bent in Z-shaped, the second rotation 14 sliding sleeve of bar is connected to drive block 19, and the end of drive rod 18 is rotationally connected with the side wall of drive block 19, and motor 17 drives transmission Bar 18 rotates, to make drive rod 18 that drive block 19 be driven to carry out circular-rotation, drive block 19 is when carrying out circular motion The second rotating bar 14 is driven to carry out reciprocally swinging, to pass through the rotation connection between third rotating bar 15 and the 4th rotating bar 16 It is final that the first sliding panel 7 is driven to slidably reciprocate on sliding bar 6.

Referring to Fig. 4, drive rod 18 includes two axial drive rods 20 and a radial drive rod 21, radial drive rod 21 Both ends are fixedly connected with the end of two axial drive rods 20 respectively, and radial drive rod 21 includes an interior hollow pipe 22 and is arranged Hollow outer tube 23 in interior 22 end of hollow pipe, the end that hollow outer tube 23 is connect with interior hollow pipe 22 offer fluting 24, The lateral wall of hollow outer tube 23 is threaded with expansion set 25.When needing the socks to different batches to test, need to change The pulling rope length of socks unscrews expansion set 25, changes interior hollow pipe 22 in the length of hollow outer tube 23, to change radial drive rod 21 Length, to change the radius of gyration of drive block 19, to change the swing angle of the second rotating bar 14, final to change first sliding The sliding distance of movable plate 7 realizes the tensile elongation for changing socks.

The implementation principle of the present embodiment are as follows: when carrying out the test of socks extension value, the development length according to needed for socks leads to It crosses expansion set 25 and adjusts the length of radial drive rod 21, then adjust position of second sliding panel 8 on sliding bar 6, fixed with determining Socks are arranged between steady brace 10 and mobile pull rod 12, starting by the relative movement distance of pull rod 10 and mobile pull rod 12 Motor 17 drives the first sliding panel 7 to slidably reciprocate on sliding bar 6, carries out Automatic-drawing to socks, convenient and strength-saving, improves work Make efficiency.

The embodiment of present embodiment is the preferred embodiment of the utility model, and not limitation is originally practical new according to this The protection scope of type, therefore: the equivalence changes that all structures, shape, principle according to the utility model are done should all be covered by practical Within novel protection scope.

Claims (8)

1. a kind of sock automatic tension meter, including rack (1), which is characterized in that the upper surface of the rack (1) offers sliding Slot (2), the interior stretching assembly (4) being provided with for stretching to socks of the sliding groove (2), the stretching assembly includes fixing end And mobile terminal, the interior slide assemblies (3) being provided with for driving stretching assembly (4) mobile terminal of the sliding groove (2), the rack (1) inside is equipped with the driving assembly (5) for driving slide assemblies (3).

2. a kind of sock automatic tension meter according to claim 1, it is characterised in that: the slide assemblies (3) include edge Sliding groove (2) length direction is fixedly connected on the sliding bar (6) in sliding groove (2), and the sliding bar (6) slidably connects first The lower surface of sliding panel (7), first sliding panel (7) is fixedly connected on driving assembly (5), the shifting of the stretching assembly (4) Moved end is fixedly connected on the upper surface of the first sliding panel (7).

3. a kind of sock automatic tension meter according to claim 2, it is characterised in that: the stretching assembly (4) includes solid Surely it is connected to sliding groove (2) one end and is in the fixation strut (9) being vertically arranged, the top of the fixed strut (9) is fixedly connected Have in horizontally disposed steady brace (10), the upper surface of first sliding panel (7) is fixedly connected in the shifting being vertically arranged Dynamic strut (11), the top of the mobile strut (11) are fixedly connected in horizontally disposed mobile pull rod (12), and the one of socks End is connected to steady brace (10), and the other end is connected to mobile pull rod (12).

4. a kind of sock automatic tension meter according to claim 3, it is characterised in that: the driving component (5) includes turning Dynamic the first rotating bar (13) for being connected to rack (1) bottom end inner sidewall, the vertical fixing sleeve of first rotating bar (13) are connected to the The end of two rotating bars (14), second rotating bar (14) is rotatably connected to third rotating bar (15), the third rotating bar (15) end is rotatably connected to the 4th rotating bar (16), and the 4th rotating bar (16) is fixedly connected on the first sliding panel (7) Lower surface, the lateral wall of the rack (1) is fixedly connected with motor (17), and the output shaft of the motor (17) is fixedly connected with In the drive rod (18) that Z-shaped is bent, the second rotating bar (14) sliding sleeve is connected to drive block (19), the drive rod (18) End is rotationally connected with the side wall of drive block (19).

5. a kind of sock automatic tension meter according to claim 4, it is characterised in that: the drive rod (18) includes two To drive rod (21), the radial direction drive rod (21) includes that one end is fixedly connected on wherein one for axial drive rod (20) and a root diameter The interior hollow pipe (22) of root axial direction drive rod (20) and one end are fixedly connected on the hollow outer tube of another axial drive rod (20) (23), the interior hollow pipe (22) is socketed in the hollow outer tube (23), the hollow outer tube (23) and the interior hollow pipe (22) end connected offers fluting (24), and the lateral wall of the hollow outer tube (23) is threaded with expansion set (25).

6. a kind of sock automatic tension meter according to claim 4, it is characterised in that: one end of the sliding bar (6) is sliding Dynamic to be socketed with the second sliding panel (8), the upper surface of second sliding panel (8) is threaded with bolt (26), the bolt (26) end is pushed against in the side wall of sliding bar (6), and the fixed strut (9) is fixedly connected on the upper table of the second sliding panel (8) Face.

7. a kind of sock automatic tension meter according to claim 3, it is characterised in that: the steady brace (10) is backwards to shifting The side wall of dynamic pull rod (12) is fixedly connected with several fixed pins (27), side of the mobile pull rod (12) backwards to steady brace (10) Wall is fixedly connected with several fixed pins (27).

8. a kind of sock automatic tension meter according to claim 7, it is characterised in that: the fixed pin (27) is arranged with can The rubber sleeve (28) dismantled at any time.