CN204027751U - Drives structure in a kind of socks tension force checkout equipment - Google Patents

Abstract

The utility model provides the drives structure in a kind of socks tension force checkout equipment, belongs to detection technique field.It has solved the technical matterss such as the existing specialized equipment that does not detect socks tension force.Drives structure in these socks tension force checkout equipment, drives structure comprises motor, stay cord one and stay cord two, motor is fixed on erecting bed, on erecting bed, be also rotatably connected to roller one and roller two, one end of stay cord one is fixed on roller one, the other end is fixed on the upper end of slide block, one end of stay cord two is fixed on roller two, the other end is fixed on the lower end of slide block, in closure plate, be fixed with angle sheave one, the middle part of stay cord two is resisted against on the side face of angle sheave one through closure plate, on roller one, be fixed with gear one, on roller two, be fixed with gear two, motor energy while driven wheel one and gear two rotate.The utlity model has the advantage that can detect socks tension force permanance.

Description

Drives structure in a kind of socks tension force checkout equipment

Technical field

The utility model belongs to detection technique field, relates to a kind of socks tension force checkout equipment, particularly the drives structure in a kind of socks tension force checkout equipment.

Background technology

Socks are requirement of people's daily life, are also consumables.Socks employing cotton thread etc. is worked out, socks are being wrapped on pin tightly in the time being through on pin, when using socks, people need to put on or take off, socks need to be opened and could realize for socks are put on or taken off, therefore existing socks are all with some tension, but the too little meeting of tension force makes socks be difficult to put on or take off, tension force is wrapped in acting force on pin when too conference causes socks to be put on excessive, causes dressing uncomfortable.The tension force of socks is to realize by increase elastic threads in the time weaving, in the time of routine use, wear off socks very frequent, can cause elastic threads to follow the string, thereby causing socks to lose tension force cannot well be wrapped on pin, cause socks to be scrapped, in order to increase the serviceable life of socks and the quality of product, must before dispatching from the factory, the tension force permanance to socks detect, it is only at present the quality that the tension force that hand penetrated to socks under the rough and careless impression of socks by workman judges socks, adopt and cannot detect in this way socks and can stand the process that how many times opens and shrinks, also just cannot judge the serviceable life of socks, reference is provided cannot to the quality that improves socks, do not have the checkout equipment of this respect simultaneously yet.

Summary of the invention

The purpose of this utility model is to have the problems referred to above for existing technology, has proposed the drives structure in a kind of socks tension force checkout equipment, and this utility model technical matters to be solved is to detect socks tension force permanance.

The purpose of this utility model can realize by following technical proposal:

Drives structure in a kind of socks tension force checkout equipment, checkout equipment comprises worktable and erecting bed, described erecting bed is fixed on the top of worktable by support, on described erecting bed, being removably fixed with can be by the fixed block fixing stocking blank of socks, on described worktable, be positioned at that be fixed with under fixed block can be by the geometrical clamp fixing lower end of socks, described fixed block is provided with guide pole, described guide pole vertically arranges, when socks are fixed between fixed block and geometrical clamp, guide pole is positioned at socks, described guide pole is provided with slide block, described guide pole is provided with the closure plate of the guide pole that can anti-limited slip block drops out, on described slide block, be fixed with tension link, the axis of described tension link and conllinear vertical with guide pole, it is characterized in that, this drives structure comprises motor, stay cord one and stay cord two, described motor is fixed on erecting bed, on described erecting bed, be also rotatably connected to roller one and roller two, one end of described stay cord one is fixed on roller one, the other end of stay cord one is fixed on the upper end of slide block, one end of described stay cord two is fixed on roller two, the other end of stay cord two is fixed on the lower end of slide block, in described closure plate, be fixed with angle sheave one, the middle part of described stay cord two is resisted against on the side face of angle sheave one through closure plate, on described roller one, be fixed with gear one, on described roller two, be fixed with gear two, described motor simultaneously driven wheel one and gear two rotate make roller one tighten up stay cord for the moment roller two decontrol stay cord two or roller one decontrol stay cord for the moment roller two tighten up stay cord two, stay cord one and stay cord two are in exceptionally straight state.

Pull slide block to move up and down by stay cord one and stay cord two, can accurately control the movement of slide block.Simulate the situation of pin while stretching into by tension link, drive tension link repeatedly to move up and down by slide block, tension link is moved up and down in socks strut socks to realize socks tension force permanance is detected.

In drives structure in above-mentioned socks tension force checkout equipment, described stay cord one and stay cord two are all through installing plate and fixed block, on described installing plate, be fixed with angle sheave two and angle sheave three, described stay cord one is resisted against on angle sheave two near one end of roller one, and described stay cord two is resisted against on angle sheave three near one end of roller two.

In drives structure in above-mentioned socks tension force checkout equipment, on the rotation axis of described motor, fix active drive tooth, on described erecting bed, be rotatably connected to passive matrix tooth, described active drive tooth engages with passive matrix tooth, described passive matrix tooth is between gear one and gear two, passive matrix tooth engages with gear one and gear two simultaneously, and described stay cord one winding is the opposite direction at roller two in the direction of roller one and stay cord two windings.Can move on slide block by said structure time, pull by stay cord one, in the time that slide block moves down, pull by stay cord two.

In drives structure in above-mentioned socks tension force checkout equipment, diameter and the number of teeth of described gear one and gear two are all identical.Ensure that stay cord one and stay cord two synchronously rotate.

In drives structure in above-mentioned socks tension force checkout equipment, described guide pole comprises guide rod one and guide rod two, described guide rod one and guide rod two be arranged in parallel, on described guide rod one and guide rod two, all there is groove along its length, groove on described guide rod one and guide rod two is oppositely arranged, and described slide block is slidably connected between the groove on guide rod one and guide rod two.

In drives structure in above-mentioned socks tension force checkout equipment, described slide block comprises body and is positioned at the lug boss of body both sides, described body is between guide rod one and guide rod two, the two ends of described body lay respectively in the groove on guide rod one and guide rod two, described body is positioned on the side of the groove on guide rod one and guide rod two and offers locating slot, in described locating slot, be rotatably connected to some balls, the cell wall of described ball and groove against, described lug boss passes the gap between guide rod one and guide rod two.Slide block by ball be slidably connected on guide rod one and guide rod two, slide smooth and easy.

In drives structure in above-mentioned socks tension force checkout equipment, described closure plate is fixed between the lower end of guide rod one and the lower end of guide rod two, and described closure plate is by the lower end closed of the groove on guide rod one and guide rod two.Closure plate can drop out on guide rod one and guide rod two by anti-limited slip block.

Compared with prior art, the drives structure in these socks tension force checkout equipment has and can be with movable slider to move up and down to detect socks tension force permanance advantage.

Brief description of the drawings

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

Fig. 2 is guide pole sectional structure schematic diagram of the present utility model.

Fig. 3 is tension link sectional structure schematic diagram of the present utility model.

In figure, 1, worktable; 11, erecting bed; 111, mounting hole; 12, support; 2, fixed block; 21, fixed bar; 22, friction ring; 23, locating ring; 31, screw rod; 32, lifting table; 33, sliding shoe; 4, guide pole; 41, guide rod one; 42, guide rod two; 43, groove; 5, slide block; 51, body; 52, lug boss; 53, ball; 54, closure plate; 6, stay cord one; 61, stay cord two; 62, roller one; 621, gear one; 63, roller two; 631, gear 2 64, angle sheave one; 65, angle sheave two; 66, angle sheave three; 67, active drive tooth; 68, passive matrix tooth; 7, tension link; 71, connecting link; 72, annular groove; 73, inflation ring; 74, fixed bolster; 75, air-filled pore.

Embodiment

Be below specific embodiment of the utility model by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiment.

Drives structure in a kind of socks tension force checkout equipment, as shown in Figure 1 to Figure 3, comprise worktable 1 and erecting bed 11, erecting bed 11 is fixed on the top of worktable 1 by support 12, on erecting bed 11, being removably fixed with can be by the fixed block fixing stocking blank of socks 2, on worktable 1, be positioned at that be fixed with under fixed block 2 can be by the geometrical clamp fixing lower end of socks, fixed block 2 is provided with guide pole 4, guide pole 4 vertically arranges, when socks are fixed between fixed block 2 and geometrical clamp, guide pole 4 is positioned at socks, guide pole 4 is provided with slide block 5, on slide block 5, be fixed with tension link 7, the axis of tension link 7 and conllinear vertical with guide pole 4.

As depicted in figs. 1 and 2, guide pole 4 comprises guide rod 1 and guide rod 2 42, guide rod 1 and guide rod 2 42 be arranged in parallel, on guide rod 1 and guide rod 2 42, all there is groove 43 along its length, groove 43 on guide rod 1 and guide rod 2 42 is oppositely arranged, and slide block 5 is slidably connected between the groove 43 on guide rod 1 and guide rod 2 42.Slide block 5 comprises body 51 and is positioned at the lug boss 52 of body 51 both sides, body 51 is between guide rod 1 and guide rod 2 42, the two ends of body 51 lay respectively in the groove 43 on guide rod 1 and guide rod 2 42, body 51 is positioned on the side of the groove 43 on guide rod 1 and guide rod 2 42 and offers locating slot, in locating slot, be rotatably connected to some balls 53, the cell wall of ball 53 and groove 43 against, lug boss 52 passes the gap between guide rod 1 and guide rod 2 42.Slide block 5 by ball 53 be slidably connected on guide rod 1 and guide rod 2 42, slide smooth and easy.Between the lower end of the lower end of guide rod 1 and guide rod 2 42, be fixed with closure plate 54, closure plate 54 is by the lower end closed of the groove 43 on guide rod 1 and guide rod 2 42.Closure plate 54 can drop out on guide rod 1 and guide rod 2 42 by anti-limited slip block 5.

As shown in Figure 1, this drives structure comprises motor, stay cord 1 and stay cord 2 61, motor is fixed on erecting bed 11, on erecting bed 11, be also rotatably connected to roller 1 and roller 2 63, one end of stay cord 1 is fixed on roller 1, the other end of stay cord 1 is fixed on the upper end of slide block 5, one end of stay cord 2 61 is fixed on roller 2 63, the other end of stay cord 2 61 is fixed on the lower end of slide block 5, in closure plate 54, be fixed with angle sheave 1, the middle part of stay cord 2 61 is resisted against on the side face of angle sheave 1 through closure plate 54, on roller 1, be fixed with gear 1, on roller 2 63, be fixed with gear 2 631, motor simultaneously driven wheel 1 and gear 2 631 rotates and makes roller 1 tighten up one 6 o'clock rollers 2 63 of stay cord to decontrol stay cords 2 61 or roller 1 and decontrol one 6 o'clock rollers 2 63 of stay cords and tighten up stay cord 2 61, stay cord 1 and stay cord 2 61 are in exceptionally straight state.Pull slide block 5 to move up and down by stay cord 1 and stay cord 2 61, can accurately control the movement of slide block 5.Stay cord 1 and stay cord 2 61 are all through installing plate and fixed block 2, on installing plate, be fixed with angle sheave 2 65 and angle sheave 3 66, stay cord 1 is resisted against on angle sheave 2 65 near one end of roller 1, and stay cord 2 61 is resisted against on angle sheave 3 66 near one end of roller 2 63.On the rotation axis of motor, fix active drive tooth 67, on erecting bed 11, be rotatably connected to passive matrix tooth 68, active drive tooth 67 engages with passive matrix tooth 68, passive matrix tooth 68 is between gear 1 and gear 2 631, passive matrix tooth 68 engages with gear 1 and gear 2 631 simultaneously, and stay cord one 6 windings are the opposite direction at roller 2 63 in the direction of roller 1 and stay cord 2 61 windings.Can move on slide block 5 by said structure time, pull by stay cord 1, in the time that slide block 5 moves down, pull by stay cord 2 61.The diameter of gear 1 and gear 2 631 and the number of teeth are all identical.Ensure that stay cord 1 and stay cord 2 61 synchronously rotate.

As shown in Figure 1, fixed block 2 is circular platform type, on the less end face of fixed block 2 diameters, be vertically fixed with fixed bar 21, fixed bar 21 has external thread, erecting bed 11 is provided with mounting hole 111, fixed bar 21 is threaded on the mounting hole 111 of erecting bed 11, and guide pole 4 is vertically fixed on the end face that fixed block 2 diameters are larger.Fixed block 2 can disassemble, and can select according to different socks, and the fixed block 2 that is circular platform type can strut the stocking blank of socks entangle firm.On fixed block 2, be arranged with locating ring 23, the internal diameter of locating ring 23 is less than the maximum gauge of fixed block 2, and the medial surface of locating ring 23 is inclined-plane, the medial surface of locating ring 23 can with the lateral surface laminating of fixed block 2 against.To be enclosed within socks laminating on fixed block 2 by locating ring 23 is fixed on fixed block 2.On the lateral surface of fixed block 2, be fixed with some friction rings 22.Friction ring 22 socks stocking blank increase friction force while being enclosed within on fixed block 2.

As shown in Figure 1, be vertically fixed with screw rod 31 on worktable 1, lifting table 32 has been threaded on screw rod 31, lifting table 32 be positioned at fixed block 2 under, on the upper table surface of lifting table 32, have annular slot, slidably connect sliding shoe 33 on annular slot, geometrical clamp is fixed on sliding shoe 33.In the time encountering the socks of different sizes, by regulating the position of lifting table 32 to make geometrical clamp keep socks naturally to stretch in the time clamping the lower end of socks, sliding shoe 33 makes lifting table 32 after rotation, can regulate the position of geometrical clamp.

As shown in Figures 2 and 3, be fixed with connecting link 71 on lug boss 52, connecting link 71 distributes radially, and the medial surface of tension link 7 and connecting link 71 are fixing.Tension link 7 is ellipse, has annular groove 72 on the lateral surface of tension link 7, is provided with inflation ring 73 in annular groove 72, and inflation ring 73 its lateral surface in the time being full of gas is given prominence to outside annular groove 72.The cross section of tension link 7 structures and foot is suitable, can accurately simulate the degree that struts socks.On the cell wall of annular groove 72, be fixed with fixed bolster 74, inflation ring 73 and fixed bolster 74 against, fixed bolster 74 and inflation ring 73 against side be adhesive faces.On the end face of tension link 7, there is the air-filled pore 75 being connected with annular groove 72.

Simulate the situation of pin while stretching into by tension link 7, drive tension link 7 repeatedly to move up and down by slide block 5, tension link 7 is moved up and down in socks strut socks to realize socks tension force permanance is detected.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various amendments or supplements or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present utility model or surmount the defined scope of appended claims.

Claims (7)

1. the drives structure in a socks tension force checkout equipment, checkout equipment comprises worktable and erecting bed, described erecting bed is fixed on the top of worktable by support, on described erecting bed, being removably fixed with can be by the fixed block fixing stocking blank of socks, on described worktable, be positioned at that be fixed with under fixed block can be by the geometrical clamp fixing lower end of socks, described fixed block is provided with guide pole, described guide pole vertically arranges, when socks are fixed between fixed block and geometrical clamp, guide pole is positioned at socks, described guide pole is provided with slide block, described guide pole is provided with the closure plate of the guide pole that can anti-limited slip block drops out, on described slide block, be fixed with tension link, the axis of described tension link and conllinear vertical with guide pole, it is characterized in that, this drives structure comprises motor, stay cord one and stay cord two, described motor is fixed on erecting bed, on described erecting bed, be also rotatably connected to roller one and roller two, one end of described stay cord one is fixed on roller one, the other end of stay cord one is fixed on the upper end of slide block, one end of described stay cord two is fixed on roller two, the other end of stay cord two is fixed on the lower end of slide block, in described closure plate, be fixed with angle sheave one, the middle part of described stay cord two is resisted against on the side face of angle sheave one through closure plate, on described roller one, be fixed with gear one, on described roller two, be fixed with gear two, described motor simultaneously driven wheel one and gear two rotate make roller one tighten up stay cord for the moment roller two decontrol stay cord two or roller one decontrol stay cord for the moment roller two tighten up stay cord two, stay cord one and stay cord two are in exceptionally straight state.

2. the drives structure in socks tension force checkout equipment according to claim 1, it is characterized in that, described stay cord one and stay cord two are all through installing plate and fixed block, on described installing plate, be fixed with angle sheave two and angle sheave three, described stay cord one is resisted against on angle sheave two near one end of roller one, and described stay cord two is resisted against on angle sheave three near one end of roller two.

3. the drives structure in socks tension force checkout equipment according to claim 2, it is characterized in that, on the rotation axis of described motor, fix active drive tooth, on described erecting bed, be rotatably connected to passive matrix tooth, described active drive tooth engages with passive matrix tooth, described passive matrix tooth is between gear one and gear two, and passive matrix tooth engages with gear one and gear two simultaneously, and described stay cord one winding is the opposite direction at roller two in the direction of roller one and stay cord two windings.

4. the drives structure in socks tension force checkout equipment according to claim 3, is characterized in that, diameter and the number of teeth of described gear one and gear two are all identical.

5. the drives structure in socks tension force checkout equipment according to claim 1, it is characterized in that, described guide pole comprises guide rod one and guide rod two, described guide rod one and guide rod two be arranged in parallel, on described guide rod one and guide rod two, all there is groove along its length, groove on described guide rod one and guide rod two is oppositely arranged, and described slide block is slidably connected between the groove on guide rod one and guide rod two.

6. the drives structure in socks tension force checkout equipment according to claim 5, it is characterized in that, described slide block comprises body and is positioned at the lug boss of body both sides, described body is between guide rod one and guide rod two, the two ends of described body lay respectively in the groove on guide rod one and guide rod two, described body is positioned on the side of the groove on guide rod one and guide rod two and offers locating slot, in described locating slot, be rotatably connected to some balls, the cell wall of described ball and groove against, described lug boss passes the gap between guide rod one and guide rod two.

7. the drives structure in socks tension force checkout equipment according to claim 5, is characterized in that, described closure plate is fixed between the lower end of guide rod one and the lower end of guide rod two, and described closure plate is by the lower end closed of the groove on guide rod one and guide rod two.