CN205171125U - Automatic transfer sign indicating number positioning mechanism - Google Patents

Abstract

The utility model relates to an automatic transfer sign indicating number positioning mechanism, construct and transfer the ink recorder to construct including the swager, wherein the swager constructs presses the flitch and presses material drive arrangement including the polylith, press material drive arrangement with it is used for the drive to press the flitch to connect press the flitch motion in order to be used for pushing down sewing material, transfer the ink recorder construct with it is used for the drive to press the flitch to connect press the flitch motion in order to adjust the distance between the flitch is pressed to the polylith. This automatic transfer sign indicating number positioning mechanism accessible is transferred the ink recorder to construct drive pressure flitch and is moved the distance between the automatically regulated polylith pressure flitch to with sewing material's the size looks adaptation of treating processing, thereby to not unidimensional sewing material, need not to change and pressing the flitch, the suitability is strong, and can use manpower sparingly, adjust the convenience, is favorable to improving production efficiency.

Description

Automatic size adjusting detent mechanism

Technical field

The utility model relates to mechanical field, especially relates to a kind of automatic size adjusting detent mechanism.

Background technology

In traditional sewing piece sewing process, workman needs to add auxiliary full pattern by hand according to different size and difform sewing piece and completes sewing work.Along with the development of sewing device, more existing sewing modules customized for the shape and size of the sewing piece of different size in the market, machine can complete sewing automatically on request.But use such sewing module to need often according to the needs of size, manually change sewing module, troublesome poeration, and after having changed module, also need to expend more manpower and carry out tune machine and try out, efficiency is not high.

Utility model content

Based on this, be necessary to provide a kind of automatic size adjusting detent mechanism that can improve working (machining) efficiency.

A kind of automatic size adjusting detent mechanism, comprises feeding pressure mechanism and adjusts ink recorder structure; Wherein said feeding pressure mechanism comprises polylith holding pad and binder drive unit, and described binder drive unit is connected for driving described holding pad to move for pushing down sewing piece with described holding pad; Described tune ink recorder structure is connected with described holding pad for driving described holding pad to move to regulate the distance between described polylith holding pad.

Wherein in an embodiment, described feeding pressure mechanism also comprises first substrate and second substrate; Described second substrate is actively installed on described first substrate; Described binder drive unit comprises lower hydraulic driver and longitudinal driving device; Described lower hydraulic driver is located on described second substrate, and holding pad correspondence described in every block connects a described lower hydraulic driver and can be pressed down by corresponding described lower hydraulic driver driving; Described longitudinal driving device is located on described first substrate, and is connected with described second substrate for driving the lengthwise movement on described first substrate of described second substrate, and then drives described holding pad lengthwise movement.

Wherein in an embodiment, described tune ink recorder structure is located on described second substrate, described lower hydraulic driver is actively installed on described second substrate, and described tune ink recorder structure is connected with described lower hydraulic driver and is used for by driving described lower hydraulic driver transverse movement to drive described holding pad transverse movement.

Wherein in an embodiment, described tune ink recorder structure comprises multiple tune code drive unit, and each described lower hydraulic driver correspondence connects a described tune code drive unit.

Wherein in an embodiment, described tune code drive unit is motor, and the output shaft of described tune code drive unit is connected with the screw rod of horizontally set for driving described screw rod to rotate, and the base of described lower hydraulic driver is connected with described screw flight by slide block; Described tune code drive unit rotarily drives described slide block movement by driving described screw rod, and then drives described lower hydraulic driver transverse movement.

Wherein in an embodiment, described holding pad is provided with swage set piece, and described swage set piece and described holding pad are movably hinged, and by rotating the position of the relatively described holding pad of the adjustable described swage set piece of described swage set piece.

Wherein in an embodiment, each described holding pad is provided with multiple swage set piece, and multiple described swage set piece coordinates and is used for the edge local of described sewing piece and spacing.

Above-mentioned automatic size adjusting detent mechanism regulates the distance between polylith holding pad automatically by the motion of tune ink recorder structure driving holding pad, with suitable with the size of sewing piece to be processed, thus for the sewing piece of different size, without the need to changing holding pad, applicability is strong, and manpower, easy to adjust can be saved, be conducive to enhancing productivity.

Accompanying drawing explanation

Fig. 1 be an embodiment can the structural representation of sewing system of automatic size adjusting;

Fig. 2 is the structural representation of feeding pressure mechanism in Fig. 1.

Detailed description of the invention

For the ease of understanding the utility model, below with reference to relevant drawings, the utility model is described more fully.Preferred embodiment of the present utility model is given in accompanying drawing.But the utility model can realize in many different forms, is not limited to embodiment described herein.On the contrary, provide the object of these embodiments be make the understanding of disclosure of the present utility model more comprehensively thorough.

It should be noted that, when element is called as " being fixed on " another element, directly can there is element placed in the middle in it on another element or also.When an element is considered to " connection " another element, it can be directly connected to another element or may there is centering elements simultaneously.

Unless otherwise defined, all technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model understand usually.The object of the term used in description of the present utility model herein just in order to describe specific embodiment, is not intended to be restriction the utility model.Term as used herein " and/or " comprise arbitrary and all combinations of one or more relevant Listed Items.

As shown in Figure 1, the sewing system 10 of automatic size adjusting can the comprising workbench 100, feeding pressure mechanism 200, adjust ink recorder structure 300, feed mechanism (not shown), sewing machine mechanism 400, air suction mechanism 500, sewing track indicating mechanism 600 and receiving mechanism 700 an of embodiment.

Workbench 100 have blowing station 102 and sewing station 104.Feeding pressure mechanism 200, tune ink recorder structure 300, feed mechanism (not shown), sewing machine mechanism 400, air suction mechanism 500, sewing track indicating mechanism 600 and receiving mechanism 700 are located on workbench 100.

Incorporated by reference to Fig. 1 and Fig. 2, the feeding pressure mechanism 200 of the present embodiment comprises first substrate 210, second substrate 220, holding pad 230 and binder drive unit 240.

First substrate 210 is located on workbench 100.Second substrate 220 is actively installed on first substrate 210.Binder drive unit 240 comprises lower hydraulic driver 242 and longitudinal driving device 244.Lower hydraulic driver 242 is located on second substrate 220, and is connected with holding pad 230, pushes down cut-parts for driving holding pad 230 to workbench 100 downward motion to coordinate with workbench 100.Longitudinal driving device 244 is located on first substrate 210.Longitudinal driving device 244 is connected with second substrate 220 for driving second substrate 220 lengthwise movement on first substrate 210.

In the present embodiment, holding pad 230 has polylith.Every block holding pad 230 correspondence connects a lower hydraulic driver 242 and can press down to workbench 100 by descending hydraulic driver 242 to drive accordingly.Longitudinal driving device 244 is by driving second substrate 220 lengthwise movement and then the lengthwise movement on workbench 100 of drive holding pad 230 on first substrate 210, to regulate the position of holding pad 230 on blowing station 102, holding pad 230 is pressed down in place, ensures machining accuracy.

Further, in the present embodiment, holding pad 230 is provided with swage set piece 232.Swage set piece 232 and holding pad 230 are movably hinged.Holding pad 230 pushes down sewing piece by swage set piece 232.Swage set piece 232 and holding pad 230 are movably hinged, thus can by rotating the adjustable position of swage set piece 232 on workbench 100 of swage set piece 232.Each holding pad 230 is provided with multiple swage set piece 232, and multiple swage set piece 232 coordinates and is used for positioning with spacing the edge of sewing piece.By regulating the position of swage set piece 232 on workbench 100, multiple swage set piece 232 can coordinate and surrounds different shapes, thus can adapt to difform sewing piece, can carry out accurately location and spacing to sewing piece.

Ink recorder structure 300 is adjusted to be located on workbench 100.Ink recorder structure 300 is adjusted to be connected distance for driving holding pad 230 to move to regulate between polylith holding pad 230 with holding pad 230.

Specifically in the present embodiment, ink recorder structure 300 is adjusted to be located on second substrate 220.The base of lower hydraulic driver 242 is actively installed on second substrate 220.Adjust ink recorder structure 300 to be connected with the base of lower hydraulic driver 242 to be used for by driving the transverse movement of lower hydraulic driver 242 to drive holding pad 230 transverse movement.

In the present embodiment, ink recorder structure 300 is adjusted to comprise multiple tune code drive unit 310.Each lower hydraulic driver 242 correspondence connects one and adjusts code drive unit 310.Adjust code drive unit 310 can be the driving mechanisms such as motor, the output shaft of code drive unit 310 is adjusted to be connected with the screw rod (not shown) of horizontally set as arranged, the base of lower hydraulic driver 242 is connected with this screw flight by slide block (not shown), when adjusting code drive unit 310 drive screw turns, can accommodation zone movable slider along screw motion, and then drive lower hydraulic driver 242 along screw motion, and resulting belt dynamic pressure flitch 230 is along screw rod transverse movement.Driving holding pad 230 to move respectively by arranging multiple tune code drive unit 310, accurately can control the distance between multiple holding pad 230, thus the sewing piece of different size can be adapted to.

The feeding pressure mechanism 200 of the present embodiment forms automatic size adjusting detent mechanism with adjusting ink recorder structure 300, this automatic size adjusting detent mechanism drives holding pad 230 to move the distance automatically regulated between polylith holding pad 230 by adjusting ink recorder structure 300, with suitable with the size of sewing piece to be processed, thus for the sewing piece of different size, without the need to changing holding pad 230, applicability is strong, and can save manpower, easy to adjust, is conducive to enhancing productivity.

Feed mechanism comprises feeding driving device.In the present embodiment, first substrate 210 is actively installed on workbench 100.Feeding driving device is connected with first substrate 210 and is used for by driving first substrate 210 to move to sewing station 104, and then drives whole feeding pressure mechanism 200 to move to sewing station 104, and the final sewing piece that drives moves to sewing station 104.

Sewing machine mechanism 400 is located on workbench 100, for sewing sewing piece.The below of sewing machine mechanism 400 is provided with this sewing station 104.

Air suction mechanism 500 has induced-draught fan.Workbench 100 is provided with inlet scoop on blowing station 102.Air suction mechanism 500 is by inlet scoop air draught.By arranging air suction mechanism 500, and arrange inlet scoop on the blowing station 202 of workbench 100, the sewing piece air draught of placement can be fixed by air intake device 500 air draught, prevents subsequent operation from causing sewing piece to offset, and ensures machining accuracy.

Sewing track indicating mechanism 600 is located at the top of blowing station 202 for indicating sewing track on sewing piece.In the present embodiment, sewing track indicating mechanism 600 comprises radium-shine lamp socket 610, color-changing lamp 620 and color-changing lamp apparatus for adjusting position 630.Color-changing lamp 620 has multiple, for forming cue mark on the sewing piece of below.Color-changing lamp apparatus for adjusting position 630 is connected with color-changing lamp 620, for regulating the position of color-changing lamp 620 on radium-shine lamp socket 610, thus for difformity, size and different sewing requirement, can indicate different sewing tracks.On sewing piece, sewing track is indicated by arranging sewing track indicating mechanism 600, roughly can judge whether the sewing piece put into meets processing request, for the sewing piece not meeting processing request, just can check out before the feeding of sewing station, the quality of the product produced can ensured further.

Receiving mechanism 700 comprises receiving vat 710, material collecting arm 720 and rewinding drive unit 730.Material collecting arm 720 can extend sewing station 104.Rewinding drive unit 730 to be located on workbench 100 and material collecting arm 720 can be driven to move to sewing station 104 and drive material collecting arm 720 to move to push down the good sewing piece of sewing to workbench 100, and drives this sewing piece to move.Receiving vat 710 is located at the side of workbench 100 for collecting the good sewing piece of sewing.By arranging receiving mechanism 700, after sewing completes, can automatic material receiving, without the need to artificial rewinding, efficiency is high.

In addition, this sewing system 10 of automatic size adjusting can also comprise controller, memory, input and the mechanism such as display unit and gauge tap.Controller is electrically connected with each drive unit, memory, input and display unit and gauge tap etc., for controlling corresponding drive unit action, and receives the control instruction of input instruction and gauge tap.Memory can store the movement range of action command for the sewing piece of different size and shape and corresponding mechanism, with handled easily, personnel select as required, automatic adjustment, tune code drive unit 310 as the present embodiment can be PLC motor, its Distance geometry size controlling slide block transverse movement can according to the programming Control of PLC, and be connected with memory, for regulating first, can manually input operation parameter regulate, this operating parameter of memory record, for when positioning the sewing piece of corresponding size more later, just can directly selection memory store operation note.Gauge tap can adopt easy to operate floor push, as arranged left food switch and right threading switch, wherein, returns and performs previous step action, perform next step action etc. after right threading switch is foot-operated after left food switch is foot-operated.

This can automatic size adjusting sewing system 10 operationally, first sewing piece can be put into blowing station 102, open air suction mechanism 500 air draught tentatively to fix sewing piece; Then control holding pad 230 to press down; Regulate the distance between holding pad 230 again, with suitable with the size of sewing piece to be processed, wherein, if process first for the sewing piece of a certain size, can manually input operation parameter regulate code drive unit 310 to regulate the distance between holding pad 230, and preserve this operating parameter, for the sewing piece of a certain size of existing operation note, directly can call the operation note of storage, controller controls to adjust the distance of code drive unit 310 automatically between adjustment holding pad 230; Treat between holding pad 230 distance adjustment after, rotate regulate swage set piece 232, the shape that multiple swage set piece 232 is surrounded and the shape of sewing piece to be processed suitable; Control holding pad 230 and push down sewing piece; Feed mechanism pushes sewing piece to sewing station 104, and completes sewing by sewing machine mechanism 400, finally by receiving mechanism 700 automatic material receiving.

This can the sewing system 10 of automatic size adjusting drive holding pad 230 to move the distance automatically regulated between polylith holding pad 230 by adjusting ink recorder structure 300, with suitable with the size of sewing piece to be processed, thus for the sewing piece of different size, without the need to changing holding pad, applicability is strong, and manpower, easy to adjust can be saved, be conducive to enhancing productivity.

Each technical characteristic of the above embodiment can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, be all considered to be the scope that this description is recorded.

The above embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to utility model patent scope.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (7)

1. an automatic size adjusting detent mechanism, is characterized in that, comprises feeding pressure mechanism and adjusts ink recorder structure; Wherein said feeding pressure mechanism comprises polylith holding pad and binder drive unit, and described binder drive unit is connected for driving described holding pad to move for pushing down sewing piece with described holding pad; Described tune ink recorder structure is connected with described holding pad for driving described holding pad to move to regulate the distance between described polylith holding pad.

2. automatic size adjusting detent mechanism as claimed in claim 1, it is characterized in that, described feeding pressure mechanism also comprises first substrate and second substrate; Described second substrate is actively installed on described first substrate;

Described binder drive unit comprises lower hydraulic driver and longitudinal driving device;

Described lower hydraulic driver is located on described second substrate, and holding pad correspondence described in every block connects a described lower hydraulic driver and can be pressed down by corresponding described lower hydraulic driver driving;

Described longitudinal driving device is located on described first substrate, and is connected with described second substrate for driving the lengthwise movement on described first substrate of described second substrate, and then drives described holding pad lengthwise movement.

3. automatic size adjusting detent mechanism as claimed in claim 2, it is characterized in that, described tune ink recorder structure is located on described second substrate, described lower hydraulic driver is actively installed on described second substrate, and described tune ink recorder structure is connected with described lower hydraulic driver and is used for by driving described lower hydraulic driver transverse movement to drive described holding pad transverse movement.

4. automatic size adjusting detent mechanism as claimed in claim 3, it is characterized in that, described tune ink recorder structure comprises multiple tune code drive unit, and each described lower hydraulic driver correspondence connects a described tune code drive unit.

5. automatic size adjusting detent mechanism as claimed in claim 4, it is characterized in that, described tune code drive unit is motor, the output shaft of described tune code drive unit is connected with the screw rod of horizontally set for driving described screw rod to rotate, and the base of described lower hydraulic driver is connected with described screw flight by slide block; Described tune code drive unit rotarily drives described slide block movement by driving described screw rod, and then drives described lower hydraulic driver transverse movement.

6. the automatic size adjusting detent mechanism according to any one of Claims 1 to 5, it is characterized in that, described holding pad is provided with swage set piece, described swage set piece and described holding pad hinged, and by rotating the position of the adjustable described swage set piece of described swage set piece relatively described holding pad.

7. automatic size adjusting detent mechanism as claimed in claim 6, it is characterized in that, each described holding pad is provided with multiple swage set piece, and multiple described swage set piece coordinates and is used for the edge local of described sewing piece and spacing.