CN201313982Y - Driving slide block component of computer embroidery machine - Google Patents

Abstract

The utility model discloses a driving slide block component of a computer embroidery machine, which comprises a slide block body and a first connecting plate. The first connecting plate is arranged at one side of the slide block body; the slide block body is fixedly provided with at least a pair of spindle and auxiliary shaft which are arranged in parallel; and the spindle and the auxiliary shaft are respectively sleeved with a roller. The driving slide block component is characterized in that the two sides of the slide block body are fixedly provided with a second connecting plate respectively; the second connecting plates and the slide block body form a cavity which is used for holding the roller; the roller is arranged in the cavity; and the lower end of the spindle and the lower end of the auxiliary shaft are fixedly arranged respectively on the second connecting plates. The utility model has the following advantages: the fulcrums at the two ends of the shaft bear the force jointly, thereby solving the problem of easy bending and even breakage when one end of the shaft is fixed; simultaneously the anti-bending capacity of the roller is enhanced, thereby leading to more stable sliding of the driving slide block component; and the service life of the driving slide block component is greatly prolonged.

Description

A kind of driving slide block assembly of computerized emboridering machine

Technical field

The utility model relates to a kind of driving mechanism of computerized emboridering machine, especially relates to a kind of driving slide block assembly of computerized emboridering machine.

Background technology

The computerized emboridering machine various pattern of can on cloth, embroidering out, because the head of embroidery machine is fixed, embroider pin when cloth is embroidered, embroidering pin just moves up and down, forming pattern then is to move under the drive of tabouret by cloth, therefore, can tabouret accurately arrive the key that assigned address is institute's embroidery pattern quality.Because multi-function embroidery machine relates to multiple embroidery and makes form, different embroideries is made form and is used dissimilar tabourets, some tabouret or even each stature use an independent tabouret, for reaching the uniformity of tabouret in the directions X motion, usually the displacement on the directions X is delivered to respectively on the different tabourets to the driving slide block assembly is installed on the driving guide rail at X, and change different tabourets for convenience, on this driving slide block assembly, also need to be provided with connecting plate, thus make whole tabouret and split tabouret can both carry out as requested X, Y to move.

Driving slide block assembly on the computerized emboridering machine is by bearing (setting) plate at present, two ditch ball bearings, connecting plate and Z type connecting plate are formed, two ditch ball bearings are coupling on bearing (setting) plate, two ditch ball bearings middle part is a concave surface, clamp slide rail on the driving guide rail by the two ditch ball bearings of two rows and be implemented in slip on the driving guide rail, carry out the transmission of power that X makes progress, but because two ditch ball bearing is coupling below bearing (setting) plate, along X when sliding, tabouret just is connected and drives the one-sided of slide block assembly, be easy to cause and be used to be coupling the bending shaft of two ditch ball bearings, make the gap that drives slide block assembly become big, and then the off-axis phenomenon appears, cause tabouret normally to move, influence the pattern quality of embroidery.And the connecting plate that is used to connect tabouret is installed in the upper surface of bearing (setting) plate, the part that contacts with guide rail at the lower surface of connecting plate is provided with regularly arranged teeth groove, the structure more complicated, and the junction strength ratio of connecting plate and bearing (setting) plate is lower, be damaged in the course of the work easily, and keep in repair cumbersome.

Summary of the invention

Technical problem to be solved in the utility model provides the driving slide block assembly of the computerized emboridering machine of a kind of easy to maintenance, good operation stability and long service life.

The utility model solves the problems of the technologies described above the technical scheme that is adopted: a kind of driving slide block assembly of computerized emboridering machine, comprise slider body and first connecting plate that is fixedly installed on a side of described slider body, be set with at least one pair of main shaft and asessory shaft side by side on the described slider body, be arranged with roller respectively on described main shaft and the described asessory shaft, the both sides of described slider body are set with second connecting plate respectively, form an inner chamber that holds described roller between described second connecting plate and the described slider body, described roller is arranged in the described inner chamber, and the lower end of described main shaft and the lower end of described asessory shaft are fixedly installed on respectively on described second connecting plate.

Be wholely set eccentric shaft part on the described asessory shaft, described roller housing is located on the described eccentric shaft part.

Described slider body is provided with respectively and described main shaft and the corresponding upper shaft hole of described asessory shaft, described second connecting plate is provided with respectively and described main shaft and the corresponding lower shaft hole of described asessory shaft, the upper end of described main shaft is arranged in the described upper shaft hole, the lower end of described main shaft is arranged in the described lower shaft hole, the upper end of described asessory shaft is arranged in the described upper shaft hole, the lower end of described asessory shaft is arranged in the described lower shaft hole, be bolted with horizontal holding screw on the described slider body, described main shaft is fixedlyed connected with described slider body by described holding screw, the upper end of described asessory shaft has been wholely set locating convex block, described locating convex block is provided with locating hole and rotating hole, described asessory shaft is by squeezing into alignment pin and described slider body axial restraint in described locating hole, described asessory shaft is radially fixing by described holding screw and described slider body.

Be provided with the gap between described first connecting plate and described second connecting plate, be provided with support wheel in the described gap, described first connecting plate is provided with back shaft, described back shaft passes described first connecting plate fixedlys connected with described second connecting plate, and described support wheel is coupling on described back shaft.

Described first connecting plate is wholely set on described slider body.

Described second connecting plate is wholely set on described slider body.

Described main shaft and described asessory shaft are two pairs, and arrange along the direction of driving guide rail.

Compared with prior art, the utility model has the advantages that because the both sides of slider body are set with second connecting plate respectively, and the two ends of main shaft and asessory shaft are fixedly installed on respectively on the slider body and second connecting plate, make the two ends fulcrum of axle stressed jointly, solved axle owing to an end is fixed the problem that causes easy bending even fracture, also increased simultaneously the counter-bending ability of roller, make that driving slide block assembly slides more stable, prolonged the service life that drives slide block assembly greatly, again owing between first connecting plate and second connecting plate, be connected with support wheel, make the connecting plate of winning flexible more and stable along the slip of driving guide rail, and can bear more power, also increased simultaneously the strong point of whole driving slide block assembly, make the operation that drives slide block assembly more steady, improved the quality of embroidery, in addition, first connecting plate and second connecting plate are wholely set respectively on slider body, and owing to the support wheel that is arranged between first connecting plate and second connecting plate is played a supporting role to first connecting plate, increased the intensity of first connecting plate and slider body junction, make it be not easy fracture, and make slider body self have the connecting plate that is used to connect tabouret, do not need to increase extra parts, and be wholely set locating convex block on the asessory shaft, asessory shaft is by squeezing into alignment pin and slider body axial restraint in locating hole, and it is radially fixing by horizontal holding screw and slider body, firmly fix, and locating convex block is provided with rotating hole, make things convenient for the rotation of asessory shaft, and regulate the spacings of two rows between the rollers, main shaft is also fixedlyed connected by between horizontal holding screw and the slider body, dismounting and change convenient.

Description of drawings

Fig. 1 is a part decomposing schematic representation of the present utility model;

Fig. 2 is an overall structure schematic diagram of the present utility model;

Fig. 3 is the structural representation of slider body of the present utility model;

Fig. 4 is the structural representation of asessory shaft of the present utility model.

The specific embodiment

Embodiment describes in further detail the utility model below in conjunction with accompanying drawing.

As shown in the figure, a kind of driving slide block assembly of computerized emboridering machine, comprise slider body 1 and first connecting plate 11 that is wholely set in a side of slider body 1, slider body 1 is provided with two pairs of main shaft 3 and the asessory shafts 2 arranged along the direction of driving guide rail (not shown), be wholely set eccentric shaft part 21 on the asessory shaft 2, be arranged with roller 4 respectively on main shaft 3 and the eccentric shaft part 21, the both sides of slider body 1 have been wholely set second connecting plate 12 respectively, form an inner chamber 13 that holds roller 4 between second connecting plate 12 and the slider body 1, roller 4 is arranged in the inner chamber 13, slider body 1 is provided with respectively the upper shaft hole 14 corresponding with main shaft 3 and asessory shaft 2, second connecting plate 12 is provided with respectively the lower shaft hole (not shown) corresponding with main shaft 3 and asessory shaft 2, the upper end of main shaft 3 is arranged in the upper shaft hole 14, the lower end of main shaft 3 is arranged in the lower shaft hole (not shown), the upper end of asessory shaft 2 is arranged in the upper shaft hole 14, the lower end of asessory shaft 2 is arranged in the lower shaft hole (not shown), be bolted with horizontal holding screw 5 on the slider body 1, main shaft 3 is fixedlyed connected with slider body 1 by holding screw 5, the upper end of asessory shaft 2 has been wholely set locating convex block 22, locating convex block 22 is provided with locating hole 23 and rotating hole 24, asessory shaft 2 is by squeezing into alignment pin (not shown) and slider body 1 axial restraint in locating hole 23, asessory shaft 2 is radially fixing by holding screw 5 and slider body 1, be provided with gap 15 between first connecting plate 11 and second connecting plate 12, be provided with support wheel 6 in the gap 15, back shaft 7 passes first connecting plate 11 fixedlys connected with second connecting plate 12, and support wheel 6 is coupling on back shaft 7.

Claims (7)

1, a kind of driving slide block assembly of computerized emboridering machine, comprise slider body and first connecting plate that is fixedly installed on a side of described slider body, be set with at least one pair of main shaft and asessory shaft side by side on the described slider body, be arranged with roller respectively on described main shaft and the described asessory shaft, the both sides that it is characterized in that described slider body are set with second connecting plate respectively, form an inner chamber that holds described roller between described second connecting plate and the described slider body, described roller is arranged in the described inner chamber, and the lower end of described main shaft and the lower end of described asessory shaft are fixedly installed on respectively on described second connecting plate.

2, the driving slide block assembly of a kind of computerized emboridering machine as claimed in claim 1 is characterized in that being wholely set on the described asessory shaft eccentric shaft part, and described roller housing is located on the described eccentric shaft part.

3, the driving slide block assembly of a kind of computerized emboridering machine as claimed in claim 1 or 2, it is characterized in that described slider body is provided with respectively and described main shaft and the corresponding upper shaft hole of described asessory shaft, described second connecting plate is provided with respectively and described main shaft and the corresponding lower shaft hole of described asessory shaft, the upper end of described main shaft is arranged in the described upper shaft hole, the lower end of described main shaft is arranged in the described lower shaft hole, the upper end of described asessory shaft is arranged in the described upper shaft hole, the lower end of described asessory shaft is arranged in the described lower shaft hole, be bolted with horizontal holding screw on the described slider body, described main shaft is fixedlyed connected with described slider body by described holding screw, the upper end of described asessory shaft has been wholely set locating convex block, described locating convex block is provided with locating hole and rotating hole, described asessory shaft is by squeezing into alignment pin and described slider body axial restraint in described locating hole, described asessory shaft is radially fixing by described holding screw and described slider body.

4, the driving slide block assembly of a kind of computerized emboridering machine as claimed in claim 1, it is characterized in that being provided with the gap between described first connecting plate and described second connecting plate, be provided with support wheel in the described gap, described first connecting plate is provided with back shaft, described back shaft passes described first connecting plate fixedlys connected with described second connecting plate, and described support wheel is coupling on described back shaft.

5, the driving slide block assembly of a kind of computerized emboridering machine as claimed in claim 1 is characterized in that described first connecting plate is wholely set on described slider body.

6, the driving slide block assembly of a kind of computerized emboridering machine as claimed in claim 1 is characterized in that described second connecting plate is wholely set on described slider body.

7, the driving slide block assembly of a kind of computerized emboridering machine as claimed in claim 1 is characterized in that described main shaft and described asessory shaft are two pairs, and arranges along the direction of driving guide rail.

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