CN106319789B - Embroidery machine, tool and assembly method - Google Patents

Abstract

The invention relates to the technical field of embroidery machines, and particularly discloses an embroidery machine comprising a positioning substrate, a tool for assembling a machine head, a shuttle box body, a Y-direction guide rail and an X-direction guide rail by taking the positioning substrate as a reference, and an assembling method. According to the embroidery machine, the base plate units are arranged on the rack in an end-to-end connection mode to form the positioning base plate used for installing the machine head and used as a reference installation reference of the shuttle box body, the Y-direction guide rail and the X-direction guide rail, and the embroidery machine has the advantages of simple structure, low processing cost, reduced processing difficulty and easier guarantee of processing precision; meanwhile, the standard is unified, the accumulated error is small, and the overall assembly and machining precision of the equipment is higher.

Description

Embroidery machine, tool and assembly method

Technical Field

The invention relates to the technical field of embroidery machines, in particular to an embroidery machine comprising a positioning base plate, a tool for assembling a machine head, a shuttle box body, a Y-direction guide rail and an X-direction guide rail by taking the positioning base plate as a reference, and an assembling method.

Background

The embroidery machine should include at least a frame and a head, a shuttle box body, a Y-direction guide rail, an X-direction guide rail, etc. mounted on the frame. The frame comprises a horizontal frame used for installing the shuttle box body and a vertical frame used for installing the machine head, and the installation surface of the shuttle box body is vertical to the installation surface of the machine head. In the current production and assembly process, a plurality of shuttle box body installation parts are firstly planed and milled on a horizontal rack along the length direction of the rack, the shuttle box body installation parts are provided with shuttle box body installation surfaces and fixing holes, meanwhile, machine head installation parts which correspond to the positions and the number of the shuttle box body installation parts one by one are planed and milled on a vertical rack, and the machine head installation parts are provided with machine head installation surfaces and fixing holes. In the assembling process, all the shuttle box bodies are installed by taking the installation surface of the machine head as a reference, then the machine head is installed by taking the upper surface of the shuttle box body as a reference, the Y-direction guide rail is installed by taking the shuttle box body as a reference, and finally the X-direction guide rail is installed by taking the Y-direction guide rail as a reference.

The above-mentioned machining and assembly processes have the following drawbacks:

(1) because the shuttle box body and the machine head of the embroidery machine are fewer than dozens of heads and more than dozens of heads, the length of the embroidery machine can also reach dozens of meters or even dozens of meters, so when the shuttle box body installation part and the machine head installation part are planed and milled, in order to ensure that all the shuttle box body installation parts and the machine head installation parts are uniform in reference, the machining is preferably completed on a planing and milling machine at one time, but the common planing and milling machine cannot meet the machining requirement of dozens of meters in length, if the planing and milling machine is customized, the cost is too high, the equipment utilization rate is low, and common enterprises cannot bear the force; if the processing is carried out section by section, the consistency of the shuttle box body installation part and the machine head installation part is poor due to the fact that processing benchmarks are not uniform, and therefore the precision of the equipment is reduced.

(2) The shuttle box body is installed by taking the installation surface of the machine head as a reference, the machine head and the Y-direction guide rail are installed by taking the shuttle box body as a reference, the X-direction guide rail is installed by taking the Y-direction guide rail as a reference, the positioning reference is not uniform in the assembling process, and the shuttle box body and the Y-direction guide rail are used as the reference after being installed, so that error accumulation is easily caused, the error accumulation is difficult to eliminate through a process, and the integral precision of equipment is also influenced.

Disclosure of Invention

The invention aims to provide an embroidery machine comprising a positioning base plate, and an assembly tool and an assembly method for assembling a machine head, a shuttle box body, a Y-direction guide rail and an X-direction guide rail by taking the positioning base plate as a reference datum.

In order to solve the technical problems, the technical scheme provided by the invention is as follows: the utility model provides an embroidery machine, includes the frame, the frame includes horizontal frame and vertical frame, install the location base plate in the vertical frame, the last preceding reference surface that is equipped with of location base plate, be equipped with a plurality ofly on the preceding reference surface and be used for fixing a position Y to the location installation department of guide rail and X to the guide rail, the location installation department includes two at least screw holes and two at least pinholes, the location base plate is formed by connecting a plurality of base plate unit end to end.

The embroidery machine with the structure has the following advantages:

(1) the machine head installation part and the shuttle box body installation part on the rack are not required to be machined by a large-scale boring and milling machine, only the base plate units are machined by a common machine tool, and the base plate units are installed on the rack in an end-to-end connection mode to form a positioning base plate for installing the machine head and serving as reference installation bases of the shuttle box body, the Y-direction guide rail and the X-direction guide rail;

(2) the machine head, the shuttle box body, the Y-direction guide rail and the X-direction guide rail all use the positioning base plate as an installation reference, the references are unified, the accumulated error is small, and the integral assembly and machining precision of the equipment is improved.

Further, the substrate unit is made of an aluminum base profile.

Furthermore, the end faces of the head and tail connecting sections of the substrate units are provided with positioning pin holes.

The shuttle box body assembling tool comprises an upper positioning part and a lower positioning part, wherein the upper positioning part is provided with a first vertical positioning surface which is used for being attached to a front reference surface of a positioning base plate, and the first vertical positioning surface is provided with a mounting hole which is matched with a threaded hole in a positioning mounting part and a positioning pin hole which is matched with a pin hole in the positioning mounting part; the lower surface of the lower positioning part is a shuttle box body positioning plane, and at least two bolt holes are formed in the shuttle box body positioning plane.

A method for assembling a shuttle box body by using the shuttle box body assembling tool comprises the following steps:

(1) positioning and mounting the shuttle box body assembly tool on a positioning base plate, firstly, fitting a first vertical positioning surface of an upper positioning part with a front reference surface of the positioning base plate and positioning through a positioning pin; then fixing the shuttle box body assembly tool with the positioning substrate through bolts;

(2) placing the shuttle box body on a shuttle box body installation part below the shuttle box body assembly tool, enabling the upper surface of the shuttle box body to be attached to a shuttle box body positioning plane of the lower positioning part, positioning through a positioning pin, and fixing the shuttle box body on the rack through a bolt after positioning is finished;

(3) and (3) after the shuttle box body is fixedly installed, detaching the shuttle box body assembly tool, and repeating the steps (1) and (2) to complete the assembly of all the shuttle box bodies.

A method for assembling a machine head is characterized in that a machine head mounting surface is attached to a front datum plane of a positioning substrate, positioning is carried out through a positioning pin, and the machine head is fixed on the positioning substrate through a bolt after the positioning is finished.

A Y-direction guide rail assembling tool comprises a first transverse support and a first vertical support, wherein a first inclined support is arranged between the first transverse support and the first vertical support; the vertical support I is provided with a vertical positioning surface II which is used for being attached to a front reference surface of the positioning substrate; the lower surface of the transverse support I is a Y-direction guide rail positioning surface, and at least two positioning pin holes I are arranged on the Y-direction guide rail positioning surface; the first transverse support and the second vertical positioning surface are positioned on the same side of the first vertical support; and the second vertical positioning surface is provided with a mounting hole matched with the threaded hole in the positioning mounting part and a positioning pin hole matched with the pin hole in the positioning mounting part.

A method for assembling a Y-direction guide rail by using the Y-direction guide rail assembling tool comprises the following steps:

(1) positioning and mounting a Y-direction guide rail assembly tool on a positioning base plate, enabling a vertical positioning surface II of a vertical support I to be attached to a front reference surface of the positioning base plate and to be positioned through a positioning pin, and fixing the Y-direction guide rail assembly tool on the positioning base plate through a bolt after positioning is finished;

(2) and placing the Y-direction guide rail at the Y-direction guide rail mounting position below the Y-direction guide rail assembly tool, attaching the upper surface of the Y-direction guide rail to the lower surface of the transverse support I, positioning through a positioning pin, and fixing through a bolt after positioning is completed.

An X-direction guide rail assembling tool comprises a second transverse support and a second vertical support, wherein a second inclined support is arranged between the second transverse support and the second vertical support; the vertical support II is provided with a vertical positioning surface III which is used for being attached to a front reference surface of the positioning substrate; the lower surface of the transverse bracket II is an X-direction guide rail positioning surface, and at least one positioning pin hole II is formed in the X-direction guide rail positioning surface; the second transverse support and the third vertical positioning surface are positioned on different sides of the second vertical support; and the third vertical positioning surface is provided with a mounting hole matched with the threaded hole in the positioning mounting part and a positioning pin hole matched with the pin hole in the positioning mounting part.

A method for assembling an X-direction guide rail by using the X-direction guide rail assembling tool comprises the following steps:

(1) positioning and mounting a pair of X-direction guide rail assembling tools on a positioning base plate, enabling a vertical positioning surface III of a vertical support II to be attached to a front reference surface of the positioning base plate and to be positioned through a positioning pin, and fixing the X-direction guide rail assembling tools on the positioning base plate through bolts after positioning is completed;

(2) and placing the X-direction guide rails at the mounting positions of the X-direction guide rails below the pair of X-direction guide rail assembly tools, attaching the upper surfaces of the X-direction guide rails to the lower surfaces of the pair of transverse brackets II, positioning through positioning pins, and fixing through bolts after positioning is completed.

Drawings

FIG. 1 is a schematic view of the installation of a shuttle box body and a Y-direction guide rail in the embroidery machine of the embodiment;

FIG. 2 is a schematic structural diagram of the Y-guide rail assembling tool of the present embodiment;

fig. 3 is a schematic structural view of the shuttle box assembly tooling of the embodiment;

FIG. 4 is a schematic view of a back side structure of the shuttle box assembly tooling shown in FIG. 3;

FIG. 5 is a schematic view showing the installation of the X-direction guide rail in the embroidery machine of the present embodiment;

FIG. 6 is a schematic structural diagram of an X-direction rail assembling tool according to this embodiment;

fig. 7 is a partial structural schematic view of a positioning mounting portion on the positioning substrate according to the embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, an embroidery machine of the present embodiment includes a frame 10, and the frame 10 includes a horizontal frame and a vertical frame. As the greatest improvement of the embodiment, a positioning base plate 20 is mounted on the vertical rack, and a front reference surface 22 is arranged on the positioning base plate 20. Wherein, a plurality of positioning installation parts 21 are arranged on the front reference surface and are used for installing the machine head and positioning and installing the shuttle box body, the Y-direction guide rail and the X-direction guide rail. As shown in fig. 7, the positioning and mounting portion 21 includes at least two screw holes 23 and at least two pin holes 24, and preferably, in the present embodiment, the number of the screw holes 23 is 3, and the number of the pin holes 24 is 2. Of course, this is not the only limitation to this embodiment, and the number of the pin holes may be greater than 2, and the number of the screw holes may also be 2. Furthermore, the positioning substrate is formed by connecting a plurality of substrate units end to end. Preferably, the substrate unit is made of an aluminum-based profile, and has the advantages of low cost, high positioning precision and light weight. Furthermore, the end faces of the head and tail connecting sections of the substrate units are provided with positioning pin holes.

The embroidery machine with the structure has the following advantages:

(1) the machine head installation part and the shuttle box body installation part on the rack are not required to be machined by a large-scale boring and milling machine, only the base plate units are machined by a common machine tool, and the base plate units are installed on the rack in an end-to-end connection mode to form a positioning base plate for installing the machine head and serving as reference installation bases of the shuttle box body, the Y-direction guide rail and the X-direction guide rail;

(2) the machine head, the shuttle box body, the Y-direction guide rail and the X-direction guide rail all use the positioning base plate as an installation reference, the references are unified, the accumulated error is small, and the integral assembly and machining precision of the equipment is improved.

As shown in fig. 3 and 4, the shuttle box assembling tool 40 of the present embodiment includes an upper positioning portion 41 and a lower positioning portion 42. Wherein the upper positioning part 41 is provided with a first vertical positioning surface 45 for being attached to the positioning substrate front reference surface 22. And the first vertical positioning surface 45 is provided with a mounting hole 43 matched with the threaded hole on the positioning mounting part and a positioning pin hole 44 matched with the pin hole on the positioning mounting part. The lower surface of the lower positioning portion of this embodiment is a shuttle box positioning plane 46, and at least two bolt holes 47 are provided on the shuttle box positioning plane 46.

As shown in fig. 2, the Y-direction rail assembling tool 30 of the embodiment includes a first transverse support 31 and a first vertical support 32, wherein a first inclined support 33 is disposed between the first transverse support 31 and the first vertical support 32, so as to improve the connection strength between the first transverse support 31 and the first vertical support 32, and the structural stability is better. And a second vertical positioning surface 34 used for being attached to the front reference surface 22 of the positioning base plate is arranged on the first vertical support 32.

Furthermore, the lower surface of the transverse support I31 is a Y-direction guide rail positioning surface 35, at least two positioning pin holes I36 are arranged on the Y-direction guide rail positioning surface, and correspondingly pin holes corresponding to the positions are arranged on the upper surface of the Y-direction guide rail. And the first transverse support 31 and the second vertical positioning surface 34 are positioned on the same side of the first vertical support 32. And the second vertical positioning surface 34 is provided with a mounting hole (not shown) corresponding to the threaded hole on the positioning mounting part and a positioning pin hole (not shown) matched with the pin hole on the positioning mounting part. It should be noted that the mounting holes and the positioning pin holes on the second vertical positioning surface 34 are the same as those on the shuttle box assembling tool shown in fig. 3.

As shown in fig. 6, the X-direction rail assembling tool 50 of the present embodiment includes a second transverse bracket 52 and a second vertical bracket 51, and a second oblique bracket 53 is disposed between the second transverse bracket 52 and the second vertical bracket 51. And a third vertical positioning surface 54 for being attached to the front reference surface 22 of the positioning substrate is arranged on the second vertical support 51. In this embodiment, the lower surface of the second transverse support is an X-direction guide rail positioning surface 55, at least one second positioning pin hole 56 is arranged on the X-direction guide rail positioning surface, and a corresponding pin hole is correspondingly arranged on the upper surface of the X-direction guide rail. And the second transverse support and the third vertical positioning surface are positioned on different sides of the second vertical support. And the third vertical positioning surface is provided with a mounting hole (not shown in the figure) corresponding to the threaded hole on the positioning mounting part and a positioning pin hole (not shown in the figure) matched with the pin hole on the positioning mounting part. It should be noted that the mounting holes and the positioning pin holes on the second vertical positioning surface 34 are the same as those on the shuttle box assembling tool shown in fig. 3.

The embroidery machine assembly of the embodiment should include an assembly method of the shuttle box body, the machine head, the Y-direction guide rail and the X-direction guide rail.

The method for assembling the shuttle box body by using the shuttle box body assembling tool comprises the following steps:

(1) positioning and mounting the shuttle box body assembly tool on a positioning base plate, firstly, fitting a first vertical positioning surface of an upper positioning part with a front reference surface of the positioning base plate and positioning through a positioning pin; then fixing the shuttle box body assembly tool with the positioning substrate through bolts;

(2) placing the shuttle box body on a shuttle box body installation part below the shuttle box body assembly tool, enabling the upper surface of the shuttle box body to be attached to a shuttle box body positioning plane of the lower positioning part, positioning through a positioning pin, and fixing the shuttle box body on the rack through a bolt after positioning is finished;

(3) and (3) after the shuttle box body is fixedly installed, detaching the shuttle box body assembly tool, and repeating the steps (1) and (2) to complete the assembly of all the shuttle box bodies.

After the shuttle box body is installed, the machine head can be installed by utilizing the machine head installation hole. And (3) attaching the machine head mounting surface to the front datum plane of the positioning substrate, positioning by a positioning pin, and fixing the machine head on the positioning substrate by a bolt after positioning. In the machine head installation mode, a tool is not needed, the assembly process is simple, and the assembly efficiency is high.

Further, in this embodiment, the method for assembling the Y-direction guide rail by using the Y-direction guide rail assembling tool includes the following steps:

(1) positioning and mounting a Y-direction guide rail assembly tool on a positioning base plate, enabling a vertical positioning surface II of a vertical support I to be attached to a front reference surface of the positioning base plate and to be positioned through a positioning pin, and fixing the Y-direction guide rail assembly tool on the positioning base plate through a bolt after positioning is finished;

(2) and placing the Y-direction guide rail at the Y-direction guide rail mounting position below the Y-direction guide rail assembly tool, attaching the upper surface of the Y-direction guide rail to the lower surface of the transverse support I, positioning through a positioning pin, and fixing through a bolt after positioning is completed. Through the mode of locating pin location, simple structure, convenient operation, and positioning accuracy is high.

It should be noted that the installation of the remaining Y-direction guide rails is flexible, and the mounting may still be performed by the above method, or the first installed Y-direction guide rail may also be used as a reference, and the specific assembly manner is not described in detail herein. It should be understood that in the present embodiment, the innovative point lies in the installation of the first Y-rail.

Further, in this embodiment, the method for assembling the X-direction guide rail by using the X-direction guide rail assembling tool includes the following steps:

(1) positioning and mounting a pair of X-direction guide rail assembling tools on a positioning base plate, enabling a vertical positioning surface III of a vertical support II to be attached to a front reference surface of the positioning base plate and to be positioned through a positioning pin, and fixing the X-direction guide rail assembling tools on the positioning base plate through bolts after positioning is completed;

(2) and placing the X-direction guide rails at the mounting positions of the X-direction guide rails below the pair of X-direction guide rail assembly tools, attaching the upper surfaces of the X-direction guide rails to the lower surfaces of the pair of transverse brackets II, positioning through positioning pins, and fixing through bolts after positioning is completed. Through the mode of locating pin location, simple structure, convenient operation, and positioning accuracy is high.

In the same manner as the Y-direction rail mounting method, the mounting of the remaining X-direction rails is not further limited in this embodiment.

In conclusion, the above description is only for the preferred embodiment of the present invention and should not be construed as limiting the present invention, and any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an embroidery machine, includes the frame, the frame includes horizontal frame and vertical frame, its characterized in that, install the location base plate in the vertical frame, be equipped with preceding reference surface on the location base plate, be equipped with a plurality of location installation departments that are used for installing the aircraft nose and are used for location installation shuttle box, Y to guide rail and X to the guide rail on the preceding reference surface, the location installation department includes two at least screw holes and two at least pinhole, the location base plate is formed by the end to end connection of a plurality of base plate units.

2. The embroidery machine as claimed in claim 1, wherein said base plate unit is made of an aluminum base profile.

3. The embroidery machine as claimed in claim 1 or 2, wherein the base unit is provided with a dowel hole on an end surface of the head-to-tail connecting section.

4. A shuttle box body assembling tool used on an embroidery machine as claimed in any one of claims 1 to 3, characterized by comprising an upper positioning part and a lower positioning part, wherein the upper positioning part is provided with a first vertical positioning surface for being attached to a front reference surface of a positioning base plate, and the first vertical positioning surface is provided with a mounting hole matched with a threaded hole on the positioning mounting part and a positioning pin hole matched with a pin hole on the positioning mounting part; the lower surface of the lower positioning part is a shuttle box body positioning plane, and at least two bolt holes are formed in the shuttle box body positioning plane.

5. A method of assembling a shuttle housing using the shuttle housing assembly tooling of claim 4, comprising the steps of:

(1) positioning and mounting the shuttle box body assembly tool on a positioning base plate, firstly, fitting a first vertical positioning surface of an upper positioning part with a front reference surface of the positioning base plate and positioning through a positioning pin; then fixing the shuttle box body assembly tool with the positioning substrate through bolts;

(2) placing the shuttle box body on a shuttle box body installation part below the shuttle box body assembly tool, enabling the upper surface of the shuttle box body to be attached to a shuttle box body positioning plane of the lower positioning part, positioning through a positioning pin, and fixing the shuttle box body on the rack through a bolt after positioning is finished;

(3) and (3) after the shuttle box body is fixedly installed, detaching the shuttle box body assembly tool, and repeating the steps (1) and (2) to complete the assembly of all the shuttle box bodies.

6. A method of assembling a head on the embroidery machine according to any one of claims 1 to 3, wherein the head mounting surface is attached to a front reference surface of a positioning base plate and positioned by a positioning pin, and the head is fixed to the positioning base plate by a bolt after the positioning is completed.

7. The Y-direction guide rail assembling tool used on the embroidery machine as claimed in any one of claims 1 to 3, which comprises a first transverse bracket and a first vertical bracket, wherein a first inclined bracket is arranged between the first transverse bracket and the first vertical bracket; the vertical support I is provided with a vertical positioning surface II which is used for being attached to a front reference surface of the positioning substrate; the lower surface of the transverse support I is a Y-direction guide rail positioning surface, and at least two positioning pin holes I are arranged on the Y-direction guide rail positioning surface; the first transverse support and the second vertical positioning surface are positioned on the same side of the first vertical support; and the second vertical positioning surface is provided with a mounting hole matched with the threaded hole in the positioning mounting part and a positioning pin hole matched with the pin hole in the positioning mounting part.

8. A method of assembling a Y-rail using the Y-rail assembly fixture of claim 7, comprising the steps of:

(1) positioning and mounting a Y-direction guide rail assembly tool on a positioning base plate, enabling a vertical positioning surface II of a vertical support I to be attached to a front reference surface of the positioning base plate and to be positioned through a positioning pin, and fixing the Y-direction guide rail assembly tool on the positioning base plate through a bolt after positioning is finished;

(2) and placing the Y-direction guide rail at the Y-direction guide rail mounting position below the Y-direction guide rail assembly tool, attaching the upper surface of the Y-direction guide rail to the lower surface of the transverse support I, positioning through a positioning pin, and fixing through a bolt after positioning is completed.

9. An X-direction guide rail assembling tool used on the embroidery machine as claimed in any one of claims 1 to 3, which is characterized by comprising a second transverse bracket and a second vertical bracket, wherein a second inclined bracket is arranged between the second transverse bracket and the second vertical bracket; the vertical support II is provided with a vertical positioning surface III which is used for being attached to a front reference surface of the positioning substrate; the lower surface of the transverse bracket II is an X-direction guide rail positioning surface, and at least one positioning pin hole II is formed in the X-direction guide rail positioning surface; the second transverse support and the third vertical positioning surface are positioned on different sides of the second vertical support; and the third vertical positioning surface is provided with a mounting hole matched with the threaded hole in the positioning mounting part and a positioning pin hole matched with the pin hole in the positioning mounting part.

10. A method for assembling an X-direction guide rail by using the X-direction guide rail assembling tool of claim 9, comprising the steps of:

(1) positioning and mounting a pair of X-direction guide rail assembling tools on a positioning base plate, enabling a vertical positioning surface III of a vertical support II to be attached to a front reference surface of the positioning base plate and to be positioned through a positioning pin, and fixing the X-direction guide rail assembling tools on the positioning base plate through bolts after positioning is completed;

(2) and placing the X-direction guide rails at the mounting positions of the X-direction guide rails below the pair of X-direction guide rail assembly tools, attaching the upper surfaces of the X-direction guide rails to the lower surfaces of the pair of transverse brackets II, positioning through positioning pins, and fixing through bolts after positioning is completed.

Images