CN218756463U - Embroidery machine frame - Google Patents

Abstract

The utility model discloses an embroidery machine frame, which comprises a girder positioned above and a machine base positioned below; the crossbeam is provided with a plurality of suspension structures and backpack structures; the suspension structure comprises suspension cross beams which cross two sides of the girder and are connected with the girder, and two suspension longitudinal beams which are supported by the ground and are respectively connected with two ends of the suspension cross beams, wherein the suspension cross beams are used for bearing the weight of the girder; the backpack structure comprises a backpack suspension beam positioned at the rear side of the girder and connected with the girder, and a backpack longitudinal beam supported by the ground and connected with the backpack suspension beam; the backpack suspension beam basically does not bear the weight of the girder in the shutdown state of the embroidery machine, and is used for transmitting the vibration and the impact of the girder to the ground through the backpack longitudinal beam in the running state of the embroidery machine. The beneficial effects of the utility model reside in that, avoid the girder crooked, weaken the vibration of girder.

Description

Embroidery machine frame

Technical Field

The utility model relates to a frame, especially embroidery machine frame.

Background

In the technical field of embroidery machines, the main structure of a frame of the embroidery machine is a crossbeam and a machine base, the crossbeam is used for mounting machine heads of the embroidery machine, the machine body of the large-scale embroidery machine is longer, namely the length of the crossbeam is also longer, the quantity and the weight of the mounted machine heads of the embroidery machine are also relatively larger, and the longer the linear member of the crossbeam, the more the linear member is, the more the bending deformation is easily generated, so that the frame of the embroidery machine has higher requirements on the structure for bearing the weight of the crossbeam.

For example, patent application with publication number CN213113837U in the prior art discloses a spliced backpack structure of an embroidery machine frame, which comprises a backpack base body, wherein the backpack base body comprises an upper transverse section, a lower transverse section and a longitudinal section connected between the upper transverse section and the lower transverse section, the upper transverse section, the lower transverse section and the longitudinal section form a C-shaped backpack, and the spliced backpack structure further comprises a splicing component detachably connected to the longitudinal section; the embroidery machine frame comprises a top beam, a bottom beam and the splicing type backpack structure, wherein the splicing type backpack structure is connected with the top beam and the bottom beam. The frame of the embroidery machine bears the weight by the backpack structure connected with the crossbeam, the backpack structure can bear relatively weaker load for a small embroidery machine, and the upper transverse section of the backpack structure is easy to bend and deform for a large embroidery machine, so that the crossbeam is bent and deformed.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide an embroidery machine frame avoids the girder crooked, weakens the vibration of girder.

The utility model discloses a realize through following technical scheme.

An embroidery machine frame comprises a girder positioned above and a machine base positioned below; the crossbeam is provided with a plurality of suspension structures and backpack structures;

the suspension structure comprises suspension cross beams which cross two sides of the girder and are connected with the girder, and two suspension longitudinal beams which are supported by the ground and are respectively connected with two ends of the suspension cross beams, wherein the suspension cross beams are used for bearing the weight of the girder;

the backpack structure comprises a backpack suspension beam positioned at the rear side of the girder and connected with the girder, and a backpack longitudinal beam supported by the ground and connected with the backpack suspension beam; the backpack suspension beam basically does not bear the weight of the girder in the shutdown state of the embroidery machine, and is used for transmitting the vibration and the impact of the girder to the ground through the backpack longitudinal beam in the running state of the embroidery machine.

As a further improvement, the embroidery machine frame is formed by splicing a plurality of frame monomers, and each frame monomer comprises a girder monomer and a frame monomer.

As the utility model discloses a further improvement, arbitrary adjacent two the girder monomer does not connect, arbitrary adjacent two the connection can be dismantled to the frame monomer.

As a further improvement of the utility model, two adjacent wantonly girder monomer, two adjacent wantonly the frame monomer all can be dismantled and connect.

As a further improvement of the utility model, any two adjacent stand monomers are respectively provided with at least one corresponding reference transverse plate at the top of the splicing end; the top surface of benchmark diaphragm forms the benchmark face, and the laminating sets up first connecting plate on the benchmark face of two corresponding benchmark diaphragms, and first connecting plate is dismantled with two benchmark diaphragms respectively by a plurality of fasteners and is connected.

As a further improvement of the utility model, the bottom of the frame single body is provided with bottom beam single bodies which are mutually spaced; and any two adjacent bottom beam single bodies are jointed with the outer side surfaces of the splicing ends to form a second connecting plate, and the second connecting plate is detachably connected with the two bottom beam single bodies respectively through a plurality of fasteners.

As a further improvement of the utility model, each girder monomer is provided with at least one suspension structure.

As a further improvement of the present invention, the girder unit is provided with two suspension structures, and the suspension beams of the two suspension structures are respectively connected to the positions near the two ends of the girder unit.

As the further improvement of the utility model, two arbitrary adjacent girder monomers share a suspension structure, suspension structure's suspension crossbeam connects simultaneously and corresponds two adjacent girder monomers.

As a further improvement of the present invention, the two ends of the girder are respectively provided with a supporting structure, and the supporting structure comprises a supporting beam and two supporting longitudinal beams, wherein the two ends of the supporting beam are respectively located at the two sides of the girder and are connected with the girder, and the two supporting longitudinal beams are supported by the ground and are respectively connected with the two ends of the supporting beam; the supporting cross beams, the two supporting longitudinal beams and the base define a window for allowing cloth in a tiled state to pass through.

The utility model has the advantages that:

the suspension structure can better bear the weight of the girder, avoids the girder from bending deformation, and the backpack structure can better transmit the vibration of the girder to the ground, and the structural strength and the structural stability of the girder are improved under the cooperation of the backpack structure and the girder.

Drawings

The preferred embodiments of the present invention will hereinafter be described in detail to facilitate an understanding of the objects and advantages of the invention, with reference to the accompanying drawings, in which:

FIG. 1 is a schematic structural view of a frame of an embroidery machine;

FIG. 2 is a schematic structural diagram of a splicing position of two adjacent stand single bodies;

fig. 3 is a partially enlarged schematic view of fig. 1.

Detailed Description

The invention is explained in more detail below with reference to the drawings and exemplary embodiments.

The terms upper, lower, left, right, front, rear, front, back, top, bottom and the like in the description, or which may be referred to in the specification, are defined with respect to the configurations shown in the drawings, and the words "inner" and "outer" refer to the relative concepts toward and away from the geometric center of a particular component, respectively, and thus may be changed accordingly depending on the position in which it is located and the state of use. Therefore, these and other directional terms should not be construed as limiting terms.

Referring to fig. 1 to 3, an embroidery machine frame comprises a girder 1 positioned at the upper part and a machine base 2 positioned at the lower part, wherein the girder 1 and the machine base 2 are in a linear extending structure. The crossbeam 1 is used for installing embroidery devices such as embroidery machine heads and the like, and the machine base 2 is used for installing embroidery devices such as table boards, shuttle beds and the like.

The large-scale embroidery machine has a machine body length of more than 30 meters, so the crossbeam 1 and the machine base 2 have the same length, when the crossbeam 1 is provided with a row of embroidery machine heads and the length of the crossbeam is longer, the phenomenon of bending deformation is easy to occur under the condition of larger weight, and the embroidery precision is easy to be insufficient, thereby the quality of embroidery is easy to be influenced. For example, in the prior art, the girder 1 is supported by a backpack structure, but the girder 1 can be supported by a backpack structure in a short length, but when the girder 1 is used for a large length, the load-bearing strength of the backpack structure is obviously insufficient, so that the girder 1 and the backpack structure are subjected to bending deformation. In addition, the embroidery machine generates a certain vibration during operation, and the embroidery quality is further affected when the girder 1 is bent and deformed.

On the basis of this, in the present embodiment, the girder 1 is provided with a plurality of suspension structures 3 and a plurality of backpack structures 4. The suspension structure 3 comprises a suspension cross beam 31 and two suspension longitudinal beams 32, wherein the suspension cross beam 31 spans two sides of the girder 1 and is connected with the girder 1, the two suspension longitudinal beams 32 are supported by the ground and are respectively connected with two ends of the suspension cross beam 31, and the suspension cross beam 31 is used for bearing the weight of the girder 1. The suspension structure 3 suspends the girder 1 by the suspension cross member 31, and can prevent the girder 1 from bending and deforming.

The backpack structure 4 comprises a backpack suspension beam 41 and a backpack longitudinal beam 42, the backpack suspension beam 41 is positioned on one side of the girder 1 and connected with the girder 1, the backpack longitudinal beam 42 is supported on the ground and connected with the backpack suspension beam 41, different from the backpack structure used for bearing in the prior art, in the application, the weight of the girder 1 is completely borne by the suspension beam 31 in the state that the embroidery machine is stopped (i.e. in the natural state of stopping), the backpack suspension beam 41 basically does not bear the weight of the girder 1 and theoretically does not completely bear the weight, but the backpack suspension beam is difficult to completely bear the weight in actual assembly, the scheme of the application can avoid the situation that the backpack suspension beam 41 is pressed and bent to deform, the backpack structure 4 only plays a role in the state that the embroidery machine is operated, the vibration and impact generated by the girder 1 when the embroidery machine is operated are absorbed by the backpack suspension beam 41, and the mechanical energy generated by the vibration is transmitted to the ground by the backpack suspension beam 41 and the backpack longitudinal beam 42 in a mechanical energy transmission mode, thereby playing a role in filtering the vibration.

For a large embroidery machine, the overlong length of the embroidery machine is troublesome for logistics transportation and moving into a factory building, so in the embodiment, the embroidery machine frame is formed by splicing a plurality of frame monomers, each frame monomer comprises a girder monomer 11 and a base monomer 21, the embroidery machine frame can be detached in a split manner, and the logistics transportation and the splicing installation in the factory building are facilitated.

In addition, the suspension structure 3 also adopts a detachable structure, and particularly, the suspension cross beam 31 can be set into at least two sections of detachable structures, which is beneficial to logistics transportation and moving into a factory.

For the splicing mode of the frame monomers, in an embodiment, any two adjacent girder monomers 11 are not connected, and any two adjacent frame monomers 21 are detachably connected. In another embodiment, any two adjacent girder single bodies 11 and any two adjacent base single bodies 21 can be detachably connected. For the embroidery machine frame after splicing and assembling, the machine base single bodies 21 can be detachably connected into the complete machine base 2, so that the stability of the whole structure of the embroidery machine frame can be ensured, the girder single bodies 11 can ensure normal structural forms and stable operation states no matter in a stop state or an operation state because the suspension structures 3 are arranged to provide load and the backpack structures 4 provide filtering vibration, and therefore, the influence on whether the girder single bodies 11 are connected or not is small.

As for the splicing manner of the base single bodies 21, more specifically, any two adjacent base single bodies 21 are provided with at least one corresponding reference transverse plate 22 at the top of the splicing end, and the reference transverse plates 22 are usually provided in two and spaced apart from each other. Reference diaphragm 22's top surface has formed the reference surface, ensures when the reference surface is used for splicing frame monomer 21 the horizontal flatness of frame 2, the laminating sets up first connecting plate 24 on two corresponding reference diaphragm 22's the reference surface, and first connecting plate 24 is dismantled with two reference diaphragm 22 respectively by a plurality of fasteners and is connected. When the bases 2 are spliced in sequence, the first connecting plate 24 can be firstly attached to the reference transverse plate 22 of the next base unit 21, the first connecting plate 24 is connected with the reference transverse plate 22 through a fastener, then one end of the next base unit 21 connected with the first connecting plate 24 is slightly lifted, the first connecting plate 24 is overlapped on the reference transverse plate 22 of the previous base unit 21, then the first connecting plate 24 is fixedly connected with the reference transverse plate 22 through the fastener, and then the splicing of the adjacent base units 21 can be completed. Firstly, the adjacent stand single bodies 21 can be well spliced by arranging the reference transverse plate 22 and the first connecting plate 24, so that the firmness and stability after splicing are improved; secondly, the splicing structure enables the two adjacent stand monomers 21 to be kept flush at the splicing end, and the horizontal flatness of the stand 2 is ensured in a point-strip-surface mode; finally, the first connecting plate 24 and the two corresponding reference transverse plates 22 are connected through the fasteners at the same time, the end face of the rack does not need to be machined into a flat surface for splicing, and the difficulty of the production process is reduced.

Still further, the bottom of frame monomer 21 is provided with two mutually spaced floorbar monomers 25, and floorbar monomer 25 is the main bearing member of frame monomer 21, adjacent two the floorbar monomer 25, both set up second connecting plate 26 in the lateral surface laminating of concatenation end, and second connecting plate 26 is dismantled with two floorbar monomers 25 respectively by a plurality of fasteners and is connected. The first connecting plate 24 and the second connecting plate 26 are substantially perpendicular to each other, so that the connecting acting forces of the two connecting plates on the machine base single bodies 21 are also substantially perpendicular to each other, the splicing firmness degree of the two adjacent machine base single bodies 21 can be further enhanced, and meanwhile, the vibration or the shake generated when the machine base single bodies 21 operate in the embroidery machine can be effectively reduced.

There are many ways of arranging the suspension structure 3 and the girder elements 11. In an embodiment, at least one suspension structure 3 is disposed on each girder unit 11, and further, two suspension structures 3 are disposed on each girder unit 11, and the suspension beams 31 of the two suspension structures 3 are respectively connected to the positions near the two ends of the girder unit 11, in this way, the load-bearing effect of the girder unit 11 is optimal. In another embodiment, any two adjacent girder single bodies 11 share one suspension structure 3, and the suspension cross beam 31 of the suspension structure 3 simultaneously connects the two corresponding adjacent girder single bodies 11, so that the cost is the lowest in the arrangement mode.

In addition, the two ends of the girder 1 are respectively provided with a supporting structure 5, the supporting structure 5 is similar to the suspension structure 3, the supporting structure 5 comprises a supporting cross beam 51, two supporting longitudinal beams 52 and two bases 2, the two ends of the supporting cross beam 51 are respectively located at the two sides of the girder 1 and are connected with the girder 1, the two supporting longitudinal beams 52 are supported by the ground and are respectively connected with the two ends of the supporting cross beam 15, and the supporting cross beam 51, the two supporting longitudinal beams 52 and the bases 2 define a window a which can allow the cloth in a tiled state to pass through. The supporting structure 5 not only plays a good role in supporting the two ends of the girder 1 and improving the overall firmness of the frame of the embroidery machine, but also the formed window A can realize full-automatic cloth feeding and improve the automation degree of the embroidery machine.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that: the technical solutions described in the foregoing embodiments can be modified, or some technical features can be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. An embroidery machine frame comprises a girder positioned above and a machine base positioned below; the structure is characterized in that the girder is provided with a plurality of suspension structures and backpack structures;

the suspension structure comprises suspension cross beams which cross two sides of the girder and are connected with the girder, and two suspension longitudinal beams which are supported by the ground and are respectively connected with two ends of the suspension cross beams, wherein the suspension cross beams are used for bearing the weight of the girder;

the backpack structure comprises a backpack suspension beam positioned at the rear side of the girder and connected with the girder, and a backpack longitudinal beam supported by the ground and connected with the backpack suspension beam; the backpack suspension beam basically does not bear the weight of the girder in the shutdown state of the embroidery machine, and is used for transmitting the vibration and the impact of the girder to the ground through the backpack longitudinal beam in the running state of the embroidery machine.

2. The embroidery machine frame according to claim 1, wherein the embroidery machine frame is formed by splicing a plurality of frame monomers, and each frame monomer comprises a girder monomer and a base monomer.

3. The embroidery machine frame of claim 2, wherein any two adjacent longeron units are not connected and any two adjacent base units are detachably connected.

4. The embroidery machine frame of claim 2, wherein any two adjacent longeron units and any two adjacent base units are detachably connected.

5. An embroidery machine frame as claimed in claim 3 or 4, characterized in that any two adjacent machine base single bodies are respectively provided with at least one corresponding reference transverse plate on the top of the splicing end; the top surface of benchmark diaphragm forms the benchmark face, and the laminating sets up first connecting plate on the benchmark face of two corresponding benchmark diaphragms, and first connecting plate is dismantled with two benchmark diaphragms respectively by a plurality of fasteners and is connected.

6. The embroidery machine frame according to claim 5, characterized in that the bottom of the base single body is provided with bottom beam single bodies which are spaced from each other; two arbitrary adjacent floorbar monomers, both set up the second connecting plate in the lateral surface laminating of concatenation end, and the second connecting plate is dismantled with two floorbar monomers respectively by a plurality of fasteners and is connected.

7. An embroidery machine frame according to claim 2, characterized in that at least one suspension structure is provided per said girder element.

8. The embroidery machine frame according to claim 7, wherein the girder unit is provided with two suspension structures, and suspension beams of the two suspension structures are respectively connected to portions near both ends of the girder unit.

9. The embroidery machine frame of claim 2, wherein any two adjacent girder segments share a suspension structure, and a suspension cross beam of the suspension structure simultaneously connects the two corresponding adjacent girder segments.

10. The embroidery machine frame according to claim 1, wherein the girder is provided at both ends thereof with support structures, respectively, the support structures including a support cross member having both ends thereof located at both sides of the girder and connected to the girder, and two support longitudinal members supported by the ground and connected to both ends of the support cross member, respectively; the supporting cross beams, the two supporting longitudinal beams and the base define a window for allowing cloth in a tiled state to pass through.

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