CN210062426U - Double-guide-rail printing beam - Google Patents

Abstract

The utility model relates to a crossbeam is printed to two guide rails, including frame, connecting seat and crossbeam device, the connecting seat is installed on frame upper end right side, and the crossbeam device is installed to the left end of connecting seat, and the crossbeam device includes the roof beam frame, and the left surface of connecting seat is connected with the right flank of roof beam frame, and the fixing base is installed to the lower terminal surface bilateral symmetry of roof beam frame, and the roof beam frame passes through the fixing base to be installed at the up end of frame, and the inductor subassembly is installed to the up end bilateral symmetry of roof beam frame, the guide rail is installed to the preceding terminal surface of roof beam frame, and the terminal surface middle part. The utility model discloses the crossbeam that can solve cloth printing device under the prior art condition existence warp easily, the single track is difficult for driving dolly and motor low frequency vibrations scheduling problem, can realize the stable high-efficient function of printing to the cloth, has crossbeam non-deformable, the double track drives that the dolly is convenient, linear electric motor can not produce vibrations and cloth prints effectual advantage.

Description

Double-guide-rail printing beam

Technical Field

The utility model relates to a cloth processing field, in particular to crossbeam is printed to double guide rail.

Background

The cloth such as daily clothing of wearing of people or (window) curtain all needs to pass through the processing of multichannel, and some cloth can take lines or pattern, and the lines or pattern on the cloth go through printing generally, under the prior art condition, when printing the cloth, printing device's crossbeam all has a lot of drawbacks:

the method has the following disadvantages: the existing printing device has the cross beam which is mostly made of aluminum, and the aluminum amount can cause deformation in the long-time printing process;

the method has the following disadvantages: the guide rail of the prior printing device is a single guide rail which is not easy to pull the trolley;

the disadvantages are three: most of the existing printing devices adopt servo motors, and the low-frequency vibration phenomenon easily occurs when the servo motors are at low speed.

It also has certain exploration and practice in the aspect of relevant cloth printing device domestically, and chinese utility model patent that patent application number is 201320407954.5 discloses an inkjet formula cloth printing device, and it is when improving the printing precision, can also make print platform's work area keep clean, avoids the ink on the print platform to make dirty with the back of cloth.

However, the problems of the printing device in the cloth printing device are not well searched and practiced, and therefore, the disadvantages listed above need to be searched and practiced to solve the disadvantages listed above.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a crossbeam is printed to double guide rail, the crossbeam that can solve cloth printing device under the prior art condition existence warp easily, the single track is difficult for driving dolly and the low frequency vibrations scheduling problem of motor, can realize the function of printing to the stable high efficiency of cloth, has crossbeam non-deformable, the double track drives that the dolly is convenient, linear electric motor can not produce vibrations and cloth prints effectual advantage.

In order to realize the above-mentioned purpose, the utility model discloses a following technical scheme, a crossbeam is printed to two guide rails, including frame, connecting seat and crossbeam device, the connecting seat is installed on frame upper end right side, and crossbeam device is installed to the left end of connecting seat, and the left surface of connecting seat mills out a parallel terminal surface to the right side, and the size of parallel terminal surface is identical with the size of crossbeam device right-hand member.

The beam device comprises a beam frame, a parallel end face is milled downwards from the front end face of the beam frame, the beam frame body is designed in a bridge mode, the beam frame is made of steel, the left side face of a connecting seat is connected with the right side face of the beam frame, fixing seats are symmetrically arranged on the left and right of the lower end face of the beam frame, the beam frame is arranged on the upper end face of the rack through the fixing seats, and sensor assemblies are symmetrically arranged on the left and right of the upper end face of the beam frame; when the device works, the beam device is installed and fixed on the upper end surface of the rack through the connecting seat and the fixing seat.

The front end face of the beam frame is provided with two guide rails which are arranged on the front end face of the beam frame in an up-and-down symmetrical mode, the middle of the front end face of the beam frame is provided with a groove, a stator is arranged in the groove, and anti-collision pieces are symmetrically arranged on the left side and the right side in the groove.

The trolley assembly is installed on the guide rail and connected with the linear motor, the linear motor and the trolley assembly are in contact transmission, and the trolley assembly is controlled by the mutual matching of the grating strip and the inductor assembly.

The left side and the right side of the beam frame are symmetrically provided with grating strip pressing plates, grating strips are arranged at the rear ends between the grating strip pressing plates, and the output ends of the grating strips are connected with a computer controller; during operation, the trolley assembly is arranged on the guide rail, the grating bars are controlled by the computer and matched with the inductor assembly, and the trolley assembly is accurately controlled to move.

The anti-collision piece comprises an anti-collision column base, the left end of the groove is provided with the anti-collision column base, and the right end face of the anti-collision column base is provided with an anti-collision block; during operation, the collision-proof piece can avoid the trolley assembly to collide with the beam frame.

The beneficial effects of the utility model reside in that:

the utility model is provided with double guide rails, two guide rails are used for dragging the trolley to move, the friction force received when the trolley moves is reduced, and the printing precision is improved;

secondly, the motor of the utility model adopts a linear motor, the linear motor has compact structure, small power loss, high fast moving speed and high acceleration, and the high-speed linear motor can realize high-precision position positioning control in different ranges from high speed to low speed and the like by directly driving a load;

thirdly, the beam frame of the utility model is made of steel, and the steel beam is used for replacing the aluminum beam, thereby greatly increasing the bearing capacity of the beam;

four, the utility model discloses be provided with grating strip and inductor subassembly, grating strip and inductor subassembly control dolly removal of mutually supporting for the removal of dolly is more steady.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of a cross beam device according to the present invention;

fig. 3 is a front view of the cross member apparatus of the present invention;

fig. 4 is a rear view of the cross member apparatus of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 4, a double-guide-rail 34 printing beam comprises a frame 1, a connecting seat 2 and a beam device 3, wherein the connecting seat 2 is installed on the right side of the upper end of the frame 1, the beam device 3 is installed at the left end of the connecting seat 2, a parallel end face is milled towards the right side on the left side of the connecting seat 2, and the size of the parallel end face is matched with the size of the right end of the beam device 3.

The beam device 3 comprises a beam frame 31, a parallel end face is milled downwards from the front end face of the beam frame 31, the main body of the beam frame 31 adopts a bridge design, the beam frame 31 is made of steel, the left side face of the connecting seat 2 is connected with the right side face of the beam frame 31, fixing seats 32 are symmetrically arranged on the left and right of the lower end face of the beam frame 31, the beam frame 31 is arranged on the upper end face of the rack 1 through the fixing seats 32, and sensor assemblies 33 are symmetrically arranged on the left and right of the upper end face of the beam frame 31; when the device works, the beam device 3 is installed and fixed on the upper end surface of the frame 1 through the connecting seat 2 and the fixing seat 32.

The front end face of the beam frame 31 is provided with two guide rails 34, the two guide rails 34 are arranged on the front end face of the beam frame 31 in an up-down symmetrical mode, the middle of the front end face of the beam frame 31 is provided with a groove, a stator 35 is arranged in the groove, and anti-collision pieces 36 are symmetrically arranged on the left side and the right side in the groove.

A trolley assembly is arranged on the guide rail 34 and is connected with a linear motor, the linear motor and the trolley assembly are in contact transmission, and the trolley assembly is controlled by the mutual matching of the grating strip 38 and the sensor assembly 33; in operation, the dual rails 34 are used to mount the carriage assembly on the rails 34, connect the carriage assembly to the linear motor, and connect the carriage assembly to the grating strip 38 to the sensor assembly 33.

The left side and the right side of the beam frame 31 are symmetrically provided with grating strip pressing plates 37, grating strips 38 are arranged at the rear ends between the grating strip pressing plates 37, and the output ends of the grating strips 38 are connected with a computer controller; when the control system works, the grating bars 38 are controlled by a computer, and the grating bars 38 are matched with the sensor assembly 33, so that the movement of the trolley assembly is accurately controlled.

The anti-collision piece 36 comprises an anti-collision column seat 361, the left end of the groove is provided with the anti-collision column seat 361, and the right end face of the anti-collision column seat 361 is provided with an anti-collision block 362; when the trolley assembly moves left and right in operation, the anti-collision piece 36 can prevent the trolley assembly from colliding with the beam frame 31 when printing is performed.

Mounting of the beam device 3: the beam device 3 is installed and fixed on the upper end surface of the frame 1 through the connecting seat 2 and the fixing seat 32;

mounting of the trolley component: the trolley assembly is arranged on the guide rail 34 by utilizing the double guide rail 34, is connected with the linear motor, and simultaneously is connected with the grating strip 38 and the sensor assembly 33;

movement of the trolley assembly: the grating bars 38 are controlled by a computer, and the grating bars 38 are matched with the sensor assembly 33 to finish the accurate control of the movement of the trolley assembly;

collision avoidance of the trolley assembly: when the trolley assembly moves left and right for printing, the anti-collision piece 36 can prevent the trolley assembly from colliding with the beam frame 31.

Work flow to sum up the function of having realized printing to the stable high efficiency of cloth has solved the cloth printing device under the prior art condition and has existed the crossbeam warp easily, the single track is difficult for driving dolly and motor low frequency vibrations scheduling problem, has reached the purpose.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a crossbeam is printed to two guide rails, includes frame (1), connecting seat (2) and beam device (3), its characterized in that: a connecting seat (2) is installed on the right side of the upper end of the rack (1), and a cross beam device (3) is installed at the left end of the connecting seat (2); wherein:

the beam device (3) comprises a beam frame (31), the left side surface of the connecting seat (2) is connected with the right side surface of the beam frame (31), fixing seats (32) are installed on the lower end surface of the beam frame (31) in a bilateral symmetry mode, the beam frame (31) is installed on the upper end surface of the rack (1) through the fixing seats (32), and inductor assemblies (33) are installed on the upper end surface of the beam frame (31) in a bilateral symmetry mode;

a guide rail (34) is installed on the front end face of the beam frame (31), a groove is formed in the middle of the front end face of the beam frame (31), a stator (35) is installed in the groove, and anti-collision pieces (36) are symmetrically installed on the left side and the right side in the groove;

the anti-collision piece (36) comprises an anti-collision column base (361), the left end of the groove is provided with the anti-collision column base (361), and the right end face of the anti-collision column base (361) is provided with an anti-collision block (362);

the left side and the right side of the beam frame (31) are symmetrically provided with grating strip pressing plates (37), and grating strips (38) are arranged at the rear ends between the grating strip pressing plates (37).

2. A dual track printing beam as claimed in claim 1, wherein: the left side of the connecting seat (2) is milled to the right to form a parallel end face, and the size of the parallel end face is matched with that of the right end of the beam device (3).

3. A dual track printing beam as claimed in claim 1, wherein: two guide rails (34) are symmetrically arranged on the upper and lower sides of the front end face of the beam frame (31).

4. A dual track printing beam as claimed in claim 1, wherein: and a trolley assembly is arranged on the guide rail (34).

5. The dual track printing beam of claim 4, wherein: the trolley assembly is controlled by the mutual cooperation of the grating strip (38) and the sensor assembly (33).

6. The dual track printing beam of claim 5, wherein: the trolley assembly is connected with the linear motor, and the linear motor and the trolley assembly are in contact transmission.

7. A dual track printing beam as claimed in claim 1, wherein: the output end of the grating strip (38) is connected with a computer controller.

8. A dual track printing beam as claimed in claim 1, wherein: the front end face of the beam frame (31) is milled downwards to form a parallel end face.

9. A dual track printing beam as claimed in claim 1, wherein: the main body of the beam frame (31) adopts a bridge design.

10. A dual track printing beam as claimed in claim 1, wherein: the beam frame (31) is made of steel.

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