CN213593020U - Telescopic protection plate device for cross beam - Google Patents

Abstract

The utility model discloses a flexible guard plate device of crossbeam mainly includes mounting plate, motion direction subassembly, guardrail structure subassembly, cylinder power component, photoelectric positioning subassembly etc. The movement guide assembly, the cylinder power assembly and the photoelectric positioning assembly of the device are respectively and fixedly installed on the guardrail support, and then the guardrail support and the installation bottom plate are fixedly installed. The utility model has the characteristics of simple structure, be convenient for control. The crossbeam of equipment is isolated when the working motion through the flexible guard plate device of crossbeam, has improved traditional flat cut machine's crossbeam anticollision switch mode, not only solves the equipment crossbeam because of the various influences that the mistake hit produced in the working motion process, and work efficiency also effectively accelerates in addition, has improved the reliability of flat cut machine work.

Description

Telescopic protection plate device for cross beam

Technical Field

The utility model belongs to dull and stereotyped cutting machine auxiliary device field, concretely relates to flexible guard plate device of crossbeam.

Background

The flat-plate cutting machine is a full-automatic cutting machine, and can complete the operations of material typesetting, cutting and the like at one time. The working process of the full-automatic flat-plate cutting machine does not need manual interference, and the table-board product of the equipment is manually picked up only after the flat-plate cutting machine completes the corresponding cutting operation.

The two sides of the beam of the traditional flat-plate cutting machine are not provided with safety measures generally, so that workers on the two sides can be easily mistakenly collided in the working process of the equipment due to various reasons, and the mechanical anti-collision switches are arranged on the two sides of the moving beam of some flat-plate cutting machines. For a bump switch, the principle is to be effective until the device hits an obstruction. Therefore, the false collision is avoided, and the equipment stops working after the anti-collision switch takes effect, so that the processing efficiency of the equipment is reduced to some extent, and the processing work of the equipment is influenced.

SUMMERY OF THE UTILITY MODEL

In order to compensate the influence that the equipment that causes was shut down in the mistake collision of crossbeam among the traditional flat cutting machine motion process, realize that flat cutting machine lasts the processing operation requirement, the utility model provides a satisfy the flexible guard plate device of crossbeam of flat cutting machine. The crossbeam of equipment is isolated when the work is moved through the telescopic protection plate device of the crossbeam, various influences caused by mistaken collision of the crossbeam of the equipment in the work movement process are avoided, and the work efficiency of the flat-plate cutting machine is improved.

In order to achieve the above object, the utility model adopts the following technical scheme:

a crossbeam telescopic protection plate device mainly comprises an installation bottom plate, a motion guide assembly, a guardrail structure assembly, a cylinder power assembly, a photoelectric positioning assembly and the like. The motion guide assembly, the cylinder power assembly and the photoelectric positioning assembly of the device are respectively and fixedly arranged on the guardrail supports, and the two guardrail supports are respectively and fixedly arranged at the two ends of the mounting bottom plate. In some aspects, the guardrail structure assembly is located on an outboard side of the motion guide assembly, away from the mounting base; the photoelectric positioning assembly is positioned above the cylinder power assembly.

The telescopic protection plate device for the cross beam is characterized in that the cylinder power assembly mainly comprises a transmission cylinder, an adjusting screw, an adjusting joint, a cylinder fixing plate and a cylinder connecting plate. The cylinder power assembly is arranged on the guardrail support and provides linear motion force for the motion guide assembly. In some aspects, the two ends of the transmission rod of the transmission cylinder are fixed on the guardrail support through the cylinder fixing plate, the cylinder connecting plate is installed on the side surface of the transmission cylinder, which deviates from the installation bottom plate, and the cylinder connecting plate is provided with a matched adjusting screw and an adjusting joint. The adjusting screw is fixedly connected with the adjusting joint.

The telescopic protection plate device for the cross beam is characterized in that the motion guide assembly mainly comprises a guardrail support, a positioning clamping plate, a guide optical axis, a linear bearing, a positioning sliding block, a guardrail sliding block and an adjusting sliding block. Wherein direction optical axis fixed mounting is equipped with the through-hole in location splint, location slider, adjusting block and the guardrail slider on the guardrail supports, install linear bearing in the through-hole, the direction optical axis runs through in the linear bearing of location splint, location slider, guardrail slider and adjusting block in proper order, forms guardrail slider and adjusting block and is the straight line guide motion along the direction optical axis. In some aspects, a guardrail support and a positioning slide block are respectively connected to two sides of the positioning clamping plate, and the adjusting slide block is fixedly connected with the adjusting joint. And mounting holes are formed in the side faces, deviating from the mounting base plate, of the positioning sliding blocks, the adjusting sliding blocks and the guardrail sliding blocks.

Above-mentioned flexible guard plate device of crossbeam, guardrail structure subassembly mainly include folding telescopic structure and a plurality of fixed pin. The folding telescopic structure is folded and stretched along the motion direction of the transmission cylinder and is fixedly arranged on the positioning slide block, the guardrail slide block and the adjusting slide block through the fixing pins. In some aspects, the folding telescopic structure is formed by mutually crossing and hinging two folding frames consisting of a plurality of guardrail connecting rods and a plurality of hinging pins. The guardrail connecting rods are hinged end to end through hinge pins, the guardrail connecting rods in the two folding frames are mutually crossed and hinged through the hinge pins, and the tail end of each guardrail connecting rod below the folding telescopic structure is provided with a fixing pin.

The beam telescopic protection plate device is characterized in that the photoelectric positioning assembly mainly comprises a sensing photoelectric sensor, a photoelectric sensing piece and a photoelectric mounting groove. The photoelectric sensing piece is installed on the cylinder connecting plate, and the response photoelectricity is fixed on the photoelectricity mounting groove, and the photoelectricity mounting groove is installed on the guardrail support, provides the motion location for cylinder power component. In some aspects, the photoelectric sensing piece is in an inverted L shape, one end of the photoelectric sensing piece is installed on the cylinder connecting plate, and the other end of the photoelectric sensing piece is installed in the photoelectric installation groove in a sliding mode.

Compared with the prior art, the beneficial effects of the utility model are that:

the flexible guard plate device of crossbeam, the crossbeam that mainly acts on in the flat cutting machine work is moving is isolated, has simple structure, the characteristics of the control of being convenient for, can be used to flat cutting machine, is suitable for being applied to the flat cutting equipment of various sizes. This utility model discloses a flexible guard plate of crossbeam of dull and stereotyped cutting equipment can be automatic in dull and stereotyped cutting equipment working process and stretch out, and isolated dull and stereotyped cutting equipment is the crossbeam of motion, treats equipment work and accomplishes the flexible guard plate self-contraction return of back crossbeam, makes things convenient for the manual work to pick up equipment mesa material. Not only can solve the various influences of the equipment beam caused by the false collision in the working movement process, but also effectively quicken the working efficiency and improve the working reliability of the flat-plate cutting machine.

Drawings

Fig. 1 is a schematic structural view of the beam telescopic protection plate device of the utility model: FIG. 1A is a schematic view of the structure of the retractable fender assembly of the cross beam in a retracted state; FIG. 1B is a schematic view of the structure of the retractable fender assembly of the cross member in an extended state;

FIG. 2 is a schematic view of an exploded structure of the telescoping fender assembly of the cross beam;

FIG. 3 is a front view of the cross beam telescoping fender assembly;

fig. 4 is a top view of the beam retractable guard plate device of the present invention;

FIG. 5 is a schematic view of the telescoping fender assembly of the cross beam in use;

FIG. 6 is a schematic view of the structure of the cross beam telescoping fender assembly motion guide assembly;

FIG. 7 is a schematic structural view of a cross beam telescoping fender unit cylinder power assembly;

FIG. 8 is a schematic view of the cross beam telescoping fender guard rail structural assembly.

FIG. 9 is a schematic view of the cross beam telescopic guard device assisting in the operation of the flat bed cutting machine; FIG. 9A is a perspective view of the telescoping fender assembly of the cross beam and the auxiliary cut-out machine; FIG. 9B is a top view of the telescoping fender assembly of the cross beam and the auxiliary flat bed cutting machine;

wherein: 1-mounting base plate, 2-guardrail support, 3-cylinder power assembly, 31-transmission cylinder, 32-cylinder fixing plate, 33-cylinder connecting plate, 33 a-adjusting screw, 33 b-adjusting joint, 4-motion guide assembly, 41-positioning clamping plate, 42-guiding optical axis, 43-linear bearing, 44-positioning sliding block, 45-adjusting sliding block, 46-guardrail sliding block, 5-guardrail structure assembly, 51-folding telescopic structure, 51 a-guardrail connecting rod, 51 b-hinged pin, 52-fixing pin, 6-photoelectric positioning assembly, 61-sensing photoelectric, 62-photoelectric sensing piece and 63-photoelectric mounting groove.

Detailed Description

For a better understanding of the present invention, the following description is provided in conjunction with the following embodiments and accompanying drawings, but the present invention is not limited to the following embodiments.

Referring to fig. 1-5, the telescopic protection plate device of the cross beam mainly comprises an installation bottom plate 1, a guardrail support 2, a cylinder power assembly 3, a motion guide assembly 4, a guardrail structure assembly 5 and a photoelectric positioning assembly 6. The cylinder power assembly 3, the motion guide assembly 4 and the photoelectric positioning assembly 6 of the device are respectively and fixedly arranged on the guardrail support 2, and then the guardrail support 2 and the mounting base plate 1 are fixedly arranged.

The cylinder power assembly 3 mainly comprises a transmission cylinder 31, an adjusting screw 33a, an adjusting joint 33b, a cylinder fixing plate 32 and a cylinder connecting plate 33. The cylinder power assembly 3 is mounted on the guardrail support 2 and provides linear motion force for the motion guide assembly 4. Two ends of a transmission rod of the transmission cylinder 31 are fixed on the guardrail support 2 through a cylinder fixing plate 32, a cylinder connecting plate 33 is installed on the side surface of the transmission cylinder 31 departing from the installation bottom plate 1, and a matched adjusting screw 33a and an adjusting joint 33b are arranged on the cylinder connecting plate 33.

The motion guide assembly 4 mainly comprises a positioning clamping plate 41, a guide optical axis 42, a linear bearing 43, a positioning slide block 44, an adjusting slide block 45 and a plurality of guardrail slide blocks 46. Wherein direction optical axis 42 fixed mounting is equipped with the through-hole in location splint 41, location slider 44, adjusting block 45 and the guardrail slider 46 on guardrail support 2, install linear bearing 43 in the through-hole, penetrate the linear bearing 43 again and lead in optical axis 42, form adjusting block 45 and guardrail slider 46 and be rectilinear guide motion along leading optical axis 42. Two sides of the positioning clamping plate 41 are respectively connected with a guardrail support 2 and a positioning slide block 42, and the adjusting slide block 45 is fixedly connected with the adjusting joint 33 b. The side surfaces of the positioning slide blocks 44, the adjusting slide blocks 45 and the guardrail slide blocks 46, which face away from the installation bottom plate 1, are provided with installation holes.

The guardrail structural assembly 5 mainly comprises a folding telescopic structure 51 and a plurality of fixing pins 52. The folding telescopic structure 51 is folded and stretched along the moving direction of the transmission cylinder 31 and is fixedly arranged on the positioning slide block 44, the guardrail slide block 46 and the adjusting slide block 45 through fixing pins 52. Specifically, the folding telescopic structure 51 is formed by mutually crossing and hinging two folding legs consisting of a plurality of guardrail connecting rods 51a and a plurality of hinge pins 51 b. The guardrail connecting rods 51a are hinged end to end through hinge pins 51b, the guardrail connecting rods 51a in the two folding legs are mutually crossed and hinged through the hinge pins 51b, and the tail end of each guardrail connecting rod 51a below the folding telescopic structure 51 is provided with a fixed pin 52.

The photoelectric positioning assembly 6 mainly comprises a sensing photoelectric device 61, a photoelectric sensing sheet 62 and a photoelectric mounting groove 63. The photoelectric sensing piece 62 is in an inverted L shape, one end of the photoelectric sensing piece is arranged on the cylinder connecting plate 33, and the other end of the photoelectric sensing piece is arranged in the photoelectric mounting groove 63 in a sliding manner; the sensing photoelectricity 61 is fixed on the photoelectricity mounting groove 63, and the photoelectricity mounting groove 63 is installed on the guardrail support 2, and provides the motion positioning for the cylinder power component 3.

Referring to fig. 6, the motion guide assembly 4 is powered by the cylinder power assembly 3, and the motion guide assembly 4 is linearly moved under the action of the cylinder power assembly 3 to complete the repeated telescopic motion of the guardrail structure assembly 5. And the position of the telescopic protection plate of the cross beam is positioned by the photoelectric positioning assembly 6.

Referring to fig. 7, the cylinder power assembly 3 transmits power to the motion guide assembly 4 through the fixed connection of the adjusting screw 33a and the adjusting joint 33b, so that the motion guide assembly 4 realizes guide linear reciprocating motion.

Referring to fig. 8, the two folding legs are formed by fixedly connecting the guardrail connecting rods 51a through the hinge pins 51b, the two folding legs further intersect to form a folding telescopic structure 51, and then the folding telescopic structure 51 is fixedly connected with the positioning slide block 44, the guardrail slide block 46 and the adjusting slide block 45 of the motion guide assembly 4 through the fixing pins 52, so that the guardrail structural assembly 5 automatically extends and retracts under the action of the motion guide assembly 4.

Claims (4)

1. The utility model provides a flexible guard plate device of crossbeam which characterized in that: the device comprises a mounting base plate (1), two guardrail supports (2) respectively vertically connected with two ends of the mounting base plate (1), a cylinder power assembly (3) consisting of a transmission cylinder (31), two cylinder fixing plates (32) and a cylinder connecting plate (33), a motion guide assembly (4) consisting of a positioning clamping plate (41), a guide optical axis (42), a linear bearing (43), a positioning sliding block (44), an adjusting sliding block (45) and a plurality of guardrail sliding blocks (46), a guardrail structure assembly (5) consisting of a folding telescopic structure (51) and a plurality of fixing pins (52), and a photoelectric positioning assembly (6) consisting of a sensing photoelectric structure (61), a photoelectric sensing sheet (62) and a photoelectric mounting groove (63);

the two ends of the cylinder power assembly (3), the motion guide assembly (4) and the photoelectric positioning assembly (6) are fixed on the guardrail support (2); the guardrail structure component (5) is positioned on the outer side of the movement guide component (4) departing from the mounting bottom plate (1); the photoelectric positioning assembly (6) is positioned above the cylinder power assembly (3);

two ends of a transmission rod of the transmission cylinder (31) are fixed on the guardrail support (2) through a cylinder fixing plate (32), a cylinder connecting plate (33) is installed on the side surface, deviating from the installation bottom plate (1), of the transmission cylinder (31), and a matched adjusting screw (33a) and an adjusting joint (33b) are arranged on the cylinder connecting plate (33); the adjusting screw (33a) is fixedly connected with the adjusting joint (33 b);

the two ends of the guide optical axis (42) are fixed on the guardrail support (2), through holes are formed in the positioning clamp plate (41), the positioning slide block (44), the adjusting slide block (45) and the guardrail slide block (46), linear bearings (43) are arranged in the through holes, the guide optical axis (42) sequentially penetrates through the positioning clamp plate (41), the positioning slide block (44), the guardrail slide block (46) and the adjusting slide block (45) through the linear bearings (43) installed in the through holes, the two sides of the positioning clamp plate (41) are respectively connected with the guardrail support (2) and the positioning slide block (44), and the adjusting slide block (45) is fixedly connected with the adjusting joint (33 b);

the folding telescopic structure (51) is folded and stretched along the movement direction of the transmission cylinder (31) and is fixedly arranged on the positioning slide block (44), the guardrail slide block (46) and the adjusting slide block (45) through a fixing pin (52);

the photoelectric mounting groove (63) is positioned above the transmission cylinder (31), two ends of the photoelectric mounting groove are fixedly mounted on the guardrail support (2), and the induction photoelectricity (61) is fixedly mounted on two sides of the photoelectric mounting groove (63); the photoelectric sensing piece (62) is of an inverted L shape, one end of the photoelectric sensing piece is arranged on the cylinder connecting plate (33), and the other end of the photoelectric sensing piece is arranged in the photoelectric mounting groove (63) in a sliding mode.

2. The cross beam telescoping fender assembly of claim 1, wherein: the side face, deviating from the mounting base plate (1), of the positioning sliding block (44), the adjusting sliding block (45) and the guardrail sliding blocks (46) is provided with mounting holes, and the fixing pin (52) is fixed to the positioning sliding block (44), the guardrail sliding block (46) and the adjusting sliding block (45) through the mounting holes.

3. The cross beam telescoping fender assembly of claim 1, wherein: the folding telescopic structure (51) is formed by mutually crossing and hinging two folding frames which are composed of a plurality of guardrail connecting rods (51a) and a plurality of hinge pins (51 b).

4. The cross beam telescoping fender assembly of claim 3, wherein: guardrail connecting rods (51a) in each folding frame are hinged end to end through hinge pins (51b), guardrail connecting rods (51a) in the two folding frames are mutually crossed and hinged through the hinge pins (51b), and the tail end of each guardrail connecting rod (51a) below the folding telescopic structure (51) is provided with a fixed pin (52).

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