CN221231990U - Gantry protection pedal mechanism and machine tool - Google Patents

Abstract

The application discloses a gantry protection pedal mechanism and a machine tool, wherein the gantry protection pedal mechanism comprises a chip groove, a pedal and a chip removal assembly, wherein the pedal cover is arranged on the chip groove, at least part of the pedal is hinged with the chip groove, so that at least part of the pedal can move in an opening and closing manner relative to the chip groove; the chip removal assembly is arranged in the chip removal groove and is used for cleaning chips in the chip removal groove. Through the mode, the production efficiency can be improved.

Description

Gantry protection pedal mechanism and machine tool

Technical Field

The application relates to the technical field of machinery, in particular to a gantry protection pedal mechanism and a machine tool.

Background

In the machining process of the gantry machine tool, scraps exist in the machining area and the periphery of the machine tool, and the scraps need to be cleaned in time to ensure the normal work of the machine tool, but the applicant of the application finds that the scraps in the existing machine tool are difficult to clean in time, so that the scraps are easy to influence the operation of the machine tool, and the production efficiency is low.

Disclosure of utility model

The application mainly solves the technical problem of providing a gantry protection pedal mechanism and a machine tool, which can improve the production efficiency.

In order to solve the technical problems, the application adopts a technical scheme that: the pedal cover is arranged on the chip groove, wherein at least part of the pedal is hinged with the chip groove, so that at least part of the pedal can move in an opening and closing mode relative to the chip groove; the chip removal assembly is arranged in the chip removal groove and is used for cleaning chips in the chip removal groove.

The pedal comprises a first sub pedal and a second sub pedal which are connected with each other, wherein the first sub pedal is fixedly connected with the chip groove, and the second sub pedal is hinged with the chip groove, so that the second sub pedal can move relative to the chip groove in an opening and closing mode.

Wherein the first sub-pedal is disposed around the second sub-pedal.

Wherein, the footboard with the chip groove can dismantle the connection.

Wherein, the planer protection pedal mechanism still includes: and at least part of the pedal is hinged with the chip removal groove through the hinge.

Wherein, the pedal is provided with a plurality of through holes at least at the part hinged with the chip groove so as to allow the chips on the pedal to fall into the chip groove from the through holes.

The pedal comprises a plurality of pedal pieces which are connected with each other, a plurality of pedal pieces are arranged at intervals, and the interval between every two adjacent pedal pieces forms the through hole.

Wherein the pedal piece is screw steel.

Wherein, the chip removal assembly includes: a motor; and the auger is connected with the motor so as to rotate under the drive of the motor to clean the chips in the chip removal groove.

In order to solve the technical problems, the application adopts another technical scheme that: there is provided a machine tool comprising a planer guard foot mechanism as claimed in any one of the preceding claims.

The beneficial effects of the application are as follows: compared with the prior art, the pedal cover is arranged in the chip groove, the chip removal assembly is arranged in the chip groove, at least part of the pedal is hinged with the chip groove, so that the chip removal assembly can be cleaned without disassembling the pedal and the chip groove, on one hand, the arrangement of the pedal can ensure that operators can prevent the operators from falling into the chip groove, the safety of machining operation is improved, and on the other hand, at least part of the pedal is hinged with the chip groove, and therefore, when a machine tool fails, the pedal can be opened, the chip groove can be cleaned conveniently, and the production efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

FIG. 1 is a schematic view of a machine tool according to an embodiment of the present application;

FIG. 2 is an enlarged view at A in FIG. 1;

FIG. 3 is a schematic view of the pedal of the gantry guard pedal mechanism of FIG. 1 in a closed position;

FIG. 4 is a schematic view of the pedal of the gantry guard pedal mechanism of FIG. 1 in an open position;

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Referring to fig. 1, in one embodiment of the present application, a machine tool 200 includes a planer guard foot mechanism 100, and in combination with fig. 2, the planer guard foot mechanism 100 includes a junk slot 10, a pedal 20, and a junk assembly 30. The pedal 20 is arranged on the chip groove 10 in a covering way, wherein at least part of the pedal 20 is hinged with the chip groove 10 so that at least part of the pedal 20 can perform opening and closing movement relative to the chip groove 10; a junk assembly 30 is provided in the junk slot 10 for cleaning chips in the junk slot 10.

Specifically, the gantry protection pedal mechanism 100 is located at two sides of the machine tool 200, when the machine tool 200 is machining a workpiece, chips are generated when the workpiece is cut, if the chips are not cleaned timely, the machining of the workpiece is affected, and when the workpiece is machined, the gantry protection pedal mechanism 100 cleans the chips generated when the workpiece is machined.

Further, the pedal 20 covers the opening of the junk slot 10 in the gantry protection pedal mechanism 100, and at least part of the pedal 20 is hinged to the junk slot 10, so that the junk slot 10 and part of the pedal 20 which are hinged can move relatively, thereby realizing at least part of opening and closing of the pedal 20. In addition, the chip removing assembly 30 is arranged in the chip removing groove 10, and when the pedal 20 is closed, the chip removing assembly 30 is positioned in the accommodating space formed by the pedal 20 and the chip removing groove 10.

According to the application, the pedal 20 is arranged in the chip groove 10 in a covering manner, the chip removal assembly 30 is arranged in the chip groove 10, at least part of the pedal 20 is hinged with the chip groove 10, so that the chip removal assembly 30 can be cleaned without disassembling the pedal 20 and the chip groove 10, on one hand, the pedal 20 can ensure that operators can prevent falling into the chip groove 10, the safety of processing operation is improved, and on the other hand, at least part of the pedal 20 is hinged with the chip groove 10, so that the pedal 20 can be opened when the machine tool 200 fails, the chip groove 10 is cleaned conveniently, and the production efficiency is improved.

Referring to fig. 2,3 and 4, the pedal 20 includes a first sub-pedal 21 and a second sub-pedal 22 connected to each other, wherein the first sub-pedal 21 is fixedly connected to the junk slot 10, and the second sub-pedal 22 is hinged to the junk slot 10, so that the second sub-pedal 22 can perform an opening and closing movement with respect to the junk slot 10.

Specifically, in the pedal 20, the first sub pedal 21 is fixed on the chip groove 10, for example, the first sub pedal 21 may be fixed on the chip groove 10 by welding, screwing, or the like, and the second sub pedal 22 is hinged to the chip groove 10 at a first end and is overlapped on the first sub pedal 21 at a second end, and specifically, a hinge, or other hinged device may be selected. When the chip removing assembly 30 needs to be cleaned, the second end of the second sub-pedal 22 rotates along the hinged position, and in actual use, the operator can lift the second end of the second sub-pedal 22, and at this time, the operator can directly clean the chip removing assembly 30.

In other embodiments, the first sub-pedal 21 may be connected to the junk slot 10 by a hinge at one end, when the junk assembly 30 needs to be replaced entirely, the first sub-pedal 21 may be opened when the pedal 20 needs to be opened entirely, and when the junk assembly 30 needs to be cleaned, the second sub-pedal 22 may be opened only by opening a part of the pedal 20, which is convenient for different scenes.

Alternatively, in other embodiments, the pedal 20 may be a unitary structure, and the entire pedal 20 may be opened when cleaning of the junk slots 10 is desired.

With continued reference to fig. 3 and 4, the first sub-pedal 21 is disposed around the second sub-pedal 22, that is, the first sub-pedal 21 is disposed at the periphery of the second sub-pedal 22.

Of course, in other embodiments, the first sub-pedal 21 and the second sub-pedal 22 may be disposed side by side, and in summary, the relative positions of the first sub-pedal 21 and the second sub-pedal 22 are not limited in the present application.

In one embodiment, the pedal 20 is removably coupled to the junk slots 10. Specifically, the pedal 20 is detachably connected to the junk slot 10, for example, the pedal 20 is in threaded connection with the junk slot 10, and corresponding positions of the junk slot 10 and the pedal 20 are respectively provided with a threaded hole, which are connected by nuts. Or the pedal 20 and the junk slot 10 can be connected through a hasp, a hasp seat is arranged on the junk slot 10, the hasp is arranged on the pedal 20, the hasp locks the pedal 20 to be fixed on the junk slot 10 through rotation, pressing or other operation modes, and when the pedal needs to be opened, the hasp is unlocked to separate the pedal 20 from the junk slot 10. Through footboard 20 and junk slot 10 detachable connection, when needs overhauld or change spare part to longmen protection pedal mechanism 100, can dismantle the connection fast, need not to disintegrate whole mechanism, save operating time and labour cost.

In another embodiment, when the pedal 20 includes the first sub pedal 21 and the second sub pedal 22, the first sub pedal 21 is detachably connected to the junk slot 10, the second sub pedal 22 is hinged to the junk slot 10, further, the first sub pedal 21 and the junk slot 10 may be detachably connected by threads, buckles, etc., for example, threads may be provided at corresponding positions of the first sub pedal 21 and the junk slot 10 to detachably connect the first sub pedal 21 and the junk slot 10 by nuts, or a buckle seat may be provided at corresponding positions of the first sub pedal 21 to detachably connect the first sub pedal 21 and the junk slot 10.

In other embodiments, the pedal 20 and the junk slots 10 may be non-detachably connected, for example, the pedal 20 may be fixed to the junk slots 10 by welding, or only the first sub-pedal 21 of the pedal 20 may be fixed to the junk slots 10 by welding.

With continued reference to fig. 3 and 4, the planer guard pedal mechanism 100 further includes a hinge 40, at least a portion of the pedal 20 being hinged to the junk slot 10 by the hinge 40.

Specifically, in one embodiment, one end of the hinge 40 is connected to a portion of the pedal 20, the other end of the hinge 40 is connected to the junk slot 10, further, one end of the hinge 40 is connected to the second sub pedal 22 of the pedal 20, the other end of the hinge 40 is connected to the junk slot 10, and the hinge 40 may be fixedly connected to the second sub pedal 22 and the junk slot 10 by welding, screwing, or the like. In practice, the operator opens the pedal 20 by rotating the second sub-pedal 22, and then cleans the chip ejection assembly 30.

In another embodiment, one end of the pedal 20 is connected to one end of the hinge 40, and the other end of the hinge 40 is connected to the junk slot 10. In practical applications, an operator can lift the pedal 20 entirely through the hinge 40, so as to replace and clean the chip removing assembly 30.

In other embodiments, at least a portion of the pedal 20 may also be hinged to the junk slot 10 by a hinge, e.g., one end of the hinge is connected to one end of the pedal 20 and the other end of the hinge is connected to the junk slot 10, or one end of the hinge is connected to the second sub-pedal 22 and the other end of the hinge is connected to the junk slot 10.

Referring to fig. 3 and 4, in one embodiment, at least the portion of the pedal 20 that is hinged to the junk slots 10 is provided with a plurality of through holes 50 to allow chips on the pedal 20 to fall from the through holes 50 into the junk slots 10. Specifically, the pedal 20 and the chip groove 10 are hinged with each other, and a plurality of through holes 50 are formed in the part, hinged with the chip groove 10, of the pedal 20, scraps such as metal residues are generated during machining of the machine tool 200, the scraps need to be cleaned, normal machining of a workpiece is not affected, and when the scraps splash onto the pedal 20, the scraps fall into the chip groove 10 through the through holes 50 in the pedal 20, so that scraps on a machining area are cleaned, and excessive accumulation of the scraps is avoided. Of course, through holes 50 can be formed in the pedal 20 entirely, so that the efficiency of cleaning the scraps can be improved.

Of course, in other embodiments, the pedal 20 may be provided without the through hole 50, and the pedal 20 may be provided to incompletely cover the junk slots 10, so that the chips enter the junk slots 10 through the incompletely covered slots, and the effect of cleaning the chips is also achieved.

With continued reference to fig. 3 and 4, the pedal 20 includes a plurality of interconnected pedal members 23, the plurality of pedal members 23 being spaced apart, and the spacing between adjacent pedal members 23 defining a through-hole 50. Specifically, a plurality of interconnected pedal members 23 constitute the pedal 20, and the pedal members 23 may be disposed at parallel intervals, and chips generated by the machining may fall into the junk slots 10 from the intervals therebetween.

In other embodiments, the pedal members 23 and 23 may be connected end to end, for example, the pedal members 23 may form a triangle, and the chips may enter the junk slots 10 through the triangular through holes 50.

In an embodiment, the pedal member 23 is made of a high-strength steel material, the high-strength steel material is not easy to damage or deform and has good corrosion resistance, in actual use, an operator needs to stand on the pedal 20, the pedal 20 is made of the high-strength steel material, the safety in use can be improved, the safety of the operator is ensured, meanwhile, the cutting fluid may contact the pedal 20 in the processing process, and the corrosion resistance of the high-strength steel material can prolong the service life of the pedal 20.

In other embodiments, the pedal 20 may be a checkered plate, and the present application is not limited to the material of the pedal 20.

Referring to fig. 1 and 2, in one embodiment, the chip ejection assembly 30 includes a motor (not shown) and an auger 31. The auger 31 is connected to the motor for rotation by the motor to clean the junk slots 10 of chips. Specifically, the auger 31 is driven to rotate by the motor, and the auger 31 is provided with the spiral grooves 32, so that the spiral grooves 32 continuously rotate under the drive of the motor, and each spiral groove 32 can advance towards the outer direction of the machine tool 200, and therefore scraps in the scrap discharge groove 10 are brought out of the machine tool 200, and the purpose of cleaning scraps is achieved.

In actual use, when the machine tool 200 is machining a workpiece, the auger 31 in the chip removal assembly 30 is continuously rotated, and chips are carried out of the machine tool 200 through the spiral groove 32 on the auger 31; when the auger 31 fails and stops rotating, an operator opens the pedal 20 to check the reason for the failure of the auger 31, if the auger 31 is blocked due to the blockage of chips, the operator can clean the blocked chips at the opening of the chip groove 10 by lifting the second sub-pedal 22, and the failure is relieved, so that the machine tool 200 continues to operate.

In other embodiments, a collection bin may be provided external to machine tool 200, such as a chip outlet in junk slot 10, where chips may fall from helical slot 32 into the collection bin as they are carried out of the chip outlet with helical slot 32, facilitating chip collection and cleaning.

Referring to fig. 1, the machine tool 200 of the present application further includes the gantry protection pedaling mechanism 100 described above, and the specific structure thereof may be referred to in the above drawings, which are not described herein.

The foregoing description is only of embodiments of the present application, and is not intended to limit the scope of the application, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present application or directly or indirectly applied to other related technical fields are included in the scope of the present application.

Claims (10)

1. A gantry protection pedal mechanism, comprising:

A chip removal groove;

the pedal is covered on the chip removal groove, wherein at least part of the pedal is hinged with the chip removal groove, so that at least part of the pedal can move in an opening and closing mode relative to the chip removal groove;

And the chip removal assembly is arranged in the chip removal groove and used for cleaning chips in the chip removal groove.

2. The gantry guard pedal mechanism of claim 1 wherein the pedal includes a first sub-pedal and a second sub-pedal connected to each other, wherein the first sub-pedal is fixedly connected to the junk slot and the second sub-pedal is hinged to the junk slot such that the second sub-pedal is openable and closable relative to the junk slot.

3. The gantry guard pedal mechanism of claim 2 wherein the first sub-pedal is disposed about the second sub-pedal.

4. The gantry guard foot rest mechanism of claim 1, wherein the foot rest is removably connected to the junk slot.

5. The gantry guard pedal mechanism of claim 1 further comprising:

And at least part of the pedal is hinged with the chip removal groove through the hinge.

6. The planer guard pedal mechanism of claim 1, wherein at least the portion of the pedal that is hinged to the junk slots is provided with a plurality of through holes to allow debris on the pedal to fall from the through holes into the junk slots.

7. The protective foot mechanism of claim 6, wherein the foot plate comprises a plurality of interconnected foot plate members, a plurality of the foot plate members being spaced apart, and the spacing between adjacent two of the foot plate members forming the through-hole.

8. The protective gantry pedal mechanism of claim 7 wherein the pedal member is a screw-threaded steel.

9. The gantry guard foot rest mechanism of claim 1, wherein the chip removal assembly comprises:

A motor;

and the auger is connected with the motor so as to rotate under the drive of the motor to clean the chips in the chip removal groove.

10. A machine tool comprising a gantry guard foot rest mechanism according to any one of claims 1 to 9.