CN211464136U - Honeycomb type part chip removal device - Google Patents

Abstract

The utility model discloses a chip removal device for honeycomb parts, which comprises a box body with a closed cavity, wherein a placing platform for placing the honeycomb parts and an air injection device which is positioned above the placing platform and used for blowing air and removing chips for the honeycomb parts are arranged in the closed cavity; guide rails which are parallel and can be used for the placing platform to slide are arranged on two sides of the closed cavity, the placing platform is arranged in the guide rails in a sliding mode, and a side door used for the placing platform to move in and out of the closed cavity is further arranged at the box body; the air injection device comprises an X-axis linear motion module, a Y-axis linear motion module and an air injection assembly arranged on the Y-axis linear motion module. This honeycomb type part cleaning device can effectively clear away remaining metal sweeps in the honeycomb type part, carries out closed recovery processing that blocks with the sweeps simultaneously, prevents that the sweeps from splashing, and protection operating personnel personal safety improves the environment cleanliness to reduce workman intensity of labour.

Description

Honeycomb type part chip removal device

Technical Field

The utility model relates to a chip removal device, especially a honeycomb type part chip removal device for clearing up and collecting part sweeps.

Background

With the increasing maturity of composite material processing technology, composite materials are increasingly used for parts on airplanes, and some waste chips which are not easy to treat are remained on the surfaces of the processed materials, but the parts are large in size and length and difficult to clean the waste chips. Particularly, the upper surface and the lower surface of the honeycomb parts are provided with dense holes, and the structure is more complex, so that the problems of large dust, incomplete cleaning, high labor intensity and the like in the cleaning process of the honeycomb core parts are solved. At present, the manual treatment of the scraps generally needs a lot of time and labor, and the cleaning effect is not ideal. In particular, the scraps are scattered to the ground and the air during the cleaning process, are not favorable to the surrounding working environment and the physical health of workers, and are prone to safety accidents. Therefore, it is necessary to provide a honeycomb part cleaning device which has a good cleaning effect, low labor intensity and is environmentally friendly.

SUMMERY OF THE UTILITY MODEL

In order to overcome prior art not enough, the utility model provides a honeycomb class part chip removal device blows the clearance operation to honeycomb class part through set up place the platform and air jet system in airtight cavity, can effectively clear away and remain the sweeps in the honeycomb class part, carries out closed recovery processing that blocks with the sweeps simultaneously, prevents that the sweeps from splashing, protects operating personnel personal safety, improves the environment cleanliness to reduce workman intensity of labour.

The utility model provides a technical scheme that its technical problem adopted is: a chip removal device for honeycomb parts comprises a box body with a closed cavity, wherein a placing platform for placing the honeycomb parts and an air injection device which is positioned above the placing platform and used for blowing air and removing chips for the honeycomb parts are arranged in the closed cavity; the two sides of the closed cavity are provided with guide rails which are parallel and can be used for the placing platform to slide, the placing platform is arranged in the guide rails in a sliding way, and the box body is also provided with a side door used for the placing platform to move in and out of the closed cavity; the air injection device comprises an X-axis linear motion module, a Y-axis linear motion module and an air injection assembly arranged on the Y-axis linear motion module, wherein the X-axis linear motion module is fixed in a sealed cavity along the X-axis direction and comprises two groups of linear motion modules which are arranged in parallel and move synchronously, the Y-axis linear motion module is arranged along the Y-axis direction and is in transmission connection with the X-axis linear motion module, and the air injection assembly is fixed on the Y-axis linear motion module and is in transmission connection with the Y-axis linear motion module.

The utility model has the advantages that: through set up place the platform and air jet system carries out honeycomb type part clearance work in airtight cavity, can effectively clear away remaining metal sweeps in the honeycomb type part, carry out closed recovery processing that blocks with the sweeps simultaneously, prevent that the sweeps from splashing, protection operating personnel personal safety improves the environment cleanliness to reduce workman intensity of labour. In addition, the placing platform is connected with the box body in a sliding mode through the guide rail in the sealed cavity, so that the placing platform and the box body form a drawing structure, and therefore the honeycomb type parts can be placed and taken out conveniently. During the use, open the side door, outwards stimulate place the platform, pull out certain length after, settle honeycomb class part on place the platform, place steady back and push into the box along with place the platform together, close the side door in order to form inclosed working space. The placing platform installed in a sliding mode can be suitable for honeycomb parts with large size and large length, the part placing box can be conveniently taken out, and the labor intensity of an individual is reduced. In addition, the air injection device comprises an X-axis linear motion module and a Y-axis linear motion module, and the Y-axis linear motion module and the air injection assembly are driven to move along the X axis under the action of the X-axis linear motion module; under the effect of Y axle linear motion module, drive jet-propelled subassembly along the motion of Y axle, the jet-propelled subassembly motion track is the S shape this moment, can realize the air injection operation of multi-angle omnidirectional, very big improvement work efficiency. It should be noted that the movement speeds of the X-axis linear motion module and the Y-axis linear motion module are adjustable, thereby realizing the omnibearing air injection operation.

Further setting the following steps: the X-axis linear motion module comprises an X-axis belt pulley, an X-axis synchronous belt and an X-axis sliding table fixed on the X-axis synchronous belt, and the Y-axis linear motion module is arranged on the two groups of X-axis sliding tables, is positioned between the two groups of X-axis sliding tables, and comprises a Y-axis belt pulley, a Y-axis synchronous belt and a Y-axis sliding table fixed on a Y-axis transmission belt; the air injection assembly is arranged on the Y-axis sliding table.

By adopting the technical scheme, the X-axis linear motion module and the Y-axis linear motion module adopt a synchronous belt mechanism to convert rotary motion into reciprocating linear motion. In some embodiments, other mechanisms for converting rotational motion to linear motion may also be employed, such as a slider-crank mechanism, a ball screw, and the like.

Further setting the following steps: the X-axis linear motion module and the Y-axis linear motion module are respectively driven by a servo motor, or the X-axis linear motion module and the Y-axis linear motion module are respectively driven by an air cylinder or a hydraulic cylinder.

By adopting the technical scheme, the X-axis linear motion module is driven by a servo motor, an air cylinder or a hydraulic cylinder and mainly plays a role of driving an X-axis belt wheel to rotate so as to drive an X-axis synchronous belt to move along the X axis; the Y-axis linear motion module is driven by a servo motor, an air cylinder or a hydraulic cylinder and mainly drives a Y-axis belt wheel to rotate so as to drive a Y-axis synchronous belt to move along the Y axis. And the driving devices such as the servo motor, the air cylinder or the hydraulic cylinder and the like operate stably, and the maintenance and the replacement are convenient.

Further setting the following steps: the placing platform comprises a support frame and a silk screen arranged between the support frames, and the support frame can slide along the guide rail.

Further setting the following steps: the air injection assembly comprises an air source and an air injection nozzle communicated with the air source, and the air injection nozzle is arranged on the Y-axis linear motion module and has a downward opening.

By adopting the technical scheme, the starting device for controlling the air source starts the air nozzle to automatically blow downwards, the air nozzle is arranged on the Y-axis sliding table and moves along with the Y-axis sliding table, and the air nozzle blows waste scraps on the honeycomb parts, and the waste scraps pass through the silk screen under the influence of gravity and fall into the scrap discharge groove below.

Further setting the following steps: a chip groove for collecting waste chips is arranged below the placing platform, the chip groove is obliquely arranged in the sealed cavity, and the notch of the chip groove at the low end is connected with a collecting drawer.

The chip groove is used for collecting waste chips falling from the placing platform, and the waste chips slide to the notch at the lower end of the chip groove and enter the collecting drawer due to the inclined arrangement of the chip groove. In some embodiments, the collection drawer is movable and accessible to and from the enclosed chamber through a side door. After the clearance, can pull out and collect the steamer tray in order to pour the sweeps to realized cleaner production, and be favorable to the subsequent recycle of sweeps.

Further setting the following steps: the bottom of the box body is provided with a plurality of trundles.

By adopting the technical scheme, the honeycomb part cleaning device can be moved and fixed, and when the cleaning device is not used, the cleaning device is pushed to the corner position of a workshop through the caster wheels, so that the occupied space is saved; when the device is used, the device is pushed to a designated station through the caster wheels, so that the labor intensity of workers can be reduced. In some embodiments, casters are provided at least four corners of the cleaning device.

Drawings

Fig. 1 is a schematic structural diagram of the honeycomb part cleaning device of the present invention.

Fig. 2 is a schematic structural view of the honeycomb part cleaning apparatus of the present invention, wherein the placing platform is drawn out.

Fig. 3 is a schematic structural diagram of the air injection device of the present invention.

Fig. 4 is a partial schematic view of the air injection device of the present invention.

The device comprises a box body 1, a frame 11, a baffle 12, a side door 13, a guide rail 14, a base 15, a placing platform 2, a supporting frame 21, a silk screen 22, an air injection device 3, an X-axis linear motion module 31, an X-axis belt wheel 311, an X-axis synchronous belt 312, an X-axis sliding table 313, an X-axis motor 314, a Y-axis linear motion module 32, a Y-axis belt wheel 321, a Y-axis synchronous belt 322, a Y-axis sliding table 323, a Y-axis motor 324, an air nozzle 331, a chip discharge groove 41, a collection drawer 42, a caster 5 and a honeycomb part 6.

Detailed Description

The invention will be further described with reference to the accompanying drawings:

as shown in fig. 1 to 4, the present embodiment provides a chip removal device for honeycomb type parts, which includes a box 1 having a closed chamber, a placing platform 2 for placing a honeycomb type part 6 is disposed in the closed chamber, and an air injection device 3 located above the placing platform 2 and used for blowing air and removing chips from the honeycomb type part 6. The box body 1 comprises a frame 11 and a baffle plate 12 arranged on the periphery of the frame 11, wherein the baffle plate 12 is connected with the frame 11 to form the closed chamber, so that scraps falling in the blowing process are controlled in the closed chamber. Compared with the traditional open type honeycomb part cleaning device, the honeycomb part cleaning device can provide a closed type operation environment, so that scraps are prevented from splashing, the personal safety of operators is protected, and clean production is facilitated. In this embodiment, the material of the baffle 11 can be a transparent glass plate, which is convenient for monitoring the cleaning condition of the honeycomb type part 6 in real time.

This place the platform 2 slidable mounting is in airtight cavity, and place the platform 2 includes support frame 21, and sets up the silk screen 22 between support frame 21. The closed cavity is internally provided with a guide rail 14 which is parallel and can slide on the support frame 21, the box body 1 is provided with a side opening door 13 for the placing platform 2 to move in and out of the closed cavity, and the side opening door 13 is movably connected with the box body 1 and can be sealed and closed. The material of the side door 13 can be a transparent glass plate. During the use, open side door 13, pulling place the platform 2 and make it outwards remove along guide rail 14, pull out certain length after, settle honeycomb class part 6 on place the platform 2, place steady back and push box 1 along with place the platform 2 in together, close side door 13 in order to form inclosed working space. The placing platform 2 installed in a sliding mode can be suitable for honeycomb parts 6 which are large in size and length, the part placing box can be conveniently taken out, and the labor intensity of an individual is reduced.

In addition, a chip groove 41 for collecting the waste chips is arranged below the placing platform 2, the chip groove 41 is obliquely arranged in the sealed cavity, the notch of the lower end of the chip groove 41 is connected with a collecting drawer 42, the chip groove can be taken out from the side door 13 to pour out the waste chips, so that the clean production is realized, and the subsequent recycling of the waste chips is facilitated. Thus, during the scrap cleaning process, the blown-off scraps pass through the wire mesh 22 of the placing platform 2 under the influence of gravity, fall into the scrap discharge chute 41, slide in the scrap discharge chute 41 to the notch at the lower end, and finally enter the collection drawer 42. It should be noted that the area of the junk slots 41 is larger than the area of the placing platform 2, and preferably the junk slots 41 cover the entire bottom surface of the box 1, thereby facilitating the collection of the entire junk.

The air injection device 3 comprises an X-axis linear motion module 31, a Y-axis linear motion module 32 and an air injection assembly arranged on the Y-axis linear motion module 32. The X-axis linear motion module 31 is fixed in the closed cavity along the X-axis direction and comprises two groups of linear motion modules which are arranged in parallel and move synchronously, the Y-axis linear motion module 32 is arranged along the Y-axis direction and is in transmission connection with the X-axis linear motion module 31, and the air injection assembly is fixed on the Y-axis linear motion module 32 and is in transmission connection with the Y-axis linear motion module 32. Wherein the X-axis linear motion module 31 and the Y-axis linear motion module 32 are both mechanisms for converting a rotational motion into a linear motion for supporting and guiding the movement of the gas injection assembly, and are also conventional XY linear modules known to those skilled in the art. Therefore, other mechanisms that convert rotational motion into linear motion, such as a slider-crank mechanism, a ball screw, and the like, may be used. In this embodiment, the X-axis linear motion module 31 is disposed on a base 15 in the sealed chamber, the base 15 is used to support the structure of the X-axis linear motion module 31, wherein the X-axis linear motion module 31 is a pulley synchronous belt structure and includes an X-axis pulley 311, an X-axis synchronous belt 312, and an X-axis sliding table 313 fixed on the X-axis synchronous belt 312. The Y-axis linear motion module 32 is arranged on the X-axis sliding table 313 and located between the two groups of X-axis sliding tables 313, the Y-axis linear motion module 32 is of a synchronous pulley structure and comprises a Y-axis pulley 321, a Y-axis synchronous belt 322 and a Y-axis sliding table 323 fixed on the Y-axis transmission belt 322, and the air injection assembly is arranged on the Y-axis sliding table 323 and can move along the Y axis along with the Y-axis sliding table 323. The X-axis linear motion module 31 and the Y-axis linear motion module 32 are driven by an X-axis motor 314 and a Y-axis motor 324, respectively. The air injection assembly comprises an air source and an air nozzle 331 communicated with the air source, wherein the opening of the air nozzle 331 faces downwards. When in use, the servo motors of the X-axis linear motion module 31 and the Y-axis linear motion module 32 are respectively started, and the Y-axis linear motion module 32 and the air nozzle 331 are driven to move along the X axis under the action of the X-axis linear motion module 31; under the effect of Y axle linear motion module 32, drive air nozzle 331 and follow the motion of Y axle, the air injection subassembly orbit of this moment is the S shape, can realize the air injection operation of multi-angle omnidirectional, very big improvement work efficiency. It should be noted that the movement speeds of the X-axis linear motion module 31 and the Y-axis linear motion module 32 are adjustable, thereby achieving the all-directional air injection operation. It should also be noted that the "X-axis" and "Y-axis" are defined for convenience of description and do not represent the actual structure and orientation of the case 1. In addition, the X-axis linear motion module 31 and the Y-axis linear motion module 32 may also be driven by air/hydraulic cylinders.

In addition, in order to realize the movement and fixation of the honeycomb type parts cleaning device, four casters 5 are provided at four corners of the bottom of the case 1. When the cleaning device is not used, the cleaning device is pushed to the corner of a workshop through the caster 5, so that the occupied space is saved; when in use, the trolley is pushed to a designated station through the caster 5, so that the labor intensity of workers can be reduced.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides a honeycomb class part chip removal device which characterized in that: the device comprises a box body with a closed cavity, wherein a placing platform for placing the honeycomb parts and an air injection device which is positioned above the placing platform and used for blowing air and removing chips on the honeycomb parts are arranged in the closed cavity;

guide rails which are parallel and can be used for the placing platform to slide are arranged on two sides of the closed cavity, the placing platform is slidably arranged in the guide rails, and a side door used for the placing platform to move in and out of the closed cavity is further arranged at the box body;

the air injection device comprises an X-axis linear motion module, a Y-axis linear motion module and an air injection assembly arranged on the Y-axis linear motion module, wherein the X-axis linear motion module is fixed in a sealed cavity along the X-axis direction and comprises two groups of linear motion modules which are arranged in parallel and move synchronously, the Y-axis linear motion module is arranged along the Y-axis direction and is in transmission connection with the X-axis linear motion module, and the air injection assembly is fixed on the Y-axis linear motion module and is in transmission connection with the Y-axis linear motion module.

2. The scrap discharging device for honeycomb parts according to claim 1, wherein: the X-axis linear motion module comprises an X-axis belt pulley, an X-axis synchronous belt and an X-axis sliding table fixed on the X-axis synchronous belt, and the Y-axis linear motion module is arranged on the two groups of X-axis sliding tables, is positioned between the two groups of X-axis sliding tables, and comprises a Y-axis belt pulley, a Y-axis synchronous belt and a Y-axis sliding table fixed on a Y-axis transmission belt;

the air injection assembly is arranged on the Y-axis sliding table.

3. The scrap discharging device for honeycomb parts according to claim 2, wherein: the X-axis linear motion module and the Y-axis linear motion module are respectively driven by a servo motor, or the X-axis linear motion module and the Y-axis linear motion module are respectively driven by an air cylinder or a hydraulic cylinder.

4. The scrap discharging device for honeycomb parts according to claim 1, wherein: the placing platform comprises a support frame and a silk screen arranged between the support frames, and the support frame can slide along the guide rail.

5. The scrap discharging device for honeycomb parts according to claim 1, wherein: the air injection assembly comprises an air source and an air injection nozzle communicated with the air source, and the air injection nozzle is arranged on the Y-axis linear motion module and has a downward opening.

6. The scrap discharging device for honeycomb parts according to claim 4, wherein: the placing platform below is equipped with the chip groove that is used for collecting the sweeps, and this chip groove slope sets up in airtight cavity, and the notch department that this chip groove is located the low side is connected with the collection steamer tray.

7. The scrap discharging device for honeycomb parts according to claim 1, wherein: the bottom of the box body is provided with a plurality of trundles.

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