CN220312650U - Multichannel processing equipment - Google Patents

Abstract

The utility model discloses multichannel processing equipment, which comprises a pair of parallel Y-axis tracks, wherein any one of the pair of Y-axis tracks is slidably arranged on an X-axis track, and a Z-axis track is arranged on the Y-axis track; the X-axis track on a straight line is integral or sectionally arranged, the X-axis track is further provided with a mounting plate in a sliding manner, a lifting controller is arranged on the mounting plate, a lifting rod is arranged on the lifting controller in a sliding manner, the lubrication mechanism is arranged on the lifting controller and comprises a lubrication box, lubricating oil is arranged in the lubrication box, a conveying pipe is connected to the lubrication box, a liquid distribution pipe is connected to the conveying pipe, spray pipes are connected to two ends of the liquid distribution pipe, the spray pipes are connected with the mounting plate, a plurality of evenly distributed spray heads are connected to the spray pipes, and the spray heads correspond to the lifting rod. According to the utility model, through the arrangement of the corresponding mechanism and the optimized arrangement of the multichannel structure of the machining center, the normal machining efficiency of the parts is effectively ensured.

Description

Multichannel processing equipment

Technical Field

The utility model relates to a numerical control machine tool, in particular to multi-channel processing equipment.

Background

A numerical control machine is an automated machine equipped with a program control system that logically processes a program defined by a control code or other symbolic instruction, decodes the program, and operates the machine to machine a part. The existing part of numerical control machine tool is required to be matched with a truss manipulator for use, so that multichannel processing of parts can be realized, and the processing efficiency of the parts is improved. The truss manipulator is also called as a truss robot, mainly comprises linear motion configured by a Cartesian right angle or oblique angle coordinate system, is assisted by multi-degree-of-freedom rotary motion, and can be automatically controlled and can be repeatedly programmed.

In the prior art, when the part truss manipulator is matched with a numerical control machine tool for use, the lifting part of the truss manipulator is easy to be worn due to lack of lubricating oil due to frequent rotation or lifting, so that the service life of the lifting part of the truss manipulator is easy to be shortened, the maintenance frequency of a user is increased, and the normal machining efficiency of parts is also reduced.

Accordingly, in view of the above-described technical problems, it is necessary to provide a multi-channel processing apparatus.

Disclosure of Invention

The utility model aims to provide a multi-channel processing device which can solve the problem that a lifting component of a truss mechanical arm is easy to wear.

To achieve the above object, the present utility model provides a multi-channel processing apparatus comprising: a pair of parallel Y-axis tracks, wherein any one of the pair of Y-axis tracks is slidably arranged on the X-axis track, and a Z-axis track is arranged on the Y-axis track;

the X-axis tracks on a straight line are integral or arranged in sections.

In one or more embodiments, the X-axis rail is further provided with a mounting plate in a sliding manner, a lifting controller is mounted on the mounting plate, and a lifting rod is provided on the lifting controller in a sliding manner.

In one or more embodiments, the lifting control device further comprises a lubrication mechanism, the lubrication mechanism is installed on the lifting control device, the lubrication mechanism comprises a lubrication box, lubricating oil is arranged in the lubrication box, a conveying pipe is connected to the lubrication box, a liquid distribution pipe is connected to the conveying pipe, spray pipes are connected to two ends of the liquid distribution pipe, the spray pipes are connected with the mounting plate, a plurality of evenly distributed spray heads are connected to the spray pipes, and the spray heads correspond to the lifting rods.

In one or more embodiments, a submersible pump is arranged in the lubrication box, an output end of the submersible pump is connected with the conveying pipe, and the submersible pump is used for pumping lubricating oil in the lubrication box.

In one or more embodiments, a liquid level sensor is further arranged in the lubrication box and used for monitoring the liquid of the lubricating oil in the lubrication box so as to facilitate timely replenishment of staff;

and the side wall of the lubrication box is provided with a controller, and the submersible pump and the liquid level sensor are electrically connected with the controller and used for controlling the operation of the submersible pump and the liquid level sensor.

In one or more embodiments, the conveying pipe is provided with a control valve, and the control valve is electrically connected with the controller and used for controlling the on-off of the conveying pipe.

In one or more embodiments, a filler pipe is connected to the lubrication box to facilitate adding lubrication oil into the lubrication box.

In one or more embodiments, the underside of the nozzle is provided with a fixing plate for connecting a plurality of bristles;

a pair of support posts are connected between the spray pipe and the fixed plate, so that the connection firmness of the spray pipe and the fixed plate is improved.

In one or more embodiments, the outside of the support post is coated with an anti-corrosion layer for improving the anti-corrosion effect of the support post and improving the service life of the support post.

In one or more embodiments, a plurality of evenly distributed bristles are connected to one surface of the fixing plate, which is close to the lifting rod, and are used for brushing lubricating oil on the surface of the lifting rod, so that the lubricating oil is uniformly coated, and the lifting controller and the lifting rod can be fully lubricated by the lubricating oil;

the brush hair is made of rubber, so that the lifting rod is not easy to damage, and meanwhile, the service life of the brush hair can be prolonged.

Compared with the prior art, the multi-channel processing equipment disclosed by the utility model has the advantages that through the arrangement of the corresponding mechanism, the truss manipulator lifting component is convenient to lubricate, so that the truss manipulator lifting component is not easy to wear due to frequent rotation or lifting, the service life of the truss manipulator lifting component is ensured, the maintenance frequency of a user is reduced, and the normal processing efficiency of parts can be ensured.

Drawings

Fig. 1 is a perspective view of a multi-channel processing apparatus according to an embodiment of the present utility model.

Fig. 2 is a schematic diagram of the structure at a in fig. 1.

Fig. 3 is an elevational partial cross-sectional view of a multi-channel processing apparatus according to an embodiment of the present utility model.

Fig. 4 is a schematic diagram of the structure at B in fig. 3.

The main reference numerals illustrate:

1-Y axis track, 101-X axis track, 102-mounting plate, 103-lifting controller, 104-lifting rod, 2-lubrication mechanism, 201-lubrication box, 202-conveying pipe, 203-liquid distribution pipe, 204-spray pipe, 205-spray head, 206-fixing plate, 207-pillar, 208-brush hair.

Detailed Description

The following detailed description of embodiments of the utility model is, therefore, to be taken in conjunction with the accompanying drawings, and it is to be understood that the scope of the utility model is not limited to the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the term "comprise" or variations thereof such as "comprises" or "comprising", etc. will be understood to include the stated element or component without excluding other elements or components.

As shown in fig. 1 to 4, a multi-channel processing apparatus according to an embodiment of the present utility model includes: a pair of parallel Y-axis tracks 1, X-axis tracks 101 and Z-axis tracks.

Wherein, a pair of Y-axis rails 1 are slidably disposed on the X-axis rail 101.

In addition, the X-axis rail 101 on a straight line is provided integrally or in segments.

Specifically, the X-axis rail 101 is provided with a mounting plate 102, a lift controller 103, a lift lever 104, and a lubrication mechanism 2.

The lifting controller 103 is installed on the mounting plate 102, the lifting rod 104 is slidably arranged on the lifting controller 103, and the lifting controller 103 is used for controlling the lifting rod 104 to lift and realizing Z-axis movement of the part.

Preferably, the Y-axis track 1, the X-axis track 101, the Z-axis track, the lifting controller 103 and the lifting rod 104 adopted in the present application are all in the prior art, and the connection between the components is also in the prior art, so that the connection and the working principle thereof are not repeated here.

As shown in fig. 1 to 4, the lubrication mechanism 2 is mounted on the lifting controller 103, and the lubrication mechanism 2 is used for lubricating the connection part of the lifting controller 103 and the lifting rod 104, so that abrasion of the connection part of the lifting controller 103 and the lifting rod 104 in the frequent lifting and rotating process is reduced, the service life of the connection part of the lifting controller 103 and the lifting rod 104 is ensured, and the maintenance frequency of a user is reduced.

The lubrication mechanism 2 comprises a lubrication box 201, wherein lubricating oil is arranged in the lubrication box 201 and used for lubricating the connection part of the lifting controller 103 and the lifting rod 104, and abrasion of the connection part of the lifting controller 103 and the lifting rod 104 is reduced.

In addition, a submersible pump is arranged in the lubrication box 201, the output end of the submersible pump is connected with the conveying pipe 202, and the submersible pump is used for pumping lubricating oil in the lubrication box 201 so that the lubricating oil can be sprayed on the side wall of the lifting rod 104. When the lift lever 104 is lifted, the side wall of the injected lubricating oil can be in contact with the lift controller 103, so that the lubricating effect can be achieved, and the abrasion of the connecting part of the lift controller 103 and the lift lever 104 is reduced.

Preferably, a liquid level sensor is further arranged in the lubrication box 201 and is used for monitoring the liquid of the lubricating oil in the lubrication box 201 so as to facilitate timely replenishment of staff.

Specifically, a filler pipe is connected to the lubrication box 201, so that lubrication oil can be easily added into the lubrication box 201.

In addition, install the controller on the lubrication box 201 lateral wall, immersible pump and level sensor and controller electric connection for control immersible pump and level sensor's operation, and then be used for to lifting lever 104 lateral wall injection lubricating oil, be used for lubricated lifting control 103 and lifting lever 104 connecting portion, reduce the wearing and tearing of lifting control 103 and lifting lever 104 connecting portion.

As shown in fig. 1 to 4, a delivery pipe 202 for delivering lubricating oil is connected to the lubrication box 201.

Wherein, install the control valve on the conveyer pipe 202, control valve and controller electric connection for the break-make of control conveyer pipe 202, when control valve and immersible pump open, lubricating oil is taken out by the immersible pump, carries in the join in marriage liquid pipe 203 through conveyer pipe 202.

In addition, a liquid distribution pipe 203 is connected to the conveying pipe 202, spray pipes 204 are connected to both ends of the liquid distribution pipe 203, the spray pipes 204 are connected to the mounting plate 102, a plurality of evenly distributed spray heads 205 are connected to the spray pipes 204, and the spray heads 205 correspond to the lifting rods 104. The lubricating oil in the liquid distribution pipe 203 enters a pair of spray pipes 204, and is sprayed to the side wall of the lifting rod 104 through a plurality of spray heads 205 on the spray pipes 204.

Preferably, the spray head 205 is an atomization spray head, so that the lubricating oil is not easy to be converged into drops, and the lubricating effect of the lubricating oil on the side wall of the lifting rod 104 is ensured.

As shown in fig. 1-4, the underside of the spout 204 is provided with a retaining plate 206 for attaching a plurality of bristles 208.

Wherein, a pair of struts 207 are connected between the nozzle 204 and the fixing plate 206, so as to improve the connection firmness of the nozzle 204 and the fixing plate 206.

Preferably, the outer side of the support 207 is coated with an anti-corrosion layer for improving the anti-corrosion effect of the support 207 and prolonging the service life of the support 207.

In addition, a plurality of evenly distributed bristles 208 are connected to a surface of the fixing plate 206, which is close to the lifting rod 104, and are used for brushing lubricating oil on the surface of the lifting rod 104, so that the lubricating oil is uniformly coated, and the connecting part of the lifting controller 103 and the lifting rod 104 can be fully lubricated by the lubricating oil.

Preferably, the bristles 208 also serve to block the lubrication oil so that the lubrication oil is not easily sprayed on the parts extracted by the lift bar 104, ensuring a clean effect of the parts.

Specifically, the bristles 208 are made of rubber, so that the lifting rod 104 is not easily damaged, and meanwhile, the service life of the bristles 208 can be prolonged.

When the connecting part of the lifting controller 103 and the lifting rod 104 is needed to be lubricated, the controller is used for controlling the submersible pump and the control valve on the conveying pipe 202 to be opened, the submersible pump is used for pumping the lubricating oil in the lubricating tank 201, the lubricating oil is conveyed into the liquid distribution pipe 203 through the conveying pipe 202 and enters the pair of spray pipes 204, and the plurality of spray heads 205 on the spray pipes 204 are used for spraying the lubricating oil to the side wall of the lifting rod 104.

When the lifting controller 103 and the lifting rod 104 move, lubricating oil on the side wall of the lifting rod 104 is used for lubricating the connecting part of the lifting controller 103 and the lifting rod 104, so that the abrasion probability of the connecting part of the lifting controller 103 and the lifting rod 104 can be reduced, the service life of the connecting part of the lifting controller 103 and the lifting rod 104 is ensured, and the maintenance frequency of workers is reduced.

In addition, when the nozzle 205 sprays lubricating oil, the bristles 208 can be used for blocking the lubricating oil, so that the lubricating oil is not easy to spray on the parts extracted by the lifting rod 104, and the clean effect of the parts is ensured.

Moreover, when the lifting controller 103 and the lifting rod 104 relatively move, the bristles 208 can smear the lubricating oil on the side wall of the lifting rod 104, so that the lubricating oil is smeared uniformly, and the connecting part of the lifting controller 103 and the lifting rod 104 can be fully lubricated by the lubricating oil.

The foregoing descriptions of specific exemplary embodiments of the present utility model are presented for purposes of illustration and description. It is not intended to limit the utility model to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain the specific principles of the utility model and its practical application to thereby enable one skilled in the art to make and utilize the utility model in various exemplary embodiments and with various modifications as are suited to the particular use contemplated. It is intended that the scope of the utility model be defined by the claims and their equivalents.

Claims (10)

1. Multichannel processing equipment, characterized by, include:

a pair of parallel Y-axis tracks, wherein any one of the pair of Y-axis tracks is slidably arranged on the X-axis track, and a Z-axis track is arranged on the Y-axis track;

the X-axis tracks on a straight line are integral or arranged in sections.

2. The multi-channel processing apparatus of claim 1 wherein the X-axis rail is further slidably provided with a mounting plate, the mounting plate having a lift control mounted thereon, the lift control having a lift bar slidably disposed thereon.

3. The multi-channel processing apparatus according to claim 2, further comprising a lubrication mechanism mounted on the lifting controller, wherein the lubrication mechanism comprises a lubrication box, lubrication oil is provided in the lubrication box, a conveying pipe is connected to the lubrication box, a liquid distribution pipe is connected to the conveying pipe, spray pipes are connected to two ends of the liquid distribution pipe, the spray pipes are connected to the mounting plate, a plurality of evenly distributed spray heads are connected to the spray pipes, and the spray heads correspond to the lifting rods.

4. A multi-channel processing apparatus as claimed in claim 3, wherein a submersible pump is provided in the lubrication box, and the output end of the submersible pump is connected to the delivery pipe.

5. The multi-channel processing apparatus of claim 4, wherein a liquid level sensor is further disposed in the lubrication box, a controller is mounted on a side wall of the lubrication box, and the submersible pump and the liquid level sensor are electrically connected with the controller.

6. The multi-channel processing apparatus of claim 5, wherein a control valve is mounted on the delivery tube, the control valve being electrically connected to the controller.

7. A multi-channel processing apparatus as claimed in claim 3, wherein a filler pipe is connected to the lubrication box.

8. A multi-channel processing apparatus as claimed in claim 3, wherein a fixed plate is provided on the underside of the spout, and a pair of struts are connected between the spout and the fixed plate.

9. The multi-channel processing apparatus of claim 8 wherein the outside of the post is coated with a corrosion resistant layer.

10. The multi-channel processing apparatus of claim 8, wherein a plurality of evenly distributed bristles are connected to a surface of the fixed plate adjacent to the lifting bar, the bristles being made of rubber.