CN113977005B - Cabin component processing and conveying equipment and method - Google Patents

Abstract

The invention relates to cabin component processing and conveying equipment and a method, wherein the cabin component processing and conveying equipment comprises: the cutting device comprises a support frame, a conveying mechanism and a cutting mechanism; the conveying mechanism is fixedly arranged above the supporting frame; the cutting mechanism is arranged in the conveying mechanism and is suitable for cutting the cabin body components conveyed in the conveying mechanism; the cutting mechanism comprises an smearing assembly and a cutting assembly; the smearing component and the cutting component are sequentially arranged between the feed inlet and the discharge outlet of the conveying mechanism. The cutting assembly for cutting the burrs and the cutting fluid needing spraying during cutting are placed on the conveying mechanism, and the cutting fluid is directly sprayed and the burrs are removed after the cabin body components are produced, so that the precision of the cabin body components is improved, and the cost during production of the cabin body components is reduced.

Description

Cabin component processing and conveying equipment and method

Technical Field

The invention relates to the field of conveying, in particular to cabin component processing and conveying equipment and a cabin component processing and conveying method.

Background

When the cabin components are produced, various burrs exist on the surfaces of the cabin components, so that the precision of the cabin components is reduced, in order to improve the precision of the cabin components, the cabin components need to be conveyed to a single burr removing device for burr removal, and the production cost is increased.

The above problems are currently in need of solution.

Disclosure of Invention

The invention aims to provide cabin component processing and conveying equipment and a cabin component processing and conveying method.

In order to solve the above technical problem, the present invention provides a cabin component processing and conveying apparatus, comprising:

the cutting device comprises a support frame, a conveying mechanism and a cutting mechanism;

the conveying mechanism is fixedly arranged above the supporting frame;

the cutting mechanism is arranged in the conveying mechanism and is suitable for cutting the cabin body components conveyed in the conveying mechanism;

the cutting mechanism comprises an smearing assembly and a cutting assembly;

the smearing component and the cutting component are sequentially arranged between the feed inlet and the discharge outlet of the conveying mechanism.

Further, the cutting mechanism further comprises a connecting rod;

the smearing assembly and the cutting assembly are fixedly connected through the connecting rod.

Further, the dauber assembly includes: the device comprises a first fixing plate, a first supporting plate, a smearing plate and an oil drum;

the first fixing plate is fixedly arranged on the side wall of the conveying groove of the conveying mechanism;

the first supporting plate is vertically arranged on the first fixing plate;

the smearing plate is rotatably connected to the first supporting plate, and the lower part of the smearing plate is elastically connected with the first fixing plate through a spring;

the oil drum is suitable for providing cutting fluid for the smearing plate;

the lower end of the smearing plate is provided with a quarter of guide ball, and the smearing plate is suitable for being compressed by the cabin body component when the cabin body component passes through the smearing plate and enabling the cutting fluid in the oil drum to flow onto the cabin body component from the smearing plate.

Further, the top of smearing plate is provided with a first notch matched with the cabin body part, and the first notch is provided with an oil outlet communicated with the oil drum.

Furthermore, the first notch is provided with a hairbrush.

Further, the oil drum comprises a drum body, a piston rod and an oil outlet pipe;

two ends of the oil outlet pipe are respectively provided with a one-way valve;

a sleeve pipe suitable for the piston rod to be inserted is arranged between the two one-way valves of the oil outlet pipe;

one end of the piston rod penetrates through the first fixing plate and is hinged to the lower portion of the smearing plate, and the other end of the piston rod is inserted into the sleeve and is sealed with the sleeve.

Further, the cutting assembly comprises a second fixing plate, a second supporting plate and a cutting plate;

the second fixing plate is fixedly arranged on the side wall of the conveying groove of the conveying mechanism;

the second supporting plate is vertically arranged on the second fixing plate;

the cutting plate is rotatably connected to the second support plate.

Further, the cutting plate and the smearing plate are fixedly connected through a connecting rod, and the axis of the smearing plate and the axis of the cutting plate have a preset angle difference.

Furthermore, a second notch matched with the cabin body component is formed in the top of the cutting plate, and a cutting inclined plane is formed in the second notch.

The invention also provides a cabin component processing and conveying method, which conveys the cabin components through the cabin component processing and conveying equipment.

The beneficial effects of the invention are that the invention provides a cabin component processing and conveying device and a method, wherein the cabin component processing and conveying device comprises: the cutting device comprises a support frame, a conveying mechanism and a cutting mechanism; the conveying mechanism is fixedly arranged above the supporting frame; the cutting mechanism is arranged in the conveying mechanism and is suitable for cutting the cabin body components conveyed in the conveying mechanism; the cutting mechanism comprises an smearing assembly and a cutting assembly; the smearing component and the cutting component are sequentially arranged between the feed inlet and the discharge outlet of the conveying mechanism. The cutting assembly for cutting the burrs and the cutting fluid needing spraying during cutting are placed on the conveying mechanism, and the cutting fluid is directly sprayed and the burrs are removed after the cabin body components are produced, so that the precision of the cabin body components is improved, and the cost during production of the cabin body components is reduced.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural diagram of a chamber component processing and conveying apparatus provided by the present invention.

Fig. 2 is a schematic mechanism diagram of the cabin component processing and conveying equipment provided by the invention.

Fig. 3 is a schematic structural diagram of a cutting mechanism provided by the present invention.

Fig. 4 is a cross-sectional view of fig. 3.

In the figure: 110. a support frame; 120. a conveying mechanism; (ii) a 121. A triangular side plate; 122. a conveyor belt; 123. a jacking mechanism; 1231. a lifting rod; 1232. a first hinge portion; 1233. a second hinge portion; 130. a cutting mechanism; 131. a smearing component; 1311. a first fixing plate; 1312. a first support plate; 1313. coating a plate; 1314. an oil drum; 1314a, a barrel body; 1314b, a piston rod; 1314c, an oil outlet pipe; 1315. a first notch; 132. a cutting assembly; 1321. a second fixing plate; 1322. a second support plate; 1323. cutting a plate; 1324. a second notch; 1325. a clamping post; 133. a connecting rod; 140. a cabin component; 150. a secondary processing mechanism; 160. an auxiliary support mechanism; 161. a supporting seat; 162. a lifting column; 163. and (6) rotating the disc.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Example 1

As shown in fig. 1 to 4, the present embodiment 1 provides a cabin component processing and conveying apparatus, which includes: a support frame 110, a conveying mechanism 120 and a cutting mechanism 130; the conveying mechanism 120 is fixedly arranged above the supporting frame 110; the cutting mechanism 130 is disposed in the conveying mechanism 120 and adapted to cut the cabin component 140 conveyed in the conveying mechanism 120; the cutting mechanism 130 comprises an application assembly 131 and a cutting assembly 132; the smearing component 131 and the cutting component 132 are sequentially disposed between the feeding hole and the discharging hole of the conveying mechanism 120. By placing the cutting assembly 132 for cutting the burr and the cutting fluid to be sprayed during cutting on the conveying mechanism 120, the cabin component 140 is directly sprayed with the cutting fluid and the burr is removed after being produced, so that the precision of the cabin component 140 is improved, and the cost of the cabin component 140 during production is reduced. A gap exists between two adjacent nacelle components 140 and a fastener is disposed between the gaps to prevent the sidewalls of the two nacelle components 140 from directly contacting each other, and the machined nacelle components 140 are subjected to secondary machining such as chamfering, drilling, etc. by the cutting assembly 132.

In this embodiment, the number of the cutting mechanisms 130 is two, and the two cutting mechanisms 130 are disposed opposite to each other, so as to complete the deburring of the top and the side walls of the cabin component 140, thereby improving the precision of the cabin component 140.

In this embodiment, the cutting mechanism 130 further includes a link 133; the smearing assembly 131 and the cutting assembly 132 are fixedly connected by the connecting rod 133. The cabin part 140 is transported by passing through the coating module 131, coating the cutting fluid, and then performing the cutting work.

In particular, the application assembly 131 comprises: first fixed plate 1311, first support plate 1312, daubing plate 1313 and oil drum 1314; the first fixing plate 1311 is fixedly arranged on a side wall of the conveying groove of the conveying mechanism 120; the first support plate 1312 is vertically disposed on the first fixing plate 1311; the smearing plate 1313 is rotatably connected to the first supporting plate 1312, and the lower part of the smearing plate 1313 is elastically connected to the first fixing plate 1311 through a spring; the oil drum is adapted to provide cutting fluid to the spreader plate 1313; the lower end of the smearing plate 1313 is provided with a quarter guide ball and is adapted to be compressed by the body member 140 when the body member 140 passes by, and to flow the cutting fluid in the oil drum from the smearing plate 1313 to the body member 140. When the cabin component 140 passes through the smearing assembly 131, the quarter guide balls are guided to compress the quarter guide balls, so that the lower end of the smearing plate 1313 is driven to be compressed, and at the moment, the upper part of the smearing plate 1313 is close to the top and the side wall of the cabin component 140, so that the smearing of the cutting fluid is completed.

The top of the smearing plate 1313 is provided with a first notch 1315 adapted to the cabin component 140, and the first notch is provided with an oil outlet communicated with the oil drum. The first notch 1315 is provided with a brush. The cutting fluid is uniformly coated on the cabin part 140 by a brush.

In this embodiment, the oil drum includes a drum body 1314a, a piston rod 1314b and an oil outlet pipe 1314 c; two ends of the oil outlet pipe 1314c are respectively provided with a one-way valve; the oil outlet pipe 1314c is provided with a sleeve which is suitable for the piston rod 1314b to be inserted between the two one-way valves; the piston rod 1314b has one end hinged to the lower part of the smearing plate 1313 through the first fixing plate 1311 and the other end inserted into and sealed with the cannula.

When the cabin component 140 passes through the smearing plate 1313, the piston rod 1314b compresses to increase the pressure in the oil outlet pipe 1314c, and because the two ends of the oil outlet pipe 1314c are provided with the one-way valves, the compressed cutting fluid can flow out along the one-way valve at the top of the oil outlet pipe 1314 c; when the chamber body 140 leaves the coating plate 1313, the coating plate 1313 is pushed to the original position by the spring, the piston rod 1314b is pulled out, and the pressure in the oil outlet pipe 1314c is reduced, so that the cutting fluid in the barrel body 1314a is pumped into the oil outlet pipe 1314 c.

In this embodiment, the cutting assembly 132 includes a second fixing plate 1321, a second supporting plate 1322 and a cutting plate 1323; the second fixing plate 1321 is fixedly disposed on a side wall of the conveying groove of the conveying mechanism 120; the second supporting plate 1322 is vertically disposed on the second fixing plate 1321; the cutting plate 1323 is rotatably coupled to the second support plate 1322.

The cutting plate 1323 and the smearing plate 1313 are fixedly connected through a connecting rod 133, and the axis of the smearing plate 1313 and the axis of the cutting plate 1323 have a preset angle difference. In this embodiment, the top of the cutting plate 1323 is provided with a second notch 1324 adapted to the cabin component 140, and a cutting inclined plane is provided at the second notch 1324.

It should be noted that the distance between the coating plate 1313 and the cutting plate 1323 is greater than the width of the nacelle component 140. When the cabin component 140 compresses the applicator plate 1313, the cutting plate 1323 is at the first oblique angle; after the cabin component 140 completely passes through the applying plate 1313, the applying plate 1313 rebounds to a vertical state through a spring, and at this time, the cutting plate 1323 is at a second inclination angle, where the second inclination angle means that the second gap 1324 of the cutting plate 1323 completely fits to the cabin component 140, and the cabin component 140 is clamped by the clamping column 1325 arranged at the bottom of the cutting plate 1323, so that the cabin component 140 is prevented from shaking during cutting. Since the cutting plate 1323 is limited by the second recess 1324 of the component part 140 and is clamped by the clamping column 1325, the application plate 1313 is not compressed before the component part 140 has been cut, i.e. the next component part 140 does not pass the application plate 1313.

The invention also provides a method for processing and conveying the capsule component 140, which is used for conveying the capsule component 140 by the capsule component 140 processing and conveying equipment.

In this embodiment, a guide plate is provided at the inlet of the conveying mechanism 120. The cabin components 140 that initially enter the application assembly 131 are limited by providing a guide plate, thereby ensuring that the initial state of the cabin components 140 entering the application assembly 131 is the same.

In this embodiment, the conveying mechanism includes two triangular side plates 121 and a conveying belt 122, which are oppositely disposed, the conveying belt 122 is disposed between the two triangular side plates 121 and is triangular, and the conveying groove of the conveying mechanism is formed by the two triangular side plates 121 and the conveying belt 122. The cutting mechanism is fixedly arranged on the side wall of the conveying trough, namely, the cutting mechanism is fixedly arranged on the side wall opposite to the triangular side plate 121. By providing the inclined conveyance groove, the cutting fluid is allowed to flow down along the cabin member.

In this embodiment, conveying mechanism still includes climbing mechanism 123, conveying mechanism's one end is rotated and is connected on the support frame, conveying mechanism's the other end passes through climbing mechanism 123 to be fixed and articulates on the support frame.

Specifically, the jacking mechanism 123 includes a lifting rod 1231, a first hinge 1232, and a second hinge 1233; the first hinge portion 1232 and the second hinge portion are respectively and fixedly disposed at two ends of the lifting rod 1231, and one end of the first hinge portion 1232, which is far away from the lifting rod 1231, is rotatably connected to the conveying mechanism, and one end of the second hinge portion, which is far away from the lifting rod 1231, is rotatably connected to the supporting frame. The first hinge 1232 and the second hinge are fixed to the corresponding conveying mechanism and the support frame by screws, respectively. When the conveying height of the conveying mechanism needs to be adjusted, the screws for fixing the first hinge part 1232 and the second hinge part 1233 are loosened, and then the height of the lifting rod 1231 is adjusted to make the conveying mechanism reach a desired position, and then the screws for fixing the first hinge part 1232 and the second hinge part 1232 are fixed. The angle of the conveying groove is adjusted by adjusting the height of the conveying mechanism, so that the cutting fluid can flow downwards better, and the cutting fluid is coated more uniformly.

In this embodiment, the lifting rod 1231 is implemented by a screw and a sleeve, specifically, a nut is fixedly disposed in the middle of the screw, threads of the screw on both sides of the nut are symmetrically disposed, and when the nut is screwed, the sleeve on both sides of the screw simultaneously approaches to or departs from the nut, wherein the sleeve is fixedly disposed on the first hinge portion 1232 and the second hinge portion, respectively.

In this embodiment, the cabin component processing and conveying apparatus further includes a secondary processing mechanism 150 and an auxiliary supporting mechanism 160; the secondary processing mechanism 150 is disposed above the conveying groove of the conveying mechanism, and is fixed by the auxiliary supporting mechanism 160.

In the present embodiment, the specific function of the secondary processing mechanism 150 is designed according to the specific use requirement of the user, the secondary processing mechanism 150 provided in the present embodiment is used for imprinting, and in other embodiments, the secondary processing mechanism 150 may be used for chamfering, drilling, and the like.

In this embodiment, the auxiliary supporting mechanism 160 includes a supporting base 161, a lifting column 162, and a rotating disk 163; the lifting column 162 is fixedly arranged on the supporting seat 161, and the rotating disc 163 is vertically arranged in the vertical direction of the lifting column 162 and is fixed on the lifting column 162 through a connecting beam; the rotating disk 163 is rotatably connected to the connection beam through a rotation shaft, and the rotating disk 163 is fixed by a fixing screw. The secondary processing mechanism 150 is fixed on the rotating disc 163, the relative position between the secondary processing mechanism 150 and the conveying mechanism is adjusted through the lifting column 162 and the rotating disc 163, and after the height of the conveying mechanism is adjusted through the jacking mechanism 123, the relative position between the secondary processing mechanism 150 and the conveying groove can be ensured not to be changed, so that the secondary processing mechanism is convenient to use.

In summary, the present invention provides a cabin processing and conveying apparatus and a method thereof, wherein the cabin processing and conveying apparatus includes: the cutting device comprises a support frame, a conveying mechanism and a cutting mechanism; the conveying mechanism is fixedly arranged above the supporting frame; the cutting mechanism is arranged in the conveying mechanism and is suitable for cutting the cabin body components conveyed in the conveying mechanism; the cutting mechanism comprises an smearing assembly and a cutting assembly; the smearing component and the cutting component are sequentially arranged between the feed inlet and the discharge outlet of the conveying mechanism. The cutting assembly for cutting the burrs and the cutting fluid needing spraying during cutting are placed on the conveying mechanism, and the cutting fluid is directly sprayed and the burrs are removed after the cabin body components are produced, so that the precision of the cabin body components is improved, and the cost during production of the cabin body components is reduced.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (7)

1. A cabin part processing and conveying device is characterized by comprising:

the cutting device comprises a support frame, a conveying mechanism and a cutting mechanism;

the conveying mechanism is fixedly arranged above the supporting frame;

the cutting mechanism is arranged in the conveying mechanism and is suitable for cutting the cabin body components conveyed in the conveying mechanism;

the cutting mechanism comprises an smearing assembly and a cutting assembly;

the smearing assembly and the cutting assembly are sequentially arranged between a feed port and a discharge port of the conveying mechanism;

the cutting mechanism further comprises a connecting rod;

the smearing assembly and the cutting assembly are fixedly connected through the connecting rod;

the dauber assembly comprises: the device comprises a first fixing plate, a first supporting plate, a smearing plate and an oil drum;

the first fixing plate is fixedly arranged on the side wall of the conveying groove of the conveying mechanism;

the first supporting plate is vertically arranged on the first fixing plate;

the smearing plate is rotatably connected to the first supporting plate, and the lower part of the smearing plate is elastically connected with the first fixing plate through a spring;

the oil drum is suitable for providing cutting fluid for the smearing plate;

the lower end of the smearing plate is provided with a quarter of guide ball, and the smearing plate is suitable for being compressed by the cabin body component when the cabin body component passes through the smearing plate and enabling the cutting fluid in the oil drum to flow onto the cabin body component from the smearing plate.

2. The processing and conveying equipment for the cabin components according to claim 1, wherein a first notch matched with the cabin components is formed in the top of the smearing plate, and an oil outlet communicated with the oil drum is formed in the first notch.

3. The cabin component processing and conveying equipment of claim 2, wherein the first notch is provided with a brush.

4. The cabin component processing and conveying equipment of claim 1, wherein the oil drum comprises a drum body, a piston rod and an oil outlet pipe;

two ends of the oil outlet pipe are respectively provided with a one-way valve;

a sleeve pipe suitable for the piston rod to be inserted is arranged between the two one-way valves of the oil outlet pipe;

one end of the piston rod penetrates through the first fixing plate and is hinged to the lower portion of the smearing plate, and the other end of the piston rod is inserted into the sleeve and is sealed with the sleeve.

5. The cabin component processing and conveying apparatus of claim 1, wherein the cutting assembly comprises a second fixing plate, a second supporting plate and a cutting plate;

the second fixing plate is fixedly arranged on the side wall of the conveying groove of the conveying mechanism;

the second supporting plate is vertically arranged on the second fixing plate;

the cutting plate is rotatably connected to the second support plate.

6. The cabin component processing and conveying equipment of claim 5, wherein the top of the cutting plate is provided with a second notch adapted to the cabin component, and a cutting bevel is provided at the second notch.

7. Method for the handling of components for the processing of capsule parts, characterized in that the method is used for the handling of capsule parts by means of a capsule part handling and transport apparatus according to any of claims 1 to 6.

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