CN218397212U - Numerical control lathe for machining two ends of connecting rod shaft sleeve - Google Patents

Abstract

The utility model discloses a connecting rod axle sleeve bi-polar processing numerical control lathe relates to numerical control lathe technical field, which comprises a mounting bench, the both ends at mount table top are provided with first control cabinet, second control cabinet respectively, and the top of first control cabinet one side relative with the second control cabinet is provided with the apron, first control cabinet all is provided with the kinetic energy case with one side relative with the second control cabinet, and all is provided with the drill bit on one side relative with the kinetic energy case, the top of mount table is provided with the fixed block, and the top sliding connection of fixed block has two sets of fixed stations, the top of mount table is provided with two sets of conveyer belts. The utility model discloses a be provided with the conveyer belt, and then when carrying out the processing operation, polish produced material sediment and piece from the mount table on the conveyer belt that falls, later the conveyer belt will expect sediment and piece and convey through-hole department to avoided in the use, material sediment and piece are piled up the condition emergence that influences processing precision on the fixed station.

Description

Numerical control lathe for machining two ends of connecting rod shaft sleeve

Technical Field

The utility model relates to a numerical control lathe technical field especially relates to a connecting rod axle sleeve bi-polar processing numerical control lathe.

Background

Compared with the common double-head lathe, the double-head numerically controlled lathe has the characteristics of more fineness and automation in processing, and two turning points are respectively arranged at two ends and are respectively controlled by using a numerical control system.

The existing double-end numerical control lathe needs to be powered off when processing generated scraps or material slag in the machining process, and is manually cleaned by workers, so that the scraps are accumulated in the lathe to cause errors in machining easily if the scraps cannot be cleaned in time, and the precision of the lathe cannot be guaranteed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a numerical control lathe for machining the double ends of a connecting rod shaft sleeve. Its advantage lies in through being provided with the conveyer belt, and then when carrying out the processing operation, on produced material sediment of polishing and piece slide from the mount table to the conveyer belt, later the conveyer belt will expect sediment and piece and convey through-hole department to avoided in the use, material sediment and piece are piled up the condition emergence that influences processing precision on the fixed station.

In order to realize the purpose, the utility model adopts the following technical scheme:

the utility model provides a connecting rod axle sleeve bi-polar processing numerical control lathe, includes the mount table, the both ends at mount table top are provided with first control cabinet, second control cabinet respectively, and the top of first control cabinet and the relative one side of second control cabinet is provided with the apron, the relative one side of first control cabinet and second control cabinet all is provided with the kinetic energy case, and the relative one side of kinetic energy case all is provided with the drill bit, the top of mount table is provided with the fixed block, and the top sliding connection of fixed block has two sets of fixed stations, the top of mount table is provided with two sets of conveyer belts, and the conveyer belt is located the fixed block both sides, the through-hole has been seted up to one side of mount table.

Through the technical scheme: through being provided with the conveyer belt, and then when carrying out the processing operation, polish produced material sediment and piece from the mount table on the conveyer belt that slides down, later the conveyer belt will expect sediment and piece and convey through-hole department to in having avoided the use, material sediment and piece are piled up the condition emergence that influences processing precision on the fixed station.

The utility model discloses further set up as, the through-hole inner wall is pegged graft and is had the collection sediment case.

Through the technical scheme: through being provided with the collection sediment case, and then produced material sediment and piece when using, unified deposit is in the collection sediment incasement to avoided material sediment and piece to drop the subaerial condition emergence, also alleviateed the staff and beaten the pressure of sweeping the clearance.

The utility model discloses further set up to, one side that the mount table was provided with the through-hole is provided with the gim peg, and one side inner wall sliding connection that the gim peg is close to the through-hole has the tip head, the one end that the tip head is close to the gim peg is provided with the spring, and the one end that the tip head was kept away from to the spring is connected with the mount table, the top of collection sediment case is provided with the card tip, and one side of card tip is connected with the tip head.

Through the technical scheme: through being provided with joint pin, tip head and spring, and then when using, in the slag collecting box can disect insertion mount table, the tip head extrusion spring is fixed the joint pin, when taking off the slag collecting box, through pulling the gim peg, just can make joint pin and tip head separation to the convenient to use nature of slag collecting box has been ensured.

The utility model discloses further set up as, the outside of spring is provided with the sleeve, and telescopic one side and tip head sliding connection.

Through the technical scheme: through being provided with the sleeve, and then when using, the skew condition emergence of spring when being extrudeed can be avoided to the sleeve.

The utility model discloses further set up to, the both sides of fixed station all are provided with the telescopic link, and the one end that the fixed station was kept away from to the telescopic link is provided with the fixed plate.

Through the technical scheme: through being provided with telescopic link and fixed plate, and then at the during operation, the telescopic link changes the distance between two fixed plates to it is steadily fixed with the part of required processing, thereby has ensured the accuracy in the course of working.

The utility model discloses further set up to, one side that the telescopic link was kept away from to the fixed plate is provided with the skid resistant course.

Through the technical scheme: through being provided with the inoxidizing coating, and then when using, can strengthen the frictional force between fixed plate and the part to make the part more difficult not hard up when being processed.

The utility model discloses further set up to, one side that the mount table is provided with the gim peg is seted up flutedly, and groove inner wall sliding connection has the push-and-pull door, one side of push-and-pull door is provided with the handle.

Through the technical scheme: through being provided with the push-and-pull door, and then when using, can separate machining area territory and external world, avoided spare part to take place because of fixed insecure condition of injuring the staff.

The utility model discloses further set up to, the bottom of first control cabinet and second control cabinet all is provided with the stabilizer blade, and the bottom of stabilizer blade is provided with the wheel.

Through the technical scheme: through being provided with the wheel, and then when using, can convenient and fast remove the lathe.

The beneficial effects of the utility model are that:

1. this be used for connecting rod axle sleeve bi-polar processing numerical control lathe, through being provided with the conveyer belt, and then when carrying out the processing operation, the conveyer belt is slided from the mount table to produced material sediment and piece of polishing, later the conveyer belt will expect sediment and piece and convey through-hole department to avoided in the use, material sediment and piece to pile up the condition emergence that influences processing precision on the fixed station.

2. This be used for connecting rod axle sleeve bi-polar processing numerical control lathe through being provided with the slag trap case, and then produced material sediment and piece when using, unified deposit in the slag trap incasement that leaves to avoided material sediment and piece to drop the condition emergence subaerial, also alleviateed the pressure that the staff beaten the clearance.

3. This be used for connecting rod axle sleeve bi-polar processing numerical control lathe, through being provided with card tip, tip head and spring, and then when using, in the slag collection case can the disect insertion mount table, tip head extrusion spring is fixed the card tip, when taking off the slag collection case, through pulling the gim peg, just can be so that card tip and tip head separation to the convenient to use nature of slag collection case has been ensured.

Drawings

Fig. 1 is a schematic view of the overall structure of a connecting rod shaft sleeve double-end machining numerically controlled lathe provided by the utility model;

fig. 2 is a schematic view of a top view structure of a numerically controlled lathe for machining both ends of a connecting rod shaft sleeve provided by the present invention;

fig. 3 is a schematic view of a cross-sectional structure of a fixing bolt of a numerically controlled lathe for machining both ends of a connecting rod shaft sleeve provided by the present invention;

fig. 4 is an enlarged schematic view of a portion a in fig. 1.

In the figure: 1. a first console; 2. a cover plate; 3. a handle; 4. a sliding door; 5. a second console; 6. a mounting table; 7. a leg; 8. a wheel; 9. a fixing bolt; 10. a slag collection box; 11. a kinetic energy box; 12. a drill bit; 13. a fixed table; 14. a groove; 15. a conveyor belt; 16. clamping a tip; 17. a tip head; 18. a spring; 19. a sleeve; 20. a telescopic rod; 21. an anti-slip layer; 22. and (5) fixing the plate.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

In the description of this patent, it is to be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for the convenience of describing the patent and for the simplicity of description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the patent.

In the description of this patent, it is noted that unless otherwise specifically stated or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly and can include, for example, fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed. The specific meaning of the above terms in this patent may be understood by one of ordinary skill in the art as appropriate.

Referring to fig. 1-4, a numerical control lathe for machining two ends of a connecting rod shaft sleeve comprises an installation table 6, wherein a first control table 1 and a second control table 5 are respectively arranged at two ends of the top of the installation table 6, a cover plate 2 is arranged at the top of one side, opposite to the first control table 1 and the second control table 5, a kinetic energy box 11 is arranged at one side, opposite to the second control table 5, of the first control table 1, a drill bit 12 is arranged at one side, opposite to the kinetic energy box 11, a fixing block is arranged at the top of the installation table 6, two fixing tables 13 are slidably connected to the tops of the fixing blocks, two groups of conveyor belts 15 are arranged at the top of the installation table 6, the conveyor belts 15 are located at two sides of the fixing block, and one side of the installation table 6 is provided with a through hole.

Through being provided with conveyer belt 15, and then when carrying out the processing operation, the produced material sediment of polishing and piece follow mount table 6 on the conveyer belt 15 that slides down, later conveyer belt 15 will expect sediment and piece to convey through-hole department to in having avoided the use, material sediment and piece are piled up the condition emergence that influences processing precision on fixed station 13.

Specifically, a slag collection box 10 is inserted into the inner wall of the through hole, a fixing bolt 9 is arranged on one side, provided with the through hole, of the mounting table 6, a pin head 17 is slidably connected to the inner wall of one side, close to the through hole, of the fixing bolt 9, a spring 18 is arranged at one end, close to the fixing bolt 9, of the pin head 17, one end, far away from the pin head 17, of the spring 18 is connected with the mounting table 6, a clamping pin 16 is arranged at the top of the slag collection box 10, one side, far away from the clamping pin 16, of the pin head 17 is connected with the pin head 17, a sleeve 19 is arranged on the outer side of the spring 18, one side, close to the sleeve 19, of the pin head 17 is slidably connected with the inner wall of the groove 14, telescopic rods 20 are arranged on two sides of the fixing table 13, a fixing plate 22 is arranged at one end, far away from the fixing table 13, of the fixing plate 22 is provided with an anti-slip layer 21, a groove 14 is formed in one side, provided with the fixing bolt 9, a sliding door 4 is slidably connected to the inner wall of the groove 14, a handle 3 is arranged on one side of the fixing platform 4, support feet 7 are arranged at the bottoms of the first control table 1 and the second control table 5, and wheels 8 are arranged at the bottoms of the support feet 7.

Through the arrangement of the slag collection box 10, the slag and the scraps generated in use are uniformly stored in the slag collection box 10, so that the situation that the slag and the scraps fall on the ground is avoided, the pressure for cleaning by workers is reduced, through the arrangement of the clamping pin 16, the pin head 17 and the spring 18, when in use, the slag collection box 10 can be directly inserted into the mounting table 6, the pin head 17 extrudes the spring 18 to fix the clamping pin 16, when the slag collection box 10 is taken down, the clamping pin 16 can be separated from the pin head 17 by pulling the fixing bolt 9, so that the convenience in use of the slag collection box 10 is ensured, through the arrangement of the sleeve 19, and when in use, the sleeve 19 can avoid the situation that the spring 18 is inclined when being extruded, through being provided with telescopic link 20 and fixed plate 22, and then at the during operation, the telescopic link changes the distance between two fixed plates 22, and the part with required processing is steadily fixed, thereby precision in the course of working has been ensured, through being provided with inoxidizing coating 21, and then when using, can strengthen the frictional force between fixed plate 22 and the part, thereby make the part add man-hour more difficult not hard up man-hour, through being provided with push-and-pull door 4, and then when using, can separate machining area and external world, spare part has been avoided because of fixed insecure injury staff's the condition emergence, through being provided with wheel 8, and then when using, can convenient and fast remove the lathe.

The working principle is as follows: when the automatic chip removing machine is used, firstly, the sliding door 4 is opened, then parts are placed on the fixed table 13, then the telescopic rod 20 is adjusted to extrude and fix the parts, then the fixed table 13 is moved to a position corresponding to the drill bit 12, then the position of the drill bit 12 is adjusted by using the first control table 1 and the second control table 5, finally, the sliding door 4 is closed, a power supply is turned on, chips generated in the machining process fall onto the conveyor belt 15, and the conveyor belt 15 conveys the chips into the chip collecting box 10.

The above, only be the embodiment of the preferred of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, which are designed to be replaced or changed equally, all should be covered within the protection scope of the present invention.

Claims (8)

1. The utility model provides a connecting rod axle sleeve bi-polar processing numerical control lathe, includes mount table (6), its characterized in that, the both ends at mount table (6) top are provided with first control cabinet (1), second control cabinet (5) respectively, and the top of first control cabinet (1) and the relative one side of second control cabinet (5) is provided with apron (2), the relative one side of first control cabinet (1) and second control cabinet (5) all is provided with kinetic energy case (11), and kinetic energy case (11) relative one side all is provided with drill bit (12), the top of mount table (6) is provided with the fixed block, and the top sliding connection of fixed block has two sets of fixed stations (13), the top of mount table (6) is provided with two sets of conveyer belts (15), and conveyer belt (15) are located the fixed block both sides, the through-hole has been seted up to one side of mount table (6).

2. The numerically controlled lathe for machining the two ends of the connecting rod shaft sleeve according to claim 1, wherein a slag collection box (10) is inserted into the inner wall of the through hole.

3. The numerically controlled lathe for machining the two ends of the connecting rod shaft sleeve is characterized in that a fixing bolt (9) is arranged on one side, provided with a through hole, of the mounting table (6), a pin head (17) is connected to the inner wall of one side, close to the through hole, of the fixing bolt (9) in a sliding mode, a spring (18) is arranged at one end, close to the fixing bolt (9), of the pin head (17), one end, far away from the pin head (17), of the spring (18) is connected with the mounting table (6), a clamping tip (16) is arranged at the top of the slag collecting box (10), and one side of the clamping tip (16) is connected with the pin head (17).

4. The numerically controlled lathe for machining the double ends of the connecting rod and the shaft sleeve as claimed in claim 3, wherein a sleeve (19) is provided on the outer side of the spring (18), and one side of the sleeve (19) is slidably connected to the tip (17).

5. The numerically controlled lathe for machining the two ends of the connecting rod shaft sleeve is characterized in that the two sides of the fixed table (13) are provided with the telescopic rods (20), and one end, away from the fixed table (13), of each telescopic rod (20) is provided with the fixed plate (22).

6. The numerically controlled lathe for machining the double ends of the connecting rod and the shaft sleeve as claimed in claim 5, wherein the fixing plate (22) is provided with an anti-slip layer (21) on the side away from the telescopic rod (20).

7. The numerically controlled lathe for machining the two ends of the connecting rod shaft sleeve according to claim 6, wherein a groove (14) is formed in one side, provided with the fixing bolt (9), of the mounting table (6), a sliding door (4) is connected to the inner wall of the groove (14) in a sliding mode, and a handle (3) is arranged on one side of the sliding door (4).

8. The numerically controlled lathe for machining the double ends of the connecting rod shaft sleeve as claimed in claim 7, wherein supporting legs (7) are arranged at the bottoms of the first control platform (1) and the second control platform (5), and wheels (8) are arranged at the bottoms of the supporting legs (7).

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