CN218168947U - Feeding structure for gear milling - Google Patents

Abstract

The utility model discloses a mill tooth and use feed structure relates to feed structure technical field. The device mills the tooth machine main part including milling the tooth machine main part, and the upper surface of milling the tooth machine main part is provided with the tray, mills the tooth sword, sets up in one side of milling the tooth machine main part and be located the upper portion of tray, and the plate, material loading are milled tooth processing to tray department. This mill loading structure for tooth places the one side of milling tooth machine main part through the support frame that will be provided with the conveyer belt, then starter motor for the conveyer belt carries out the annular and rotates, makes the conveyer belt can be with placing its higher one end of its plate from low to high transport on its surface, is close to the one end of tray promptly, thereby with plate material loading to the inside of tray, it is convenient to material loading, also can not cause the harm to staff's personal safety.

Description

Feeding structure for gear milling

Technical Field

The utility model relates to a material loading technical field specifically is a mill tooth and use material loading structure.

Background

The rack can be used for conveying in mechanical equipment, and in the machining process, the rack milling machine is used for milling teeth, and for a small-sized rack milling machine, a plate with machining is generally placed on a tray arranged on the surface of the rack milling machine in a manual carrying mode, and then the surface of the plate is milled by a milling cutter arranged on the rack milling machine.

However, the feeding mode causes great burden to workers, and when the workers move the feeding manually, the workers easily contact with the gear milling cutter arranged at the rack gear milling machine, so that the feeding process is dangerous.

The main reason that above-mentioned problem appears lies in that there is certain height between the tray that rack milling machine department set up and the ground, consequently when carrying out the milling tooth of a large number of plates man-hour, need the staff to carry out the removal many times, make the material loading comparatively loaded down with trivial details inconvenient, in addition, when material loading, the staff can move the plate earlier to the upper end that is located the upper surface of tray, then place the plate downwards in the inside of tray, nevertheless because the milling tooth sword is located the upper end of tray, make and lead to the fact to block its material, also can put in the plate, staff's arm and milling tooth sword contact, lead to the staff injured, to the above-mentioned condition, we propose a material loading structure for the milling tooth.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model discloses a milling tooth is with material loading structure to solve the nevertheless this material loading mode that proposes in the above-mentioned background and cause great burden to the staff, and when the manual work moved the material loading, the staff was easy to be in contact with the milling tooth sword that rack milling machine department set up, caused the comparatively dangerous problem of material loading in-process.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a mill tooth and use material loading structure includes:

the gear milling machine comprises a gear milling machine body, wherein a tray is arranged on the upper surface of the gear milling machine body;

the gear milling cutter is arranged on one side of the gear milling machine body and is positioned on the upper part of the tray;

the plate is fed to the tray for gear milling;

a feeding mechanism is arranged on one side of the gear milling machine main body and used for conveniently feeding a plurality of groups of plates;

feed mechanism includes support frame, conveyer belt and motor, one side of milling tooth machine main part is provided with the support frame, support frame department is provided with the conveyer belt, the one end transfer roller department of conveyer belt is connected and is provided with the motor.

Preferably, a through hole is formed in one side of the tray, and the upper end of the conveyor belt corresponds to the side, provided with the through hole, of the tray.

Preferably, one end of the conveyor belt, which is close to the tray, is provided with a connecting plate, and the connecting plate is located at the upper end of the tray.

Preferably, a shaft rod is arranged at the connecting plate, and two ends of the shaft rod are arranged inside the supporting frame.

Preferably, the side of the support frame is provided with a groove, and one end of the shaft rod is limited to rotate in the groove.

Preferably, the outer surface of one end of the shaft lever, which is positioned inside the groove, is provided with a torsion spring, and one end of the torsion spring is abutted to the inner side wall driven by the groove.

The utility model discloses a mill feed structure for tooth, its beneficial effect who possesses as follows:

1. this mill feeding structure for tooth places the one side of milling tooth machine main part through the support frame that will be provided with the conveyer belt, then starter motor for the conveyer belt carries out the annular and rotates, makes the conveyer belt can carry its higher one end from low to high with placing its surperficial plate in its, is close to the one end of tray promptly, thereby with plate material loading to the inside of tray, it is convenient to go up the material loading, also can not cause the harm to staff's personal safety.

2. This a mill feed structure for tooth, after the plate removed to the higher department of conveyer belt, can then remove to the upper surface that sets up the connecting plate that sets up at its terminal lateral surface, this moment under the action of gravity of plate, the connecting plate rotates with the axostylus axostyle, make the connecting plate keep away from the one end of axostylus axostyle rotate to the position that contacts with the tray bottom, the connecting plate was in the tilting means this moment, make the connecting plate of plate accessible slope slide to the inside of tray, in order to accomplish the convenient material loading of plate.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the conveyor belt and the tray of the present invention;

FIG. 3 is a schematic view of the structure of the tray of the present invention;

FIG. 4 is a schematic diagram of the structure of the connection plate of the present invention;

fig. 5 is a schematic view of the torsion spring structure of the present invention.

In the figure: 1. a gear milling machine body; 101. a tray; 102. a through hole; 103. milling a gear cutter; 2. a plate block; 3. a feeding mechanism; 301. a support frame; 302. a conveyor belt; 303. a motor; 304. a connecting plate; 305. a shaft lever; 306. a groove; 307. a torsion spring.

Detailed Description

The embodiment of the utility model discloses mill feed structure for tooth, as shown in fig. 1-5, include:

milling teeth machine main part 1, the upper surface of milling teeth machine main part 1 is provided with tray 101, milling teeth sword 103, the setting is in one side of milling teeth machine main part 1 and is located the upper portion of tray 101, plate 2, material loading is milled the tooth processing to tray 101 department, this milling teeth machine main part 1 can adopt the rack milling teeth machine that the known model is 1050, tray 101 slides and sets up in milling teeth machine main part 1 department, and plate 2 places in the inside of tray 101, then fix in the inside of tray 101 through mounting fixture, then through variable speed motor drive milling teeth sword 103, make milling teeth sword 103 mill the tooth operation to the surface of plate 2, make plate 2 form the pinion rack after milling teeth processing.

As shown in fig. 1-2, in the device, a feeding mechanism 3 is disposed on one side of a gear milling machine body 1, and is used for conveniently feeding a plurality of groups of plates 2, the feeding mechanism 3 includes a support frame 301, a conveyor belt 302 and a motor 303, the support frame 301 is disposed on one side of the gear milling machine body 1, the conveyor belt 302 is disposed at the support frame 301, the motor 303 is connected to a conveyor roller at one end of the conveyor belt 302, the support frame 301 provided with the conveyor belt 302 is disposed on one side of the gear milling machine body 1, so that one end of the conveyor belt 302 corresponds to a tray 101 when being located at a position corresponding to a gear milling cutter 103, and the conveyor belt 302 can convey the plates 2 disposed on the surface of the conveyor belt 302 into the tray 101 from low to high by activating the motor 303, thereby solving the inconvenience of manual feeding.

According to the attached drawings 2-4, one side of the tray 101 of the device is provided with a through hole 102, the upper end of the conveyor belt 302 corresponds to the side of the tray 101 provided with the through hole 102, one end of the conveyor belt 302 close to the tray 101 is provided with a connecting plate 304, the lower surface of the connecting plate 304 is positioned above the uppermost end of the tray 101, one end of the conveyor belt 302 does not contact with the side surface of the tray 101, therefore, the connecting plate 304 and the conveyor belt 302 do not block the moving track of the tray 101 during the sliding process of the tray 101, the connecting plate 304 is positioned at the upper end of the tray 101, a shaft 305 is arranged at the connecting plate 304, two ends of the shaft 305 are arranged inside the supporting frame 301, when the plate 2 conveyed at the conveyor belt 302 moves to the topmost end, the plate 2 moves to the surface of the connecting plate 304, so that one end of the connecting plate 304 rotates to the position contacting with the bottom in the tray 101 under the gravity of the plate 2, at the time, the connecting plate 304 is in an inclined device, so that the plate 2 can slide to the inside the tray 101 through the inclined connecting plate 304, and the loading of the plate 2 is completed.

According to the drawings of fig. 4-5, a groove 306 is formed in the side surface of the supporting frame 301, one end of the shaft rod 305 is limited to rotate in the groove 306, a torsion spring 307 is arranged on the outer surface of the end, located in the groove 306, of the shaft rod 305, one end of the torsion spring 307 abuts against the inner side wall driven by the groove 306, the connecting plate 304 rotates with the shaft rod 305 as an axis, and through the torsion springs 307 arranged at the two ends of the connecting plate, automatic resetting can be performed when no plate 2 exists on the surface of the connecting plate 304, that is, the lower surface of the connecting plate 304 is parallel to the inner bottom of the tray 101.

The working principle is as follows:

when the tray 101 is in the initial state, it is located at a position of the gear milling machine body 1 close to the gear milling cutter 103.

When the feeding structure for gear milling is used, the supporting frame 301 provided with the conveyor belt 302 is firstly placed on one side of the gear milling machine body 1, so that one end of the conveyor belt 302 corresponds to the tray 101 in a position corresponding to the gear milling cutter 103, and the conveyor belt 302 rotates in an annular mode through the starting motor 303.

Further, the plate 2 is placed on the upper surface of the lower end of the conveyor belt 302, so that the conveyor belt 302 can convey the plate 2 placed on the upper surface from the lower end to the upper end, i.e. the end near the tray 101.

Further, when the plate 2 moves to a position higher than the conveyor belt 302, it moves to the upper surface of the connecting plate 304 disposed on one end side thereof, and the connecting plate 304 is in an initial state, the lower surface of the connecting plate 304 is parallel to the inner bottom of the tray 101, and the connecting plate 304 is controlled by the torsion spring 307.

Further, when the plate 2 moves to the surface of the connecting plate 304, under the gravity of the plate 2, the connecting plate 304 rotates clockwise with the shaft 305, so that one end of the connecting plate 304 away from the shaft 305 rotates to a position contacting with the bottom in the tray 101, and at this time, the connecting plate 304 is in a tilting device, so that the plate 2 can slide to the inside of the tray 101 through the tilted connecting plate 304, and the loading of the plate 2 is completed.

Further, when the plate 2 moves out of the surface of the connecting plate 304, the connecting plate 304 in the non-pressure state can be automatically reset under the action of the torsion spring 307.

Further, the plate 2 can be fixed on the tray 101 through the clamp, and then the gear milling cutter 103 is started through the variable speed motor, so that the gear milling cutter 103 performs gear milling operation on the surface of the plate 2, and the tray 101 moves under the control of the gear milling machine main body 1 in the process, so that the gear milling cutter 103 processes different parts on the surface of the plate 2, and after the processing process, the tray 101 can automatically move to the initial position.

Finally, by placing the other panels 2 on the lower end surface of the conveyor belt 302, the feeding can be continued without the need for manually moving the panels 2 over a greater distance.

The foregoing shows and describes the basic principles and principal features of the invention, together with the advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A feeding structure for gear milling comprises:

the gear milling machine comprises a gear milling machine body (1), wherein a tray (101) is arranged on the upper surface of the gear milling machine body (1);

the gear milling cutter (103) is arranged on one side of the gear milling machine body (1) and is positioned on the upper part of the tray (101);

the plate (2) is fed to the tray (101) for gear milling;

the gear milling machine is characterized in that a feeding mechanism (3) is arranged on one side of the gear milling machine main body (1) and used for conveniently feeding a plurality of groups of plates (2);

feed mechanism (3) are including support frame (301), conveyer belt (302) and motor (303), one side of milling tooth machine main part (1) is provided with support frame (301), support frame (301) department is provided with conveyer belt (302), the one end transfer roller department of conveyer belt (302) connects and is provided with motor (303).

2. A tooth milling feeding structure according to claim 1, characterized in that: one side of the tray (101) is provided with a through hole (102), and the upper end of the conveyor belt (302) corresponds to the side of the tray (101) provided with the through hole (102).

3. A tooth milling feeding structure according to claim 2, wherein: one end of the conveyor belt (302) close to the tray (101) is provided with a connecting plate (304), and the connecting plate (304) is located at the upper end of the tray (101).

4. A tooth milling feeding structure according to claim 3, wherein: a shaft rod (305) is arranged at the connecting plate (304), and two ends of the shaft rod (305) are arranged inside the supporting frame (301).

5. A gear milling feeding structure according to claim 4, wherein: a groove (306) is formed in the side face of the support frame (301), and one end of the shaft rod (305) is limited to rotate in the groove (306).

6. A gear milling feeding structure according to claim 5, characterized in that: the outer surface of one end, located inside the groove (306), of the shaft lever (305) is provided with a torsion spring (307), and one end of the torsion spring (307) is abutted to the inner side wall driven by the groove (306).

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