CN111792292A - Device is used in automobile synchronizer production and processing with material function is divided to propelling movement formula - Google Patents

Abstract

The invention relates to a device with a push type material distribution function for producing and processing an automobile synchronizer, which comprises a transfer table, a storage table, a mainframe box and two conveying belts, wherein the transfer table is arranged on the transfer table; the two conveying belts are respectively abutted against the front end and the rear end of the transfer table, and the storage table is abutted against the right side of the transfer table; the mainframe box is positioned above the transfer platform. The mainframe box is provided with a slidable box door. The mainframe box is respectively provided with a left extension rod and a right extension rod; the lower end of the left extension rod is welded with a left pushing plate, and the lower end of the right extension rod is welded with a right pushing plate; the right extension rod is connected with a lead screw transmission pushing assembly. The automatic material distributing device is exquisite in structure, and can control the front and back different-direction pushing of the left pushing plate and the left pushing of the right pushing plate to be alternately carried out through the gear turning transmission and the lead screw nut transmission, so that the synchronizer is alternately pushed onto the two conveying belts, and the effect of automatically and equally distributing the synchronizer is achieved.

Description

Device is used in automobile synchronizer production and processing with material function is divided to propelling movement formula

Technical Field

The invention relates to a material distribution device, in particular to a device with a pushing type material distribution function for producing and processing an automobile synchronizer.

Background

It is well known that there is a "synchronization" problem associated with shifting gears because the input and output shafts of an automotive transmission rotate at their respective speeds. Two gears with different rotating speeds are forcibly meshed, so that impact collision is inevitable, and the gears are damaged. The designer therefore creates a "synchronizer" by which the gears to be engaged are brought to a consistent rotational speed for smooth engagement. Therefore, there is a certain quality requirement for the production and manufacture of the synchronizer, and after the synchronizer is processed in batch, the synchronizer needs to be divided into two parts on average so as to be conveniently distributed to two inspection groups for inspection, which helps to improve the inspection efficiency. However, the problem is that the manual material distribution is time-consuming and labor-consuming due to the large number of synchronizers.

Disclosure of Invention

The invention provides a device for producing and processing automobile synchronizers with a pushing type material distribution function, aiming at conveniently carrying out equal distribution on a large batch of synchronizers.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

a device with a pushing type material distribution function for producing and processing an automobile synchronizer comprises a transfer table, a storage table, a mainframe box and two conveying belts; the two conveying belts are respectively abutted against the front end and the rear end of the transfer table, and the storage table is abutted against the right side of the transfer table; the mainframe box is positioned above the transfer platform. The mainframe box is provided with a slidable box door.

The mainframe box is respectively provided with a left extension rod and a right extension rod; the lower end of the left extension rod is welded with a left pushing plate, and the lower end of the right extension rod is welded with a right pushing plate; the right extension rod is connected with a lead screw transmission pushing assembly; the left push rod is connected with a steering deflection component; the lead screw transmission pushing assembly and the steering and shifting assembly are connected with a driving assembly together. The left pushing plate is located above the transfer table, and the right pushing plate is located above the storage table.

The driving assembly comprises a motor arranged in the main case, and the motor is connected with an incomplete bevel gear; the incomplete bevel gears are respectively engaged and matched with a small bevel gear and a large bevel gear.

The lead screw transmission pushing assembly comprises a lead screw arranged in the main case through a bearing, the lead screw is connected with a small bevel gear, and a connecting plate connected with a right pushing rod is arranged on the lead screw in a threaded manner; the mainframe box is provided with a right groove which is horizontally matched with the right pushing rod in a sliding manner.

The steering deflection assembly comprises a deflection box arranged in the mainframe box, and an output shaft and two input shafts which are connected with the deflection box through bearings; any one output shaft of the two input shafts is connected with the large bevel gear; each input shaft is provided with a transmission straight gear and an incomplete straight gear; the two transmission straight gears are meshed and matched; and the two incomplete spur gears are meshed and matched with an output spur gear connected with an output shaft.

The steering deflection assembly further comprises a power straight gear installed on the output gear, the power straight gear is meshed with a rack fixedly connected with the left extension rod, and the mainframe box is provided with a left groove in horizontal sliding fit with the left extension rod.

A U-shaped limiting frame is welded on the storage table.

The invention has the beneficial effects that:

the automatic material distributing device is exquisite in structure, and can control the front and back different-direction pushing of the left pushing plate and the left pushing of the right pushing plate to be alternately carried out through the gear turning transmission and the lead screw nut transmission, so that the synchronizer is alternately pushed onto the two conveying belts, and the effect of automatically and equally distributing the synchronizer is achieved.

Drawings

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

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a top view of the present invention with the door removed;

FIG. 4 is an enlarged view of a portion of FIG. 3 at I;

fig. 5 is a sectional view of a portion a-a of fig. 4.

In the figure: 1. a transfer table; 2. a storage table; 3. a main chassis; 4. a conveyor belt; 5. a left extension bar; 6. a right extension bar; 7. a motor; 8. an incomplete bevel gear; 9. a bevel pinion gear; 10. a large bevel gear; 11. a lead screw; 12. a connecting plate; 13. a deflection box; 14. an output shaft; 15. an input shaft; 16. a transmission spur gear; 17. an incomplete spur gear; 18. an output spur gear; 19. a powered spur gear; 20. a rack; 21. a limiting frame.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be described more clearly and more completely with reference to the drawings in the following embodiments, and it is understood that the described embodiments are only a part of the present invention, rather than all of the present invention, and based on the embodiments, other embodiments obtained by those skilled in the art without inventive exercise are within the protection scope of the present invention.

As shown in fig. 1 to 5, an apparatus for producing and processing an automobile synchronizer with a push type material distribution function comprises a transfer table 1, a storage table 2, a main cabinet 3 and two conveyor belts 4; the two conveyer belts 4 are respectively abutted against the front end and the rear end of the transfer table 1, and the storage table 2 is abutted against the right side of the transfer table 1; the main cabinet 3 is located above the transfer table 1. The main cabinet 3 is provided with a slidable cabinet door.

The mainframe box 3 is respectively provided with a left extension rod 5 and a right extension rod 6; the lower end of the left extension rod 5 is welded with a left pushing plate 5a, and the lower end of the right extension rod 6 is welded with a right pushing plate 6 a; the right extension rod 6 is connected with a lead screw transmission pushing assembly; the left push rod 5a is connected with a steering and deflection component; the lead screw transmission pushing assembly and the steering and shifting assembly are connected with a driving assembly together. The left push plate 5a is located above the transfer table 1, and the right push plate 6a is located above the storage table 2.

The driving assembly comprises a motor 7 arranged in the main case 3, and the motor 7 is connected with an incomplete bevel gear 8; the incomplete bevel gear 8 is respectively engaged and matched with a small bevel gear 9 and a large bevel gear 10.

The lead screw transmission pushing assembly comprises a lead screw 11 arranged in the main case 3 through a bearing, the lead screw 11 is connected with a small bevel gear 9, and a connecting plate 12 connected with the right pushing rod 6a is arranged on the lead screw 11 in a threaded manner; the mainframe box 3 is provided with a right groove 3a which is horizontally matched with the right pushing rod 6a in a sliding way.

The steering displacement assembly comprises a displacement box 13 arranged in the main case 3, an output shaft 14 and two input shafts 15, wherein the output shaft 14 and the two input shafts are connected with the displacement box 13 through bearings; any one input shaft 15 of the two input shafts 15 is connected with the large bevel gear 10; each input shaft 15 is provided with a transmission straight gear 16 and an incomplete straight gear 17; the two transmission spur gears 16 are meshed and matched; both incomplete spur gears 17 are engaged with an output spur gear 18 connected to the output shaft 14.

The steering deflection assembly further comprises a power straight gear 19 installed on the output straight gear 18, the power straight gear 19 is meshed with a rack 20 fixedly connected with the left extension rod 5, and the mainframe box 3 is provided with a left groove 3b horizontally matched with the left extension rod 5 in a sliding mode.

The storage table 2 is welded with a U-shaped limiting frame 21.

Before the invention is used, the synchronizer is only required to be placed on the storage platform 2 in a horizontal stacking mode and positioned at the left side of the right push plate 6 a.

When the bevel gear is used specifically, the incomplete bevel gear 8 is driven to rotate by the motor 7, so that the incomplete bevel gear 8 is in alternate meshing transmission with the small bevel gear 9 and the large bevel gear 10 respectively, and the following four steps can be executed in a circulating manner:

in the first step, when the incomplete bevel gear 8 and the small bevel gear 9 are in first-time meshing transmission, the small bevel gear 9 and the lead screw 11 rotate for several circles, the connecting plate 12 and the right pushing plate 6a both slide leftwards under the transmission effect of the lead screw nut, and the right pushing plate 6a pushes the leftmost synchronizer on the storage table 2 to the transfer table 1.

And secondly, when the incomplete bevel gear 8 and the large bevel gear 10 are meshed for the first time for transmission, the large bevel gear 10 rotates for a half circle, under the meshing transmission action of the two transmission straight gears 16, the two incomplete straight gears 17 can rotate for a half circle, so that the incomplete straight gears 17 positioned on the rear side in the two incomplete straight gears 17 are meshed with the output straight gears 18 for transmission, the output straight gears 18 rotate anticlockwise, and under the transmission action of the gear and the rack, the rack 20 and the left push plate 5a slide towards the rear side, namely, a synchronizer positioned on the transfer table 1 is pushed to the conveying belt 4 on the rear side.

And thirdly, when the incomplete bevel gear 8 and the small bevel gear 9 are in meshing transmission for the second time, pushing the leftmost synchronizer on the storage table 2 to the transfer table 1 is achieved again.

Fourthly, when the incomplete bevel gear 8 and the large bevel gear 10 are meshed for the second time for transmission, the large bevel gear 10 rotates for a half circle, under the meshing transmission action of the two transmission straight gears 16, the two incomplete straight gears 17 can rotate for a half circle, so that the incomplete straight gears 17 positioned on the front side in the two incomplete straight gears 17 are meshed with the output straight gears 18 for transmission, the output straight gears 18 rotate clockwise, and under the transmission action of the gear rack, the rack 20 and the left push plate 5a slide towards the front side, namely, the synchronizer positioned on the transfer table 1 is pushed to the conveying belt 4 on the front side.

In summary, the above four steps are executed in sequence every cycle, that is, two synchronizers are correspondingly distributed to the two conveyor belts 4, so that the synchronizers can be equally distributed under the action of the rotation driving of the motor.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A device with a push type material distribution function for producing and processing an automobile synchronizer comprises a transfer table (1), a storage table (2), a mainframe box (3) and two conveying belts (4); the two conveyor belts (4) are respectively abutted against the front end and the rear end of the transfer table (1), and the storage table (2) is abutted against the right side of the transfer table (1);

the method is characterized in that:

the mainframe box (3) is respectively provided with a left extension rod (5) and a right extension rod (6); the lower end of the left extension rod (5) is welded with a left pushing plate (5a), and the lower end of the right extension rod (6) is welded with a right pushing plate (6 a); the right extension rod (6) is connected with a lead screw transmission pushing assembly; the left push rod (5a) is connected with a steering deflection component; the lead screw transmission pushing assembly and the steering and shifting assembly are connected with a driving assembly together.

2. The device for producing and processing the automobile synchronizer with the pushing type material distribution function according to claim 1, characterized in that: the driving assembly comprises a motor (7) arranged in the mainframe box (3), and the motor (7) is connected with an incomplete bevel gear (8); the incomplete bevel gear (8) is respectively engaged and matched with a small bevel gear (9) and a large bevel gear (10).

3. The device for producing and processing the automobile synchronizer with the pushing type material distribution function according to claim 2, characterized in that: the lead screw transmission pushing assembly comprises a lead screw (11) arranged in the mainframe box (3) through a bearing, the lead screw (11) is connected with a small bevel gear (9), and a connecting plate (12) connected with a right pushing rod (6a) is arranged on the lead screw (11) in a threaded manner; and the mainframe box (3) is provided with a right groove (3a) which is horizontally matched with the right push rod (6a) in a sliding manner.

4. The device for producing and processing the automobile synchronizer with the pushing type material distribution function according to claim 2, characterized in that: the steering displacement assembly comprises a displacement box (13) arranged in the main case (3), an output shaft (14) and two input shafts (15), wherein the output shaft (14) and the two input shafts are connected with the displacement box (13) through bearings; any one output shaft (15) of the two input shafts (15) is connected with the large bevel gear (10); each input shaft (15) is provided with a transmission straight gear (16) and an incomplete straight gear (17); two transmission straight gears (16) are meshed and matched; the two incomplete spur gears (17) are respectively engaged and matched with an output spur gear (18) connected with the output shaft (14).

5. The device for producing and processing the automobile synchronizer with the pushing type material distribution function according to claim 4, wherein the device comprises: the steering deflection assembly further comprises a power straight gear (19) installed on the output gear (18), a rack (20) fixedly connected with the left extension rod (5) is meshed with the power straight gear (19), and a left groove (3b) horizontally matched with the left extension rod (5) in a sliding mode is formed in the mainframe box (3).

6. The device for producing and processing the automobile synchronizer with the pushing type material distribution function according to claim 1, characterized in that: the storage table (2) is welded with a U-shaped limiting frame (21).

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