CN213916267U - Automobile power takeoff casing processingequipment - Google Patents

Abstract

The utility model discloses an automobile power takeoff shell processing device in the field of automobile power takeoff, which comprises a processing base, two groups of vertical plates are symmetrically fixed on the two sides of the top end of the processing base, a first chute is arranged on the opposite side surface of each vertical plate, a first slide block is slidably connected inside the first chute, a first through hole is arranged at the center of the side surface of the first chute, a first connecting hole is arranged on the side surface of the first slide block, a first fixing rod is inserted inside the first connecting hole and the first through hole, a connecting plate is fixed between the first slide blocks, a second chute is arranged at the center of the bottom end of the connecting plate, a second slide block is slidably connected inside the second chute, a second through hole is arranged at the center of the top end of the second chute, a second connecting hole is arranged at the top end of the second slide block, a second fixing rod is inserted inside the second connecting hole and the second through hole, an electric push rod is fixed at the bottom end of the second slide block, and a mounting plate is fixed at the end of the electric push rod, the center of the bottom end of the mounting plate is fixedly provided with a drilling motor, and the output end of the drilling motor is connected with a drilling shaft.

Description

Automobile power takeoff casing processingequipment

Technical Field

The utility model relates to an automobile power takeoff field specifically is an automobile power takeoff casing processingequipment.

Background

The power takeoff, namely one or more groups of speed change gears, also called power output devices, is generally formed by combining a gear box, a clutch and a controller, is connected with an output shaft of a low-gear or an auxiliary box of the gear box and outputs power to an external working device, the structure of the power takeoff is related to the specific structure, the size ratio and the position relation of the gear set in the power takeoff, and a corresponding power takeoff gear box structure is finally designed according to different influence factors, so that the design requirements on material cost and position arrangement are met. Therefore, the specific structure of the casting blank is various, and the drilling processing is needed to be carried out on the casting blank of the gearbox body of the power takeoff when the casting blank of the gearbox body of the power takeoff is mechanically processed.

At present, chinese patent application No. CN201420657147.3 discloses a multi-shaft borer for power takeoff shell machining, which includes drill bits arranged in one-to-one correspondence to mounting holes to be machined in the power takeoff shell, the drill bits are connected to more than one driven shaft driven by a driving main shaft through a driving device, an intermediate transmission shaft is arranged between the driving main shaft and the driven shaft and between two adjacent driven shafts, and the driving main shaft is connected with a power head through a coupling; the drilling machining efficiency can be improved, the clamping auxiliary time and the repeated positioning in the machining process are reduced, the labor intensity of operators is reduced, the labor is saved, and the economic cost is saved. However, when this device is used to drill a casing of an automobile power takeoff, the position of the drilled hole cannot be adjusted. Based on this, the utility model designs an automobile power takeoff casing processingequipment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automobile power takeoff casing processingequipment to the problem of can't adjusting the position of drilling that provides in solving above-mentioned background.

In order to achieve the above object, the utility model provides a following technical scheme:

a processing device for an automobile power takeoff shell comprises a processing base, wherein two groups of vertical plates are symmetrically fixed on two sides of the top end of the processing base, first sliding grooves are formed in opposite side surfaces of the vertical plates, first sliding blocks are connected to the inner portions of the first sliding grooves in a sliding mode, first through holes are formed in the centers of the side surfaces of the first sliding grooves, first connecting holes matched with the first through holes are formed in the side surfaces of the first sliding blocks, first fixing rods are inserted into the first connecting holes and the first through holes, connecting plates are fixed between the first sliding blocks, second sliding grooves are formed in the centers of the bottom ends of the connecting plates, second sliding blocks are connected to the inner portions of the second sliding grooves in a sliding mode, second through holes are formed in the centers of the top ends of the second sliding grooves, second connecting holes matched with the second through holes are formed in the top ends of the second sliding blocks, and second fixing rods are inserted into the second connecting holes, the second slider bottom mounting has electric putter, electric putter end fixing has the mounting panel, mounting panel bottom center is fixed with the drilling motor, drilling motor output is connected with the drill spindle.

Preferably, the length of the vertical plate is greater than one half of the width of the processing base, and the vertical plate is welded and fixed at the top end of the processing base.

Preferably, the upper portion of the first sliding groove is arranged close to the edge of the top end of the vertical plate, the length of the first sliding groove is close to the length of the vertical plate, the center of the opening of the first sliding groove is located on a vertical central line of the side face of the vertical plate, a vertical face where the end portion of the first sliding block is located and a vertical face where the side face of the vertical plate is located are the same vertical face, and the height of the connecting plate is larger than that of the first sliding groove.

Preferably, the first through holes are uniformly arranged in the center of the side surface of the first sliding groove at equal intervals, the length of the first connecting hole is equal to half of the length of the first sliding block, and the length of the first fixing rod is slightly greater than the sum of the length of the first connecting hole and the length of the first through hole.

Preferably, the length of the second sliding groove is slightly smaller than that of the connecting plate, the height of the second sliding block is equal to the depth of the second sliding groove, the second through holes are evenly formed in the top end of the second sliding groove at equal intervals, the depth of the second connecting hole is equal to half of the height of the second sliding block, and the length of the second fixing rod is equal to the sum of the depth of the second connecting hole and the depth of the second through hole.

Preferably, the sum of the length of the electric push rod when the electric push rod is completely stretched, the thickness of the mounting plate, the height of the drilling motor and the length of the drilling shaft is equal to the vertical distance from the bottom end of the connecting plate to the top end of the processing base.

Compared with the prior art, the beneficial effects of the utility model are that: through setting up first spout and first slider, utilize the sliding fit of first spout and first slider, can change the fore-and-aft direction's that the connecting plate is located position, through setting up second spout and second slider, utilize the cooperation of second slider and second spout, the position of high limit drill arbor in the left and right sides orientation of locating, the two combined action can be adjusted the position of drilling, utilize first dead lever to insert first connecting hole and first through-hole simultaneously and carry out spacing fixed to first slider, insert to insert through the second dead lever and insert second connecting hole and second through-hole and carry out spacing fixed to the second slider.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below, and it is obvious that the drawings described below are only examples of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

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

FIG. 2 is a schematic view of the top view structure of the present invention;

FIG. 3 is a schematic view of the cross-sectional structure of the utility model B-B

Fig. 4 is a schematic view of the cross-sectional structure a-a of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1-processing a base, 2-a vertical plate, 3-a first sliding groove, 4-a first sliding block, 5-a first through hole, 6-a first connecting hole, 7-a first fixing rod, 8-a connecting plate, 9-a second sliding groove, 10-a second sliding block, 11-a second through hole, 12-a second connecting hole, 13-a second fixing rod, 14-an electric push rod, 15-a mounting plate, 16-a drilling motor and 17-a drilling shaft.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the examples of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution:

as shown in figures 1, 2 and 3, the processing device for the automobile power takeoff shell comprises a processing base 1, two groups of vertical plates 2 are symmetrically fixed on two sides of the top end of the processing base 1, the length of each vertical plate 2 is greater than one half of the width of the processing base 1, the vertical plates 2 are welded and fixed on the top end of the processing base 1, first sliding grooves 3 are formed in opposite side surfaces of the vertical plates 2, the upper portions of the first sliding grooves 3 are arranged close to the edges of the top ends of the vertical plates 2, the length of each first sliding groove 3 is close to the length of the corresponding vertical plate 2, the opening center of each first sliding groove 3 is located on the vertical central line of the side surface of each vertical plate 2, first sliding blocks 4 are connected inside the first sliding grooves 3 in a sliding mode, the vertical surface where the end portions of the first sliding blocks 4 are located and the vertical surface where the side surfaces of the vertical plates 2 are located are the same vertical surface, first through holes 5 are formed in the center of the side surface of the first sliding grooves 3 at equal intervals, a first connecting hole 6 matched with the first through hole 5 is formed in the side face of the first sliding block 6, the length of the first connecting hole 6 is equal to half of the length of the first sliding block 4, a first fixing rod 7 is inserted into the first connecting hole 6 and the first through hole 5 in an inserting mode, and the length of the first fixing rod 7 is slightly larger than the sum of the length of the first connecting hole 6 and the length of the first through hole 5;

as shown in fig. 1, 2 and 4, a connecting plate 8 is fixed between the first sliders 4, the height of the connecting plate 8 is greater than that of the first sliding groove 3, a second sliding groove 9 is formed in the center of the bottom end of the connecting plate 8, the length of the second sliding groove 9 is slightly smaller than that of the connecting plate 8, a second slider 10 is connected inside the second sliding groove 9 in a sliding manner, the height of the second slider 10 is equal to that of the second sliding groove 9, a second through hole 11 is formed in the center of the top end of the second sliding groove 9, the second through holes 11 are uniformly arranged at equal intervals at the top end of the second sliding groove 9, a second connecting hole 12 matched with the second through hole 11 is formed in the top end of the second slider 10, the depth of the second connecting hole 12 is equal to half of the height of the second slider 10, a second fixing rod 13 is inserted into the second connecting hole 12 and the second through hole 11, the length of the second fixing rod 13 is equal to the sum of the depth of the second connecting hole 12 and the depth of the second through hole 11, an electric push rod 14 is fixed at the bottom end of the second sliding block 10, a mounting plate 15 is fixed at the end of the electric push rod 14, a drilling motor 16 is fixed at the center of the bottom end of the mounting plate 15, a drilling shaft 17 is connected to the output end of the drilling motor 16, and the sum of the length of the electric push rod 14 when fully extending and retracting, the thickness of the mounting plate 15, the height of the drilling motor 16 and the length of the drilling shaft 17 is equal to the vertical distance from the bottom end of the connecting plate 8 to the top end of the processing base 1.

One specific application of this embodiment is: place the power takeoff casing on processing base, at first utilize the cooperation of first slider 4 and first spout 3, the position that back-and-forth movement connecting plate 8 was located, make connecting plate 8 bottom center with treat that the drilling position is in on the same water flat line of left and right sides orientation, utilize second dead lever 7 to insert first connecting hole 6 and first through-hole 5 after that, carry out spacing fixed to first slider 4, then utilize the cooperation of second slider 10 and second spout 9, remove mounting panel 15 about, make the drill spindle 17 bottom just to treating the drilling position, start electric putter 14 and drill spindle motor 16, carry out drilling process to the power takeoff shell.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. The utility model provides an automobile power takeoff casing processingequipment, includes processing base (1), its characterized in that: two groups of vertical plates (2) are symmetrically fixed on two sides of the top end of the processing base (1), first sliding grooves (3) are formed in opposite side surfaces of the vertical plates (2), first sliding blocks (4) are connected to the inner portions of the first sliding grooves (3) in a sliding mode, first through holes (5) are formed in the centers of the side surfaces of the first sliding grooves (3), first connecting holes (6) matched with the first through holes (5) are formed in the side surfaces of the first sliding blocks (4), first fixing rods (7) are inserted into the first connecting holes (6) and the first through holes (5), connecting plates (8) are fixed between the first sliding blocks (4), second sliding grooves (9) are formed in the centers of the bottom ends of the connecting plates (8), second sliding blocks (10) are connected to the inner portions of the second sliding grooves (9) in a sliding mode, and second through holes (11) are formed in the centers of the top ends of the second sliding grooves (9), the improved drilling machine is characterized in that a second connecting hole (12) matched with a second through hole (11) is formed in the top end of the second sliding block (10), a second fixing rod (13) is inserted into the second connecting hole (12) and the second through hole (11), an electric push rod (14) is fixed to the bottom end of the second sliding block (10), a mounting plate (15) is fixed to the end portion of the electric push rod (14), a drilling motor (16) is fixed to the center of the bottom end of the mounting plate (15), and the output end of the drilling motor (16) is connected with a drill spindle (17).

2. The automotive power takeoff housing machining device as claimed in claim 1, wherein: the length of the vertical plate (2) is greater than one half of the width of the processing base (1), and the vertical plate (2) is welded and fixed at the top end of the processing base (1).

3. The automotive power takeoff housing machining device as claimed in claim 1, wherein: the upper portion of the first sliding groove (3) is close to the top end edge of the vertical plate (2), the length of the first sliding groove (3) is close to the length of the vertical plate (2), the opening center of the first sliding groove (3) is located on a vertical central line of the side face of the vertical plate (2), the vertical face where the end portion of the first sliding block (4) is located and the vertical face where the side face of the vertical plate (2) is located are the same vertical face, and the height of the connecting plate (8) is larger than the height of the first sliding groove (3).

4. The automotive power takeoff housing machining device as claimed in claim 1, wherein: the first through holes (5) are evenly arranged in the centers of the side surfaces of the first sliding grooves (3) at equal intervals, the length of each first connecting hole (6) is equal to half of the length of the corresponding first sliding block (4), and the length of each first fixing rod (7) is slightly larger than the sum of the length of each first connecting hole (6) and the length of each first through hole (5).

5. The automotive power takeoff housing machining device as claimed in claim 1, wherein: the length of second spout (9) slightly is less than the length of connecting plate (8), the height of second slider (10) equals the degree of depth of second spout (9), equidistant even setting in second spout (9) top of second perforating hole (11), the degree of depth of second connecting hole (12) equals half of second slider (10) height, the length of second dead lever (13) equals the degree of depth sum of the degree of depth of second connecting hole (12) and second perforating hole (11).

6. The automotive power takeoff housing machining device as claimed in claim 1, wherein: the sum of the length of the electric push rod (14) when the electric push rod is completely stretched, the thickness of the mounting plate (15), the height of the drilling motor (16) and the length of the drilling shaft (17) is equal to the vertical distance from the bottom end of the connecting plate (8) to the top end of the processing base (1).

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