CN222404562U - Multi-station positioning device for machining electric tool parts - Google Patents

Abstract

The utility model belongs to the technical field of electric tool application, and particularly discloses a multi-station positioning device for machining electric tool parts, which comprises a counterweight seat, a bedplate, a first clamping hydraulic cylinder, a second clamping hydraulic cylinder, a first compression transition part, a second compression transition part, a first compression part, a second compression plate, a plurality of first clamping heads, a plurality of second clamping heads and the like. The multi-station positioning device for processing the electric tool parts has the advantages that clamping and fixing of a plurality of identical parts can be achieved at a time, meanwhile, a plurality of first clamping heads and a plurality of second clamping heads which are symmetrical in phase and have the same structure are of U-shaped structures or round structures with grooves or arc structures with grooves respectively, single clamping and fixing of different parts can be achieved, and further the requirements of efficient and safe processing and use of the electric tool parts are met.

Description

Multi-station positioning device for machining electric tool parts

Technical Field

The utility model belongs to the technical field of electric tool machining application, and particularly relates to a multi-station positioning device for electric tool part machining, which is used for fixing different electric tool parts to be machined and manufactured in deep machining or clamping auxiliary fixing in assembly.

Background

The electric power tool is a tool that drives a work head through a transmission mechanism. In the process of machining and manufacturing the component parts of the electric tool, such as polishing, drilling or assembling, the component parts are required to be fixed, so that safe and efficient machining and assembling of the component parts of the electric tool can be completed by matching with polishing equipment, drilling equipment, assembling equipment and the like.

Through searching, (1) application number/patent number 202321036999.6, a multi-end surface positioning processing device is disclosed, the processing device comprises a base, a first end surface fixing station and a second end surface fixing station, the first end surface fixing station is used for limiting a first gesture of a workpiece, the second end surface fixing station is used for limiting a second gesture of the workpiece, and the first end surface fixing station and the second end surface fixing station share a first positioning block. The utility model provides a multi-end surface positioning processing device which can simultaneously position and fix parts with two different end surfaces on the same fixture, and is time-saving, labor-saving and efficient in processing. The positioning fixture is small in size, the part is placed on the positioning fixture, the sensor senses that the part is placed in place, the air cylinder automatically stretches out to clamp the part, the operation is simple, and the positioning accuracy is high.

(2) The utility model discloses a multi-station adjusting type rotating shaft machining positioning device, which comprises a fixed seat, wherein an inner sliding seat is connected inside an inner sliding cavity in a sliding manner, a material guiding plate is fixedly arranged at the rear end of the inner sliding seat, side opening plates are fixedly arranged at the two sides of the fixed seat through telescopic rods, a pressing seat is fixedly arranged at the inner side of the side sliding plate, the material guiding plate and a supporting plate are respectively arranged at the two ends of the inner sliding seat, a rotating shaft can be supported and pushed through the material guiding plate and the supporting plate, the rotating shaft extends out of one end of the supporting plate, then the side sliding plate slides forwards in the side opening plates and slides to a position opposite to the rotating shaft, then the telescopic rods drive the side opening plates to move inwards, the machining section of the rotating shaft is pressed and fixed through the pressing seat and the pressing arm, so that when machining is performed, the machining section is more stable, the machining precision is high, the rotating shaft can be overturned through a driving gear, the outer toothed ring is driven to rotate, the rotating shaft is driven to rotate, manual overturning is not needed, and the machining efficiency is high.

The two processing and positioning devices have the problems that the fixed workpiece has requirements, namely, only a single to-be-processed and manufactured part can not be fixed, different to-be-processed and manufactured parts can not be fixed by a single processing and positioning device, and meanwhile, in order to fix different to-be-processed and manufactured parts, clamping heads with different shapes can be needed to be replaced, so that the replacement time and time consumption are increased, the processing and manufacturing efficiency is correspondingly reduced, and the like, and research, development and improvement are needed.

Accordingly, in view of the above-described problems, the present utility model provides a multi-station positioning device for machining a power tool component.

Disclosure of utility model

The utility model aims to provide a multi-station positioning device for processing electric tool parts, which solves the problems existing in the prior art when the parts to be processed and manufactured are processed, manufactured and positioned fixedly.

According to the technical scheme, the multi-station positioning device for machining the electric tool part comprises a counterweight seat and a bedplate, wherein the end faces of two ends of the bedplate are symmetrically provided with a first clamping hydraulic cylinder and a second clamping hydraulic cylinder, the first clamping hydraulic cylinder and the second clamping hydraulic cylinder are respectively provided with a first compression transition part and a second compression transition part, the opposite faces of the first compression transition part and the second compression transition part are symmetrically provided with a first compression part and a second compression plate, and the opposite faces of the first compression part and the second compression plate are symmetrically provided with a plurality of first clamping heads and a plurality of second clamping heads which are matched for use.

According to the technical scheme, the multi-station positioning device for machining the electric tool component further comprises a first threaded groove connecting block and a second threaded groove connecting block which are respectively arranged on a first clamping hydraulic cylinder and a second clamping hydraulic cylinder, a first compression transition part clamping groove and a second compression transition part clamping groove which are respectively arranged in one lower part of the first compression transition part and the second compression transition part, a first compression transition part screw hole and a second compression transition part screw hole which are respectively arranged in one side end face of the upper part of the first compression transition part and the end face of the upper part of the second compression transition part and are matched with the first compression transition part clamping groove and the second compression transition part clamping groove, a first transition screw with two ends fixedly connected with the first threaded groove connecting block and the first compression transition part, a second transition screw with two ends fixedly connected with the second threaded groove connecting block and the second compression transition part, and a first transition screw through hole and a second transition screw through hole which are respectively arranged in one end of the first transition screw and the second transition screw.

According to the technical scheme, the multi-station positioning device for machining the electric tool component further comprises a first fixing groove and a second fixing groove which are respectively arranged in the middle of the other surface of the first compression transition part and the middle of the other surface of the second compression transition part, a first vertical screw hole and a second vertical screw hole which are respectively arranged in the end surfaces of the other sides of the upper parts of the first compression transition part and the second compression transition part and are matched with the first fixing groove and the second fixing groove, a first through hole transition fixing plate and a second through hole transition fixing plate which are respectively arranged on the other surface of the first compression part and the second compression plate and are embedded in the first fixing groove and the second fixing groove, a first locking bolt for fixedly assembling the first compression transition part and the first compression part through the first vertical screw hole and the first through hole transition fixing plate, and a second locking bolt for fixedly assembling the second compression transition part and the second compression plate through the second vertical screw hole and the second through hole transition fixing plate.

According to the technical scheme, the multi-station positioning device for machining the electric tool part further comprises two groups of first bedplate screw grooves and two groups of second bedplate screw grooves which are symmetrically arranged on the end faces of two ends of the bedplate, a first rectangular fixing plate and a second rectangular fixing plate which are symmetrically arranged on the end faces of two ends of the bedplate, a first rectangular transition plate and a second rectangular transition plate which are respectively arranged on one face of the first rectangular fixing plate and one face of the second rectangular fixing plate and are matched with the first clamping hydraulic cylinder and the second clamping hydraulic cylinder for use, a first perforated lug plate and a second perforated lug plate which are respectively arranged on the first rectangular fixing plate and the second rectangular fixing plate, a first vertical bolt for fixedly assembling the bedplate and the first rectangular fixing plate through the first perforated lug plate and the first bedplate screw grooves, and a second vertical bolt for fixedly assembling the bedplate and the second rectangular fixing plate through the second perforated lug plate and the second bedplate screw grooves.

According to the technical scheme, the length sizes of the first compressing part and the first transitional fixing plate with the through holes are the same, and the length sizes of the second compressing plate and the second transitional fixing plate with the through holes are the same.

According to the technical scheme, the first compression transition part clamping groove and the second compression transition part clamping groove are respectively arranged to be strip-shaped grooves.

According to the technical scheme, the first clamping hydraulic cylinder and the second clamping hydraulic cylinder are respectively at least provided with one group, and are symmetrically arranged on the four corner end faces of the bedplate.

Compared with the prior art, the multi-station positioning device for machining the electric tool parts has the advantages that 1, the matched table plate, the first clamping hydraulic cylinder, the second clamping hydraulic cylinder, the first compression transition part, the second compression transition part, the first compression part, the second compression plate, the first clamping heads and the second clamping heads can realize the clamping and fixing of a plurality of identical parts at a time, meanwhile, the first clamping heads and the second clamping heads with the same structure are symmetrical in phase, are of a U-shaped structure or a circular grooved structure or an arc grooved structure respectively, the single clamping and fixing of different parts can be realized, and further the requirements of efficient and safe machining and use of the electric tool parts are met, 2, the whole design is formed by assembling a plurality of modules, and the multi-station positioning device is reasonable and simple in structural design, convenient to disassemble and maintain on the basis of convenience in assembly, and high in practicability.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic front view of a multi-station positioning device for machining electric tool parts according to the present utility model;

FIG. 2 is a schematic view showing a top view of a multi-station positioning device for machining electric tool parts according to the present utility model;

Wherein, the serial numbers in the figure are as follows: 100-counterweight base, 101-platen, 102-first clamping cylinder, 103-second clamping cylinder, 104-first compression transition, 105-second compression transition, 106-first compression, 107-second compression plate, 108-first clamping head, 109-second clamping head, 110-first rectangular fixed plate, 111-second rectangular fixed plate, 112-first rectangular transition plate, 113-second rectangular transition plate, 114-first platen screw, 115-second platen screw, 116-first Kong Er plate, 117-second perforated lug plate, 118-first vertical bolt, 119-second vertical bolt, 120-first slotted screw connection block, 121-second slotted screw connection block 122-first transition screw, 123-second transition screw, 124-first compression transition portion clamping groove, 125-second compression transition portion clamping groove, 126-first transition screw through hole, 127-second transition screw through hole, 128-first compression transition portion screw hole, 129-second compression transition portion screw hole, 130-first lock nut screw, 131-second lock nut screw, 132-first fixing groove, 133-second fixing groove, 134-first vertical screw hole, 135-second vertical screw hole, 136-first through hole transition fixing plate, 137-second through hole transition fixing plate, 138-first lock bolt, 139-second lock bolt.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and all other embodiments obtained by those skilled in the art without making creative efforts based on the embodiments of the present utility model are included in the protection scope of the present utility model.

In describing the present utility model, it should be noted that the terms "top", "bottom", "one side" are used "

The terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying any particular importance, and furthermore, unless otherwise explicitly specified or defined, the terms "mounted," "connected," "coupled," and "connected" are to be construed broadly, e.g., as either a fixed connection, a releasable connection, or an integral connection, as either a mechanical connection, or an electrical connection, as either a direct connection, or as an indirect connection via an intermediary, as both elements herein, unless otherwise explicitly specified and defined. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Example 1

The multi-station positioning device for machining the electric tool parts shown in fig. 1 and 2 comprises a weight seat 100 and a table plate 101,

The two end surfaces of the table plate 101 are symmetrically provided with a first clamping hydraulic cylinder 102 and a second clamping hydraulic cylinder 103,

A first compaction transition part 104 and a second compaction transition part 105 are respectively arranged on the first clamping hydraulic cylinder 102 and the second clamping hydraulic cylinder 103,

The opposite surfaces of the first compression transition part 104 and the second compression transition part 105 are symmetrically provided with a first compression part 106 and a second compression plate 107,

The opposite surfaces of the first pressing part 106 and the second pressing plate 107 are symmetrically provided with a plurality of first clamping heads 108 and a plurality of second clamping heads 109 which are matched for use;

The first clamping head 108 and the second clamping head 109 comprise, but are not limited to, a transverse U-shaped structure or a circular grooved structure or an arc grooved structure which are matched for use, and are used for single clamping and fixing of different parts (electric tools), and the first clamping head 108 and the second clamping head 109 are the same in size, so that stable and firm processing and fixing of the electric tool parts are completed;

in addition, the first clamping head 108 and the second clamping head 109 can be designed to have different structural dimensions, so as to be used for stably and firmly processing and fixing components (electric tools) with different structures at two ends, and have rich functions.

Example two

On the basis of the first embodiment, the multi-station positioning device for machining the electric tool component further comprises a first threaded connecting block 120 and a second threaded connecting block 121 which are respectively arranged on the first clamping hydraulic cylinder 102 and the second clamping hydraulic cylinder 103, a first transitional clamping groove 124 and a second transitional clamping groove 125 which are respectively arranged in the lower parts of one surfaces of the first transitional pressing part 104 and the second transitional pressing part 105, a first transitional clamping screw 128 and a second transitional clamping screw 129 which are respectively arranged in the end surfaces of one sides of the upper parts of the first transitional pressing part 104 and the second transitional pressing part 105 and are matched with the first transitional clamping groove 124 and the second transitional clamping groove 125 for use, a first transitional screw 122 with two ends fixedly connected with the first threaded connecting block 120 and the first transitional pressing part 104, and a second transitional screw 123 with two ends fixedly connected with the second threaded connecting block 121 and the second transitional pressing part 105, and a first transitional screw 126 and a second through hole 127 which are respectively arranged in one ends of the first transitional screw 122 and the second transitional screw 123;

One end of the first transition screw 122 is rotatably connected with the first threaded connection block 120, the other end of the first transition screw is fixedly assembled with the first compression transition portion 104 through a first compression transition portion screw hole 128 and a first transition screw through hole 126 by using a first locking nut screw 130, one end of the second transition screw 123 is rotatably connected with the second threaded connection block 121, the other end of the second transition screw is fixedly assembled with the second compression transition portion 105 through a second locking nut screw hole 129 and a second transition screw through hole 127 by using a second locking nut screw 131, and the above design structure realizes convenient assembly and use among the first clamping hydraulic cylinder 102, the first compression transition portion 104, the second clamping hydraulic cylinder 103 and the second compression transition portion 105, is convenient for disassembly and maintenance in the subsequent use process, shortens the disassembly and maintenance time, and improves the processing and manufacturing efficiency of components (electric tools).

Example III

On the basis of the first embodiment or the second embodiment, the multi-station positioning device for machining the electric tool component further comprises a first fixing groove 132 and a second fixing groove 133 which are respectively arranged in the middle of the other surface of the first compression transition part 104 and the second compression transition part 105, a first vertical screw hole 134 and a second vertical screw hole 135 which are respectively arranged in the other side end surfaces of the upper parts of the first compression transition part 104 and the second compression transition part 105 and are matched with the first fixing groove 132 and the second fixing groove 133, a first through hole transition fixing plate 136 and a second through hole transition fixing plate 137 which are respectively arranged on the other surfaces of the first compression part 106 and the second compression plate 107 and are embedded in the first fixing groove 132 and the second fixing groove 133, a first locking bolt 138 which is used for fixedly assembling the first compression transition part 104 and the first compression part 106 through the first through hole transition fixing plate 136, and a second locking bolt 139 which is used for fixedly assembling the second compression transition part 105 and the second compression plate 107 through the second vertical screw hole 135 and the second through hole transition fixing plate 137, and the first locking bolt 139 is arranged between the first compression transition part 104 and the second compression transition part 107, and the second compression part 107 is conveniently assembled.

Example IV

On the basis of the first embodiment, the second embodiment or the third embodiment, the multi-station positioning device for machining electric tool parts further comprises two groups of first bedplate screw grooves 114 and two groups of second bedplate screw grooves 115 which are symmetrically arranged on two end surfaces of the bedplate 101, a first rectangular fixing plate 110 and a second rectangular fixing plate 111 which are symmetrically arranged on two end surfaces of the bedplate 101, a first rectangular transition plate 112 and a second rectangular transition plate 113 which are respectively arranged on one surface of the first rectangular fixing plate 110 and one surface of the second rectangular fixing plate 111 and are matched with the first clamping hydraulic cylinder 102 and the second clamping hydraulic cylinder 103, a first perforated lug plate 116 and a second perforated lug plate 117 which are respectively arranged on the first rectangular fixing plate 110 and the second rectangular fixing plate 111, a first vertical bolt 118 which is used for fixing and assembling the bedplate 101 and the first rectangular fixing plate 110 through the first perforated lug plate 116 and the first bedplate screw grooves 114, and a second vertical bolt 119 which is used for fixing and assembling the first rectangular fixing plate 101 and the second rectangular fixing plate 111 through the second perforated lug plate 117 and the second bedplate screw grooves 115, and the first rectangular fixing plate 101 and the second rectangular fixing plate are conveniently assembled.

In addition, the preferable first pressing portion 106 and the first through-hole transitional fixing plate 136 have the same length, and the second pressing plate 107 and the second through-hole transitional fixing plate 137 have the same length, so that they are easily and firmly clamped in the first fixing groove 132 and the second fixing groove 133, respectively, and the stable horizontal opposite clamping force application of the plurality of first clamping heads 108 and the plurality of second clamping heads 109 is realized.

In addition, the first compression transition portion clamping groove 124 and the second compression transition portion clamping groove 125 are preferably provided as bar-shaped grooves, so that convenient assembly with the first transition screw 122 and the second transition screw 123 is facilitated.

In addition, at least one group of the first clamping hydraulic cylinders 102 and the second clamping hydraulic cylinders 103 are preferably provided, and are symmetrically provided on the four corner end surfaces of the platen 101, and 3 single sides are shown in fig. 2, so that accurate clamping control is performed on the first clamping transition portion 104, the second clamping transition portion 105, the first clamping portion 106, the second clamping plate 107, the plurality of first clamping heads 108, the plurality of second clamping heads 109 and the like, and firm and stable clamping action driving is satisfied.

Working principle or structure principle of multi-station positioning device for processing electric tool parts of the structure:

please refer to fig. 1 and 2:

Firstly, horizontally moving a part (electric tool part) to be machined and fixed to a clamping working surface of a first clamping head 108 and a second clamping head 109, wherein the part (electric tool part) can be inserted into the first clamping head 108 or the second clamping head 109 in advance;

then, the first clamping hydraulic cylinder 102 and the second clamping hydraulic cylinder 103 are respectively started, at this time, the first clamping hydraulic cylinder 102 is linked with the first compaction transition part 104, the first compaction part 106 and the first clamping head 108 to move towards the position of the second clamping head 109 through the first transition screw rod 122, and the second clamping hydraulic cylinder 103 is linked with the second compaction transition part 105 and the second clamping head 109 to move towards the position of the first clamping head 108 through the second transition screw rod 123 until the first clamping head 108 and the second clamping head 109 clamp a part to be machined and fixed (an electric tool part);

Finally, after the machining and manufacturing are completed, the first clamping hydraulic cylinder 102 and the second clamping hydraulic cylinder 103 are started respectively or the first clamping hydraulic cylinder 102 is started independently/the second clamping hydraulic cylinder 103 is started independently, so that the first clamping head 108 is far away from the second clamping head 109 or the second clamping head 109 is far away from the first clamping head 108, and at the moment, the part (the electric tool part) to be machined and fixed after the machining and manufacturing are completed can be detached.

In addition, during the clamping and fixing operation, the operation modes of the first clamping hydraulic cylinder 102, the second clamping hydraulic cylinder 103 and the second clamping hydraulic cylinder 103 can be independently controlled.

It should be noted that in this document, terms such as "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises an element.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. Multi-station positioning device for machining electric tool parts, comprising a counterweight seat (100) and a bedplate (101), and being characterized in that:

The two end surfaces of the bedplate (101) are symmetrically provided with a first clamping hydraulic cylinder (102) and a second clamping hydraulic cylinder (103),

A first compaction transition part (104) and a second compaction transition part (105) are respectively arranged on the first clamping hydraulic cylinder (102) and the second clamping hydraulic cylinder (103),

The opposite surfaces of the first compaction transition part (104) and the second compaction transition part (105) are symmetrically provided with a first compaction part (106) and a second compaction plate (107),

The opposite surfaces of the first compression part (106) and the second compression plate (107) are symmetrically provided with a plurality of first clamping heads (108) and a plurality of second clamping heads (109) which are matched for use;

The first clamping head (108) and the second clamping head (109) are of a matched transverse U-shaped structure or a round grooved structure or an arc grooved structure, and the sizes of the first clamping head (108) and the second clamping head (109) are the same.

2. The multi-station positioning device for machining the electric tool component according to claim 1, further comprising a first threaded connecting block (120) and a second threaded connecting block (121) which are respectively arranged on the first clamping hydraulic cylinder (102) and the second clamping hydraulic cylinder (103), a first threaded clamping groove (124) and a second threaded clamping groove (125) which are respectively arranged in one lower part of the first compression transition part (104) and the second compression transition part (105), a first threaded transition part screw hole (128) and a second threaded transition part screw hole (129) which are respectively arranged in one side end face of the upper part of the first compression transition part (104) and the second compression transition part (105), and a first threaded screw (122) which is respectively arranged in the first threaded transition part screw hole (124) and the second threaded transition part screw hole (125), and a first threaded screw (122) which is respectively fixedly connected with the first threaded connecting block (120) and the first compression transition part (104), and a second threaded screw (123) which is respectively arranged in the first threaded transition part (122), and a second threaded screw (126) which is respectively connected with the second threaded transition part (123) and the second threaded transition part (123) at two ends of which are respectively arranged in the first threaded screw hole (122);

One end of a first transition screw (122) is rotationally connected with a first threaded connecting block (120), the other end of the first transition screw is fixedly assembled with a first compression transition part (104) by using a first locking nut screw (130) through a first compression transition part screw hole (128), one end of a second transition screw (123) is rotationally connected with a second threaded connecting block (121), the other end of the second transition screw is fixedly assembled with a second compression transition part (105) by using a second locking nut screw (131) through a second compression transition part screw hole (129).

3. The multi-station positioning device for machining electric tool parts according to claim 1, further comprising a first fixing groove (132) and a second fixing groove (133) which are respectively arranged in the middle of the other surfaces of the first compression transition part (104) and the second compression transition part (105), a first vertical screw hole (134) and a second vertical screw hole (135) which are respectively arranged in the other side end surfaces of the upper parts of the first compression transition part (104) and the second compression transition part (105) and are matched with the first fixing groove (132) and the second fixing groove (133), a first through hole transition fixing plate (136) and a second through hole transition fixing plate (137) which are respectively arranged in the first compression part (106) and the second compression plate (107), a first locking bolt (138) which is respectively arranged in the first fixing groove (132) and the second fixing groove (133) and is used for fixedly assembling the first compression transition part (104) and the first compression transition part (106) through the first vertical screw hole (134), and the first through hole transition fixing plate (136), and a second locking bolt (135) which is respectively arranged in the first compression transition plate (107) and the second compression bolt (139).

4. The multi-station positioning device for machining electric tool parts according to claim 3, further comprising two sets of first platen screw grooves (114) and two sets of second platen screw grooves (115) symmetrically arranged on end surfaces of two ends of the platen (101), a first rectangular fixing plate (110) and a second rectangular fixing plate (111) symmetrically arranged on end surfaces of two ends of the platen (101), a first vertical bolt (118) respectively arranged on one surface of the first rectangular fixing plate (110) and one surface of the second rectangular fixing plate (111) and used in cooperation with the first clamping hydraulic cylinder (102) and the second clamping hydraulic cylinder (103), a first rectangular transition plate (112) and a second rectangular transition plate (113) respectively arranged on the first rectangular fixing plate (110) and the second rectangular fixing plate (111), a first perforated lug plate (116) and a second perforated lug plate (117), and a first vertical bolt (118) respectively fixedly arranged on the platen (101) and the first rectangular fixing plate (110) through the first perforated lug plate (116) and the first screw grooves (114), and a second vertical bolt (118) respectively arranged on the second platen (101) and the second vertical bolt (119).

5. The multi-station positioning device for machining a power tool component according to claim 3, wherein the first pressing portion (106) and the first through-hole transitional fixing plate (136) have the same length, and the second pressing plate (107) and the second through-hole transitional fixing plate (137) have the same length.

6. The multi-station positioning device for machining a power tool component according to claim 2, wherein the first compression transition portion clamping groove (124) and the second compression transition portion clamping groove (125) are respectively provided as strip-shaped grooves.

7. The multi-station positioning device for machining electric tool parts according to claim 1 or 4, wherein the first clamping hydraulic cylinder (102) and the second clamping hydraulic cylinder (103) are respectively provided with at least one group, and are symmetrically arranged on four corner end surfaces of the platen (101).