CN211465794U

CN211465794U - High-precision combined type cylinder block machining equipment

Info

Publication number: CN211465794U
Application number: CN201921648427.7U
Authority: CN
Inventors: 纪昌楩
Original assignee: Huangshi Jinwei Machinery Co ltd
Current assignee: Huangshi Jinwei Machinery Co ltd
Priority date: 2019-09-29
Filing date: 2019-09-29
Publication date: 2020-09-11
Anticipated expiration: 2029-09-29

Abstract

The utility model discloses a high-precision combined cylinder block processing device, which comprises a mounting plate, a transverse chute, a lifting unit, a translation unit and a clamping unit; mounting a plate: the mounting plate is arranged in a rectangular shape, and two transverse sliding grooves are formed in two sides of the upper surface of the left end of the mounting plate; a lifting unit: the fixing frame of the lifting unit is arranged in a square frame shape, the lower ends of two side rods of the fixing frame extend out of the lower surface of the lower plate, and the lower ends extending out of the side rods of the fixing frame are connected in the two transverse sliding grooves in a sliding mode. A translation unit: the vertical moving blocks of the translation unit are connected to two side rods of the fixing frame; a clamping unit: the support frame of centre gripping unit is "protruding" font setting, and this high accuracy combination formula cylinder block processing equipment, the machining precision is high, is applicable to long-time operation, and is lower to workman's proficiency requirement, and machining efficiency is high, and is stable to the centre gripping of processing raw materials, has avoided the emergence of dangerous condition.

Description

High-precision combined type cylinder block machining equipment

Technical Field

The utility model relates to a cylinder head processing equipment technical field specifically is a high accuracy combination formula cylinder block processing equipment.

Background

The cylinder head is used for sealing the cylinder, forming a combustion space together with the piston and bearing high-temperature and high-pressure gas, and bears gas force and mechanical load caused by fastening of cylinder bolts, and simultaneously bears high thermal load due to contact with the high-temperature gas. In order to ensure a good sealing of the cylinder, the cylinder head can neither be damaged nor deformed. The problem that cylinder head processing equipment in the existing market appeared has, advances to polish the in-process craftsman's complexity higher to the cylinder head, includes shell, operation panel, fixing device and dust collector according to application number 201820599546.7, the operation panel upside is equipped with the shell, the shell is through dismantling to connect in the operation panel, the operation panel downside is equipped with the cupboard, the shell inboard is equipped with fixing device, fixing device is through dismantling to connect in the workstation, the fixing device both sides respectively are equipped with dust collector, dust collector is through dismantling to connect in the shell, the fixing device inboard is equipped with the base, the base upside is equipped with the clamping piece, the clamping piece is through fixing bolt connection in the base. The cylinder cover processing equipment is low in processing precision, not suitable for long-time operation, high in requirement on proficiency of workers, low in processing efficiency, unstable in clamping of processing raw materials and prone to dangerous situations.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a high accuracy combination formula cylinder block processing equipment, the machining precision is high, is applicable to long-time operation, and is lower to workman's proficiency requirement, and machining efficiency is high, and is stable to the centre gripping of processing raw materials, has avoided the emergence of the dangerous condition, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a high-precision combined type cylinder block processing device comprises a mounting plate, a transverse sliding chute, a lifting unit, a translation unit and a clamping unit;

mounting a plate: the mounting plate is arranged in a rectangular shape, and two transverse sliding grooves are formed in two sides of the upper surface of the left end of the mounting plate;

a lifting unit: the fixing frame of the lifting unit is arranged in a square frame shape, the lower ends of two side rods of the fixing frame extend out of the lower surface of the lower plate, and the lower ends extending out of the side rods of the fixing frame are connected in the two transverse sliding grooves in a sliding mode. The processing requirement in the vertical direction can be realized to the setting of lift unit.

A translation unit: the vertical moving blocks of the translation unit are connected to two side rods of the fixing frame; most of the processing requirements in the vertical plane can be realized by matching with the translation unit.

A clamping unit: the supporting frame of the clamping unit is arranged in a convex shape, and the lower ends of two side rods of the supporting frame are fixedly connected to the upper surface of the right end of the mounting plate;

the power supply device further comprises a single chip microcomputer, the single chip microcomputer is fixedly connected to the upper surface of one side of the mounting plate, and the input end of the single chip microcomputer is electrically connected with the output end of an external power supply.

Further, the lifting unit also comprises a fixing frame, vertical through grooves, longitudinal sliding grooves, a vertical lead screw, a connecting block, a vertical servo motor, a cutting motor mounting seat, a cutting motor and transverse moving blocks, wherein the longitudinal sliding grooves are respectively and correspondingly penetrated and arranged on rod bodies of an upper rod and a lower rod of the fixing frame, the number of the transverse moving blocks is two, the two transverse moving blocks are arranged in an I shape and are slidably connected in the two longitudinal sliding grooves, the vertical through grooves are respectively and correspondingly penetrated and arranged on two side rods of the fixing frame, the lower end of the vertical lead screw is rotatably connected with the upper surface of the transverse moving block at the lower part, the vertical servo motor is reversely and fixedly connected with the upper surface of the transverse moving block at the upper part, an output shaft of the vertical servo motor penetrates through the lower surface of the transverse moving block and is fixedly connected with the upper end of the, the vertical screw rod is in threaded connection with a threaded hole in the connecting block, a cutting motor mounting seat is fixedly connected to the rear side surface of the connecting block, a cutting motor is fixedly connected to the cutting motor mounting seat, a cutting head for machining is fixedly connected to an output shaft of the cutting motor, and input ends of the cutting motor and the vertical servo motor are electrically connected with an output end of the single chip microcomputer. When a vertical servo motor circuit in the lifting unit is switched on, power can be transmitted to a vertical screw rod connected with the output shaft, so that the connecting block is driven to move upwards or downwards, the cutting motor on the cutting motor mounting seat is moved up and down, and the cutting of a processing material in the vertical direction is completed.

Furthermore, the translation unit still contains vertical movable block, horizontal lead screw, horizontal motor cabinet and horizontal servo motor, vertical movable block is "worker" font setting, and this vertical movable block sliding connection is in vertical logical groove, horizontal motor cabinet fixed connection is at the surface of one of them vertical movable block, horizontal servo motor fixed connection is at the upper surface of horizontal motor cabinet, horizontal servo motor's output shaft passes the middle part of horizontal motor cabinet curb plate and the vertical movable block that links to each other, and the tip of this servo motor output shaft and the one end fixed connection of horizontal lead screw, the other end of horizontal lead screw rotates to be connected on the inboard surface of the vertical movable block of same end, the output of singlechip is connected to horizontal servo motor's input electricity. When a circuit of a transverse servo motor on a transverse motor base in the translation unit is switched on, power can be transmitted to a transverse lead screw between two vertical moving blocks, so that the transverse lead screw rotates, and a connecting block connected with the middle part of the transverse lead screw is driven to move horizontally.

Further, the centre gripping unit still contains support frame, slide rail, layering, pneumatic cylinder, connector and gear, two slide rails of the inboard fixedly connected with of two vertical poles in support frame upper end have seted up the spout on the side that two slide rails are relative, layering sliding connection is in the spout that the slide rail was seted up, the lower extreme of layering is the bending form setting, and has seted up the tooth's socket on the corresponding side in two layering upper ends, the pneumatic cylinder is down to fixed connection at the lower surface of support frame upper end pole, the lower fixed surface of pneumatic cylinder output shaft is connected with the connector, the connector is the U type of inversion, and the intermediate position of this connector both sides pole rotates and is connected with the gear, the tooth's socket meshing connection that the gear was seted up on two slide rails respectively, the output of singlechip is connected to the input. When a hydraulic cylinder circuit fixedly connected with the lower surface of the upper end rod of the clamping unit supporting frame is switched on, the hydraulic cylinder extension rod drives the connector to move downwards, the lower surfaces of the pressing strips on the two sides of the gear are in a horizontal state under the action of gravity, when the lower end on one side of the pressing strips contacts with the protruding part of the cylinder seat, the hydraulic cylinder continues to extend, the gear connected in the connector in a rotating mode rotates, then the pressing strips continue to move downwards until the stress on the two pressing strips is balanced, and then the machined parts with uneven two sides are fixed.

Further, the pressing device further comprises a base plate and a cushion block, wherein the base plate is fixedly connected to the upper surface of the mounting plate at the position corresponding to the pressing strip, and the cushion block is fixedly connected to the upper surface of the base plate. The setting of backing plate provides the position that the cylinder was placed, and the setting of cushion is convenient for placing of irregular cylinder block, is convenient for hold the fastening to the adding of machined part.

Furthermore, the mounting plate further comprises four support legs, wherein the four support legs are fixedly connected to the lower surfaces of the four corners of the mounting plate respectively. The installation plate can be supported to a certain height by the arrangement of the supporting legs, the requirement of human engineering is met from another angle, and the production efficiency can be improved.

Compared with the prior art, the beneficial effects of the utility model are that: this high accuracy combination formula cylinder block processing equipment has following benefit:

1. this high accuracy combination formula cylinder block processing equipment adopts the structure of combination formula, and the structure that will process cutting grinding and fix a position separately sets up, and the mode of designing respectively has improved the accuracy of processing, and the design of anchor clamps can satisfy the stable centre gripping of not unidimensional part.

2. When the hydraulic cylinder moves downwards, the two pressing strips can reach different heights under the action of the gear, and the stress on the two pressing strips is the same, so that the hydraulic cylinder is applicable to small and medium-sized enterprises frequently replacing products, and meets daily production requirements.

3. The use of the servo motor ensures the precision of cutting and grinding, improves the production efficiency, reduces the operation requirement of a machine tool of workers, avoids looseness in the machining process due to the stability of the clamping mechanism, is more convenient to use, and is more easily accepted by people.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure: the device comprises a mounting plate 1, a transverse sliding groove 2, a lifting unit 3, a fixing frame 31, a vertical through groove 32, a longitudinal sliding groove 33, a vertical lead screw 34, a connecting block 35, a vertical servo motor 36, a cutting motor mounting seat 37, a cutting motor 38, a transverse moving block 39, a translation unit 4, a vertical moving block 41, a transverse lead screw 42, a transverse motor seat 43, a transverse servo motor 44, a clamping unit 5, a support frame 51, a slide rail 52, a pressing strip 53, a hydraulic cylinder 54, a connector 55, a gear 56, a backing plate 6, a cushion block 7, support legs 8 and a singlechip 9.

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 embodiments 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 in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: a high-precision combined type cylinder block processing device comprises a mounting plate 1, a transverse sliding chute 2, a lifting unit 3, a translation unit 4 and a clamping unit 5;

mounting plate 1: the mounting plate 1 is arranged in a rectangular shape, and two transverse sliding grooves 2 are formed in two sides of the upper surface of the left end of the mounting plate 1; the pressing strip fixing device further comprises a base plate 6 and a cushion block 7, wherein the base plate 6 is fixedly connected to the upper surface of the mounting plate 1 at the position corresponding to the pressing strip 53, and the cushion block 7 is fixedly connected to the upper surface of the base plate 6. The setting of backing plate 6 provides the position that the cylinder was placed, and the setting of cushion 7 is convenient for placing of irregular cylinder block, is convenient for hold the fastening to the adding of machined part. Still include landing leg 8, landing leg 8 is provided with four altogether, and four landing legs 8 are fixed connection respectively at the lower surface at four angles of mounting panel 1. The arrangement of the supporting legs 8 can support the mounting plate 1 to a certain height, and the mounting plate meets the requirement of ergonomics from another angle, so that the production efficiency can be improved.

The lifting unit 3: the fixing frame 31 of the lifting unit 3 is arranged in a square frame shape, the lower ends of the two side levers of the fixing frame 31 extend out of the lower surface of the lower plate, and the lower ends of the side levers of the fixing frame 31 extend out are connected in the two transverse sliding grooves 2 in a sliding mode. The lifting unit 3 further comprises a fixed frame 31, a vertical through groove 32, a longitudinal sliding groove 33, a vertical lead screw 34, a connecting block 35, a vertical servo motor 36, a cutting motor mounting seat 37, a cutting motor 38 and a transverse moving block 39, wherein the longitudinal sliding groove 33 is correspondingly penetrated and opened on the rod bodies of the upper rod and the lower rod of the fixed frame 31, the transverse moving block 39 is provided with two blocks, the two transverse moving blocks 39 are arranged in an I shape and slidably connected in the two longitudinal sliding grooves 33, the two side rods of the fixed frame 31 are correspondingly penetrated and opened with the vertical through groove 32, the lower end of the vertical lead screw 34 is rotatably connected on the upper surface of the transverse moving block 39, the vertical servo motor 36 is reversely and fixedly connected on the upper surface of the transverse moving block 39, the output shaft of the vertical servo motor 36 passes through the lower surface of the transverse moving block, the upper surface of the connecting block 35 is vertically penetrated and provided with a threaded hole, the vertical lead screw 34 is in threaded connection with the threaded hole in the connecting block 35, the rear side surface of the connecting block 35 is fixedly connected with a cutting motor mounting seat 37, the cutting motor mounting seat 37 is fixedly connected with a cutting motor 38, the output shaft of the cutting motor 38 is fixedly connected with a cutting head for machining, and the input ends of the cutting motor 38 and the vertical servo motor 36 are electrically connected with the output end of the single chip microcomputer 9. When the circuit of the vertical servo motor 36 in the lifting unit 3 is switched on, the power can be transmitted to the vertical screw 34 connected with the output shaft, so as to drive the connecting block 35 to move upwards or downwards, thus realizing the up-and-down movement of the cutting motor 38 on the cutting motor mounting seat 37 and finishing the up-and-down cutting of the processed material.

The translation unit 4: the vertical moving block 41 of the translation unit 4 is connected to two side rods of the fixed frame 31; translation unit 4 still contains vertical movable block 41, horizontal lead screw 42, horizontal motor cabinet 43 and horizontal servo motor 44, vertical movable block 41 is "worker" font setting, and this vertical movable block 41 sliding connection is in vertical logical groove 32, horizontal motor cabinet 43 fixed connection is at the surface of one of them vertical movable block 41, horizontal servo motor 44 fixed connection is at the upper surface of horizontal motor cabinet 43, horizontal servo motor 44's output shaft passes horizontal motor cabinet 43 curb plate and the middle part of the vertical movable block 41 that links to each other, and the tip of this servo motor 44 output shaft and the one end fixed connection of horizontal lead screw 42, the other end of horizontal lead screw 42 rotates to be connected on the inboard surface of the vertical movable block 41 of same end, the output of singlechip 9 is connected to the input electricity of horizontal servo motor 44. When a circuit of a transverse servo motor 44 on a transverse motor base 43 in the translation unit 4 is switched on, power can be transmitted to a transverse lead screw 42 between two vertical moving blocks 41, so that the transverse lead screw 42 rotates, and a connecting block 35 connected to the middle of the transverse lead screw 42 is driven to move left and right horizontally.

The clamping unit 5: the supporting frame 51 of the clamping unit 5 is arranged in a convex shape, and the lower ends of two side rods of the supporting frame 51 are fixedly connected to the upper surface of the right end of the mounting plate 1; the clamping unit 5 further comprises a support frame 51, slide rails 52, a pressing bar 53, a hydraulic cylinder 54, a connector 55 and a gear 56, two slide rails 52 are fixedly connected to the inner sides of two vertical rods at the upper end of the support frame 51, slide grooves are formed in the opposite side surfaces of the two slide rails 52, the pressing bar 53 is slidably connected in the slide grooves formed in the slide rails 52, the lower end of the pressing bar 53 is arranged in a bent shape, tooth grooves are formed in the corresponding side surfaces at the upper ends of the two pressing bars 53, the hydraulic cylinder 54 is reversely and fixedly connected to the lower surface of the upper end rod of the support frame 51, the connector 55 is fixedly connected to the lower surface of an output shaft of the hydraulic cylinder 54, the connector 55 is in an inverted U shape, the gear 56 is rotatably connected to the middle positions of two side rods of the connector 55, the gear. When the circuit of the hydraulic cylinder 54 fixedly connected with the lower surface of the upper end rod of the support frame 51 of the clamping unit 5 is switched on, the hydraulic cylinder 54 extends the rod to drive the connecting head 55 to move downwards, the lower surfaces of the pressing strips 53 on the two sides of the gear 56 are in a horizontal state under the action of gravity, when the lower end of one side of each pressing strip 53 contacts with the convex part of the cylinder seat, the gear 56 rotatably connected with the connecting head 55 rotates along with the continuous extension of the hydraulic cylinder 54, and then the pressing strips 53 continue to move downwards until the stress on the two pressing strips 53 is balanced, and further the machined parts with.

The solar water heater further comprises a single chip microcomputer 9, the single chip microcomputer 9 is fixedly connected to the upper surface of one side of the mounting plate 1, and the input end of the single chip microcomputer 9 is electrically connected with the output end of an external power supply.

When in use:

when the circuit of the vertical servo motor 36 in the lifting unit 3 is switched on, the power can be transmitted to the vertical screw 34 connected with the output shaft, so as to drive the connecting block 35 to move upwards or downwards, thus realizing the up-and-down movement of the cutting motor 38 on the cutting motor mounting seat 37 and finishing the up-and-down cutting of the processed material. When a circuit of a transverse servo motor 44 on a transverse motor base 43 in the translation unit 4 is switched on, power can be transmitted to a transverse lead screw 42 between two vertical moving blocks 41, so that the transverse lead screw 42 rotates, and a connecting block 35 connected to the middle of the transverse lead screw 42 is driven to move left and right horizontally. When the circuit of the hydraulic cylinder 54 fixedly connected with the lower surface of the upper end rod of the support frame 51 of the clamping unit 5 is switched on, the hydraulic cylinder 54 extends the rod to drive the connecting head 55 to move downwards, the lower surfaces of the pressing strips 53 on the two sides of the gear 56 are in a horizontal state under the action of gravity, when the lower end of one side of each pressing strip 53 contacts with the convex part of the cylinder seat, the gear 56 rotatably connected with the connecting head 55 rotates along with the continuous extension of the hydraulic cylinder 54, and then the pressing strips 53 continue to move downwards until the stress on the two pressing strips 53 is balanced, and further the machined parts. The setting of backing plate 6 provides the position that the cylinder was placed, and the setting of cushion 7 is convenient for placing of irregular cylinder block, is convenient for hold the fastening to the adding of machined part. The arrangement of the supporting legs 8 can support the mounting plate 1 to a certain height, and the mounting plate meets the requirement of ergonomics from another angle, so that the production efficiency can be improved.

It should be noted that, in this embodiment, the single chip microcomputer 9 is an 80C51 type single chip microcomputer of 8051 series, which is introduced by Intel corporation, the vertical servo motor 36, the cutting motor 38, the horizontal servo motor 44, and the hydraulic cylinder 54 are freely configured according to practical application scenarios, the single chip microcomputer of S286-1A/T8 type, which is produced by dephley corporation, is suggested to be used for the vertical servo motor 36 and the horizontal servo motor 44, the cutting motor 38 is a single-phase series motor, which is produced by zhejiang chengji transmission limited corporation, and preferably, the rotation speed is below 18000 rpm, and the hydraulic cylinder 54 is a constant-pressure hydraulic cylinder produced by military macro machinery. The vertical servo motor 36, the cutting motor 38, the transverse servo motor 44 and the hydraulic cylinder 54 are controlled by the singlechip 9 to work by adopting a method commonly used in the prior art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a high accuracy combination formula cylinder block processing equipment which characterized in that: comprises a mounting plate (1), a transverse sliding chute (2), a lifting unit (3), a translation unit (4) and a clamping unit (5);

mounting plate (1): the mounting plate (1) is arranged in a rectangular shape, and two transverse sliding grooves (2) are formed in two sides of the upper surface of the left end of the mounting plate (1);

lifting unit (3): the fixing frame (31) of the lifting unit (3) is arranged in a square frame shape, the lower ends of the side rods of the fixing frame (31) extend out of the lower surface of the lower plate, and the extended lower ends of the side rods of the fixing frame (31) are connected in the two transverse sliding grooves (2) in a sliding manner;

translation unit (4): the vertical moving blocks (41) of the translation unit (4) are connected to two side rods of the fixed frame (31);

clamping unit (5): the supporting frames (51) of the clamping units (5) are arranged in a convex shape, and the lower ends of two side rods of the supporting frames (51) are fixedly connected to the upper surface of the right end of the mounting plate (1);

the power supply device is characterized by further comprising a single chip microcomputer (9), wherein the single chip microcomputer (9) is fixedly connected to the upper surface of one side of the mounting plate (1), and the input end of the single chip microcomputer (9) is electrically connected with the output end of an external power supply.

2. A high-precision combined cylinder block machining apparatus according to claim 1, characterized in that: the lifting unit (3) further comprises a fixed frame (31), vertical through grooves (32), longitudinal sliding grooves (33), a vertical lead screw (34), a connecting block (35), vertical servo motors (36), a cutting motor mounting seat (37), a cutting motor (38) and transverse moving blocks (39), wherein the longitudinal sliding grooves (33) are correspondingly arranged on rod bodies of an upper rod and a lower rod of the fixed frame (31) in a penetrating way respectively, the transverse moving blocks (39) are totally provided with two transverse moving blocks, the two transverse moving blocks (39) are arranged in an I shape and are slidably connected in the two longitudinal sliding grooves (33), the vertical through grooves (32) are correspondingly arranged on two side rods of the fixed frame (31) in a penetrating way respectively, the lower end of the vertical lead screw (34) is rotatably connected to the upper surface of the lower transverse moving block (39), the vertical servo motors (36) are reversely and fixedly connected to the upper surface of the upper transverse moving block (39, an output shaft of the vertical servo motor (36) penetrates through the lower surface of the transverse moving block (39) and is fixedly connected with the upper end of the vertical lead screw (34), a threaded hole is vertically formed in the upper surface of the connecting block (35) in a penetrating mode, the vertical lead screw (34) is in threaded connection with the threaded hole in the connecting block (35), a cutting motor mounting seat (37) is fixedly connected to the rear side surface of the connecting block (35), a cutting motor (38) is fixedly connected to the cutting motor mounting seat (37), a cutting head for machining is fixedly connected to an output shaft of the cutting motor (38), and input ends of the cutting motor (38) and the vertical servo motor (36) are electrically connected with an output end of the single chip microcomputer (9).

3. A high-precision combined cylinder block machining apparatus according to claim 2, characterized in that: the translation unit (4) further comprises vertical moving blocks (41), transverse lead screws (42), transverse motor bases (43) and transverse servo motors (44), the vertical moving blocks (41) are arranged in an I shape, the vertical moving blocks (41) are connected in vertical through grooves (32) in a sliding mode, the transverse motor bases (43) are fixedly connected to the outer surface of one vertical moving block (41), the transverse servo motors (44) are fixedly connected to the upper surface of the transverse motor bases (43), output shafts of the transverse servo motors (44) penetrate through side plates of the transverse motor bases (43) and the middle portions of the connected vertical moving blocks (41), the end portions of the output shafts of the servo motors (44) are fixedly connected with one ends of the transverse lead screws (42), and the other ends of the transverse lead screws (42) are rotatably connected to the surface of the inner side of the vertical moving block (41) at the same end, the transverse screw rod (42) is in threaded connection with a threaded hole formed in the connecting block (35) in the transverse direction, and the input end of the transverse servo motor (44) is electrically connected with the output end of the single chip microcomputer (9).

4. A high-precision combined cylinder block machining apparatus according to claim 1, characterized in that: the clamping unit (5) further comprises a support frame (51), two slide rails (52), a pressing strip (53), a hydraulic cylinder (54), a connector (55) and a gear (56), wherein the two slide rails (52) are fixedly connected to the inner sides of the two vertical rods at the upper end of the support frame (51), the slide grooves are formed in the opposite side surfaces of the two slide rails (52), the pressing strip (53) is slidably connected into the slide grooves formed in the slide rails (52), the lower end of the pressing strip (53) is arranged in a bent manner, tooth grooves are formed in the corresponding side surfaces at the upper ends of the two pressing strips (53), the hydraulic cylinder (54) is reversely fixedly connected to the lower surface of the upper end rod of the support frame (51), the connector (55) is fixedly connected to the lower surface of an output shaft of the hydraulic cylinder (54), the connector (55) is of an inverted U-shaped structure, and the gear (56, the gear (56) is respectively meshed with tooth grooves formed in the two sliding rails (52), and the input end of the hydraulic cylinder (54) is electrically connected with the output end of the single chip microcomputer (9).

5. A high precision combined cylinder block machining apparatus according to claim 4, characterized in that: still include backing plate (6) and cushion (7), backing plate (6) fixed connection is at the upper surface with layering (53) department's mounting panel (1) that corresponds, cushion (7) fixed connection is at the upper surface of backing plate (6).

6. A high-precision combined cylinder block machining apparatus according to claim 1, characterized in that: still include landing leg (8), landing leg (8) are provided with four altogether, and four landing legs (8) are fixed connection respectively at the lower surface at four angles of mounting panel (1).