CN214770137U - Hydraulic motor casing upset auxiliary assembly - Google Patents

Abstract

The utility model relates to a hydraulic motor casing upset auxiliary assembly, including the support body and be used for the upset clamp of centre gripping procapsid, its characterized in that, the upset clamp rotates with portable case to be connected, and upset clamp bottom is provided with the location frock, and the location frock is including the back casing location frock that is used for fixing a position the procapsid location frock of procapsid and is used for fixing a position the back casing of casing, but portable box passes through the lateral shifting device and for fixing a position the frock lateral shifting setting, but the mobile box passes through the longitudinal movement device and sets up for fixing a position frock longitudinal movement. The utility model provides a hydraulic motor casing upset auxiliary assembly laborsaving, factor of safety is high, efficient.

Description

Hydraulic motor casing upset auxiliary assembly

Technical Field

The utility model relates to a upset auxiliary device especially relates to a hydraulic motor casing upset auxiliary assembly.

Background

The hydraulic motor is an actuator of the hydraulic system, which converts the hydraulic pressure energy provided by the hydraulic pump into mechanical energy (torque and rotational speed) of its output shaft. Wherein hydraulic motor casing is the important component part of hydraulic motor again, and general hydraulic motor casing all divide into procapsid and back casing, in the installation to procapsid and back casing, need the manual work to pick up the procapsid then overturn and install on the back casing usually, but because procapsid itself is heavier, so the workman not only has production safety risk and installation inefficiency in the in-process of installation, therefore it is necessary very that design a hydraulic motor casing upset auxiliary assembly.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the artifical upset procapsid that mainly solves prior art existence has the production safety risk and the technical problem that the installation effectiveness waits down, provides a hydraulic motor casing upset auxiliary assembly laborsaving, factor of safety is high, efficient.

In order to solve the technical problem, the utility model discloses the purpose of the utility model is realized to the utility model provides a hydraulic motor casing upset auxiliary assembly, including the support body and be used for the upset clamp of centre gripping procapsid, its characterized in that, the upset clamp rotate with portable case and be connected, upset clamp bottom be provided with the location frock, the location frock including the procapsid location frock that is used for fixing a position the procapsid and be used for fixing a position the back casing location frock of back casing, portable box pass through the lateral shifting device for but location frock lateral shifting set up, the removal box pass through the longitudinal movement device for but location frock longitudinal shifting set up.

In one embodiment, the transverse moving device comprises a transverse moving guide rail and a transverse moving frame which are arranged above the movable box, the transverse moving guide rail is arranged in parallel left and right, two ends of the transverse moving guide rail are fixedly connected with the frame body through connecting columns, transverse moving guide rail grooves matched with the two transverse moving guide rails are transversely arranged at the bottom of the transverse moving frame, and the movable box body is connected with the transverse moving frame through guide columns.

In an implementation mode, the guide post extends upwards and is fixedly connected with the longitudinal moving frame, the guide post and the transverse moving frame are in clearance fit, a longitudinal moving cylinder is arranged above the longitudinal moving frame, and a piston rod of the longitudinal moving cylinder extends downwards and is connected with the transverse moving frame.

In one embodiment, the turnover clamp comprises a left clamp body and a right clamp body which are configured in a left-right adaptive mode, and a turnover frame, the turnover frame is connected with the movable box body in a rotating mode, a turnover guide rail is longitudinally arranged on the turnover frame, a turnover groove matched with the turnover guide rail is formed in the left clamp body and the right clamp body, turnover cylinders are arranged on the turnover frame on the outward side of the left clamp body and the right clamp body, piston rods of the turnover cylinders are respectively connected with the left clamp body and the right clamp body, and the turnover cylinders drive the left clamp body and the right clamp body to move linearly and relatively along the turnover guide rail to form the loading and unloading of the front shell body.

In one embodiment, the longitudinal moving cylinder and the overturning cylinder are both connected with a control box body, the control box body is fixedly connected with the guide post, and the control box body is arranged between the movable box body and the transverse moving frame.

In one embodiment, a limit ring for preventing the control box body from colliding with the traverse guide rail is fixedly arranged on the guide post between the control box body and the traverse frame.

In one embodiment, the front shell positioning tool and the rear shell positioning tool are integrally fixed on the tray, and a conveying device for driving the tray to longitudinally move is arranged on the frame body at the bottom of the tray.

In an implementation mode, the front shell positioning tool comprises a front shell bottom plate, the upper surface of the front shell bottom plate is connected with a plurality of front shell positioning columns which extend upwards, the front shell positioning columns are consistent with the arrangement of all hole sites at the bottom of the front shell, and the front shell positioning columns are in clearance fit with all hole sites at the bottom of the front shell.

In an embodiment, the rear housing positioning tool comprises a rear housing bottom plate, the upper surface of the rear housing bottom plate is connected with a plurality of rear housing positioning columns extending upwards, the rear housing positioning columns and the holes in the bottom of the rear housing are in consistent layout, and the rear housing positioning columns and the holes in the bottom of the rear housing are in clearance fit.

In an implementation mode, the tray both sides the support body on be provided with tray height stop device, tray height stop device for the spacing frame that has the U-shaped, spacing frame opening one side orientation the tray, spacing frame bottom pass through fixing bolt with support body fixed connection, spacing frame top vertically be provided with be used for the adjustment with the tray clearance adjusting bolt, adjusting bolt set up tray vertical range of motion top.

Compared with the prior art, the utility model discloses hydraulic motor casing upset auxiliary assembly has following beneficial effect:

1. the front process places the front shell and the rear shell on a front shell tool and a rear shell tool, then conveys a tray with the front shell tool and the rear shell tool to hydraulic motor shell turning auxiliary equipment through a conveying device, then moves a turning frame body on a movable box body to the upper side of the front shell through a transverse moving device, then opens the turning frame body, moves the turning frame body downwards through a longitudinal moving device, places the front shell between a left clamp body and a right clamp body, further draws the left clamp body and the right clamp body to clamp the front shell, then moves the front shell upwards through the longitudinal moving device to avoid interference with the rear shell when the front shell is turned over, turns the front shell 180 degrees through the rotational connection between the turning frame body and the movable box, then moves the front shell to the upper side of the rear shell through the transverse moving device and aligns to a corresponding mounting vacancy, finally, the front shell is placed on the rear shell through the longitudinal moving device and transferred to the next procedure to install the front shell and the rear shell, so that the front shell is prevented from being manually carried and installed, and the installation efficiency is increased on the basis of higher safety;

2. the movable box is moved transversely through the adaptation of the transverse moving guide rail groove at the bottom of the transverse moving frame and the transverse moving guide rail, and when the movable box needs to be moved transversely, the movable box is moved leftwards and rightwards by hands, and at the moment, the transverse moving frame can realize transverse movement according to the path of the transverse moving guide rail;

3. the longitudinal movement of the movable box is realized through the extension and contraction of the longitudinal movement cylinder, when the movable box is required to move upwards, the box body is controlled to send a command of extending out a piston rod to the longitudinal movement cylinder, the longitudinal height of the transverse movement frame is fixed, and the guide post and the transverse movement frame are in clearance fit, so that the movable box can move upwards under the condition that the longitudinal movement cylinder extends out the piston rod downwards and acts with the transverse movement frame, the box body is controlled to send a command of retracting the piston rod to the longitudinal movement cylinder when the movable box is required to move downwards, and the longitudinal height of the transverse movement frame is fixed, and the guide post and the transverse movement frame are in clearance fit, so that the movable box can move downwards;

4. when the turning clamp body needs to clamp the front shell, the control box sends an instruction of extending the piston rod inwards to the turning cylinder, the turning cylinder extends the piston rod after receiving the instruction and forms an inward acting force on the left clamp body and the right frame body, because the turning grooves arranged on the left clamp body and the right frame body are matched with the turning guide rail on the turning frame, under the condition of the inward acting force, the distance between the left clamp body and the right frame body is reduced, the turning clamp body clamps the front shell, when the turning clamp body needs to give up clamping the front shell, the control box sends an instruction of retracting the piston rod outwards to the turning cylinder, the turning cylinder retracts the piston rod after receiving the instruction and forms an outward acting force on the left clamp body and the right frame body, because the turning grooves arranged on the left clamp body and the right frame body are matched with the turning guide rail on the turning frame, under the condition of the outward acting force, the distance between the left clamp body and the right frame body is enlarged, and the overturning clamp gives up clamping on the front shell;

5. the longitudinal moving cylinder and the overturning cylinder are connected with the control box body, so that automatic clamping and releasing of the overturning clamp body and automatic longitudinal moving of the movable box are realized;

6. the guide post between the control box body and the transverse moving frame is fixedly provided with a limiting ring for avoiding collision with the transverse moving frame in the process of moving the control box body upwards;

7. the front shell positioning tool and the rear shell positioning tool are integrally fixed on the tray, and a frame body at the bottom of the tray is provided with a conveying device for driving the tray to longitudinally move, so that the assembly line type longitudinal movement of the front shell positioning tool and the rear shell positioning tool can be realized, and the working efficiency is improved;

8. the upper surface of the front shell bottom plate is connected with a plurality of front shell positioning columns which extend upwards, the plurality of front shell positioning columns are consistent with the layout of each hole site at the bottom of the front shell, and the front shell positioning columns and the hole sites at the bottom of the front shell are in clearance fit;

9. the rear shell positioning tool comprises a rear shell bottom plate, the upper surface of the rear shell bottom plate is connected with a plurality of rear shell positioning columns extending upwards, the plurality of rear shell positioning columns are in consistent layout with holes at the bottom of the rear shell, and the holes at the bottom of the rear shell positioning columns and the holes at the bottom of the rear shell are in clearance fit;

10. when vertically upwards moving the procapsid, because the cooperation between the hole site on the procapsid and procapsid reference column upwards drives whole procapsid frock very easily, after setting up the high stop device of tray, because adjusting bolt's existence, can twist adjusting bolt downwards and move like this adjusting bolt will offset with the tray, procapsid frock is fixed continuous with the tray in addition, thereby play high limiting displacement to the procapsid frock, even at the in-process of procapsid rebound like this, vertical removal can not take place for whole procapsid frock yet.

Therefore, the utility model has the characteristics of rational in infrastructure, convenient to use, rate height, security height etc.

Drawings

Fig. 1 is an isometric view of the hydraulic motor housing turnover assistance apparatus of the present invention;

fig. 2 is a front view of the hydraulic motor housing turnover assistance apparatus of the present invention;

fig. 3 is a sectional view of the turning device of the present invention;

fig. 4 is a schematic structural diagram of the positioning plate of the present invention.

The reference numbers in the figures illustrate: 1. the automatic turnover device comprises a frame body, 2 parts of a movable box, 3 parts of a front shell tool, 4 parts of a rear shell tool, 5 parts of a transverse guide rail, 6 parts of a transverse moving frame, 7 parts of a connecting column, 8 parts of a guide column, 9 parts of a longitudinal moving frame, 10 parts of a longitudinal moving cylinder, 11 parts of a left clamp body, 12 parts of a right clamp body, 13 parts of a turnover frame, 14 parts of a turnover guide rail, 15 parts of a turnover cylinder, 16 parts of a control box body, 17 parts of a limiting ring, 18 parts of a tray, 19 parts of a conveying device, 20 parts of a front shell bottom plate, 21 parts of a front shell positioning column, 22 parts of a rear shell bottom plate, 23 parts of a rear shell positioning column, 24 parts of a limiting frame, 25 parts of a fixing bolt, 26 parts of an adjusting bolt, 27 parts of a positioning disc, 28 parts of a turnover disc, 29 parts of a turnover hole, 30 parts of a turnover shaft, 31 parts of a limiting sheet, 32 parts of a positioning ring, 33 parts of a positioning hole and 34 parts of a positioning sheet.

Detailed Description

To make the objects, features and advantages of the present invention more obvious and understandable, the embodiments of the present invention are described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and obviously, 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 the skilled in the art without creative work belong to the protection scope of the present invention.

Example (b):

fig. 1 to 4 show an embodiment of the auxiliary device for turning over the hydraulic motor housing of the present invention, which comprises a frame body 1 and a turning clamp body for clamping the front housing, the turning clamp body is rotatably connected with the movable box 2, the turning clamp body comprises a left clamp body 11, a right clamp body 12 and a turning frame 13, the left clamp body and the right clamp body are adaptively configured, the turning frame 13 is rotatably connected with the movable box 2, the turning frame 13 is connected with the movable box 2 through a turning device, the turning device shown in fig. 3 and 4 comprises a positioning plate 27 connected with the movable box 2 and a turning plate 28 connected with the turning frame 13, the positioning plate 27 is provided with a turning hole 29 at the center, the turning plate 28 is provided with a turning shaft 30 towards one side of the positioning plate 27, the diameter of the turning hole 29 is larger than that of the turning shaft 30, the positioning plate 27 is provided with a limiting plate 31 for limiting the axial movement of the turning shaft 30 in the turning hole 29 towards one side of the turning plate 28, the existing positioning ring 32 is fixed on the turning shaft 30 in the turning hole 29 at the inner side of the limiting sheet 31, the axial projections of the limiting sheet 31 and the positioning ring 32 are mutually overlapped, thereby ensuring that the limiting sheet 31 forms axial limiting to the positioning ring 32, ensuring that the limiting sheet 31 is always in the turning hole 29, further ensuring that the turning shaft 30 can circumferentially rotate in the turning hole 29 and simultaneously avoiding the turning disc 28 and the positioning disc 27 from being separated, the positioning holes 33 are respectively arranged at the transverse horizontal axis position and the longitudinal vertical axis position on the positioning disc 27, the positioning sheet 34 in clearance fit with the positioning holes 33 is arranged on the turning disc 28, the positioning sheet 34 and the positioning holes 33 can be separated, the maximum clearance between the limiting sheet 31 and the positioning ring 32 is larger than the width of the positioning sheet 34, so as to ensure that the limiting sheet 31 and the positioning ring 32 are not contacted after the positioning sheet 34 is pulled out from the positioning holes 33, when the turning clamp body needs to be rotated by 180 degrees, firstly pulling the overturning clamp body to pull out the positioning sheet 34 from the positioning hole 33 which is transversely arranged, then rotating 180 degrees to embed the positioning sheet 34 into the positioning hole 33 which is longitudinally arranged so as to complete 180-degree overturning, wherein the bottom of the overturning clamp body is provided with a positioning tool, the positioning tool comprises a front shell positioning tool 3 for positioning a front shell and a rear shell positioning tool 4 for positioning a rear shell, the movable box 2 can be transversely movably arranged relative to the positioning tool through a transverse moving device, and the movable box body can be longitudinally movably arranged relative to the positioning tool through a longitudinal moving device. The transverse moving device comprises transverse moving guide rails 5 and a transverse moving frame 6 which are arranged above the movable box 2, the transverse moving guide rails 5 are arranged in a left-right parallel mode, the two transverse moving guide rails 5 are arranged on the same horizontal plane, two ends of each transverse moving guide rail 5 are fixedly connected with the support body 1 through connecting columns 7, each connecting column 7 is a hollow square tube, transverse moving guide rails 5 grooves matched with the two transverse moving guide rails 5 are transversely formed in the bottom of each transverse moving frame 6, and the movable box 2 is connected with the transverse moving frame 6 through guide columns 8. The guide post 8 upwards extends and moves frame 9 fixed connection with indulging, and guide post 8 and sideslip frame 6 are clearance fit, and the hole site of sideslip frame 6 and 8 clearance fit of guide post sets up between two sideslip guide rails 5, and the frame 9 top that moves is provided with the cylinder 10 that moves vertically that indulges, and the piston rod downwardly extending who moves cylinder 10 moves vertically links to each other with sideslip frame 6. The overturning frame 13 is longitudinally provided with an overturning guide rail 14, the left clamp body 11 and the right clamp body 12 are provided with overturning grooves matched with the overturning guide rail 14, the overturning frames 13 on the outward sides of the left clamp body 11 and the right clamp body 12 are respectively provided with an overturning cylinder 15, a piston rod of the overturning cylinder 15 is respectively connected with the left clamp body 11 and the right clamp body 12, and the overturning cylinder 15 drives the left clamp body 11 and the right clamp body 12 to linearly and relatively move along the overturning guide rail to form the assembling and disassembling of the front shell body. The longitudinal moving cylinder 10 and the overturning cylinder 15 are both connected with a control box body 16, the control box body 16 is fixedly connected with the guide column 8, and the control box body 16 is arranged between the movable box 2 and the transverse moving frame 6. A limit ring 17 for preventing the control box body 16 from colliding with the transverse guide rail 5 is fixedly arranged on the guide post 8 between the control box body 16 and the transverse moving frame 6. On procapsid location frock 3 and the integration of back casing location frock 4 were fixed in tray 18, be provided with the conveyer 19 that drives tray 18 longitudinal movement on the support body 1 of the bottom of tray 18. Procapsid location frock 3 includes procapsid bottom plate 20, and procapsid bottom plate 20 upper surface is connected with the procapsid reference column 21 that a plurality of upwards extends, and a plurality of procapsid reference column 21 is unanimous with each hole site overall arrangement in bottom of procapsid, and each hole site in bottom of procapsid reference column 21 and procapsid belongs to clearance fit. Rear housing fixes a position frock 4 and includes rear housing bottom plate 22, and rear housing bottom plate 22 upper surface is connected with the back casing reference column 23 that upwards extends of a plurality of, and each hole site overall arrangement in bottom of a plurality of back casing reference column 23 and back casing is unanimous, and each hole site in bottom of back casing reference column 23 and back casing belongs to clearance fit. Be provided with the high stop device of tray on the support body 1 of tray 18 both sides, the high stop device of tray is for having the spacing 24 of U-shaped form, and 24 opening one sides of spacing are towards tray 18, and fixing bolt 25 and 1 fixed connection of support body are passed through to spacing 24 bottoms, and spacing 24 tops vertically are provided with adjusting bolt 26 that is used for adjustment and tray 18 clearance, and adjusting bolt 26 sets up in the vertical home range top of tray 18.

In the specific operation, the front shell and the rear shell are both placed on a front shell tool and a rear shell tool in the previous process, then a tray 18 with the front shell tool and the rear shell tool is conveyed to hydraulic motor shell turnover auxiliary equipment through a conveying device 19, then a turnover frame 13 body 1 on a movable box 2 body is moved to the upper part of the front shell through a transverse moving device, the transverse moving mode is that the transverse moving of the movable box 2 is realized through the matching of a transverse moving guide rail 5 groove at the bottom of the transverse moving frame 6 and a transverse moving guide rail 5, when the movable box 2 needs to be transversely moved, the movable box 2 is moved left and right by hands, at the moment, the transverse moving frame 6 can realize the transverse moving according to the path of the transverse moving guide rail 5, then the turnover frame 13 body 1 is opened, the turnover frame 13 body 1 is moved downwards through the longitudinal moving device, the front shell is placed between a left clamp 11 and a right clamp 12, when the longitudinal moving is needed, the longitudinal moving of the movable box 2 is realized through the expansion and contraction of a longitudinal moving cylinder 10, when the movable box 2 needs to move upwards, the control box body 16 sends a command of extending a piston rod to the longitudinal moving cylinder 10, because the longitudinal height of the transverse moving frame 6 is fixed and the guide post 8 and the transverse moving frame 6 are in clearance fit, under the condition that the longitudinal moving cylinder 10 extends the piston rod downwards and acts with the transverse moving frame 6, the movable box 2 realizes moving upwards, when the movable box 2 needs to move downwards, the control box body 16 sends a command of retracting the piston rod to the longitudinal moving cylinder 10, because the longitudinal height of the transverse moving frame 6 is fixed and the guide post 8 and the transverse moving frame 6 are in clearance fit, the movable box 2 realizes moving downwards, and then the left clamp body 11 and the right clamp body 12 are folded to clamp the front shell body, when the front shell body needs to be clamped by the overturning clamp body, the control box sends a command of extending the piston rod inwards to the overturning cylinder 15, the overturning cylinder 15 extends a piston rod after receiving an instruction and forms inward acting force on the left clamp body 11 and the right frame body 1, as the overturning grooves arranged on the left clamp body 11 and the right frame body 1 are matched with the overturning guide rail 14 on the overturning frame 13, under the condition of the inward acting force, the distance between the left clamp body 11 and the right frame body 1 is reduced, the overturning clamp body clamps the front shell, then the front shell is moved upwards by a longitudinal moving device to avoid interference with the rear shell when the front shell is overturned, the front shell is overturned for 180 degrees by the rotary connection between the overturning frame 13 body 1 and the movable box 2, then the front shell is moved to the upper part of the rear shell by a transverse moving device and aligned with a corresponding installation vacant position, finally the front shell is placed on the rear shell by the longitudinal moving device and is transferred to a next procedure to install the front shell and the rear shell, thereby avoiding manual carrying and installation, the installation efficiency is increased on the basis of higher safety, the longitudinal moving cylinder 10, the overturning cylinder 15 and the control box body 16 are connected, so that the automatic clamping and loosening of the overturning clamp body and the automatic longitudinal movement of the movable box 2 are realized, a limit ring 17 is fixedly arranged on a guide post 8 between the control box body 16 and the transverse moving frame 6 and has the function of avoiding collision with the transverse moving frame 6 in the process of moving the control box body 16 upwards, the front shell positioning tool 3 and the rear shell positioning tool 4 are integrally fixed on the tray 18, a conveying device 19 for driving the tray 18 to longitudinally move is arranged on a frame body 1 at the bottom of the tray 18 and has the function of realizing the assembly line type longitudinal movement of the front shell positioning tool 3 and the rear shell positioning tool 4, so that the working efficiency is improved, the upper surface of the front shell bottom plate 20 is connected with a plurality of front shell positioning holes 21 which extend upwards, and the plurality of front shell positioning holes 21 are consistent with the bottom of the front shell positioning holes, the effect that each hole site in bottom of procapsid reference column 21 and procapsid belongs to clearance fit is after placing the procapsid on preceding casing location frock 3, because the effect of procapsid reference column 21, can avoid the longitudinal movement of procapsid, thereby guarantee the rate of accuracy of installation, back casing location frock 4 includes back casing bottom plate 22, back casing bottom plate 22 upper surface is connected with the back casing reference column 23 of a plurality of upwards extension, a plurality of back casing reference column 23 is unanimous with each hole site overall arrangement in bottom of back casing, each hole site in bottom of back casing reference column 23 and back casing belongs to clearance fit's effect is after placing back casing on back casing location frock 4, consequently the effect of back casing reference column 23, can avoid the longitudinal movement of procapsid, and thereby guarantee the rate of accuracy of installation, when vertically upwards moving the procapsid with the procapsid reference column 21 on the hole site, because the cooperation between procapsid and procapsid reference column easily upwards drives whole procapsid upward the frock After the tray height limiting device is arranged, due to the existence of the adjusting bolt 26, the adjusting bolt 26 can be screwed downwards to be pushed to abut against the tray 18, and the front shell tool is fixedly connected with the tray 18, so that the front shell tool is highly limited, and even in the process of upward movement of the front shell, the whole front shell tool cannot longitudinally move.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," 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. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a hydraulic motor casing upset auxiliary assembly, includes support body (1) and is used for the upset clamp of centre gripping procapsid, its characterized in that, the upset clamp rotate with portable case (2) and be connected, upset clamp bottom be provided with the location frock, the location frock including procapsid location frock (3) that are used for fixing a position the procapsid and be used for fixing a position back casing location frock (4) of casing, portable case (2) the body through lateral shifting device for but the location frock lateral shifting set up, the removal box pass through longitudinal shifting device for but the longitudinal shifting of location frock set up.

2. The hydraulic motor shell turning auxiliary device as claimed in claim 1, wherein the transverse moving device comprises a transverse moving guide rail (5) and a transverse moving frame (6) which are arranged above the movable box (2), the transverse moving guide rail (5) is arranged in parallel left and right, two ends of the transverse moving guide rail (5) are fixedly connected with the frame body (1) through connecting columns (7), a transverse moving guide rail (5) groove matched with the two transverse moving guide rails (5) is transversely arranged at the bottom of the transverse moving frame (6), and the movable box (2) is connected with the transverse moving frame (6) through a guide column (8).

3. The hydraulic motor shell turnover auxiliary device of claim 2, wherein the guide post (8) extends upwards to be fixedly connected with the longitudinal moving frame (9), the guide post (8) and the transverse moving frame (6) are in clearance fit, a longitudinal moving cylinder (10) is arranged above the longitudinal moving frame (9), and a piston rod of the longitudinal moving cylinder (10) extends downwards to be connected with the transverse moving frame (6).

4. The hydraulic motor shell overturning auxiliary device of claim 3, wherein the overturning clamp comprises a left clamp (11) and a right clamp (12) which are configured in a left-right adaptive manner and a overturning frame (13), the overturning frame (13) is rotatably connected with the movable box (2), the overturning frame (13) is longitudinally provided with an overturning guide rail (14), the left clamp (11) and the right clamp (12) are provided with overturning grooves matched with the overturning guide rail (14), the overturning frame (13) at the outward side of the left clamp (11) and the right clamp (12) is provided with overturning cylinders (15), piston rods of the overturning cylinders (15) are respectively connected with the left clamp (11) and the right clamp (12), and the overturning cylinders (15) drive the left clamp (11) and the right clamp (12) to linearly move relative to each other along the overturning guide rail The front case is detachably mounted to the housing.

5. The hydraulic motor shell turnover auxiliary device of claim 4, wherein the longitudinal movement cylinder (10) and the turnover cylinder (15) are both connected with a control box body (16), the control box body (16) is fixedly connected with the guide post (8), and the control box body (16) is arranged between the movable box body (2) and the transverse movement frame (6).

6. The hydraulic motor housing turnover assistance device according to claim 5, characterized in that a limit ring (17) for preventing the control housing (16) from colliding with the traverse guide (5) is fixedly arranged on the guide post (8) between the control housing (16) and the traverse frame (6).

7. The hydraulic motor shell overturning auxiliary device according to claim 1, 2, 3, 4, 5 or 6, wherein the front shell positioning tool (3) and the rear shell positioning tool (4) are integrally arranged on a tray (18), and a conveying device (19) for driving the tray (18) to longitudinally move is arranged on the frame body (1) at the bottom of the tray (18).

8. The hydraulic motor shell turnover assisting device of claim 7, wherein the front shell positioning tool (3) comprises a front shell base plate (20), a plurality of front shell positioning columns (21) extending upwards are connected to the upper surface of the front shell base plate (20), the plurality of front shell positioning columns (21) are consistent with the arrangement of holes in the bottom of the front shell, and the front shell positioning columns (21) are in clearance fit with the holes in the bottom of the front shell.

9. The hydraulic motor shell overturning auxiliary device according to claim 7, wherein the rear shell positioning tool (4) comprises a rear shell base plate (22), the upper surface of the rear shell base plate is connected with a plurality of rear shell positioning columns (23) extending upwards, the plurality of rear shell positioning columns (23) are consistent with the layout of holes in the bottom of the rear shell, and the rear shell positioning columns (23) are in clearance fit with the holes in the bottom of the rear shell.

10. The hydraulic motor shell overturning auxiliary device according to claim 9, wherein the frame body (1) on two sides of the tray (18) is provided with a tray height limiting device, the tray height limiting device is a U-shaped limiting frame (24), one side of an opening of the limiting frame (24) faces the tray (18), the bottom of the limiting frame (24) is fixedly connected with the frame body (1) through a fixing bolt (25), the top of the limiting frame (24) is longitudinally provided with an adjusting bolt (26) for adjusting a gap between the limiting frame and the tray (18), and the adjusting bolt (26) is arranged above the longitudinal moving range of the tray (18).

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