CN113799043A - Chuck assembling equipment for centrifugal cylinder sleeve processing machine tool - Google Patents

Abstract

The invention relates to a chuck assembling device of a centrifugal cylinder sleeve processing machine tool, which comprises a chassis assembly, a chuck assembly and a chuck body, wherein the chassis assembly comprises a bottom plate frame and a pedal bottom plate arranged on the bottom plate frame; the horizontal movable assembly is arranged in the panel assembly, and the lifting assembly is connected with the bottom of the panel assembly; the connecting frame is a telescopic rotating frame and is used for connecting the chassis assembly and the panel assembly. The chuck assembling equipment for the centrifugal cylinder sleeve processing machine tool has the advantages of convenience, safety and quickness in operation, capability of completing the chuck assembly by one-person operation and the like.

Description

Chuck assembling equipment for centrifugal cylinder sleeve processing machine tool

Technical Field

The invention relates to the technical field of pressure bearings, in particular to a chuck assembling device for a centrifugal cylinder sleeve processing machine tool.

Background

The installation of the chuck of the existing centrifugal cylinder sleeve processing machine tool is assembled by cooperation of two or more people. Specifically, one person supports the chuck against a protruding platform on the inner wall of the processing machine by using the square timber to prevent the chuck from sliding off, and the other person adjusts the relative position of the main shaft of the processing machine and the square timber to disassemble or assemble the chuck. This type of assembly has the following disadvantages: 1. two or more persons are needed to cooperate and install, so that the labor consumption is high; 2. in the assembly process, the chuck is supported by two hands for operation, and the chuck is heavy and has large personnel load; 3. the assembly process is completed by means of personnel experience, the assembly takes a long time and is not fixed, and the maximum time can reach 1 hour.

Disclosure of Invention

The invention provides the chuck assembling equipment for the centrifugal cylinder sleeve processing machine tool, which is convenient, safe and quick to operate and can complete the chuck assembly by one-man operation.

In order to achieve the above purpose, the following technical solutions are provided.

A chuck assembling device of a centrifugal cylinder sleeve processing machine tool comprises,

the chassis assembly comprises a bottom plate frame and a pedal bottom plate arranged on the bottom plate frame, and specifically, the chassis assembly comprises a bottom plate frame and a bottom plate body positioned on the bottom plate frame, the bottom plate frame comprises a bottom frame, one side of the bottom frame is provided with a push rod arranged perpendicular to the bottom frame, two ends of the other side of the bottom frame are provided with first stand columns arranged perpendicular to the bottom frame, and the bottom plate body, the push rod and the two first stand columns are provided with clamping grooves for clamping the push rod and the two first stand columns at positions corresponding to the push rod and the two first stand columns;

the panel assembly component is positioned on one side above the chassis component, the panel assembly component comprises a panel component, a horizontal driving component and a lifting component, the horizontal driving component is installed in the panel component, the lifting component is connected with the bottom of the panel component, the panel component comprises a fixing part and a moving part, the horizontal driving component is installed on the fixing part and drives the moving part to horizontally move in the fixing part, the lifting component drives the panel component to vertically move, the panel component is used for an operator to assemble the chuck, in the process of assembling the chuck by the operator, the horizontal position of the moving part in the panel component can be adjusted through the horizontal driving component, the height of the panel component can be adjusted through the lifting component, namely, the height and the horizontal position of the panel component are adjusted, so that the operator can accurately and quickly assemble the chuck, in the whole chuck assembly process, only one operator needs to operate the chuck, the horizontal driving assembly and the lifting assembly, the whole operation process is convenient and safe, the number of required operators is small, the labor cost for assembling the chuck is greatly reduced, and the assembling efficiency of the chuck is improved;

the connecting frame is a telescopic rotating frame and is used for connecting the chassis assembly and the panel assembly, the panel assembly is installed on one side above the chassis assembly, an operator can stand on the chassis assembly to perform chuck assembly operation conveniently, and when the equipment is not used, the connecting frame can be contracted and then rotated on the chassis assembly.

Further, the lifting assembly comprises a lifting unit shell, a lifting support column assembly, a lifting unit frame and a lifting driving piece, the lifting driving piece is of a gear and rack combined structure and comprises a lifting rack and a lifting straight gear which are connected in an meshed mode, the lifting rack is installed on the lifting support column assembly, the lifting straight gear is installed on a transversely arranged lifting rocker, the lifting rocker is rotatably installed on the lifting unit frame through a bearing and is located in the lifting unit shell, the top of the lifting unit frame is connected with the panel assembly, one end of the lifting rocker is abutted to the lifting unit shell, the other end of the lifting rocker extends out of the lifting unit shell and is connected with a large rocking handle, when the lifting unit frame is used, an operator stands on the chassis assembly to operate the large rocking handle, the large rocking handle drives the lifting straight gear to rotate through the lifting rocker, and the lifting straight gear further drives the lifting rack connected with the lifting unit frame assembly in a meshed mode to move vertically together with the lifting support column assembly, and the lifting strut assembly drives the panel assembly to move.

Furthermore, the ascending pillar assembly comprises a chassis ascending pillar and a hole sleeve supporting frame, the hole sleeve supporting frame is used for supporting a pull rod connecting sleeve in the chuck and preventing the connecting sleeve from sliding downwards, the chassis ascending pillar is arranged on the panel assembly and comprises a pillar body and a protecting sleeve arranged at the top of the pillar body, the hole sleeve supporting frame is a double-layer frame, a lower supporting leg of the double-layer frame penetrates through the bottom of the protecting sleeve and is sleeved with the outer part of the upper end of the pillar body through a bottom fixing ring and a fastening piece, a pillar panel is arranged at the top of the pillar body and is positioned at the center of the panel assembly, a movable assembly panel is arranged at the top of the panel assembly and is connected with the movable assembly panel through a thrust ball bearing, a concave part for installing a lifting rack is arranged on one side of the pillar body, and the lifting rack is arranged in the concave part, the lifting rack and the pillar body are driven to move together by rotating the lifting straight gear through operating the large rocking handle.

Furthermore, the two opposite positions of the strut body on the two sides of the concave part are respectively provided with a clamping strip, and the clamping strips are in limit connection with the ascending unit frame. The setting of card strip makes the pillar body arrange the back in the unit frame that rises in, under spacing effect of connecting, can not take place to rotate, ensures the installation of pillar body stable, and then the operating personnel of being convenient for assembles the chuck.

Further, the ascending unit frame comprises a limiting cylinder for limiting the installation of the strut body, a clamping strip groove for clamping a clamping strip is formed in the limiting cylinder, more than three transverse supporting pieces are distributed at intervals outside the limiting cylinder, a vertical supporting piece bent upwards is arranged at the end of each transverse supporting piece, and the top of each vertical supporting piece is installed on the panel assembly through a connecting portion.

Furthermore, the limiting cylinder is connected with the transverse supporting pieces adjacent to two side parts of one side corresponding to the lifting rack through inverted U-shaped structural connecting pieces, the end parts of two side arms of each inverted U-shaped structural connecting piece are fixedly connected with the transverse supporting pieces respectively, rocker holes for the lifting rocker to pass through are formed in the two side arms of each inverted U-shaped structural connecting piece, and the lifting rocker is rotatably connected with the two side arms of each inverted U-shaped structural connecting piece through bearings.

Further, the one side that spacing section of thick bamboo and lifting rack carried on the back mutually is equipped with outside protrusion interface, is located and is equipped with the holding ring corresponding with protrusion interface size on the vertical support piece that spacing section of thick bamboo was equipped with protrusion interface one side, be equipped with the latent telescope of both sides difference in length in spacing section of thick bamboo and the holding ring, the both ends of latent telescope all are equipped with the lens.

Further, the panel component comprises a panel body and a panel frame arranged outside the panel body, wherein two opposite sides of the panel frame are provided with long grooves used for clamping the panel body, two sides of the panel body matched with the long grooves are provided with gear and rack meshing components, and the gear and rack meshing components are connected with the horizontal driving component.

Furthermore, both sides of the panel body in clamping connection with the panel frame are rotatably connected with the panel frame in the long groove through bearings.

Furthermore, the gear rack meshing component comprises a rectangular rack arranged on the side part of the panel body and a transverse straight gear meshed with the rectangular rack, and a containing part for containing the transverse straight gear is arranged on the panel frame body positioned on one side provided with the horizontal driving component; the horizontal driving assembly comprises a gear upper pressing plate and a gear lower pressing plate which are used for installing and positioning a transverse straight gear, the gear upper pressing plate and the gear lower pressing plate are respectively fixed at the top and the bottom of the accommodating part, and a small rocking handle connected with the transverse straight gear is arranged on the gear upper pressing plate.

Compared with the prior art, the chuck assembling device for the centrifugal cylinder sleeve processing machine tool has the following beneficial effects:

firstly, the operation is accurate, when the chuck is assembled, an operator stands on the chassis assembly, firstly installs the panel assembly at an approximate height position by adjusting the height position of the connecting frame, and then respectively carries out fine adjustment in the height direction and the horizontal direction on the assembled panel through a horizontal driving assembly and a lifting assembly on the panel assembly, thereby effectively ensuring the operation accuracy of the operator;

secondly, the operation is convenient, safe and rapid, the chuck assembling equipment of the centrifugal cylinder sleeve processing machine tool is safe, rapid and convenient to operate, when the chuck is assembled, an operator stands on the chassis assembly, the alignment can be completed by adjusting the height of the connecting frame, the horizontal driving assembly and the lifting assembly, and then the chuck is assembled on the panel assembly;

and thirdly, the number of operators is small, the assembling equipment can be completed by only one operator in the whole assembling process, the number of required operators is small, the labor cost for assembling the chuck is greatly reduced, and the assembling efficiency of the chuck is improved.

Drawings

FIG. 1 is an assembly schematic diagram of a chuck assembly device of a centrifugal cylinder liner processing machine tool according to the present invention;

FIG. 2 is a schematic structural view of a bottom disc assembly in the assembling equipment of the chuck of the centrifugal cylinder sleeve processing machine tool according to the present invention;

FIG. 3 is an assembly schematic diagram of a panel assembly component in the chuck assembly equipment of the centrifugal cylinder liner processing machine tool according to the present invention;

FIG. 4 is an exploded view of a panel mounting assembly of the chuck mounting apparatus of the centrifugal cylinder liner processing machine according to the present invention;

FIG. 5 is an assembled view of the lift assembly of FIG. 4;

FIG. 6 is an exploded view of the lifting leg assembly of FIGS. 4 and 5;

FIG. 7 is a schematic structural view of the lifting unit frame of FIGS. 4 and 5;

FIG. 8 is an exploded view of the panel assembly of FIG. 4;

FIG. 9 is an exploded view of the horizontal drive assembly of FIG. 4;

FIG. 10 is a schematic structural diagram of the connection between the connecting frame and the chassis component in the assembling device of the chuck of the centrifugal cylinder liner processing machine tool.

Detailed Description

The present invention will be described in further detail with reference to specific embodiments and accompanying drawings.

Referring to fig. 1-10, a centrifugal cylinder liner machining tool chuck assembly apparatus, in accordance with one non-limiting embodiment of the present invention, includes,

the chassis assembly 100, the chassis assembly 100 includes a bottom plate frame 110 and a foot bottom plate 120 installed on the bottom plate frame 110, specifically, the chassis assembly 100 includes a bottom plate frame 110 and a bottom plate body 120 located on the bottom plate frame 110, the bottom plate frame 110 includes a bottom frame 111, one side of the bottom frame 111 is provided with a push rod 112 arranged perpendicular to the bottom frame 111, two end portions of the other side of the bottom frame 111 are provided with first upright posts 113 arranged perpendicular to the bottom frame 111, the bottom plate body 120 is provided with clamping slots 121 for clamping the push rod 112 and the two first upright posts 113 at positions corresponding to the push rod 112 and the two first upright posts 113, four corners of the bottom plate body 120 are provided with supporting foot assemblies 130, each supporting foot assembly 130 includes a bottom plate roller 131 and an anchor nut 132, when in use, the anchor nuts 132 are adjusted to enable the positions of the anchor nuts 132 to extend out of the bottom plate rollers 131, the bottom plate roller 131 is in a suspended state, the chassis assembly 100 is ensured to play a role in fixing and supporting the panel assembly, when the chassis assembly is not used, the foot nut 132 is adjusted, the bottom plate roller 131 is in contact with the ground, the foot nut 132 is in a suspended state, the push rod 112 is pushed by hand, and the equipment is placed at a proper position;

the panel assembly component 200 is located on one side above the chassis component 100, the panel assembly component 200 includes a panel component 210, a horizontal driving component 220 and a lifting component 230, the horizontal driving component 220 is installed in the panel component 210, the lifting component 230 is connected with the bottom of the panel component 210, the panel component 210 includes a fixed part 211 and a movable part 212, the horizontal driving component 220 is installed on the fixed part 211 to drive the movable part 212 to horizontally move in the fixed part 211, the lifting component 230 drives the panel component 210 to move up and down, the panel component 210 is used for an operator to assemble a chuck, in the process of assembling the chuck by the operator, the horizontal position of the movable part 212 in the panel component 210 can be adjusted through the horizontal driving component 220, and the height of the panel component 210 can be adjusted through the lifting component 230, namely, the height and the horizontal position of the panel component 210 are adjusted, the chuck is accurately and quickly assembled by operators, only one operator needs to operate the chuck, the horizontal driving assembly 220 and the lifting assembly 230 in the whole chuck assembling process, the whole operating process is convenient and safe, the number of required operators is small, the labor cost for chuck assembling is greatly reduced, and the chuck assembling efficiency is improved;

the connecting frame 300 is a telescopic rotating frame and is used for connecting the chassis assembly 100 and the panel assembly 200, the panel assembly 200 is installed on one side above the chassis assembly 100, an operator can stand on the chassis assembly 100 to perform chuck assembly operation conveniently, and when the equipment is not used, the connecting frame 300 can be contracted and then rotated on the chassis assembly 100. Specifically, the connecting frame 300 includes a first section of pillar assembly 310 and a second section of pillar assembly 320, the first section of pillar assembly 310 is composed of two first sections of vertical pillars 311 respectively inserted on the chassis assembly 100 and a second section of horizontal pillar 312 arranged between the two first sections of vertical pillars 311, wherein the first section of vertical pillar 311 is a hollow pillar, the bottom end of the first section of vertical pillar 311 is rotatably connected with the chassis assembly 100, when not in use, the connecting frame 300 is placed on the chassis assembly 100 by rotating the first section of vertical pillar 311, the second section of pillar assembly 320 is composed of two second sections of vertical pillars 321 respectively inserted and connected with the first section of vertical pillar 311, a second section of horizontal pillar 322 arranged between the two second sections of vertical pillars 321, and a horizontal fixing rod 323 arranged above the second section of horizontal pillar 322, two ends of the horizontal fixing rod 323 are respectively connected with the second sections of vertical pillars 321 on two sides, the transverse fixing rod 323 is used for fixing the panel assembly 210, the lifting adjustment of the first section of the strut assembly 310 and the second section of the strut assembly 320 is performed through a screw nut assembly 330, the screw penetrates through the first section of the transverse strut 312 and the second section of the transverse strut 322, and nuts 332 matched with the screw 331 are arranged at the upper and lower positions of the first section of the transverse strut 312 and the second section of the transverse strut 322 on the screw 331.

Referring to fig. 1, 3 to 7, in a non-limiting embodiment of the present invention, the lifting assembly 230 includes a lifting unit housing 231, a lifting strut assembly 232, a lifting unit frame 233 and a lifting driving member 234, the lifting driving member 234 is a rack and pinion assembly and includes a lifting rack 2341 and a lifting spur gear 2342 engaged with each other, the lifting rack 2341 is mounted on the lifting strut assembly 232, the lifting spur gear 2342 is mounted on a transversely-arranged lifting rocker 2343, the lifting rocker 2343 is rotatably mounted on the lifting unit frame 233 through a bearing, the lifting unit frame 233 is located in the lifting unit housing 231, the top of the lifting unit frame 233 is connected to the panel assembly 210, one end of the lifting rocker 2343 abuts against the lifting unit housing 231, and the other end of the lifting rocker 2343 extends out of the lifting unit housing 231 and is connected to a large rocker 2344, when in use, a worker stands on the chassis assembly 100, big rocking handle 2344 of operation, big rocking handle 2344 drive lift spur gear 2342 through lift rocker 2343 and rotate, lift spur gear 2342 and then drive lift rack 2341 of being connected rather than the meshing and rise strut subassembly 232 and follow vertical movement together, rise strut subassembly 232 and drive panel subassembly 210 and remove.

Referring to fig. 1, 3 to 6, in a non-limiting embodiment of the present invention, the ascending support assembly 232 includes a chassis ascending support 2321 and a pair of hole sleeve support 2322, the pair of hole sleeve support 2322 is used for supporting the pull rod connection sleeve in the chuck to prevent the connection sleeve from sliding downwards, the chassis ascending support 2321 is installed on the panel assembly 200, the chassis ascending support 2321 includes a support body 23211 and a protection sleeve 23212 arranged on the top of the support body 23211, the pair of hole sleeve support 2322 is a double-layer frame, the lower leg 23221 of the double-layer frame passes through the bottom of the protection sleeve 23212 and is sleeved outside the upper end of the support body 23211 through a bottom fixing ring 23222 and a fastening sleeve, the top of the support body 23211 is provided with a support panel 2323, the support panel 2323 is located at the center of the panel assembly 210, the top of the panel assembly 210 is provided with a movable assembly panel 213, the support panel 2323 is connected with the movable assembly panel 213 through a thrust ball bearing 214, one side of the strut body 23211 is provided with a recess 21213 for mounting a lifting rack 2341, the lifting rack 2341 is mounted in the recess 21213, and the lifting rack 2341 and the strut body 23211 are driven to move together by operating a large rocking handle 2344 and further rotating a lifting spur gear 2342.

Referring to fig. 1, 3 to 6, in a non-limiting embodiment of the present invention, the pillar body 23211 is provided with a clamping bar 23214 at opposite positions on two sides of the recess 21213, and the clamping bar 23214 is connected to the ascending unit frame 233 in a limiting manner. Due to the arrangement of the clamping strip 23214, after the support body 23211 is placed in the ascending unit frame 233, the support body 23211 cannot rotate under the action of limiting connection, so that the support body 23211 is stably installed, and the assembly of the chuck by an operator is facilitated.

Referring to fig. 1, 3 to 5 and 7, in a non-limiting embodiment of the present invention, the ascending unit frame 233 includes a limiting cylinder 2331 for limiting the position of the mounting pillar body 23211, a clamping bar groove 2332 for clamping the clamping bar 23214 is disposed in the limiting cylinder 2331, three or more transverse support members 2333 are spaced apart from the outside of the limiting cylinder 2331, an upward bent vertical support member 2334 is disposed at an end of each transverse support member 2333, and the top of the vertical support member 2334 is mounted on the panel assembly 210 through a connecting portion 2335.

Referring to fig. 1, 3 to 5 and 7, in a non-limiting embodiment of the present invention, the horizontal support members 2333 adjacent to two side portions of one surface of the limiting cylinder 2331 corresponding to the lifting rack 2341 are connected by inverted U-shaped structure connecting members 2336, two side arm portions of the inverted U-shaped structure connecting members 2336 are respectively and fixedly connected to the horizontal support members 2333, two side arms of the inverted U-shaped structure connecting members 2336 are respectively provided with a rocker hole 2337 for the lifting rocker 2343 to pass through, and the lifting rocker 2343 is rotatably connected to two side arms of the inverted U-shaped structure connecting members 2336 through bearings.

Referring to fig. 1, 3 to 5 and 7, in a non-limiting embodiment of the present invention, an outward protruding interface 2338 is disposed on a surface of the limiting cylinder 2331 opposite to the lifting rack 2341, a positioning ring 2339 having a size corresponding to that of the protruding interface 2338 is disposed on the vertical support 2334 located on a side of the limiting cylinder 2331 where the protruding interface 2338 is disposed, U-shaped periscope barrels 235 having different lengths are disposed in the limiting cylinder 2331 and the positioning ring 2339, lenses 2351 are disposed at two end portions of the periscope barrels 235, barrel holes for mounting the U-shaped periscope barrels 235 are disposed on the panel body, one end of the U-shaped periscope barrel 235 is mounted in the barrel hole, and the other end of the U-shaped periscope barrel 235 is mounted in the support body 23211, so that an operator can observe the position of the chuck axis pair from the panel body and the support body 23211.

Referring to fig. 1, 3, 4, 8 and 9, in a non-limiting embodiment of the present invention, the panel assembly 210 includes a panel body and a panel frame disposed outside the panel body, the panel body is a movable member 212, the panel frame is a fixed member 211, two opposite sides of the panel frame are provided with elongated grooves 2111 for engaging with the panel body, two sides of the panel body, which are matched with the elongated grooves 2111, are provided with a rack and pinion engagement assembly outside one side, and the rack and pinion engagement assembly is connected to the horizontal driving assembly 220.

Referring to fig. 1, 3, 4, 8 and 9, in a non-limiting embodiment of the present invention, both sides of the panel body, which are engaged with the panel frame, are rotatably connected to the panel frame in the elongated groove 2111 through bearings.

Referring to fig. 1, 3, 4, 8 and 9, in a non-limiting embodiment of the present invention, the rack-and-pinion engaging assembly includes a rectangular rack 217 installed at one side portion of the panel body, and a spur transverse gear 218 engaged with the rectangular rack 217, and a receiving portion 219 for receiving the spur transverse gear 218 is provided on the panel frame at a side where the horizontal driving assembly 220 is provided; the horizontal driving assembly 220 comprises a gear upper pressing plate 222 and a gear lower pressing plate 225, the gear upper pressing plate 222 and the gear lower pressing plate 225 are used for installing and positioning the transverse straight gear 218, the gear upper pressing plate 222 and the gear lower pressing plate 225 are fixed to the top and the bottom of the accommodating portion 219 through fasteners respectively, a small rocking handle 221 connected with the transverse straight gear 218 is arranged on the gear upper pressing plate 222, the transverse straight gear 218 is connected with a driving shaft 223 through a deep groove ball bearing 224, the driving shaft 223 is connected with the small rocking handle 221, the transverse straight gear 218 is driven to rotate through the small rocking handle 221, and then the rectangular rack 217 connected with the transverse straight gear 218 in a meshed mode drives the panel body to move in a long groove 2111 in the panel frame.

Referring to fig. 1-10, a non-limiting embodiment of the present invention, the operation of the chuck assembly apparatus for a centrifugal cylinder liner processing machine of the present invention:

1. assembling the connecting frame 300, fixing the two-section strut assembly 320 on the one-section strut assembly 310 through the positioning pins;

2. the connecting frame 300 is installed on the chassis assembly 100, specifically, a section of the pillar assembly 310 on the connecting frame 300 is inserted into the first pillar 113 on the chassis assembly 100 and then fixed by the positioning pin;

3. the panel assembling component 200 is installed on the connecting frame 300, specifically, a panel frame on the panel assembling component 200 is fixed on a transverse fixing rod 323 at the top of the connecting frame 300 and fastened with two sections of vertical struts 321 at two ends of the transverse fixing rod 323 through fasteners;

4. matching with a processing machine: operating a push rod 112 on the chassis assembly 100, pushing the assembly equipment of the invention into the interior of the processing machine to be attached to the inner wall of the processing machine, adjusting a bottom plate roller 131 and a foot nut 132 at the bottom of the chassis assembly 100 to ensure that the chassis assembly 100 is kept horizontal, fixing the connecting frame 300 and the panel assembly 200, namely fixing the whole assembly equipment, and adjusting a screw nut between the first section of strut assembly 310 and the second section of strut assembly 320 to ensure that the lower surface of the panel is attached to a boss on the inner wall of the processing machine;

5. installing a chuck: the operating personnel stands on the bottom plate on chassis subassembly 100, puts the chuck on the panel, rotates the little rocking handle 221 on the horizontal drive subassembly 220, send into the processing machine with the chuck inside, adjust the main shaft through the processing machine panel, observe the relative position of main shaft and chuck through refraction periscope lens cone, wait that both are coaxial after rotate the big rocking handle 2344 in the lift subassembly 230, make chuck and main shaft pull rod meshing, rotate chuck assembly panel, make the chuck fastening on the pull rod, accomplish the chuck installation. The whole operation process can be operated by only one person, and the operation is safe, convenient and quick.

Above-mentioned operation process, in the chuck assembly, the operation personnel stand and operate on chassis subassembly 100, can prevent effectively that chassis subassembly 100 from taking place to turn on one's side to the processing machine is outer because the chuck is put the back, the focus changes, the security of operation has effectively been ensured, when idle not using, can receive the link 300 and fold, swivelling joint frame 300 lets panel assembly 210 lean on the push rod 112 on chassis subassembly 100 along with link 300 together, effectively prevent when idle because of the focus is unbalanced, the condition of empting takes place.

In the description of the present invention, it is to be understood that terms such as "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, which indicate orientations or positional relationships, are used based on the orientations or positional relationships shown in the drawings only for the convenience of describing the present invention and for the simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

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 one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The above embodiments are only specific embodiments of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications are possible without departing from the inventive concept, and such obvious alternatives fall within the scope of the invention.

Claims (10)

1. The utility model provides a centrifugal cylinder liner machine tool chuck rigging equipment which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

a chassis assembly including a floor frame and a tread floor mounted on the floor frame;

the panel assembly is positioned on one side above the floor assembly and comprises a panel assembly, a horizontal driving assembly and a lifting assembly, the horizontal driving assembly is installed in the panel assembly, the lifting assembly is connected with the bottom of the panel assembly, the panel assembly comprises a fixed piece and a movable piece, the horizontal driving assembly is installed on the fixed piece and drives the movable piece to horizontally move in the fixed piece, and the lifting assembly drives the panel assembly to move up and down;

the connecting frame is a telescopic rotating frame and is used for connecting the chassis assembly and the panel assembly.

2. The centrifugal cylinder liner processing machine tool chuck assembly equipment as claimed in claim 1, wherein the lifting assembly comprises a lifting strut assembly, a lifting unit frame and a lifting driving member, the lifting driving member is of a gear and rack combined structure and comprises a lifting rack and a lifting straight gear which are meshed with each other, the lifting rack is mounted on the lifting strut assembly, the lifting straight gear is mounted on a lifting rocker, and the lifting rocker is rotatably mounted on the lifting unit frame through a bearing.

3. The assembling equipment for the chuck of the centrifugal cylinder sleeve processing machine tool according to claim 2, wherein the ascending pillar assembly comprises a chassis ascending pillar and a hole sleeve supporting frame, the chassis ascending pillar is mounted on the panel assembling assembly, the chassis ascending pillar comprises a pillar body and a protecting sleeve arranged at the top of the pillar body, the hole sleeve supporting frame is a double-layer frame, a lower supporting leg of the double-layer frame penetrates through the bottom of the protecting sleeve and is sleeved with the outer part of the upper end of the pillar body through a bottom fixing ring and a fastening piece, and a concave part for mounting a lifting rack is arranged on one side of the pillar body.

4. The assembling equipment for the chuck of the centrifugal cylinder sleeve processing machine tool according to claim 3, wherein the two opposite positions of the strut body at the two sides of the concave part are respectively provided with a clamping strip, and the clamping strips are in limit connection with the ascending unit frame.

5. The assembling equipment for the chuck of the centrifugal cylinder sleeve processing machine tool according to claim 4, wherein the ascending unit frame comprises a limiting cylinder for limiting and mounting the pillar body, more than three transverse supporting pieces are distributed at intervals outside the limiting cylinder, a vertical supporting piece bent upwards is arranged at the end part of each transverse supporting piece, and the top of each vertical supporting piece is mounted on the panel component through a connecting part.

6. The assembling equipment for the chuck of the centrifugal cylinder sleeve processing machine tool according to claim 5, wherein the limiting cylinder is connected with the transverse supporting pieces adjacent to two side portions of one surface corresponding to the lifting rack through the inverted U-shaped structure connecting piece, the end portions of two side arms of the inverted U-shaped structure connecting piece are respectively and fixedly connected with the transverse supporting pieces, rocker holes for the lifting rocker to pass through are formed in the two side arms of the inverted U-shaped structure connecting piece, and the lifting rocker is rotatably connected with the two side arms of the inverted U-shaped structure connecting piece through the bearing.

7. The assembling equipment for the chuck of the centrifugal cylinder sleeve processing machine tool according to claim 6, wherein one surface of the limiting cylinder, which is opposite to the lifting rack, is provided with an outward protruding interface, a positioning ring corresponding to the protruding interface in size is arranged on the vertical supporting piece positioned on one side of the limiting cylinder, which is provided with the protruding interface, latent telescopes with different lengths on two sides are arranged in the limiting cylinder and the positioning ring, and lenses are arranged at two ends of the latent telescopes.

8. The centrifugal cylinder liner processing machine tool chuck assembly equipment as claimed in claim 1, wherein the panel assembly comprises a panel body and a panel frame arranged outside the panel body, opposite sides of the panel frame are provided with elongated grooves for clamping the panel body, two sides of the panel body matched with the elongated grooves are provided with gear and rack meshing assemblies outside one side, and the gear and rack meshing assemblies are connected with the horizontal driving assembly.

9. The assembling equipment for the chuck of the centrifugal cylinder sleeve processing machine tool according to claim 8, wherein two side parts of the panel body, which are connected with the panel frame in a clamping manner, are rotatably connected with the panel frame in the long groove through bearings.

10. The chuck assembling device for a centrifugal cylinder liner processing machine tool according to claim 9, wherein the rack-and-pinion engaging assembly comprises a rectangular rack mounted on a side portion of the panel body, and a spur gear in a transverse row engaged with the rectangular rack, and a housing portion for housing the spur gear in the transverse row is provided on the panel frame on the side where the horizontal driving assembly is provided; the horizontal driving assembly comprises a gear upper pressing plate and a gear lower pressing plate which are used for installing and positioning the transverse straight gears, the gear upper pressing plate and the gear lower pressing plate are respectively fixed at the top and the bottom of the accommodating part, and a crank connected with the transverse straight gears is arranged on the gear upper pressing plate.

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