CN217452972U - Processing structure of horizontal deep hole drill positioning sleeve support frame - Google Patents

Abstract

The utility model relates to the technical field of horizontal deep hole drill processing, and discloses a processing structure of a horizontal deep hole drill positioning sleeve support frame, which comprises a ram piece, a horizontal saddle, a fixing frame, an inclined saddle and a pressing structure, wherein the horizontal saddle and the ram piece are movably connected and arranged, and the horizontal saddle is used for installing a deep hole drill; the inclined sliding saddle is obliquely arranged, the deep hole drill penetrates through the fixing frame to be arranged, the fixing frame and the inclined sliding saddle are connected, the inclined sliding saddle is provided with an inclined motor, and the inclined motor is used for driving the fixing frame to be arranged along the inclined sliding saddle in a reciprocating manner; the supporting structure is provided with ram pieces and is arranged correspondingly to the fixing frame, the supporting structure is used for driving the fixing frame to abut against workpieces and is arranged, the fixing frame forms a collecting cavity, and the collecting cavity is used for discharging scraps and waste water. Under the synergistic effect of the upper floating bracket, the lower floating bracket and the fixing frame, the processing accuracy of the deep hole drill is improved, and collection and discharge of waste chips and waste water are facilitated; in addition, through the cooperation between mount and the oblique saddle, the change of the deep hole drill of being convenient for.

Description

Processing structure of horizontal deep hole drill positioning sleeve support frame

Technical Field

The patent of the utility model relates to a technical field of horizontal deep hole bores processing particularly, relates to the processing structure of horizontal deep hole bores position sleeve support frame.

Background

The processing machine tool is a machine for processing parts, and is used for processing parts with higher precision requirements and thinner surface roughness requirements so as to meet the design requirements.

Common types of machine tools include vertical machine tools and horizontal machine tools, which meet different machining requirements.

Among the prior art, horizontal machine tool when carrying out the processing operation, when changing to the deep-hole drill of different specifications, need withdraw from overall structure, just can change the deep-hole drill, lead to the deep-hole drill to change unchangeably, the horizontal processing of being not convenient for, and in the course of working, a large amount of cuttings, abrasive dust or waste water easily fall into the periphery, the collection and the discharge of sweeps and waste water are not convenient for.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a processing structure of horizontal deep hole brill position sleeve support frame aims at solving prior art, and horizontal man-hour, sweeps and waste water are not convenient for the exhaust problem.

The utility model discloses a realize like this, horizontal deep hole bores processing structure of position sleeve support frame, including ram spare, saddle, mount, oblique saddle and the structure of pressing, the saddle is arranged with ram spare is swing joint, the saddle is used for installing the deep hole bores; the inclined sliding saddle is obliquely and extendedly arranged, the deep hole drill penetrates through the fixed frame to be arranged, the fixed frame and the inclined sliding saddle are connected and arranged, the inclined sliding saddle is provided with an inclined motor, and the inclined motor is used for driving the fixed frame to move back and forth along the inclined sliding saddle; the supporting structure is arranged on the ram piece and is correspondingly arranged with the fixing frame, the supporting structure is used for driving the fixing frame to abut against the workpiece to be arranged, a collecting cavity is formed inside the fixing frame, and the collecting cavity is used for discharging scraps and waste water.

Furthermore, the pressing structure comprises a sliding plate piece and a pressing oil cylinder, the pressing oil cylinder is connected with the sliding plate piece, the sliding plate piece is movably connected with the ram piece and is arranged correspondingly to the fixing frame, the pressing oil cylinder is used for pushing the sliding plate piece to move back and forth along the direction towards or away from the fixing frame, and the sliding plate piece is used for pushing the fixing frame to abut against a workpiece to be arranged.

Furthermore, the processing structure of the horizontal deep hole drill locating sleeve support frame comprises an upper floating bracket and a lower floating bracket, wherein the upper floating bracket and the lower floating bracket are correspondingly arranged at intervals, the upper floating bracket and the lower floating bracket are respectively provided with the sliding plate part, and the upper floating bracket and the lower floating bracket clamp the deep hole drill; the upper floating bracket is arranged in a swinging mode along the direction deviating from the deep hole drilling direction under the action of external force, and the lower floating bracket is arranged in a swinging mode along the direction deviating from the deep hole drilling direction under the action of external force.

Furthermore, the upper floating bracket comprises an upper wheel frame and two upper wheel bodies, the two upper wheel bodies are respectively arranged on the upper wheel frame, the two upper wheel bodies are arranged in a spaced and corresponding manner, and the two upper wheel bodies are respectively used for abutting against the outer surface of the deep hole drill; the lower floating bracket comprises a lower wheel frame and two lower wheel bodies, the two lower wheel bodies are respectively arranged on the lower wheel frame, the two lower wheel bodies are arranged in a spaced and corresponding manner, and the two lower wheel bodies are respectively used for abutting against the outer surface of the deep hole drill; the two upper wheel bodies and the two lower wheel bodies are arranged in a one-to-one correspondence manner along the top-down direction, and the two upper wheel bodies and the two lower wheel bodies are arranged in a four-corner correspondence manner.

Furthermore, the upper floating bracket comprises an upper rocker and an upper adjusting block, the upper rocker is rotatably connected with the sliding plate piece, the upper floating bracket comprises an upper frame column, the lower part of the upper frame column is connected with the upper wheel carrier, the upper part of the upper frame column sequentially penetrates through the upper rocker and the upper adjusting block, the upper frame column is connected with the upper rocker, and the upper adjusting block is used for adjusting the relative position between the upper wheel carrier and the upper rocker; the lower floating bracket comprises a lower rocker and a lower adjusting block, the lower rocker is rotatably connected with the sliding plate piece, the lower floating bracket comprises a lower frame column, the upper portion of the lower frame column is connected with the lower wheel carrier, the lower portion of the lower frame column sequentially penetrates through the lower rocker and the lower adjusting block, the lower frame column is connected with the lower rocker, and the lower adjusting block is used for adjusting the relative position between the lower wheel carrier and the lower rocker.

Furthermore, the sliding plate part is provided with at least one collision block, the collision block extends towards the direction of the fixed frame, the collision block is provided with a collision surface, and the collision surface is arranged corresponding to the fixed frame; when the abutting force is applied, the collision surface is tiled and abutted against the fixing frame.

Furthermore, the ram part is provided with two main slide rails and an auxiliary slide rail, the two main slide rails are correspondingly arranged at intervals, the main slide rails extend along the horizontal direction, and the two main slide rails are synchronously movably connected with the horizontal saddle; the auxiliary slide rail is arranged between the two main slide rails, and one of the main slide rail and the auxiliary slide rail is synchronously movably connected with the slide plate part.

Further, the ram piece comprises a ram plate, a screw rod and a horizontal motor, and the ram plate is provided with two main slide rails and two auxiliary slide rails; the lead screw is the horizontal direction and extends and arranges, the inner of lead screw with it is connected to be to the motor for sleeping in, the outer end of lead screw runs through the saddle of sleeping in arranges, just the lead screw with the saddle of sleeping in is connected and arranges, the lead screw is used for the drive the saddle of sleeping in is along two the main slide rail is reciprocating motion and arranges.

Further, the mount includes body frame and projection, the body frame forms collect the chamber, the projection with the body frame is the connection and arranges, the body frame has side mouth and end opening, and the deep hole bores and runs through the side mouth extends and runs through the projection arranges, the end opening with collect the chamber and be the intercommunication and arrange, sweeps and waste water pass through end opening discharges to the collecting box.

Further, the processing structure of horizontal deep hole drill position sleeve support frame includes the lathe, the lathe includes the curb girder, the curb girder is vertical arrangement, the curb girder has two siding rails, the siding rail is arranged along vertical extension, two the siding rail is the interval and corresponds the arrangement, two the siding rail synchronous with ram spare is swing joint and arranges, ram spare receives external drive to be reciprocating motion along vertical arranging.

Compared with the prior art, the utility model provides a processing structure of horizontal deep hole drill position sleeve support frame arranges the work piece in the lathe, along vertical movement through ram spare relative lathe, adjust the vertical position of deep hole drill, realize the processing operation to the work piece, when the deep hole drill assembles, the deep hole drill runs through the mount, under the synergistic action of upper floating bracket, lower floating bracket and mount, play the location restriction effect to the deep hole drill, the deep hole drill produces the skew when avoiding the operation, improve the processing accuracy of deep hole drill, and, drive the mount through the structure of suppressing and contradict the work piece, the sweeps and the waste water of course of working are discharged through collecting the chamber, be convenient for the collection and the discharge of sweeps and waste water; in addition, when the deep hole drill needs to be replaced, the deep hole drill is pulled out, the fixing frame is driven to move along the inclined sliding saddle, the ram piece is exposed, and then the deep hole drill is replaced.

Drawings

Fig. 1 is a schematic perspective view of a processing structure of a support frame of a horizontal deep hole drill positioning sleeve provided by the present invention;

fig. 2 is a schematic perspective view of a processing structure of the horizontal deep hole drill positioning sleeve support frame provided by the present invention;

FIG. 3 is a schematic front view of a processing structure of the horizontal deep hole drill positioning sleeve support frame provided by the present invention;

fig. 4 is a schematic three-dimensional view of a pressing structure layout of a processing structure of the horizontal deep hole drill positioning sleeve support frame provided by the utility model;

fig. 5 is a schematic perspective view of a fixing frame of a processing structure of a horizontal deep hole drill positioning sleeve support frame provided by the present invention;

fig. 6 is a schematic view of a machine tool layout of the processing structure of the horizontal deep hole drill positioning sleeve support frame.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there are the terms "upper", "lower", "left", "right", etc. indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and those skilled in the art can understand the specific meanings of the terms according to specific situations.

Referring to fig. 1-6, the preferred embodiment of the present invention is shown.

The processing structure of the horizontal deep hole drill positioning sleeve support frame comprises a ram piece 1, a horizontal saddle 2, a fixed frame 3, an inclined saddle 4 and a pressing structure 5, wherein the horizontal saddle 2 is movably connected with the ram piece 1, and the horizontal saddle 2 is used for installing a deep hole drill 8; the inclined sliding saddle 4 is obliquely and extendedly arranged, the deep hole drill 8 penetrates through the fixed frame 3 to be arranged, the fixed frame 3 and the inclined sliding saddle 4 are connected, the inclined sliding saddle 4 is provided with an inclined motor, and the inclined motor is used for driving the fixed frame 3 to reciprocate along the inclined sliding saddle 4; the pressing structure 5 is provided with the ram piece 1 and is arranged, the pressing structure 5 and the fixing frame 3 are arranged correspondingly, the pressing structure 5 is used for driving the fixing frame 3 to abut against a workpiece and is arranged, a collecting cavity is formed inside the fixing frame 3, and the collecting cavity is used for discharging scraps and waste water.

According to the processing structure of the horizontal deep hole drill positioning sleeve support frame, a workpiece is placed on a machine tool 9, the ram piece 1 moves vertically relative to the machine tool 9, the vertical position of the deep hole drill 8 is adjusted, processing operation on the workpiece is achieved, when the deep hole drill 8 is assembled, the deep hole drill 8 penetrates through the fixing frame 3, under the synergistic effect of the upper floating bracket 6, the lower floating bracket 7 and the fixing frame 3, the deep hole drill 8 is positioned and limited, the deep hole drill 8 is prevented from being deviated during operation, the processing accuracy of the deep hole drill 8 is improved, the fixing frame 3 is driven to abut against the workpiece through the abutting structure 5, scraps and waste water in the processing process are discharged through the collecting cavity, and collection and discharge of the scraps and the waste water are facilitated; in addition, when needing to be changed the deep hole and boring 8, extract the deep hole and bore 8, drive mount 3 and remove along oblique saddle 4, expose ram spare 1, change the deep hole and bore 8 again, like this, equipment need not wholly withdraw from, can realize the change of deep hole and bore 8, makes the deep hole bore 8 change more convenient and fast.

The pressing structure 5 comprises a sliding plate member 51 and a pressing oil cylinder 52, the pressing oil cylinder 52 is connected with the sliding plate member 51, the sliding plate member 51 is movably connected with the ram member 1, the sliding plate member 51 is arranged corresponding to the fixing frame 3, the pressing oil cylinder 52 is used for pushing the sliding plate member 51 to move back and forth along the direction towards or away from the fixing frame 3, and the sliding plate member 51 is used for pushing the fixing frame 3 to abut against a workpiece.

Like this, before 8 processing operations are bored in the deep hole, support and press hydro-cylinder 52 to start output drive power, make slide plate spare 51 relative ram spare 1 remove, remove the in-process, slide plate spare 51 supports and presses mount 3, promotes mount 3 and removes towards the work piece, arranges until the mounting conflict work piece, and the sweeps and the waste water of being convenient for pass through mount 3 and collect, and simultaneously, the restriction region of extension mount 3 improves the fixed effect of mount 3, improves 8 operation accuracy nature of deep hole drill.

The processing structure of the horizontal deep hole drill 8 positioning sleeve support frame comprises an upper floating bracket 6 and a lower floating bracket 7, wherein the upper floating bracket 6 and the lower floating bracket 7 are arranged at intervals in a corresponding mode, sliding plate members 51 are respectively arranged on the upper floating bracket 6 and the lower floating bracket 7, and the deep hole drill 8 is clamped by the upper floating bracket 6 and the lower floating bracket 7; under the mating reaction of last floating bracket 6 and lower floating bracket 7, play location and restriction effect to deep hole brill 8, produce the skew when avoiding deep hole to bore 8 operations, improve the accurate nature of deep hole brill 8's operation.

The upper floating bracket 6 is arranged in a swinging way along the direction departing from the deep hole drill 8 under the action of external force, and the lower floating bracket 7 is arranged in a swinging way along the direction departing from the deep hole drill 8 under the action of external force; when deep hole bores 8 need to be changed, stir upper floating bracket 6 and lower floating bracket 7 respectively, make upper floating bracket 6 and lower floating bracket 7 respectively along deviating from the swing of deep hole bores 8 direction, cancel the restriction to deep hole bores 8, the change of the deep hole bores 8 of being convenient for.

The upper floating bracket 6 comprises an upper wheel frame 62 and two upper wheel bodies 61, the two upper wheel bodies 61 are respectively arranged on the upper wheel frame 62, the two upper wheel bodies 61 are arranged at intervals correspondingly, and the two upper wheel bodies 61 are respectively used for abutting against the outer surface of the deep hole drill 8; under the effect of two upper wheel bodies 61, play location and restriction effect to deep hole brill 8, simultaneously, reduce upper wheel body 61 and deep hole and bore 8's friction, avoid influencing the processing operation that deep hole bored 8.

The lower floating bracket 7 comprises a lower wheel frame 72 and two lower wheel bodies 71, the two lower wheel bodies 71 are respectively provided with the lower wheel frame 72, the two lower wheel bodies 71 are arranged at intervals correspondingly, and the two lower wheel bodies 71 are respectively used for abutting against the outer surfaces of the deep hole drills 8; under the effect of two lower wheel bodies 71, play location and restriction effect to the gun drill 8, simultaneously, reduce wheel body 71 and gun drill 8's friction down, avoid influencing the processing operation of gun drill 8.

The two upper wheel bodies 61 and the two lower wheel bodies 71 are arranged in a one-to-one correspondence manner along the top-to-bottom direction, and the two upper wheel bodies 61 and the two lower wheel bodies 71 are arranged in a four-corner correspondence manner; encircle and play location and restriction effect to deep hole brill 8, produce the skew when avoiding deep hole to bore 8 operations, improve the accurate nature of deep hole brill 8's operation.

The upper floating bracket 6 comprises an upper rocker and an upper adjusting block 63, the upper rocker is rotatably connected with the sliding plate piece 51, the upper floating bracket 6 comprises an upper frame column, the lower part of the upper frame column is connected with the upper wheel carrier 62, the upper part of the upper frame column sequentially penetrates through the upper rocker and the upper adjusting block 63, the upper frame column is connected with the upper rocker, and the upper adjusting block 63 is used for adjusting the relative position between the upper wheel carrier 62 and the upper rocker; therefore, according to the deep hole drills 8 with different specifications, the positions of the upper wheel frame 62 and the upper rocker are adjusted through the upper adjusting block 63, the distance between the two upper wheel bodies 61 and the deep hole drills 8 is further adjusted, and the assembly and the matched use of various deep hole drills 8 are met.

The lower floating bracket 7 comprises a lower rocker and a lower adjusting block 73, the lower rocker is rotatably connected with the sliding plate piece 51, the lower floating bracket 7 comprises a lower frame column, the upper part of the lower frame column is connected with the lower wheel frame 72, the lower part of the lower frame column sequentially penetrates through the lower rocker and the lower adjusting block 73, the lower frame column is connected with the lower rocker, and the lower adjusting block 73 is used for adjusting the relative position between the lower wheel frame 72 and the lower rocker; therefore, according to the deep hole drills 8 with different specifications, the position between the lower wheel frame 72 and the lower rocker is adjusted through the lower adjusting block 73, the distance between the two lower wheel bodies 71 and the deep hole drills 8 is further adjusted, and the assembly and the matched use of various deep hole drills 8 are met.

The sliding plate member 51 has at least one striking block 53, and the striking block 53 is arranged to extend toward the fixing frame 3, and the fixing frame 3 is pushed to move by applying a pushing force to the fixing frame 3 through the striking block 53.

The collision block 53 is provided with a collision surface which is arranged corresponding to the fixed frame 3; when the pressure is applied, the collision surface is tiled and arranged against the fixed frame 3; the contact area between the striking block 53 and the fixing frame 3 is increased, so that the sliding plate member 51 can push the fixing frame 3 conveniently.

The sliding plate member 51 is provided with two collision blocks 53, the two collision blocks 53 are arranged correspondingly at intervals along the top-down direction, the outer ends of the two collision blocks 53 are arranged in parallel, and the two collision blocks 53 are used for synchronously colliding and pushing the fixed frame 3; thus, under the matching action of the two collision blocks 53, the fixed frame 3 is stressed more uniformly, and the fixed frame 3 moves more stably.

The ram piece 1 is provided with two main slide rails 11 and an auxiliary slide rail 12, the two main slide rails 11 are correspondingly arranged at intervals, the main slide rails 11 extend along the horizontal direction, and the two main slide rails 11 are synchronously movably connected with the horizontal saddle 2; thus, the horizontal motor 13 applies driving force to drive the horizontal saddle 2 to move along the main slide rail 11, so as to adjust and control the drilling depth of the deep hole drill 8.

The auxiliary slide rail 12 is arranged between the two main slide rails 11, and one main slide rail 11 and the auxiliary slide rail 12 are synchronously movably connected with the sliding plate 51; thus, the common rail arrangement between the slider member 51 and the saddle 2 is realized, the arrangement of the rails is saved, the manufacturing cost is reduced, and the improvement of the space utilization is facilitated, facilitating the arrangement of various structures and parts.

The ram piece 1 comprises a ram plate, a screw rod 14 and a horizontal motor 13, wherein the ram plate is provided with two main slide rails 11 and two auxiliary slide rails 12; the screw rod 14 extends in the horizontal direction, the inner end of the screw rod 14 is connected with the horizontal motor 13, the outer end of the screw rod 14 penetrates through the horizontal saddle 2, the screw rod 14 is connected with the horizontal saddle 2, and the screw rod 14 is used for driving the horizontal saddle 2 to move in a reciprocating manner along the two main slide rails 11; in this way, the drive of the saddle 2 is realized.

Mount 3 includes body frame and projection 33, and the body frame forms collects the chamber, and projection 33 is connected with the body frame and arranges, and the body frame has side mouth 31 and end mouth 32, and deep hole bores 8 and runs through side mouth 31 and extend and run through projection 33 and arrange, and end mouth 32 is the intercommunication with collecting the chamber and arranges, and sweeps and waste water discharge to the collecting box through end mouth 32.

Under the action of the convex column 33, the supporting structure is convenient for the collision between the fixing frame 3 and the workpiece, and plays a role in guiding and positioning the deep hole drill 8, thereby improving the processing accuracy of the deep hole drill 8; under the action of the bottom opening 32, the waste chips and the waste water are conveniently discharged to the collecting box.

The collecting tank comprises a collecting pump for providing suction for facilitating the discharge of the waste bits and water along the mounting frame 3 to the collecting tank.

The machining structure of the horizontal deep hole drill 8 positioning sleeve support frame comprises a machine tool 9, wherein the machine tool 9 comprises a side beam 91, the side beam 91 is vertically arranged, the side beam 91 is provided with two side rails, the side rails are vertically extended and arranged, the two side rails are correspondingly arranged at intervals, the two side rails are synchronously movably connected with a ram piece 1, and the ram piece 1 is driven by external force to vertically move in a reciprocating manner; like this, based on the processing demand, drive ram spare 1 is along vertical removal, the height of adjustment ram spare 1, and then the height of processing of adjustment deep hole drill 8.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The processing structure of the horizontal deep hole drill positioning sleeve support frame is characterized by comprising a ram piece, a horizontal saddle, a fixing frame, an inclined saddle and a pressing structure, wherein the horizontal saddle and the ram piece are movably connected and arranged, and the horizontal saddle is used for installing a deep hole drill; the inclined sliding saddle is obliquely and extendedly arranged, the deep hole drill penetrates through the fixed frame to be arranged, the fixed frame and the inclined sliding saddle are connected and arranged, the inclined sliding saddle is provided with an inclined motor, and the inclined motor is used for driving the fixed frame to move back and forth along the inclined sliding saddle;

the supporting structure is arranged on the ram piece and is correspondingly arranged with the fixing frame, the supporting structure is used for driving the fixing frame to abut against the workpiece to be arranged, a collecting cavity is formed inside the fixing frame, and the collecting cavity is used for discharging scraps and waste water.

2. The processing structure of the horizontal deep hole drill positioning sleeve support frame according to claim 1, wherein the abutting structure comprises a slide plate member and an abutting oil cylinder, the abutting oil cylinder is connected with the slide plate member, the slide plate member is movably connected with the ram member, the slide plate member is arranged corresponding to the fixing frame, the abutting oil cylinder is used for pushing the slide plate member to move back and forth towards or away from the fixing frame, and the slide plate member is used for pushing the fixing frame to abut against a workpiece.

3. The machining structure of the horizontal deep hole drill positioning sleeve support frame according to claim 2, characterized in that the machining structure of the horizontal deep hole drill positioning sleeve support frame comprises an upper floating bracket and a lower floating bracket, the upper floating bracket and the lower floating bracket are arranged in a spaced corresponding arrangement, the upper floating bracket and the lower floating bracket are respectively provided with the sliding plate component, and the upper floating bracket and the lower floating bracket clamp the deep hole drill arrangement; the upper floating bracket is arranged in a swinging mode along the direction deviating from the deep hole drilling direction under the action of external force, and the lower floating bracket is arranged in a swinging mode along the direction deviating from the deep hole drilling direction under the action of external force.

4. The processing structure of the horizontal deep hole drill locating sleeve support frame according to claim 3, wherein the upper floating bracket comprises an upper wheel frame and two upper wheel bodies, the two upper wheel bodies are respectively arranged on the upper wheel frame, the two upper wheel bodies are correspondingly arranged at intervals, and the two upper wheel bodies are respectively used for abutting against the outer surface of the deep hole drill; the lower floating bracket comprises a lower wheel frame and two lower wheel bodies, the two lower wheel bodies are respectively arranged on the lower wheel frame, the two lower wheel bodies are arranged in a spaced and corresponding manner, and the two lower wheel bodies are respectively used for abutting against the outer surface of the deep hole drill; the two upper wheel bodies and the two lower wheel bodies are arranged in a one-to-one correspondence manner along the top-down direction, and the two upper wheel bodies and the two lower wheel bodies are arranged in a four-corner correspondence manner.

5. The processing structure of the horizontal deep hole drill locating sleeve support frame according to claim 4, wherein the upper floating bracket comprises an upper rocker and an upper adjusting block, the upper rocker is rotatably connected with the sliding plate member, the upper floating bracket comprises an upper frame column, the lower part of the upper frame column is connected with the upper wheel frame, the upper part of the upper frame column sequentially penetrates through the upper rocker and the upper adjusting block, the upper frame column is connected with the upper rocker, and the upper adjusting block is used for adjusting the relative position between the upper wheel frame and the upper rocker; the lower floating bracket comprises a lower rocker and a lower adjusting block, the lower rocker is rotatably connected with the sliding plate piece, the lower floating bracket comprises a lower frame column, the upper portion of the lower frame column is connected with the lower wheel carrier, the lower portion of the lower frame column sequentially penetrates through the lower rocker and the lower adjusting block, the lower frame column is connected with the lower rocker, and the lower adjusting block is used for adjusting the relative position between the lower wheel carrier and the lower rocker.

6. The processing structure of the horizontal deep hole drill locating sleeve support frame according to any one of claims 2 to 5, characterized in that the slide plate member has at least one collision block, the collision block is arranged to extend towards the fixing frame, the collision block has a collision surface, and the collision surface is arranged corresponding to the fixing frame; when the abutting force is applied, the collision surface is tiled and abutted against the fixing frame.

7. The processing structure of the horizontal deep hole drill positioning sleeve support frame according to any one of claims 2 to 5, wherein the ram member has two main slide rails and two auxiliary slide rails, the two main slide rails are arranged in a spaced and corresponding manner, the main slide rails extend in a horizontal direction, and the two main slide rails are synchronously movably connected with the horizontal saddle; the auxiliary slide rail is arranged between the two main slide rails, and one of the main slide rail and the auxiliary slide rail is synchronously movably connected with the slide plate part.

8. The processing structure of the horizontal deep hole drill positioning sleeve support frame according to claim 7, wherein the ram member comprises a ram plate, a screw rod and a horizontal motor, the ram plate is provided with two main slide rails and two auxiliary slide rails; the lead screw is the horizontal direction and extends and arranges, the inner of lead screw with it is connected to be to the motor for sleeping in, the outer end of lead screw runs through the saddle of sleeping in arranges, just the lead screw with the saddle of sleeping in is connected and arranges, the lead screw is used for the drive the saddle of sleeping in is along two the main slide rail is reciprocating motion and arranges.

9. The machining structure of the horizontal deep hole drill positioning sleeve support frame according to any one of claims 2 to 5, wherein the fixing frame comprises a main frame and a convex column, the main frame forms the collection cavity, the convex column is connected with the main frame, the main frame is provided with a side opening and a bottom opening, the deep hole drill extends through the side opening and penetrates through the convex column, the bottom opening is communicated with the collection cavity, and waste chips and waste water are discharged to the collection box through the bottom opening.

10. The processing structure of the horizontal deep hole drill positioning sleeve support frame according to any one of claims 2 to 5, characterized in that the processing structure of the horizontal deep hole drill positioning sleeve support frame comprises a machine tool, the machine tool comprises a side beam, the side beam is vertically arranged, the side beam is provided with two side rails, the side rails are vertically extended and arranged, the two side rails are correspondingly arranged at intervals, the two side rails are synchronously movably connected with the ram piece, and the ram piece is driven by external force to vertically reciprocate.

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