阅读说明：本技术 一种智能摇臂钻床设备 (Intelligent radial drilling machine equipment ) 是由 文学福 于 2020-04-10 设计创作，主要内容包括：本发明公开了一种智能摇臂钻床设备,其结构包括固定底座、升降轴、升降中心、横向移动轴、钻床加工机构、调速电机、减速电机,所述升降轴通过固定件设于固定底座左侧上方,所述升降中心嵌套连接于升降轴外表面上,所述横向移动轴连接于升降轴外侧,所述调速电机固定于钻床加工机构上方,所述减速机构设于升降轴顶部,本发明通过设立吸水机构,可以有效的通过吸水海绵体将工作平台以及凹槽处的污水吸走,并扫除大颗粒碎屑,黏附小颗粒碎屑,达到清洁干燥工作平台的作用,便于加工操作；并且的吸水机构还可以将吸水海绵体内的污水进行脱水处理,保持吸水海绵体的干燥性,而脱水后的污水与碎屑可集中处理,操作方便。(The invention discloses intelligent radial drilling machine equipment, which structurally comprises a fixed base, a lifting shaft, a lifting center, a transverse moving shaft, a drilling machine processing mechanism, a speed regulating motor and a speed reducing motor, wherein the lifting shaft is arranged above the left side of the fixed base through a fixing part, the lifting center is connected to the outer surface of the lifting shaft in a nested manner, the transverse moving shaft is connected to the outer side of the lifting shaft, the speed regulating motor is fixed above the drilling machine processing mechanism, and the speed reducing mechanism is arranged at the top of the lifting shaft; and the water absorption mechanism can also dehydrate the sewage in the water absorption sponge body, so that the dryness of the water absorption sponge body is kept, and the dehydrated sewage and the dehydrated scraps can be treated in a centralized manner, so that the operation is convenient.)

1. The utility model provides an intelligence radial drill equipment, its structure includes unable adjustment base (1), lift axle (2), lift center (3), lateral shifting axle (4), drilling machine processing agency (5), buncher (6), gear motor (7), unable adjustment base (1) left side top is located through the mounting in lift axle (2), lift center (3) nested connection is on lift axle (2) surface, lateral shifting axle (4) are connected in the lift axle (2) outside, buncher (6) are fixed in drilling machine processing agency (5) top, lift axle (2) top, its characterized in that are located in gear motor (7):

the water removing device is characterized in that a working platform (10) and a water removing mechanism (11) are arranged on the fixed base (1), the working platform (10) is arranged on the upper surface of the fixed base (1), the water removing mechanism (11) is fixed above the fixed base (1) through nuts, and the water removing mechanism (11) is connected with the working platform (10) in a matched mode;

the water removal mechanism (11) consists of a water absorption mechanism (a), a driving air pump (b) and a dehydration mechanism (c), the driving air pump (b) is arranged below the water absorption mechanism (a), the water absorption mechanism (a) is arranged on the left side of the working platform (10), the dehydration mechanism (c) is arranged on the right side of the working platform (10), and the water absorption mechanism (a) and the dehydration mechanism (c) are arranged on the working platform (10) and are mutually matched and connected;

the water absorption mechanism (a) comprises a water absorption fixing frame (a1), a telescopic air cavity (a2), a fixed shell (a3) and a sponge water absorption component (a4), wherein the telescopic air cavity (a2) is fixed to the upper left inside the fixed shell (a3) through nuts in a screwed mode, the fixed shell (a3) is welded above the water absorption fixing frame (a1), one end of the right side of the telescopic air cavity (a2) is inserted into the sponge water absorption component (a4) and connected through the nuts in a screwed mode, the fixed shell (a3) is further provided with a sponge outlet (a31), and the sponge outlet (a31) is arranged on the right side of the sponge water absorption component (a 4).

2. The intelligent radial drilling machine equipment of claim 1, wherein: the telescopic air chamber (a2) consists of a first filling air chamber (a21), a second filling air chamber (a22), an ejector rod (a23), a ventilation port (a24) and a ventilation hose (a25), wherein the second filling air chamber (a22) is connected to the inside of the first filling air chamber (a21) in an embedded mode, the ejector rod (a23) is connected to the inside of the second filling air chamber (a22) in an embedded mode, one end of the top of the ventilation hose (a25) is connected with a ventilation port (a24), the other end of the ventilation hose (a25) penetrates through a fixed shell (a3) to be connected with a driving air pump (b), the ventilation port (a24) is arranged below the left side of the first filling air chamber (a21) and is communicated with the first filling air chamber, and one end of the right side of the ejector rod (a23) is connected with a sponge water absorption assembly (a 4).

3. The intelligent radial drilling machine equipment of claim 2, wherein: the first filling air cavity (a21) is provided with an anti-over clamp ring (a211), the anti-over clamp ring (a211) and the first filling air cavity (a21) are of an integrated structure and are connected to the inner wall of the first filling air cavity (a21) in a circular ring shape.

4. The intelligent radial drilling machine equipment of claim 1, wherein: sponge body subassembly (a4) that absorbs water has last protection casing (a41), connecting rod (a42), dehydration pivot (a43), absorbs water sponge body (a44) to constitute, connecting rod (a42) left end is passed through the nut and is connected with last protection casing (a41) are screwed, connecting rod (a42) right side one end embedding is connected in dehydration pivot (a43) inside, sponge body (a44) fixed connection that absorbs water is in dehydration pivot (a43) surface.

5. The intelligent radial drilling machine apparatus of claim 4, wherein: connecting rod (a42) is equipped with sliding ball groove (e1), rotatory sliding ball (e2), sliding ball groove (e1) is integrative shaping structure with connecting rod (a42), sliding ball groove (e1) is equipped with 4, evenly distributed on connecting rod (a42) right-hand member surface, inside sliding ball groove (e1) was located in rotatory sliding ball (e 2).

6. The intelligent radial drilling machine apparatus of claim 4, wherein: dehydration pivot (a43) is equipped with thread groove (d1), swivelling chute (d2), waterproof gasket (d3), thread groove (d1), swivelling chute (d2) are integrative shaping structure with dehydration pivot (a43) respectively, thread groove (d1) are connected inside dehydration pivot (a43) center pin, inside dehydration pivot (a43) left side is located in swivelling chute (d2), the inside left side of swivelling chute (d2) is located in waterproof gasket (d3) to on nested and connecting rod (a42) surface, waterproof gasket (d3) are connected for interference fit mode with connecting rod (a 42).

7. The intelligent radial drilling machine equipment according to claim 1, wherein the dewatering mechanism (c) is composed of an anti-splash water outer box (c1), a dewatering component (c2), a dewatering fixing seat (c3), a water storage box water inlet (c4), a water storage box (c5), a water storage box clamping track (c6), a dewatering water inlet (c7) and a water inlet groove (c8), the anti-splash water outer box (c1) is welded to the left side surface of the dewatering fixing seat (c3), the dewatering component (c2) is arranged inside the anti-splash water outer box (c1), the water storage box water inlet (c4) is arranged on the right side of the bottom of the anti-splash water outer box (c4), the water storage box water inlet (c4) connects the anti-splash water outer box (c4), the water outlet groove (c4) with the water storage box (c4) in a penetrating manner, the dewatering fixing seat (c4) is arranged on the left side of the anti-splash water inlet box (c4), the dewatering fixing seat (c4) is arranged on the left side surface of the dewatering fixing seat (c4), and the anti-splash water inlet groove (c4) is screwed with the screw nut (4), and the water inlet (c) is connected with the water inlet groove (c4), and the water inlet groove (c4) through the water inlet groove (4), and the water inlet groove (c) of the water inlet groove.

8. The intelligent radial drilling machine apparatus of claim 7, wherein: dewatering component (c2) includes dewatering screen panel (c21), fixed screw shaft (c22), waterlogging caused by excessive rainfall ring (c23), fixed screw shaft (c22) right side one end is passed through the buckle and is locked and dewater on fixing base (c3) the internal side surface, dewatering screen panel (c21) fixed screw shaft (c22) surface evenly distributed has the screw thread, the waterlogging caused by excessive rainfall ring (c23) is located dewatering screen panel (c21) left side, waterlogging caused by excessive rainfall ring (c23) is circular structure.

Technical Field

The invention relates to the field of drilling machines, in particular to an intelligent radial drilling machine device.

Background

The drilling machine is a universal machine tool, can drill parts, ream the plane and attack the processing aspect of screw thread and play extensive effect, when being furnished with technological equipment on the drilling machine, can also carry out operations such as bore hole, drilling, reaming, ream, wherein relate to radial drill, be applicable to the spot facing work that singleton or batch production have porous large-scale part, be the common lathe in general machining workshop, can carry out cold treatment to drill bit and work platform water injection when processing partial part, the processing piece of this moment remains at work platform, untimely processing leads to the piece to bond at work platform easily, and groove part, be difficult to handle after the time is permanent more, and ponding trickles, the mesa humidity also brings inconvenience for later processing operation.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: an intelligent radial drilling machine device structurally comprises a fixed base, a lifting shaft, a lifting center, a transverse moving shaft, a drilling machine processing mechanism, a speed regulating motor and a speed reducing motor, wherein the lifting shaft is arranged above the left side of the fixed base through a fixing part, the lifting center is connected on the outer surface of the lifting shaft in a nested manner, the transverse moving shaft is connected outside the lifting shaft, the speed regulating motor is fixed above the drilling machine processing mechanism, the speed reducing mechanism is arranged at the top of the lifting shaft, a working platform and a water removing mechanism are arranged on the fixed base, the working platform is arranged on the upper surface of the fixed base, the water removing mechanism is fixed above the fixed base through nuts, the water removing mechanism is connected with the working platform in a matched manner, the water removing mechanism consists of a water absorbing mechanism, a driving air pump and a water removing mechanism, the driving air pump is arranged below the water, the dehydration mechanism is arranged on the right side of the working platform, the water absorption mechanism and the dehydration mechanism are arranged on the working platform and are connected in a matched mode, the water absorption mechanism is composed of a water absorption fixing frame, a telescopic air cavity, a fixed shell and a cavernous body water absorption assembly, the telescopic air cavity is fixed to the upper left inside the fixed shell in a screwed mode through a nut, the fixed shell is welded above the water absorption fixing frame, one end of the right side of the telescopic air cavity is inserted into the cavernous body water absorption assembly and is connected with the cavernous body water absorption assembly in a screwed mode through the nut, the fixed shell is further provided with a cavernous body outlet, and the right side of the cavernous.

As a further optimization of the technical scheme, the telescopic air cavity is composed of a first filling air cavity, a second filling air cavity, a pushing rod, a ventilation port and a ventilation hose, the second filling air cavity is connected inside the first filling air cavity in an embedded mode, the pushing rod is connected inside the second filling air cavity in an embedded mode, one end of the top of the ventilation hose is connected with the ventilation port, the other end of the ventilation hose penetrates through the fixed shell to be connected with the driving air pump, the ventilation port is arranged below the left side of the first filling air cavity and is in through connection with the first filling air cavity, one end of the right side of the pushing rod is connected with the sponge water absorption assembly, and the sponge water absorption assembly can be pushed onto the workbench through the telescopic air cavity by means of connection of the telescopic air cavity and the driving air pump, so that assistance is provided for a water absorption mechanism to absorb sewage and clean up debris.

As the further optimization of this technical scheme, first gas chamber of filling is equipped with prevents the dislocation snap ring, prevent that the dislocation fixture block is integrated into one piece structure with first gas chamber of filling to be the ring form and connect on first gas chamber inner wall of filling, through preventing the dislocation snap ring, can effectually avoid when bleeding that the second fills the gas chamber return excessive, do benefit to the protection to first gas chamber left side inner wall of filling, increase life.

As the further optimization of this technical scheme, the cavernosum subassembly that absorbs water has last protection casing, connecting rod, dehydration pivot, the cavernosum of absorbing water to constitute, the connecting rod left end is screwed through nut and last protection casing and is connected, connecting rod right side one end embedding is connected inside the pivot of dehydrating, cavernosum fixed connection that absorbs water is in the pivot surface of dehydrating, the position of the cavernosum of absorbing water is located on the coplanar with the recess on the work platform to the cavernosum subassembly that absorbs water quantity is unanimous with work platform's recess quantity.

As the further optimization of this technical scheme, the connecting rod is equipped with smooth ball groove, rotatory smooth ball, smooth ball groove and connecting rod are integrative forming structure, smooth ball groove is equipped with 4, and evenly distributed is on the connecting rod right-hand member surface, inside smooth and easy degree rotatory when the cavernosum subassembly that absorbs water dewaters is located to rotatory smooth and easy pearl through rotatory smooth and easy pearl, the dehydration of being convenient for when increasing the dehydration.

As a further optimization of this technical scheme, the pivot of dehydration is equipped with rotatory screw thread, swivelling chute, waterproof gasket, thread groove, swivelling chute are integrative shaping structure with the pivot of dehydration respectively, the thread groove is connected inside the pivot center pin of dehydration, inside the pivot left side of dehydration is located to the swivelling chute, the inside left side of swivelling chute is located to waterproof gasket to on nested and the connecting rod surface, waterproof gasket is connected for the interference fit mode with the connecting rod, through being equipped with waterproof gasket, can avoid sewage to get into the interior ponding that produces of swivelling chute, do benefit to the protection to the pivot of dehydration.

As a further optimization of the technical scheme, the dewatering mechanism is composed of a splash-proof outer box, a dewatering component, a dewatering fixed seat, a water storage box water inlet, a water storage box clamping track, a dewatering water inlet and a water inlet groove, the splash-proof outer box is welded on the left surface of the dewatering fixed seat, the dewatering component is arranged inside the splash-proof outer box, the water storage box water inlet is arranged on the right side of the bottom of the splash-proof outer box, the water outlet groove and the water storage box are connected through the water storage box water inlet, the dewatering fixed seat is of a reverse L-shaped structure and is fixedly connected with the working platform through a nut in a screwing mode, the water storage box is arranged on the lower surface of the bottom of the dewatering fixed seat, the water inlet groove is arranged on the lower left corner of the splash-proof outer box through the water storage box clamping track, the dewatering water inlet is arranged on the top of the left side of the water inlet groove, and the dewatering mechanism is matched with the sponge water.

As a further optimization of this technical scheme, the subassembly that dewaters includes dehydration screen panel, fixed thread axle, waterlogging caused by excessive rainfall ring, fixed thread axle right side one end is passed through the buckle locking and is dewatered on the fixing base inboard surface, dehydration screen panel fixed thread axle surface evenly distributed has the screw thread, the dehydration screen panel left side is located to the waterlogging caused by excessive rainfall ring, the waterlogging caused by excessive rainfall ring is circular structure, waterlogging caused by excessive rainfall ring diameter is half of the cavernosum total diameter that absorbs water, the waterlogging caused by excessive rainfall ring can carry out preliminary dehydration to the cavernosum that absorbs water, makes the cavernosum that absorbs water drier.

Advantageous effects

The invention relates to an intelligent radial drilling machine device, which is easy to cause the accumulation of sewage and scraps when a working platform is cleaned, at the moment, air can be compressed and quickly injected into a first filling air cavity by a driving air pump, at the moment, air pressure in the first filling air cavity fills a second filling air cavity, a push-out rod is pushed towards the right working platform, a sponge body assembly is connected with a push-out rod through a nut, at the moment, a water-absorbing sponge body of a sponge body water-absorbing assembly passes through the working platform to absorb accumulated water in a groove of the working platform, meanwhile, large-particle scraps on the working platform are pushed out towards the right direction along the surface of the working platform, small scraps can be adhered to the surface of the water-absorbing sponge body, so that the sewage and scraps in the groove of the working platform and the working platform can be cleaned, the water-absorbing sponge body is pushed into the right side under the assistance of the push-out rod to realize dehydration, when the water-absorbing sponge, the diameter of the draining ring is half of that of the water-absorbing sponge body, so that main sewage in the water-absorbing sponge body is drained, flows to the dewatering water inlet along the surface of the splash-proof outer box, enters the water storage box through the water inlet tank and the water inlet of the water storage box, and then primary dewatering is finished; when the water-absorbing sponge body enters the dewatering mesh enclosure, the dewatering rotating shaft is contacted with the left side of the fixed threaded shaft, threads in a thread groove of the dewatering rotating shaft are consistent with threads on the surface of the fixed threaded shaft, the inner diameter of the thread groove is consistent with the outer diameter of the fixed threaded shaft, the thread groove is meshed with the fixed threaded shaft at the moment, under the assistance of the pushing rod, the dewatering rotating shaft drives the water-absorbing sponge body to rotate rapidly by taking the dewatering rotating shaft as the center, residual sewage in the water-absorbing sponge body is thrown out through centrifugal action, the thrown sewage reaches the inner wall of the anti-splashing outer box through the dewatering mesh enclosure, flows downwards along the inner wall of the anti-splashing outer box, enters the water storage box through a water inlet of the water storage box, the final dewatering of the water-absorbing sponge body is realized, and chips adhered to the surface of the water-absorbing sponge body can be scraped off through a dewatering water draining ring, and the same chips pass through a dewatering water inlet, The water inlet of the water storage box enters the water storage box to be collected, so that the water storage box is convenient to treat.

Compared with the prior art, the invention has the following advantages:

according to the invention, the water absorption mechanism is arranged, so that sewage at the working platform and the groove can be effectively absorbed through the water absorption sponge body, large particle fragments can be swept away, small particle fragments can be adhered, the effect of cleaning and drying the working platform can be achieved, and the processing operation is convenient; and the water absorption mechanism can also dehydrate the sewage in the water absorption sponge body, so that the dryness of the water absorption sponge body is kept, and the dehydrated sewage and the dehydrated scraps can be treated in a centralized manner, so that the operation is convenient.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of an intelligent radial drilling machine apparatus according to the present invention.

Fig. 2 is a schematic structural view of the water absorbing mechanism of the present invention.

Fig. 3 is a schematic structural view of the telescopic air cavity of the present invention.

FIG. 4 is a schematic structural view of the sponge water-absorbing component of the present invention.

FIG. 5 is a sectional view of a portion of a cotton absorbent assembly according to the present invention.

FIG. 6 is a schematic sectional view of a water-absorbent sponge according to the present invention.

FIG. 7 is a schematic view of the dewatering mechanism of the present invention.

FIG. 8 is a schematic view showing the connection between the sponge water-absorbing component and the dewatering mechanism during dewatering according to the present invention.

In the figure: a fixed base 1, a lifting shaft 2, a lifting center 3, a transverse moving shaft 4, a drilling machine processing mechanism 5, a speed regulating motor 6, a speed reducing motor 7, a working platform 10, a water removing mechanism 11, a water absorbing mechanism a, a driving air pump b, a dewatering mechanism c, a water absorbing fixing frame a1, a telescopic air cavity a2, a fixed shell a3, a sponge water absorbing component a4, a sponge outlet a31, a first filling air cavity a21, a second filling air cavity a22, a push-out rod a23, a ventilation port a24, a ventilation hose a25, an over-position preventing snap ring a211, an upper shield a41, a connecting rod a42, a dewatering rotating shaft a43, a water absorbing sponge a44, a slide bead e1, a rotating slide bead e2, a thread groove d2, a rotating groove d2, a waterproof gasket d2, a splattering-preventing water c2, a dewatering component c2, a dewatering fixing seat 2, a water inlet c2, a water storage box c, a water inlet 2, a dewatering seat 2 c, a water inlet 2 c, a dewatering seat 2 c, a water inlet, A fixed threaded shaft c22 and a draining ring c 23.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.