CN220825496U - Engine hydroecium drilling equipment - Google Patents

Abstract

The utility model discloses engine water chamber drilling equipment, which comprises an operating platform and a drilling assembly, wherein the operating platform is connected with the drilling assembly; the positioning assembly comprises a plurality of positioning clamping blocks which are circumferentially arranged at the top of the operating platform and are all arranged in a sliding manner by approaching or separating from the central axis of the operating platform; the drilling assembly is connected above the operating platform through a position adjusting mechanism so as to move at any position on the top surface of the operating platform; compared with the prior art, the drilling device mainly comprises an operation table, a positioning assembly, a drilling assembly and a position adjusting mechanism, the engine water chamber is stably clamped and fixed through the cooperation of a plurality of positioning clamping blocks, the rear position adjusting mechanism drives the drilling assembly to move to any position required by drilling above the engine water chamber to perform drilling later, and the drilling of the engine water chamber can be efficiently and high-quality completed.

Description

Engine hydroecium drilling equipment

Technical Field

The utility model relates to the technical field of engine water chamber processing equipment, in particular to engine water chamber drilling equipment.

Background

The engine water chamber is a component part of the engine during use, and is mainly used for cooling the engine, so that the engine can keep a normal use environment, and when the water chamber is installed on an automobile, the water chamber can be installed at the engine only by punching the surface of the water chamber, and the drilling machine is used.

When using the drilling machine to punch the processing to engine hydroecium, can place the engine hydroecium on the workstation of drilling machine, then operate the drilling machine again and punch it, take place in daily use, only place the hydroecium on the workstation and punch, the hydroecium can take place to rock the skew at the in-process of punching to the precision of punching has been influenced, and the shaping effect of hole.

Disclosure of utility model

Aiming at the defects in the prior art, the utility model aims to provide engine water chamber drilling equipment so as to solve the problem that the engine water chamber is not stably fixed to efficiently drill holes in the engine water chamber according to the requirement in the prior art.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: an engine water chamber drilling apparatus comprising:

The operation table is characterized in that the top of the operation table is detachably connected with a positioning assembly, the positioning assembly comprises a plurality of positioning clamping blocks, and the positioning clamping blocks are circumferentially arranged at the top of the operation table and are slidably arranged close to or far from the central axis of the operation table;

And the drilling assembly is connected above the operating platform through a position adjusting mechanism so as to move at any position on the top surface of the operating platform.

Compared with the prior art, the utility model has the following beneficial effects:

This engine hydroecium drilling equipment mainly comprises operation panel, locating component, drilling subassembly and position adjustment mechanism, and the cooperation through a plurality of location grip blocks is stable to engine hydroecium centre gripping fixedly, and back position adjustment mechanism drives drilling subassembly and removes the required optional position of drilling in engine hydroecium top and carry out drilling work afterwards, can be efficient and the completion of high quality to the drilling work of engine hydroecium.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present utility model.

Reference numerals in the drawings of the specification include: the device comprises an operation table 1, a positioning clamping block 2, a positioning support plate 3, an adjusting screw 4, a positioning rod 5, a locking rod 6, a supporting frame 7, a Z-axis adjuster 8, a drilling assembly 9, a Y-axis adjusting screw 10, a Y-axis guide rod 11, a connector 12 and an X-axis guide rod 13.

Detailed Description

The utility model is described in further detail below by way of specific embodiments:

as shown in fig. 1, an embodiment of the present utility model provides an engine water chamber drilling device, which includes an operation console 1 and a drilling assembly 9;

The top of the operation table 1 is detachably connected with a positioning assembly, the positioning assembly comprises a plurality of positioning clamping blocks 2, and the positioning clamping blocks 2 are circumferentially arranged at the top of the operation table 1 and are slidably arranged close to or far from the central axis of the operation table 1;

The drilling assembly 9 is connected above the operating table 1 through a position adjusting mechanism so that the drilling assembly 9 can move at any position on the top surface of the operating table 1.

This engine hydroecium drilling equipment mainly comprises operation panel 1, locating component, drilling subassembly 9 and position control mechanism, and the cooperation through a plurality of location grip blocks 2 is stable to engine hydroecium centre gripping fixed, and back position control mechanism drives drilling subassembly 9 and removes to drilling required optional position and carry out drilling work afterwards above the engine hydroecium, can be efficient and the completion of high quality to the drilling work of engine hydroecium.

In order to avoid the damage to the engine water chamber caused by hard contact between the positioning clamping blocks 2 and the engine water chamber, an elastic rubber block can be connected to the clamping surface of each positioning clamping block 2 to be in soft contact with the engine water chamber, so that the safety of the engine water chamber during clamping and fixing is improved.

As shown in fig. 1, according to another embodiment of the present utility model, the engine water chamber drilling apparatus further includes a positioning support plate 3, the positioning support plate 3 is detachably connected to the top of the operation table 1, and a plurality of positioning clamping blocks 2 are slidably connected to the top of the positioning support plate 3.

The following are given here:

The positioning support plate 3 is used for providing mounting support for the positioning clamping blocks 2, so that the positioning clamping blocks 2 are mutually close to each other to clamp and fix the engine water chamber, and the drilling work is stably carried out; or a plurality of positioning clamping blocks 2 are mutually far away to be separated from clamping and fixing the engine water chamber.

The number of the positioning clamping blocks 2 is four, the positioning clamping blocks are arranged in pairs, and an adjusting screw 4 arranged in the positioning supporting plate 3 is connected between the two positioning clamping blocks 2 in each pair.

Then in this embodiment:

The number of the specific positioning clamping blocks 2 is four, and the number of the adjusting screws 4 is two; the two corresponding positioning clamping blocks 2 move in opposite directions or in opposite directions by rotating one of the adjusting screw rods 4 so as to adjust the clamping state of the engine water chamber; the engine water chamber is clamped in different directions through the matching of the four positioning clamping blocks 2, so that the stability of the engine water chamber during clamping is improved. One ends of the two adjusting screw rods 4 are freely arranged outside the positioning support plate 3 in a penetrating way to form handles, so that the adjusting screw rods 4 can be conveniently rotated manually to carry out rotation adjustment; the rotation of the adjusting screw 4 can also be electrically controlled by connecting a driver at one end thereof.

The positioning clamping blocks 2 are provided with guide grooves for guiding the installation of the bottoms of the positioning clamping blocks on the top of the positioning supporting plate 3 so as to stably install the positioning clamping blocks 2; and the two adjusting screws 4 are arranged at different heights, so that interference caused by installation of the two adjusting screws 4 is avoided.

As shown in fig. 1, according to another embodiment of the present utility model, the bottom of the positioning support plate 3 is connected with a plurality of positioning rods 5, the top of the operating platform 1 is provided with a plurality of positioning holes, and the plurality of positioning rods 5 are matched with locking rods 6 connected with the bottom of the operating platform 1 for locking and fixing after penetrating through the plurality of positioning holes one by one.

In this embodiment:

The number of the positioning rods 5, the positioning holes and the locking rods 6 is two, the two positioning rods 5 are symmetrically arranged by taking the central axis of the positioning support plate 3 as a symmetry axis, the positioning rods 5 and the positioning holes are matched to stably and rapidly position the installation of the positioning support plate 3, meanwhile, the locking rods 6 are connected between the positioning rods 5 and the bottom of the operation table 1 to fix the positioning rods 5 in a locking manner, and then the positioning support plate 3 is stably installed at the top of the operation table 1.

Based on the scheme:

Each locking rod 6 one end all with operation panel 1 bottom slip links to each other and the other end all with the locating lever 5 threaded connection of cooperation, every locking rod 6 still arranges perpendicularly between the locating lever 5 of cooperation.

Here:

the locking rod 6 and the positioning rod 5 are stably connected together by the connection mode of each locking rod 6 and the bottom of the positioning rod 5 and the bottom of the operating platform 1, and the connection or the disconnection between the locking rod 6 and the bottom of the operating platform 1 is relatively quick. Specifically, a threaded hole is formed in the lower end of the positioning rod 5 along the radial direction of the positioning rod, a sliding hole is formed in the bottom of the operating platform 1, one end of the locking rod 6 freely penetrates through the sliding hole and then is in threaded connection with the threaded hole, so that the locking rod 6 is quickly connected, and the locking of the positioning rod 5 is completed; when the locking rod 6 is detached, one end of the locking rod 6 is rotated to be screwed out of the threaded hole, that is, the locking rod 6 is separated from locking fixation of the positioning rod 5.

As shown in fig. 1, according to another embodiment of the present utility model, the engine water chamber drilling apparatus is provided, wherein the position adjusting mechanism is connected to the operation table 1 through a supporting frame 7, and the position adjusting mechanism includes a Z-axis adjuster 8, an X-axis moving part, and a Y-axis moving part;

wherein, the output shaft at the bottom of the Z-axis adjuster 8 is connected with a drilling assembly 9;

The X-axis moving part is connected with the Z-axis adjuster 8 and is used for driving the Z-axis adjuster 8 to move along the X axis;

the Y-axis moving part is connected with the supporting frame 7 and is also connected with the X-axis moving part, and the Y-axis moving part is used for driving the X-axis moving part to move along the Y axis.

The adjustment is as follows:

The Y-axis moving part drives the X-axis moving part to move along the Y axis, and the X-axis moving part drives the drilling assembly 9 to move along the Y axis through the Z-axis adjuster 8; the X-axis moving part drives the Z-axis adjuster 8 to move along the X-axis, so as to drive the drilling assembly 9 to move along the X-axis; a Z-axis adjuster 8 to drive the drilling assembly 9 to move along the Z-axis; so that the drilling assembly 9 can be moved to any position above the clamped and fixed engine water chamber to complete the drilling operation.

Based on the scheme:

The Y-axis moving part comprises a Y-axis adjusting screw 10 and a Y-axis guide rod 11;

Wherein the Y-axis adjusting screw 10 is rotatably arranged on the support frame 7 along the Y-axis direction and is in threaded connection with the X-axis moving part;

The Y-axis guide rod 11 is rotatably arranged on the support frame 7 along the Y-axis direction and is arranged at intervals with the Y-axis adjusting screw 10, and the Y-axis guide rod 11 is slidably connected with the X-axis moving part.

Here:

One end of the Y-axis adjusting screw 10 can be connected with a motor for driving the Y-axis adjusting screw 10 to rotate, power is provided for enabling the Y-axis adjusting screw 10 to rotate, the Y-axis guide rod 11 guides movement of the X-axis moving part, the X-axis moving part moves along the axial direction of the Y-axis adjusting screw 10, the X-axis moving part moves stably along the Y-axis, and the X-axis moving part drives the drilling assembly 9 to move along the Y-axis through the Z-axis adjuster 8 in the moving process.

Further, the X-axis moving part comprises a connector 12, an X-axis adjusting screw and an X-axis guide rod 13;

Wherein, the number of the connectors 12 is two, one connector 12 is connected with the Y-axis adjusting screw 10 by screw threads, and the other connector 12 is connected with the Y-axis guide rod 11 in a sliding way;

The X-axis adjusting screw is rotatably connected between the two connectors 12 and is in threaded connection with the Z-axis adjuster 8;

the X-axis guide rod 13 is rotatably connected between the two connecting heads 12 and is slidingly connected with the Z-axis adjuster 8.

Specifically:

One end of the X-axis adjusting screw rod can be connected with a motor for driving the X-axis adjusting screw rod to rotate, so that power is provided for driving the X-axis adjusting screw rod to rotate, and the X-axis guide rod 13 guides the movement of the Z-axis adjuster 8, so that the Z-axis adjuster 8 moves along the axial direction of the X-axis adjusting screw rod, namely the Z-axis adjuster 8 stably moves along the X-axis, and the Z-axis adjuster 8 drives the drilling assembly 9 to move along the X-axis in the moving process.

Further, the Z-axis adjuster 8 may be a cylinder to move the drilling assembly 9 along the Z-axis.

The design of the Z-axis regulator 8, the X-axis moving part and the Y-axis moving part is integrated, so that the drilling assembly 9 can move along the X-axis, the Y-axis and the Z-axis directions, and the drilling assembly 9 can move to any position above the clamped and fixed engine water chamber, thereby completing the drilling work.

Wherein the drilling assembly 9 may be an existing drilling machine, and will not be described in any great detail herein.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered by the scope of the claims of the present utility model.

Claims (8)

1. An engine water chamber drilling apparatus, comprising:

The operation table is characterized in that the top of the operation table is detachably connected with a positioning assembly, the positioning assembly comprises a plurality of positioning clamping blocks, and the positioning clamping blocks are circumferentially arranged at the top of the operation table and are slidably arranged close to or far from the central axis of the operation table;

And the drilling assembly is connected above the operating platform through a position adjusting mechanism so as to move at any position on the top surface of the operating platform.

2. An engine water chamber drilling apparatus as defined in claim 1, wherein: the positioning assembly further comprises a positioning support plate, the positioning support plate is detachably connected to the top of the operating platform, and the positioning clamping blocks are slidably connected to the top of the positioning support plate.

3. An engine water chamber drilling apparatus as defined in claim 2, wherein: the number of the positioning clamping blocks is four, the positioning clamping blocks are arranged in pairs, and an adjusting screw rod arranged in the positioning supporting plate is connected between the two positioning clamping blocks in each pair.

4. An engine water chamber drilling apparatus as defined in claim 2, wherein: the bottom of the positioning support plate is connected with a plurality of positioning rods, the top of the operating table is provided with a plurality of positioning holes, and the positioning rods penetrate through the positioning holes in a one-to-one correspondence manner and are matched with locking rods connected with the bottom of the operating table to be locked and fixed.

5. An engine water chamber drilling apparatus as set forth in claim 4 wherein each of said locking bars is slidably connected at one end to the bottom of the operating table and at the other end to the mating locating bar, each locking bar being further disposed vertically between the mating locating bars.

6. An engine water chamber drilling apparatus as defined in claim 1, wherein: the position adjustment mechanism links to each other with the operation panel through the support frame, and the position adjustment mechanism includes:

the output shaft at the bottom of the Z-axis adjuster is connected with the drilling assembly;

The X-axis moving part is connected with the Z-axis adjuster and used for driving the Z-axis adjuster to move along the X axis;

And the Y-axis moving part is connected with the support frame and also connected with the X-axis moving part and used for driving the X-axis moving part to move along the Y axis.

7. The engine water chamber drilling apparatus as set forth in claim 6, wherein said Y-axis moving portion includes:

The Y-axis adjusting screw is rotationally arranged on the support frame along the Y-axis direction and is in threaded connection with the X-axis moving part;

The Y-axis guide rod is rotationally arranged on the support frame along the Y-axis direction and is arranged at intervals with the Y-axis adjusting screw rod, and the Y-axis guide rod is connected with the X-axis moving part in a sliding manner.

8. The engine water chamber drilling apparatus as set forth in claim 7, wherein said X-axis moving portion includes:

The two connectors are connected with one connector through threads with the Y-axis adjusting screw rod, and the other connector is connected with the Y-axis guide rod in a sliding manner;

the X-axis adjusting screw is rotationally connected between the two connectors and is in threaded connection with the Z-axis adjuster;

The X-axis guide rod is rotationally connected between the two connectors and is connected with the Z-axis adjuster in a sliding way.