CN219944712U - Heating module processingequipment - Google Patents

Abstract

The utility model aims to provide a heating module processing device which is convenient for secondary processing, is beneficial to operation and is accurate in alignment. The utility model comprises a carrier, a Z-axis movement module, a conversion head and an XYZ high-precision adjustment seat, wherein the carrier is arranged at the fixed end of the Z-axis movement module, the conversion head is arranged at the movable end of the Z-axis movement module, the XYZ high-precision adjusting seat is arranged on the carrying platform, a plurality of mounting hole groups matched with a heating module to be processed are arranged on the XYZ high-precision adjusting seat, and the conversion head is detachably provided with a detection pin and a drill bit. The utility model relates to the technical field of secondary convenient processing of a heating module.

Description

Heating module processingequipment

Technical Field

The utility model relates to the technical field of secondary convenient processing of heating modules, in particular to a heating module processing device.

Background

In current production field, often can use the heating module, and the heating module often need process it before using, because the heating module is when processing the improper problem of counterpoint or processing size appears easily, consequently can often have the problem that there is the error in primary processing, and this error can cause the unable normal assembly of heating module and use.

When the heating module of some equipment is used, due to the problems of assembly, processing or design, the situation that the size of some hole sites does not meet the use requirement can occur, and at the moment, the parts are required to be processed for the second time to adjust the deviation. Most of the existing schemes adopt the method of disassembling parts for reworking or reworking the parts, and the scheme is time-consuming and labor-consuming and inconvenient to operate under the condition of time shortage. In addition, damage is easy to occur in the process of disassembly and reassembly, and the assembled size of the reworked part can be disqualified.

In the existing heating module processing equipment, the milling machine is directly used for processing, so that the milling machine is very inconvenient to manually place in alignment, and the position adjustment for secondary processing after placing is very troublesome, so that a processing tool with convenient position adjustment and accurate processing position is required.

The utility model discloses a bench drill with an automatic calibration function for drilling, which is characterized in that a telescopic column is used to achieve the purpose of moving a drill rod up and down, and a calibration bin is used to realize automatic calibration of the drill rod, but the scheme can not realize quick calibration of a heating module after processing and only realize calibration of the drill rod of the heating module.

Disclosure of Invention

The utility model aims to solve the technical problems of overcoming the defects of the prior art, providing a heating module processing device which is convenient and fast to carry out secondary processing, is beneficial to operation and is accurate in alignment, and solving the problems that the conventional heating module processing device needs to carry out verification after processing, so that the secondary processing cannot be directly carried out, the operation is inconvenient, the alignment is inaccurate and the like.

The technical scheme adopted by the utility model is as follows: the utility model comprises a carrier, a Z-axis movement module, a conversion head and an XYZ high-precision adjustment seat, wherein the carrier is arranged at the fixed end of the Z-axis movement module, the conversion head is arranged at the movable end of the Z-axis movement module, the XYZ high-precision adjusting seat is arranged on the carrying platform, a plurality of mounting hole groups matched with a heating module to be processed are arranged on the XYZ high-precision adjusting seat, and the conversion head is detachably provided with a detection pin and a drill bit.

The X-axis micrometer adjusting seat comprises an X-axis micrometer adjusting seat and a Y-axis micrometer adjusting seat, wherein the X-axis micrometer adjusting seat is arranged on the support, the Y-axis micrometer adjusting seat is arranged on the support, the X-axis micrometer adjusting seat is arranged on the support, and the Z-axis micrometer adjusting seat is arranged on the support.

The Z-axis high-precision adjusting seat comprises a Z-axis high-precision adjusting seat, and is characterized in that an L-shaped processing table is arranged at the movable end of the Z-axis high-precision adjusting seat, a mounting hole group is arranged on the L-shaped processing table and comprises a plurality of screw holes, a plurality of positioning pin holes and a plurality of spring pin holes, a plurality of mounting screws, a plurality of positioning pins and a plurality of spring pins are arranged on the heating module, the mounting screws are matched with the screw holes, the positioning pins are matched with the positioning pin holes, and the spring pins are matched with the spring pin holes.

In one preferred scheme, the inspection pin comprises a column body and inspection heads distributed at two ends of the pin column, and the inspection heads and the column body are respectively in clamping fit with the conversion head and in detection fit with the heating module.

The beneficial effects of the utility model are as follows:

according to the utility model, when the heating module to be processed is firstly placed on the L-shaped processing table, the positioning pin is firstly used for guiding and positioning, then the positioning pin is used for fixing the positioning module, after the positioning is finished, the Y-axis micrometer adjuster and the X-axis micrometer adjuster are respectively adjusted to adjust the position in the XY axis direction with high precision, then the Z-axis micrometer adjuster is rotated, the position of the XYZ high-precision adjusting seat in the Z axis direction is adjusted with high precision, so that the inspection pin is close to the heating module, if the inspection head on the inspection pin cannot be normally inserted into the heating module, secondary processing is needed, if secondary processing is not needed when the inspection head can be normally inserted into the heating module, the inspection head is taken down, the drill bit to be used is inserted into the conversion head and is fixed, then the conversion head is driven to move downwards for processing through the Z-axis movement module, and the inspection pin is replaced for alignment inspection after the processing is finished, and therefore the quick and efficient position adjustment is achieved, and the secondary processing is very convenient.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of the XYZ high-precision adjusting seat at a first view angle;

FIG. 3 is a second view angle schematic of the XYZ high precision adjusting seat;

fig. 4 is an exploded view of the installation of the L-shaped processing table and the heating module.

Description of the embodiments

For a clearer understanding of the features and advantages of the present utility model, the utility model is further illustrated by way of example in conjunction with figures 1 to 4. In this embodiment, the utility model includes a carrier 1, a Z-axis moving module 2, a conversion head 3 and an XYZ high-precision adjusting seat 4, the carrier 1 is disposed at a fixed end of the Z-axis moving module 2, the conversion head 3 is disposed at a movable end of the Z-axis moving module 2, the XYZ high-precision adjusting seat 4 is disposed on the carrier 1, a plurality of mounting hole groups 6 matched with a heating module 5 to be processed are disposed on the XYZ high-precision adjusting seat 4, the XYZ high-precision adjusting seat 4 can conveniently adjust a processing position, and a test pin 31 and a drill bit are detachably disposed on the conversion head 3, so that the test pin 31 can be replaced quickly after one-time processing is completed, and secondary direct processing is facilitated.

In this embodiment, the XYZ high-precision adjustment base 4 includes an XY-axis high-precision adjustment base 41 and a Z-axis high-precision adjustment base 42, the XY-axis high-precision adjustment base 41 is disposed on the carrier 1, the Z-axis high-precision adjustment base 42 is disposed at a movable end of the XY-axis high-precision adjustment base 41, the XY-axis high-precision adjustment base 41 is provided with a Y-axis micrometer adjuster 43 and an X-axis micrometer adjuster 44 from bottom to top, the Z-axis high-precision adjustment base 42 is provided with a Z-axis micrometer adjuster 45, and the Y-axis micrometer adjuster 43, the X-axis micrometer adjuster 44, and the Z-axis micrometer adjuster 45 can effectively improve the positional precision before the heating module 5 is processed, and thereby, the positional adjustment of high precision can be facilitated before the secondary processing after verification is performed, so as to adjust to a suitable processing position.

In this embodiment, the movable end of the Z-axis high-precision adjusting seat 42 is provided with an L-shaped processing table 421, the mounting hole set 6 is disposed on the L-shaped processing table 421, the mounting hole set 6 includes a plurality of screw holes 61, a plurality of positioning pin holes 62 and a plurality of spring pin holes 63, the heating module 5 is provided with a plurality of mounting screws 51, a plurality of positioning pins 52 and a plurality of spring pins 53, the mounting screws 51 are matched with the screw holes 61, the positioning pins 52 are matched with the positioning pin holes 62, the spring pins 53 are matched with the spring pin holes 63, and stability of the L-shaped processing table 421 and the heating module 5 is improved.

In this embodiment, the inspection pin 31 includes a shaft 311 and inspection heads 312 distributed at two ends of the shaft 311, the inspection heads 312 and the shaft 311 are respectively clamped and matched with the conversion head 3 and the detection and matching of the heating module 5, the inspection heads 312 at two ends of the shaft 311 can facilitate the inspection pin 31 to be clamped by the conversion head 3, and the inspection of the heating module 5 is also facilitated because the two ends of the inspection heads 312 are not differentiated.

The working method of the utility model comprises the following steps:

when the utility model is used, firstly, the heating module 5 to be processed is placed on the L-shaped processing table 421, the positioning pin 52 is used for guiding and positioning, then the mounting screw 51 is used for fixing, after fixing, the Y-axis micrometer adjuster 43 and the X-axis micrometer adjuster 44 are respectively adjusted to high-precision adjust the position in the XY axis direction, then the Z-axis micrometer adjuster 45 is rotated to high-precision adjust the position of the XYZ high-precision adjusting seat 4 in the Z axis direction, so that the inspection pin 31 is close to the heating module 5, if the inspection head 312 on the inspection pin 31 cannot be normally inserted into the heating module 5, secondary processing is needed, if the inspection pin 31 can be normally inserted, secondary processing is not needed, when secondary processing is carried out, the inspection head 312 is taken down, the drill bit to be used is inserted into the conversion head 3 and fixed, then the conversion head 3 is driven to move downwards by the Z-axis movement module 2 to carry out processing, after finishing inspection, the inspection pin 31 is carried out, and the secondary processing is carried out, thereby the alignment position is very fast and the high-precision adjustment is realized, and the secondary processing is very fast.

While the embodiments of this utility model have been described in terms of practical aspects, they are not to be construed as limiting the meaning of this utility model, and modifications to the embodiments and combinations with other aspects thereof will be apparent to those skilled in the art from this description.

Claims (4)

1. The utility model provides a heating module processingequipment, it includes microscope carrier (1), Z axle motion module (2), conversion head (3) and XYZ high accuracy adjustment seat (4), its characterized in that, microscope carrier (1) set up the stiff end of Z axle motion module (2), conversion head (3) set up the expansion end of Z axle motion module (2), XYZ high accuracy adjustment seat (4) set up on microscope carrier (1), be provided with a plurality of and wait to process heating module (5) matched with mounting hole group (6) on XYZ high accuracy adjustment seat (4), can dismantle on conversion head (3) and be provided with inspection round pin (31) and drill bit.

2. The heating module machining device according to claim 1, wherein the XYZ high-precision adjusting seat (4) comprises an XY-axis high-precision adjusting seat (41) and a Z-axis high-precision adjusting seat (42), the XY-axis high-precision adjusting seat (41) is arranged on the carrying table (1), the Z-axis high-precision adjusting seat (42) is arranged at a movable end of the XY-axis high-precision adjusting seat (41), the XY-axis high-precision adjusting seat (41) is respectively provided with a Y-axis micrometer adjuster (43) and an X-axis micrometer adjuster (44) from bottom to top, and the Z-axis high-precision adjusting seat (42) is provided with a Z-axis micrometer adjuster (45).

3. The heating module machining device according to claim 2, wherein the movable end of the Z-axis high-precision adjusting seat (42) is provided with an L-shaped machining table (421), the mounting hole group (6) is arranged on the L-shaped machining table (421), the mounting hole group (6) comprises a plurality of screw holes (61), a plurality of positioning pin holes (62) and a plurality of spring pin holes (63), a plurality of mounting screws (51), a plurality of positioning pins (52) and a plurality of spring pins (53) are arranged on the heating module (5), the mounting screws (51) are matched with the screw holes (61), the positioning pins (52) are matched with the positioning pin holes (62), and the spring pins (53) are matched with the spring pin holes (63).

4. A heating module processing device according to claim 1, characterized in that the inspection pin (31) comprises a column shaft (311) and inspection heads (312) distributed at both ends of the pin, the inspection heads (312) and the column shaft (311) being respectively in clamping fit with the conversion head and in detection fit with the heating module (5).