CN-224209474-U - Milling machine workbench

Abstract

The utility model discloses a milling machine workbench which comprises a workbench base, a T-shaped groove, a dust outlet, an electrostatic assembly and an air outlet, wherein a plurality of T-shaped grooves are formed in the workbench base, the dust outlet is arranged below the T-shaped groove, the dust outlet is communicated with the T-shaped groove, the other end of the dust outlet penetrates out of the workbench base, part of the electrostatic assembly is inserted into the dust outlet and extends out of the dust outlet, the air outlet is arranged outside the workbench base, and the air outlet extends into the dust outlet. According to the utility model, the dust outlet, the electrostatic assembly inserted in the dust outlet and the air outlet are arranged in the workbench bottom support in a penetrating manner, so that when the workbench bottom support is used, the dust outlet can suck out the scraps in the T-shaped groove through the air outlet, and meanwhile, the scraps remained in the T-shaped groove can be adsorbed on the electrostatic plate after the electrostatic assembly is powered on, so that the residual degree of the scraps in the T-shaped groove is reduced.

Inventors

• YUE HAO
• ZHAO CHAODONG

Assignees

• 成都市新都区竞易行数控科技有限公司

Dates

Publication Date

20260508

Application Date

20250610

Claims (8)

1. 1. A milling machine table, comprising: A plurality of T-shaped grooves are formed in the workbench bottom support; The dust outlet is arranged below the T-shaped groove, the dust outlet is communicated with the T-shaped groove, and the other end of the dust outlet penetrates out of the workbench bottom support; the electrostatic assembly is inserted into the dust outlet and extends out of the dust outlet; The air outlet is arranged outside the workbench bottom support, and extends into the dust outlet.
2. 2. The milling machine table of claim 1, wherein the dust outlet comprises a first chamber and a second chamber, and the first chamber is disposed on the second chamber.
3. 3. A milling machine table according to claim 2 wherein the first chamber communicates with the bottom of the T-shaped slot and the second chamber extends beyond the table mount away from the end of the first chamber.
4. 4. A milling machine table according to claim 3, wherein the electrostatic assembly comprises an electrostatic plate inserted in the second chamber, the end of the electrostatic plate remote from the second chamber extending outside the second chamber and having an outer plate attached thereto.
5. 5. The milling machine table according to claim 4, wherein the side surface of the outer plate located in the second chamber is connected with a sealing gasket, and four peripheral sides of the sealing gasket are abutted against four peripheral sides of the second chamber.
6. 6. The milling machine table of claim 5, wherein the end of the outer plate remote from the gasket is connected with a wiring port, and the wiring port is connected with an external power supply through a wire.
7. 7. A milling machine table according to claim 1, wherein a support plate is attached to one side of the table shoe, the support plate being located on the outer surface of the table shoe above the electrostatic assembly.
8. 8. A milling machine table according to claim 7, wherein the table base is connected to a bevel work plate on one side of the support plate opposite to the support plate, the bevel work plate being of bevel design.

Description

Milling machine workbench Technical Field The utility model relates to the technical field of milling machine work, in particular to a milling machine work table. Background Milling machine tables are typically made of cast iron and have T-shaped and bar-shaped grooves on the surface for securing the workpiece and the fixture. When the mechanical structure such as the screw nut pair is replaced, fragments in the T-shaped groove and the strip-shaped groove of the mechanical structure can cause the phenomenon of silting, so that the mechanical structure such as the screw nut pair is inconvenient to replace. Disclosure of utility model The utility model aims to provide a milling machine workbench, which aims to solve the problem that when mechanical structures such as a screw nut pair and the like are replaced in the prior art, fragments in a T-shaped groove and a strip-shaped groove of the milling machine workbench can cause accumulation of the mechanical structures, so that the mechanical structures such as the screw nut pair and the like are inconvenient to replace. The milling machine workbench comprises a workbench bottom support, a T-shaped groove, a dust outlet, an electrostatic assembly and an air outlet, wherein a plurality of T-shaped grooves are formed in the workbench bottom support, the dust outlet is arranged below the T-shaped groove and communicated with the T-shaped groove, the other end of the dust outlet penetrates through the workbench bottom support, part of the electrostatic assembly is inserted into the dust outlet and extends out of the dust outlet, the air outlet is arranged outside the workbench bottom support, and the air outlet extends into the dust outlet. Preferably, the dust outlet comprises a first chamber and a second chamber, and the first chamber is arranged on the second chamber. Preferably, the first chamber is in communication with the bottom of the "T" shaped slot, and the second chamber extends beyond the table mount away from the end of the first chamber. Preferably, the electrostatic assembly comprises an electrostatic plate inserted in the second chamber, and the end part of the electrostatic plate away from the second chamber extends out of the second chamber and is connected with an outer plate. Preferably, the side surface of the outer plate positioned in the second cavity is connected with a sealing gasket, and four peripheral sides of the sealing gasket are abutted against four peripheral sides of the second cavity. Preferably, the end part of the outer plate far away from the sealing gasket is connected with a wiring port, and the wiring port is connected with an external power supply through a wire. Preferably, a support plate is connected to one side of the workbench base, and the support plate is located on the outer surface of the workbench base above the electrostatic assembly. Preferably, the workbench bottom support is positioned on one side of the opposite surface of the supporting plate and is connected with an inclined surface working plate, and the inclined surface working plate is designed into an inclined surface. Compared with the prior art, the milling machine workbench has the beneficial effects that the dust outlet, the electrostatic assembly and the air outlet which are arranged in the workbench base in a penetrating way are arranged in the workbench base, and the dust outlet is inserted into the dust outlet, so that during use, the dust outlet can suck out the scraps in the T-shaped groove through the air outlet, and meanwhile, the scraps remained in the T-shaped groove can be adsorbed on the electrostatic plate after the electrostatic assembly is powered on, so that the residual degree of the scraps in the T-shaped groove is reduced. Drawings FIG. 1 is a schematic diagram of a front view of the present utility model; FIG. 2 is a schematic cross-sectional view of the present utility model; FIG. 3 is a schematic top view of the present utility model; Fig. 4 is a partially enlarged schematic construction of the present utility model. In the figure: 1. The working table comprises a working table base, 11 inclined working plates, 12, a supporting plate, 13, a T-shaped groove, 14, an air outlet, 2, an electrostatic assembly, 21, an outer plate, 22, an electrostatic plate, 23, a sealing gasket, 24, a wiring port, 3, a dust outlet, 31, a first chamber, 32 and a second chamber. Detailed Description The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model. Example 1 As shown in figures 1-4, the milling machine workben