CN215147399U - High-precision numerical control gantry machining center multi-axis linkage device - Google Patents

Abstract

The utility model relates to the technical field of numerical control machining equipment, in particular to a multi-shaft linkage device of a high-precision numerical control gantry machining center, which comprises a numerical control gantry machining center, an electrical box is fixedly arranged on one side of the numerical control gantry machining center, observation windows are embedded and arranged on two sides of the base plane of the numerical control gantry machining center, the outer end of the observation window is connected with a protective cover in a sliding way, one side of the protective cover is positioned at two sides of the longer side of the numerical control gantry machining center and is respectively provided with a first machining cavity and a second machining cavity, the inner ends of the first machining cavity and the second machining cavity are combined and connected with a linkage device, can drive first processing head and second processing head simultaneously through aggregate unit and carry out the processing work, improve machining efficiency, be applicable to the great work of handling capacity and use, improve work efficiency for higher high efficiency during the equipment uses.

Description

High-precision numerical control gantry machining center multi-axis linkage device

Technical Field

The utility model relates to a numerical control processing equipment technical field specifically is a high accuracy numerical control longmen machining center multiaxis aggregate unit.

Background

The gantry machining center is a machining center with a main shaft axis perpendicular to a workbench, is mainly suitable for machining large parts, and comprises a fixed beam type (beam fixing, workbench moving/rotating), a movable beam type (beam moving up and down and workbench moving back and forth), a movable column type (workbench fixing and gantry moving), a crown type (workbench fixing and beam moving), and a multi-class gantry machining center in the above composite form.

At present, a numerical control gantry machining center on the market usually only has one group of machining devices, and the next group of machining work can be performed only after one group of machining is completed, so that the machining efficiency is low, and the numerical control gantry machining center is very inconvenient to use.

Therefore, a high-precision numerical control gantry machining center multi-axis linkage device needs to be designed to solve the problems in the background art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high accuracy numerical control longmen machining center multiaxis aggregate unit to solve the problem that provides among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a high accuracy numerical control longmen machining center multiaxis aggregate unit, includes numerical control longmen machining center, one side fixed mounting of numerical control longmen machining center has the electric box, the embedded observation window of installing in numerical control longmen machining center base face both sides, the outer end sliding connection of observation window has the protection casing, first processing chamber and second processing chamber have been seted up respectively to one side of protection casing in the both sides of the longer limit of numerical control longmen machining center, the inner combined connection in first processing chamber and second processing chamber has aggregate unit, the aggregate unit in first processing chamber inner includes motor, first bevel gear, second bevel gear, universal driving shaft, third bevel gear, first drive shaft and first processing head, the aggregate unit in second processing chamber inner includes fourth bevel gear, fifth bevel gear, second drive shaft and second processing head.

As the utility model discloses preferred scheme, the embedded inner wall of installing in first process chamber of motor, first bevel gear and second bevel gear meshing are connected, second bevel gear and third bevel gear meshing are connected, the bottom of first drive shaft is connected in first process head.

As the utility model discloses preferred scheme, meshing connection between fourth bevel gear and the fifth bevel gear, the bottom of second drive shaft is connected in the second processing head.

As the utility model discloses preferred scheme, connect through the universal driving shaft between second bevel gear and the fifth bevel gear.

As the utility model discloses preferred scheme, the one end sliding connection that the universal driving shaft is close to second bevel gear has first fixed cover, one side sliding connection that the universal driving shaft is close to fifth bevel gear has the fixed cover of second.

As the utility model discloses preferred scheme, numerical control longmen machining center top is located the both sides of shorter side and is fixed with the lifting hook.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses in, through the aggregate unit who sets up, can drive first processing head and second processing head simultaneously through aggregate unit and carry out processing work simultaneously, improved machining efficiency, be applicable to the great work of work volume and use, improved work efficiency for more high-efficient when equipment uses.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of a linkage device inside a first processing chamber of the present invention;

FIG. 3 is a schematic structural view of a linkage device inside a second processing chamber according to the present invention;

FIG. 4 is an enlarged schematic view of point A of the present invention;

in the figure: 1. a numerical control gantry machining center; 101. an electric box; 102. an observation window; 1021. a protective cover; 103. a first processing cavity; 104. a second processing cavity; 2. a linkage device; 201. a motor; 202. a first bevel gear; 203. a second bevel gear; 204. a linkage shaft; 2041. a first fixing sleeve; 2042. a second fixing sleeve; 205. a third bevel gear; 206. a first drive shaft; 207. a first processing head; 208. a fourth bevel gear; 209. a fifth bevel gear; 210. a second drive shaft; 211. a second processing head; 3. and (4) a lifting hook.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the scope of the present invention based on the embodiments of the present invention.

Please refer to fig. 1-4, the present invention provides a technical solution:

a high-precision numerical control gantry machining center multi-axis linkage device comprises a numerical control gantry machining center 1, an electric box 101 is fixedly installed on one side of the numerical control gantry machining center 1, observation windows 102 are embedded in two sides of a base surface of the numerical control gantry machining center 1, the outer ends of the observation windows 102 are connected with a protective cover 1021 in a sliding mode, a first machining cavity 103 and a second machining cavity 104 are respectively formed in one side of the protective cover 1021, the two sides of the longer side of the numerical control gantry machining center 1, the inner ends of the first machining cavity 103 and the second machining cavity 104 are connected with a linkage device 2 in a combined mode, the linkage device 2 in the inner end of the first machining cavity 103 comprises a motor 201, a first bevel gear 202, a second bevel gear 203, a linkage shaft 204, a third bevel gear 205, a first driving shaft 206 and a first machining head 207, the linkage device 2 in the inner end of the second machining cavity 104 comprises a fourth bevel gear 208, a fifth bevel gear 209, a second driving shaft 210 and a second machining head 211, the utility model discloses a linkage 2 can drive first processing head 207 and second processing head 211 simultaneously and carry out the processing work, has improved machining efficiency, is applicable to the great work of handling capacity and uses, has improved work efficiency for higher high efficiency during the equipment use.

In an embodiment, referring to fig. 1, 2, 3 and 4, a motor 201 is embedded in an inner wall of a first processing chamber 103, a first bevel gear 202 is in meshed connection with a second bevel gear 203, a second bevel gear 203 is in meshed connection with a third bevel gear 205, the bottom of a first driving shaft 206 is connected to a first processing head 207, a fourth bevel gear 208 is in meshed connection with a fifth bevel gear 209, the bottom of a second driving shaft 210 is connected to a second processing head 211, the second bevel gear 203 is connected with the fifth bevel gear 209 through a linkage shaft 204, one end of the linkage shaft 204 close to the second bevel gear 203 is connected with a first fixing sleeve 2041 in a sliding manner, one side of the linkage shaft 204 close to the fifth bevel gear 209 is connected with a second fixing sleeve 2042 in a sliding manner, and through a set linkage device 2, the first processing head 207 and the second processing head 211 can be simultaneously driven to perform processing work through the linkage device 2, the machining efficiency is improved, in practical use, the motor 201 rotates to drive the first bevel gear 202 to rotate, the first bevel gear 202 drives the second bevel gear 203 to rotate, the second bevel gear 203 drives the fifth bevel gear 209 to rotate through the universal driving shaft 204, the fifth bevel gear 209 drives the fourth bevel gear 208 at the bottom to rotate, the fourth bevel gear 208 drives the second machining head 211 at the bottom to rotate through the second driving shaft 210, meanwhile, the second bevel gear 203 drives the third bevel gear 205 to rotate, the third bevel gear 205 drives the first machining head 207 at the bottom to rotate through the first driving shaft 206, and then the motor 201 drives the first machining head 207 and the second machining head 211 to perform machining work at the same time, so that the machining amount can be improved, the device is suitable for use in work with larger machining amount, the working efficiency is improved, and the device is more efficient in use.

In the embodiment, referring to fig. 1, the lifting hooks 3 are fixed on two sides of the shorter side of the top of the numerical control gantry machining center 1, and the numerical control gantry machining center 1 can be lifted through the lifting hooks 3, so that the transportation is facilitated.

The working principle is as follows: during the use, the first bevel gear 202 is driven to rotate through the rotation of the motor 201, the first bevel gear 202 drives the second bevel gear 203 to rotate, the second bevel gear 203 drives the fifth bevel gear 209 to rotate through the universal driving shaft 204, the fifth bevel gear 209 drives the fourth bevel gear 208 at the bottom to rotate, the fourth bevel gear 208 drives the second processing head 211 at the bottom to rotate through the second driving shaft 210, meanwhile, the second bevel gear 203 drives the third bevel gear 205 to rotate, the third bevel gear 205 drives the first processing head 207 at the bottom to rotate through the first driving shaft 206, and then the first processing head 207 and the second processing head 211 are driven to perform processing work through the motor 201, so that the processing amount can be increased, the device is suitable for the work with larger processing amount, the working efficiency is increased, and the device has certain popularization value.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a high accuracy numerical control longmen machining center multiaxis aggregate unit, includes numerical control longmen machining center (1), its characterized in that: one side fixed mounting of numerical control longmen machining center (1) has electric box (101), embedded observation window (102) of installing in numerical control longmen machining center (1) base plane both sides, the outer end sliding connection of observation window (102) has protection casing (1021), first processing chamber (103) and second processing chamber (104) have been seted up respectively to one side of protection casing (1021) both sides that are located numerical control longmen machining center (1) longer limit, the inner combined connection of first processing chamber (103) and second processing chamber (104) has linkage assembly (2), linkage assembly (2) in first processing chamber (103) inner include motor (201), first bevel gear (202), second bevel gear (203), universal driving shaft (204), third bevel gear (205), first drive shaft (206) and first processing head (207), linkage assembly (2) in second processing chamber (104) inner include fourth bevel gear (208), A fifth bevel gear (209), a second drive shaft (210), and a second machining head (211).

2. The multi-axis linkage device for the high-precision numerical control gantry machining center according to claim 1, characterized in that: the motor (201) is embedded in the inner wall of the first machining cavity (103), the first bevel gear (202) is in meshed connection with the second bevel gear (203), the second bevel gear (203) is in meshed connection with the third bevel gear (205), and the bottom of the first driving shaft (206) is connected to the first machining head (207).

3. The multi-axis linkage device for the high-precision numerical control gantry machining center according to claim 1, characterized in that: the fourth bevel gear (208) and the fifth bevel gear (209) are in meshed connection, and the bottom of the second driving shaft (210) is connected to a second processing head (211).

4. A high precision numerically controlled gantry machining center multi-axis linkage as claimed in claim 1, 2 or 3, wherein: the second bevel gear (203) and the fifth bevel gear (209) are connected through a linkage shaft (204).

5. The multi-axis linkage device for the high-precision numerical control gantry machining center according to claim 4, characterized in that: one end of the linkage shaft (204) close to the second bevel gear (203) is connected with a first fixing sleeve (2041) in a sliding mode, and one side of the linkage shaft (204) close to the fifth bevel gear (209) is connected with a second fixing sleeve (2042) in a sliding mode.

6. The multi-axis linkage device for the high-precision numerical control gantry machining center according to claim 1, characterized in that: lifting hooks (3) are fixed on two sides of the shorter side of the top of the numerical control gantry machining center (1).

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