CN216326749U - A raw materials cutting structure for producing millimeter wave antenna - Google Patents

Abstract

The utility model provides a raw material cutting structure for producing a millimeter wave antenna, which comprises the following components: the cutting and processing platform is installed on the equipment supporting frame, a cutting fixed clamp and a cutting movable clamp are arranged on the upper side of the cutting and processing platform, millimeter wave antenna raw materials are clamped and fixed between the cutting fixed clamp and the cutting movable clamp, the cutting fixed clamp and the cutting movable clamp are fixedly installed on the cutting and processing platform through fixing bolts, a cutting equipment bearing platform is arranged on one side between the cutting fixed clamp and the cutting movable clamp, and a plurality of raw material cutting devices are arranged on the cutting equipment bearing platform.

Description

A raw materials cutting structure for producing millimeter wave antenna

Technical Field

The utility model relates to the technical field of millimeter wave antennas, in particular to a raw material cutting structure for producing a millimeter wave antenna.

Background

An antenna is a transducer that converts a guided wave propagating on a transmission line into an electromagnetic wave propagating in an unbounded medium (usually free space) or vice versa. A component for transmitting or receiving electromagnetic waves in a radio device. Engineering systems such as radio communication, broadcasting, television, radar, navigation, electronic countermeasure, remote sensing, radio astronomy and the like all use electromagnetic waves to transmit information and work by depending on antennas. In addition, in transferring energy with electromagnetic waves, non-signal energy radiation also requires antennas. Millimeter wave (millimeter wave): electromagnetic waves with the wavelength of 1-10 mm are called millimeter waves and are located in the overlapping wavelength range of microwave and far infrared waves, so that the electromagnetic wave has the characteristics of two wave spectrums. Millimeter waves have numerous applications in the fields of communications, radar, remote sensing, and radio astronomy.

However, most of the existing raw material cutting is performed by manually holding a cutting tool, so that the cutting efficiency is low, and the potential safety hazard is large.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the present invention is to provide a raw material cutting structure for producing millimeter wave antennas, so as to solve the problems proposed in the background art.

The technical problem solved by the utility model is realized by adopting the following technical scheme: a stock cutting structure for producing millimeter wave antennas, comprising: the cutting and processing platform is arranged on the equipment supporting frame, a cutting fixed clamp and a cutting movable clamp are arranged on the upper side of the cutting and processing platform, millimeter wave antenna raw materials are clamped and fixed between the cutting fixed clamp and the cutting movable clamp, the cutting fixed clamp and the cutting movable clamp are fixedly arranged on the cutting and processing platform through fixing bolts, a cutting equipment bearing platform is arranged on one side between the cutting fixed clamp and the cutting movable clamp, a plurality of raw material cutting devices are arranged on the cutting equipment bearing platform, the cutting equipment bearing platform comprises a cutting equipment fixing plate, a fixing plate driving block is arranged on the upper side of the cutting equipment fixing plate, the fixing plate driving block is arranged on the output end of a fixing plate driving cylinder, the cylinder body of the fixing plate driving cylinder is arranged on a cylinder fixing seat, the cylinder fixing seat is arranged on a movable supporting seat through a rotary supporting shaft, the movable supporting seat is fixedly installed on the cutting and machining platform, and a movable guiding device is arranged between the cutting equipment fixing plate and the cutting and machining platform.

The movable guide device comprises a movable guide sliding block and a movable guide sliding rail, the movable guide sliding block is slidably mounted on the movable guide sliding rail, the movable guide sliding rail is mounted on the cutting machining platform through a fixing bolt, and the movable guide sliding block is mounted on a fixing plate of the cutting equipment through a fixing bolt.

The raw material cutting device comprises a cutting tool, the cutting tool is fixed on a tool driving shaft, the tool driving shaft is installed on a driving shaft installation seat through a driving shaft installation bearing, the driving shaft installation seat is installed on a cutting equipment fixing plate I through a tool installation support, the cutting equipment fixing plate I is installed on a cutting equipment bearing platform, and one end of the tool driving shaft is connected to a cutting driving device.

The cutting driving device comprises a cutting driving wheel, the cutting driving wheel is connected to a cutting driving wheel through a transmission belt, the cutting driving wheel is installed at the output end of a cutting driving motor, and a shell of the cutting driving motor is installed on a cutting equipment fixing plate I through a motor fixing seat.

The cutting fixture comprises a raw material fixing jig, the raw material fixing jig is installed on the jig fixing sleeve through a jig fixing clamp spring, the jig fixing sleeve is fixedly installed on the jig fixing frame, and a jig fixing plate is arranged at the lower end of the jig fixing frame.

The cutting moves anchor clamps and includes the fixed tool of raw materials, the fixed tool of raw materials is installed on the fixed sheathe of tool through the fixed jump ring of tool, the fixed cover fixed mounting of tool is on the anchor clamps mount, anchor clamps mount lower extreme is equipped with the anchor clamps fixed plate, the anchor clamps fixed plate is installed on the cutting machining platform through pressing from both sides tight guider, the fixed cover one side of tool is equipped with and presss from both sides tight drive arrangement, it installs on the cutting machining platform to press from both sides tight drive arrangement.

The clamping guide device comprises a clamping guide sliding block and a clamping guide sliding rail, the clamping guide sliding block is slidably mounted on the clamping guide sliding rail, the clamping guide sliding rail is fixedly mounted on the cutting machining platform, and the clamping guide sliding block is fixedly mounted on the fixture fixing plate.

The clamping driving device comprises a clamping driving rod, the clamping driving rod drives the output end of the air cylinder through clamping, the cylinder body of the air cylinder is installed on the air cylinder installing support through the air cylinder installing seat, and the air cylinder installing support is installed on the cutting and machining platform.

Compared with the prior art, the utility model has the beneficial effects that: the utility model can realize the stable and rapid clamping of the antenna raw material, complete the accurate and rapid cutting and greatly improve the cutting precision and the processing efficiency of the antenna raw material.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of a cutting movable clamp according to the present invention.

Fig. 3 is a schematic structural diagram of a carrying platform of the cutting device of the present invention.

Fig. 4 is a schematic structural diagram of the raw material cutting device of the present invention.

Detailed Description

In the description of the present invention, it should be noted that unless otherwise specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected, mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements.

Example 1

As shown in fig. 1-4, a raw material cutting structure for producing millimeter wave antenna includes: the cutting and processing platform 2 is arranged on the equipment supporting frame 1, the cutting and processing platform 2 is provided with a cutting fixed clamp 3 and a cutting movable clamp 4 at the upper side, the millimeter wave antenna raw material is clamped and fixed between the cutting fixed clamp 3 and the cutting movable clamp 4, the cutting fixed clamp 3 and the cutting movable clamp 4 are fixedly arranged on the cutting and processing platform 2 through fixing bolts, a cutting equipment bearing platform 5 is arranged at one side between the cutting fixed clamp 3 and the cutting movable clamp 4, a plurality of raw material cutting devices 6 are arranged on the cutting equipment bearing platform 5, the cutting equipment bearing platform 5 comprises a cutting equipment fixing plate 51, a fixing plate driving block 52 is arranged at the upper side of the cutting equipment fixing plate 51, the fixing plate driving block 52 is arranged at the output end of a fixing plate driving cylinder 53, the cylinder body of the fixing plate driving cylinder 53 is arranged on a cylinder fixing seat 54, the cylinder fixing seat 54 is installed on a movable supporting seat 55 through a rotary supporting shaft, the movable supporting seat 55 is fixedly installed on the cutting and machining platform 2, and a movable guiding device is arranged between the cutting equipment fixing plate 51 and the cutting and machining platform 2. The movable guide device comprises a movable guide sliding block 56 and a movable guide sliding rail 57, wherein the movable guide sliding block 56 is slidably mounted on the movable guide sliding rail 57, the movable guide sliding rail 57 is mounted on the cutting and machining platform 2 through a fixing bolt, and the movable guide sliding block 56 is mounted on the cutting equipment fixing plate 51 through a fixing bolt.

Example 2

As shown in fig. 1-4, a raw material cutting structure for producing millimeter wave antenna includes: the cutting and processing platform 2 is installed on the equipment supporting frame 1, the upper side of the cutting and processing platform 2 is provided with a cutting fixed clamp 3 and a cutting movable clamp 4, millimeter wave antenna raw materials are clamped and fixed between the cutting fixed clamp 3 and the cutting movable clamp 4, the cutting fixed clamp 3 and the cutting movable clamp 4 are fixedly installed on the cutting and processing platform 2 through fixing bolts, one side between the cutting fixed clamp 3 and the cutting movable clamp 4 is provided with a cutting equipment bearing platform 5, the cutting equipment bearing platform 5 is provided with a plurality of raw material cutting devices 6, each raw material cutting device 6 comprises a cutting tool 61, the cutting tool 61 is fixed on a tool driving shaft 62, the tool driving shaft 62 is installed on a driving shaft installing seat 63 through a driving shaft installing bearing, the driving shaft installing seat 63 is installed on a cutting equipment fixing plate I65 through a tool installing support 64, the cutting equipment fixing plate I65 is installed on the cutting equipment bearing platform 5, and one end of the cutter driving shaft 62 is connected with a cutting driving device. The cutting driving device comprises a cutting driving wheel 66, the cutting driving wheel 66 is connected to a cutting driving wheel 68 through a transmission belt 67, the cutting driving wheel 68 is installed on the output end of a cutting driving motor 69, and the shell of the cutting driving motor 69 is installed on a cutting equipment fixing plate I65 through a motor fixing seat 610.

Example 3

As shown in fig. 1-4, a raw material cutting structure for producing millimeter wave antenna includes: the cutting and processing platform 2 is arranged on the equipment support frame 1, the upper side of the cutting and processing platform 2 is provided with a cutting fixed clamp 3 and a cutting movable clamp 4, the millimeter wave antenna raw material is clamped and fixed between the cutting fixed clamp 3 and the cutting movable clamp 4, the cutting fixed clamp 3 and the cutting movable clamp 4 are fixedly arranged on the cutting and processing platform 2 through fixing bolts, a cutting equipment bearing platform 5 is arranged on one side between the cutting fixed clamp 3 and the cutting movable clamp 4, the cutting equipment bearing platform 5 is provided with a plurality of raw material cutting devices 6, the cutting fixed clamp 3 comprises a raw material fixed jig 31, the raw material fixing jig 31 is mounted on the jig fixing sleeve 33 through the jig fixing snap spring 32, the fixture fixing sleeve 33 is fixedly mounted on the fixture fixing frame 34, and the fixture fixing plate 35 is arranged at the lower end of the fixture fixing frame 34. The cutting moves anchor clamps 4 and includes the fixed tool 31 of raw materials, the fixed tool 31 of raw materials is installed on the fixed cover 33 of tool through the fixed jump ring 32 of tool, the fixed cover 33 fixed mounting of tool is on anchor clamps mount 34, the anchor clamps mount 34 lower extreme is equipped with anchor clamps fixed plate 35, anchor clamps fixed plate 35 is installed on cutting process platform 2 through pressing from both sides tight guider, the fixed cover 33 one side of tool is equipped with and presss from both sides tight drive arrangement, it installs on cutting process platform 2 to press from both sides tight drive arrangement. The clamping guide device comprises a clamping guide sliding block 46 and a clamping guide sliding rail 45, the clamping guide sliding block 46 is slidably mounted on the clamping guide sliding rail 45, the clamping guide sliding rail 45 is fixedly mounted on the cutting and machining platform 2, and the clamping guide sliding block 46 is fixedly mounted on the fixture fixing plate 35. The clamping driving device comprises a clamping driving rod 41, the clamping driving rod 41 drives the output end of a cylinder 42 through clamping, the cylinder body of the cylinder 42 is installed on a cylinder installation bracket 44 through a cylinder installation seat 43, and the cylinder installation bracket 44 is installed on the cutting and processing platform 2.

According to the utility model, the cutting fixed clamp 3 and the cutting movable clamp 4 are arranged on the upper side of the cutting and processing platform 2, the millimeter wave antenna raw material is clamped and fixed between the cutting fixed clamp 3 and the cutting movable clamp 4, the cutting fixed clamp 3 and the cutting movable clamp 4 are fixedly arranged on the cutting and processing platform 2 through the fixing bolts, the cutting equipment bearing platform 5 is arranged on one side between the cutting fixed clamp 3 and the cutting movable clamp 4, and the raw material cutting devices 6 are arranged on the cutting equipment bearing platform 5, so that the stable and rapid clamping of the antenna raw material can be realized, the accurate and rapid cutting can be completed, and the cutting precision and the processing efficiency of the antenna raw material are greatly improved.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (8)

1. A stock cutting structure for producing millimeter wave antennas, comprising: cutting process platform (2), cutting process platform (2) are installed on equipment support frame (1), its characterized in that: the cutting and processing device is characterized in that a cutting fixed clamp (3) and a cutting movable clamp (4) are arranged on the upper side of the cutting and processing platform (2), millimeter wave antenna raw material is clamped and fixed between the cutting fixed clamp (3) and the cutting movable clamp (4), the cutting fixed clamp (3) and the cutting movable clamp (4) are fixedly mounted on the cutting and processing platform (2) through fixing bolts, a cutting equipment bearing platform (5) is arranged on one side between the cutting fixed clamp (3) and the cutting movable clamp (4), a plurality of raw material cutting devices (6) are arranged on the cutting equipment bearing platform (5), the cutting equipment bearing platform (5) comprises a cutting equipment fixing plate (51), a fixing plate driving block (52) is arranged on the upper side of the cutting equipment fixing plate (51), the fixing plate driving block (52) is mounted on the output end of a fixing plate driving cylinder (53), and the cylinder body of the fixing plate driving cylinder (53) is mounted on a cylinder fixing seat (54), the cylinder fixing seat (54) is installed on a movable supporting seat (55) through a rotary supporting shaft, the movable supporting seat (55) is fixedly installed on the cutting and machining platform (2), and a movable guiding device is arranged between the cutting equipment fixing plate (51) and the cutting and machining platform (2).

2. A material cutting structure for producing a millimeter wave antenna according to claim 1, characterized in that: the movable guide device comprises a movable guide sliding block (56) and a movable guide sliding rail (57), the movable guide sliding block (56) is slidably mounted on the movable guide sliding rail (57), the movable guide sliding rail (57) is mounted on the cutting machining platform (2) through a fixing bolt, and the movable guide sliding block (56) is mounted on a cutting equipment fixing plate (51) through a fixing bolt.

3. A material cutting structure for producing a millimeter wave antenna according to claim 1, characterized in that: raw materials cutting device (6) are including cutting tool (61), cutting tool (61) are fixed on cutter drive shaft (62), install on drive shaft mount pad (63) through driving shaft installation bearing cutter drive shaft (62), install on cutting equipment fixed plate I (65) through cutter installing support (64) drive shaft mount pad (63), install on cutting equipment load-bearing platform (5) cutting equipment fixed plate I (65), cutter drive shaft (62) one end is connected in cutting drive arrangement.

4. A material cutting structure for producing a millimeter wave antenna according to claim 3, characterized in that: the cutting driving device comprises a cutting driving wheel (66), the cutting driving wheel (66) is connected to a cutting driving wheel (68) through a transmission belt (67), the cutting driving wheel (68) is installed at the output end of a cutting driving motor (69), and a shell of the cutting driving motor (69) is installed on a cutting equipment fixing plate I (65) through a motor fixing seat (610).

5. A material cutting structure for producing a millimeter wave antenna according to claim 1, characterized in that: the cutting fixture (3) comprises a raw material fixing jig (31), the raw material fixing jig (31) is installed on a jig fixing sleeve (33) through a jig fixing clamp spring (32), the jig fixing sleeve (33) is fixedly installed on a fixture fixing frame (34), and a fixture fixing plate (35) is arranged at the lower end of the fixture fixing frame (34).

6. A material cutting structure for producing a millimeter wave antenna according to claim 1, characterized in that: the cutting moves anchor clamps (4) and includes fixed tool (31) of raw materials, the fixed tool of raw materials (31) is installed on the fixed cover of tool (33) through the fixed jump ring of tool (32), the fixed cover of tool (33) fixed mounting is on anchor clamps mount (34), anchor clamps mount (34) lower extreme is equipped with anchor clamps fixed plate (35), anchor clamps fixed plate (35) are installed on cutting machining platform (2) through pressing from both sides tight guider, the fixed cover of tool (33) one side is equipped with and presss from both sides tight drive arrangement, it installs on cutting machining platform (2) to press from both sides tight drive arrangement.

7. The material cutting structure for producing a millimeter wave antenna according to claim 6, wherein: the clamping guide device comprises a clamping guide sliding block (46) and a clamping guide sliding rail (45), wherein the clamping guide sliding block (46) is slidably mounted on the clamping guide sliding rail (45), the clamping guide sliding rail (45) is fixedly mounted on the cutting and machining platform (2), and the clamping guide sliding block (46) is fixedly mounted on a fixture fixing plate (35).

8. The material cutting structure for producing a millimeter wave antenna according to claim 6, wherein: the clamping driving device comprises a clamping driving rod (41), the clamping driving rod (41) drives the output end of an air cylinder (42) through clamping, the cylinder body of the air cylinder (42) is installed on an air cylinder installation support (44) through an air cylinder installation seat (43), and the air cylinder installation support (44) is installed on the cutting and machining platform (2).

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