CN213678774U - Pusher is used in rough machining of waveguide slot antenna - Google Patents

Abstract

A pusher is used in rough machining of waveguide slot antenna includes: the placing assembly and the pushing assembly comprise pushing mechanisms arranged on one side plate, a lower guide member is arranged on the bottom plate, the bottom plate is perpendicular to the bottom plate and extends outwards, an upper limit mechanism is arranged on the end plate, the upper limit mechanism and the lower guide member are matched with each other and used for guiding and limiting the upper side and the lower side when the antenna is pushed, and the pushing mechanisms are used for pushing the antenna. The utility model discloses conveniently carrying out placing of the waveguide slot antenna of different models, reducing operating personnel's work load, simultaneously, can carry out waveguide slot antenna's propelling movement when waveguide slot antenna washs, reduced operating personnel's working strength, also effectual cleaning efficiency who improves waveguide slot antenna has stronger practicality.

Description

Pusher is used in rough machining of waveguide slot antenna

Technical Field

The utility model relates to a relevant technical field of waveguide slot antenna processing equipment especially relates to a pusher is used in waveguide slot antenna rough machining.

Background

The waveguide slot antenna is an antenna which cuts a narrow slot on a waveguide wall according to a certain rule to generate electromagnetic wave radiation.

The waveguide slot antenna is characterized in that the waveguide slot antenna is usually required to be subjected to machining in the production process, the outer wall is cleaned, the outer wall is dried and is subjected to surface coating, and the like, wherein after the machining is completed, in order to reduce direct adverse effects of oil stains on the surface of the waveguide slot antenna on subsequent surface coating, the waveguide slot antenna is required to be cleaned, and the conventional cleaning is carried out in batches, so that the waveguide slot antenna is required to be placed on a placing frame and cleaned in the cleaning process, the common waveguide slot antenna is heavy, the waveguide slot antenna is generally transferred in a manual carrying mode, the working strength of operators is increased, meanwhile, the placing frame cannot distinguish the waveguide slot antennas of different models when being placed, the subsequent machining operation is influenced, and the workload of the operators is correspondingly increased.

Disclosure of Invention

The utility model provides a pusher is used in rough machining of waveguide slot antenna to solve the not enough of above-mentioned prior art, conveniently carry out placing of the waveguide slot antenna of different models, reduce operating personnel's work load, simultaneously, can carry out the propelling movement of waveguide slot antenna when waveguide slot antenna washs, reduced operating personnel's working strength, also effectual cleaning efficiency who improves waveguide slot antenna has stronger practicality.

In order to realize the purpose of the utility model, the following technologies are adopted:

a pusher is used in rough machining of waveguide slot antenna includes:

the placing assembly comprises a bottom plate, side plates are arranged on two sides of the bottom plate and extend upwards, moving holes are formed in the side plates, two pairs of assembling seats are arranged at two ends of the outer side of each side plate, motors are arranged on the assembling seats positioned at the outer side ends of the side plates, output shafts of the motors are connected with lead screws, two ends of each lead screw are arranged on the assembling seats, a plurality of guide rods are arranged between each pair of assembling seats, each group of guide rods is provided with a moving plate in a penetrating mode, the moving plates are provided with inner connecting plates extending inwards, the inner connecting plates penetrate through the moving holes, rear push plates are arranged between the inner connecting plates and positioned between the side plates, and end;

the outer pushing assembly comprises an outer pushing mechanism arranged on one side plate, a lower guide member is arranged on the bottom plate, the bottom plate extends outwards perpendicular to the bottom plate, an upper limit mechanism is arranged on the end plate, the upper limit mechanism and the lower guide member are matched with each other and used for guiding and limiting the upper side and the lower side when the antenna is pushed, and the outer pushing mechanism is used for pushing the antenna.

Furthermore, an inlet and an outlet are formed in one side plate, the outward pushing mechanism comprises an outward pushing cylinder arranged on the side plate, an outward pushing plate is arranged at the movable end of the outward pushing cylinder, and the outward pushing plate is located at the inlet and the outlet.

Furthermore, another curb plate is formed with the opening, and lower guide member is located the opening, and lower guide member is including installing in the perpendicular concave part that extends who installs in bottom plate one side, is equipped with the dwang that is equidistant array in the concave part that extends, and the dwang all overlaps and is equipped with the guide cylinder.

Further, upper limit mechanism is including installing in the push down cylinder of end plate outer wall a pair of, and the expansion end of push down cylinder all is equipped with the installation convex plate, and the upper limit notch board is installed to the installation convex plate other end, is being equipped with of equidistant array in the upper limit notch board and rolls the pole, and the upper limit notch board is located epitaxial notch part directly over.

Furthermore, the outer walls of the upper rolling rod and the guide cylinder are provided with anti-skid rubber pads.

The technical scheme has the advantages that:

the utility model discloses conveniently carrying out placing of the waveguide slot antenna of different models, reducing operating personnel's work load, simultaneously, can carry out waveguide slot antenna's propelling movement when waveguide slot antenna washs, reduced operating personnel's working strength, also effectual cleaning efficiency who improves waveguide slot antenna has stronger practicality.

Drawings

Fig. 1 shows a perspective view of a first embodiment.

Fig. 2 shows a perspective view of the second embodiment.

Fig. 3 shows a three-dimensional structure of one embodiment.

Detailed Description

As shown in fig. 1 to 3, a pushing device for rough machining of a waveguide slot antenna includes: place subassembly 1, including bottom plate 10, the curb plate 11 that is equipped with that all upwards extends in bottom plate 10 both sides, curb plate 11 all takes shape there is motion hole 110, curb plate 11 outside both ends all are equipped with assembly seat 12 two pairs, the assembly seat 12 that is located the outside end all installs motor 15, the output shaft of motor 15 all is connected with lead screw 14, assembly seat 12 is all located at lead screw 14 both ends, it is a plurality of all to be equipped with guide bar 13 between every pair of assembly seat 12, motion plate 16 has all been worn to every group guide bar 13, motion plate 16 all inwards extends be equipped with interior company's board 17, interior company's board 17 all wears motion hole 110, be equipped with back push pedal 18 between the interior company's board 17, back push pedal 18 is located between the curb plate 11, end plate 19 is.

The outward pushing assembly 2 comprises an outward pushing mechanism 20 arranged on one side plate 11, a lower guide member 21 is arranged on the bottom plate 10 and extends outwards perpendicular to the bottom plate 10, an upper limit mechanism 22 is arranged on the end plate 19, the upper limit mechanism 22 and the lower guide member 21 are matched with each other for guiding and limiting the upper side and the lower side when the antenna is pushed, and the outward pushing mechanism 20 is used for pushing out the antenna. One side plate 11 is formed with an inlet and outlet hole 111, the outward pushing mechanism 20 comprises an outward pushing cylinder 200 mounted on the side plate 11, the movable end of the outward pushing cylinder 200 is provided with an outward pushing plate 201, and the outward pushing plate 201 is located at the inlet and outlet hole 111. The other side plate 11 is provided with a notch 112, the lower guide member 21 is positioned at the notch, the lower guide member 21 comprises an extension concave member 210 which is vertically arranged on one side of the bottom plate 10, rotating rods are arranged in the extension concave member 210 at equal intervals in an array, and the rotating rods are all sleeved with guide cylinders 211. The upper limit mechanism 22 comprises a pair of downward-pressing air cylinders 220 mounted on the outer wall of the end plate 19, the movable ends of the downward-pressing air cylinders 220 are provided with mounting convex plates 221, the other ends of the mounting convex plates 221 are provided with upper limit concave plates 222, upper limit concave plates 222 are internally provided with upper rolling rods in an equally-spaced array, and the upper limit concave plates 222 are positioned right above the extension concave members 210. The outer walls of the upper rolling rod and the guide cylinder 211 are provided with anti-skid rubber pads.

The placing component 1 can place waveguide slot antennas of different types or the same model conveniently according to a certain sequence for the same type or different models, meanwhile, the waveguide slot antennas can be pushed forwards, the waveguide slot antennas are conveyed to the cleaning device by matching with the outward pushing component 2, in operation, the same type or different models are placed between the side plates 11 according to a certain sequence, then, the motor 15 is started, the rear pushing plate 18 is driven by the motor 15 to act on the waveguide slot antennas at the rear side to move towards one side of the end plate 19, when the waveguide slot antennas at the front end are positioned at the inlet and outlet holes 111, the outward pushing cylinder 200 of the outward pushing mechanism 20 is started, the outward pushing plate 201 is driven by the outward pushing cylinder 200 to move towards the waveguide slot antennas through the inlet and outlet holes 111 until the outward pushing plate 201 acts on one end of the waveguide slot antennas, and pushes the waveguide slot antenna to move towards the position of the gap 112, finally the waveguide slot antenna moves between the upper limit mechanism 22 and the lower guide member 21, when the waveguide slot antenna moves to one side of the end plate 19, the pressing cylinder 220 is started, under the action of the down-pressing cylinder 220, the upper limit concave plate 222 is driven to move downwards, and finally the outer wall of the upper rolling rod is clung to the upper side of the waveguide slot antenna, while the lower end of the waveguide slot antenna is tangent to the outer wall of the guide cylinder 211, in the process of pushing the waveguide slot antenna outwards, the guide cylinder 211 and the upper rolling rod rotate to improve the flexibility of the motion of the waveguide slot antenna, meanwhile, in order to prevent the upper roller and the guide cylinder 211 from wearing the side of the waveguide slot antenna, and the binding force of the waveguide slot antenna, the upper rolling rod and the guide cylinder 211 is improved, so that corresponding anti-skid rubber pads are arranged on the upper rolling rod and the guide cylinder 211.

Claims (5)

1. The utility model provides a pusher is used in rough machining of waveguide slot antenna which characterized in that includes:

the placing assembly (1) comprises a bottom plate (10), side plates (11) are arranged on two sides of the bottom plate (10) in an upward extending mode, moving holes (110) are formed in the side plates (11), two pairs of assembling seats (12) are arranged at two ends of the outer side of each side plate (11), motors (15) are mounted on the assembling seats (12) located at the outer side ends, output shafts of the motors (15) are connected with lead screws (14), two ends of each lead screw (14) are arranged on the assembling seats (12), a plurality of guide rods (13) are arranged between each pair of assembling seats (12), moving plates (16) penetrate through each group of guide rods (13), inner connecting plates (17) are arranged on the moving plates (16) in an inward extending mode, the inner connecting plates (17) penetrate through the moving holes (110), rear push plates (18) are arranged between the inner connecting plates (17), the rear push plates (18) are located between the side plates (11), and end plates (19;

the outward pushing assembly (2) comprises an outward pushing mechanism (20) arranged on one side plate (11), a lower guide member (21) is arranged on the bottom plate (10) and extends outwards perpendicular to the bottom plate (10), an upper limit mechanism (22) is arranged on the end plate (19), the upper limit mechanism (22) and the lower guide member (21) are matched with each other and used for guiding and limiting the upper side and the lower side of the antenna during pushing, and the outward pushing mechanism (20) is used for pushing out the antenna.

2. The pushing device for rough machining of the waveguide slot antenna according to claim 1, wherein one side plate (11) is formed with an access hole (111), the outward pushing mechanism (20) comprises an outward pushing cylinder (200) installed on the side plate (11), a movable end of the outward pushing cylinder (200) is provided with an outward pushing plate (201), and the outward pushing plate (201) is located at the access hole (111).

3. The pushing device for rough machining of the waveguide slot antenna according to claim 2, wherein a notch (112) is formed in the other side plate (11), the lower guide member (21) is located in the notch, the lower guide member (21) comprises an extension concave member (210) which is vertically installed on one side of the bottom plate (10), rotating rods are arranged in the extension concave member (210) in an equally-spaced array, and guide cylinders (211) are sleeved on the rotating rods.

4. The pushing device for rough machining of the waveguide slot antenna as claimed in claim 3, wherein the upper limit mechanism (22) comprises a pair of lower pressing cylinders (220) mounted on the outer wall of the end plate (19), the movable ends of the lower pressing cylinders (220) are provided with mounting convex plates (221), the other ends of the mounting convex plates (221) are provided with upper limit concave plates (222), upper rolling rods are arranged in the upper limit concave plates (222) in an equally spaced array, and the upper limit concave plates (222) are located right above the extension concave parts (210).

5. The pushing device for rough machining of the waveguide slot antenna as claimed in claim 4, wherein the upper rolling rod and the outer wall of the guide cylinder (211) are provided with anti-skid rubber pads.

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