CN203356908U - Universal microwave antenna auxiliary welding device - Google Patents

Abstract

The utility model provides a universal microwave antenna auxiliary welding device, and belongs to auxiliary welding devices. The problems that an existing auxiliary welding device can not completely fix a microwave antenna part, and is not strong in university are solved. According to the universal microwave antenna auxiliary welding device, a support can move horizontally along a base and can be fixed, an adjustment plate connected with the support is provided with a center hole and locating holes which are evenly distributed in the circumference of the adjustment plate, a rotation shaft penetrates through the center hole of the adjustment plate and a support longitudinal shaft hole, and the two ends of a horizontal locating rod of the rotation shaft are provided with locating pins. One end of a sliding plate penetrates into the rotation shaft, and two pressing plate threaded rods in the other end of the sliding plate are connected with a lower pressing plate and an upper pressing plate respectively. A clamping plate can move longitudinally along the base and can be fixed, the clamping plate is provided with a longitudinal clamping opening and a horizontal sliding groove, and a pushing pin is arranged in the horizontal sliding groove. The universal microwave antenna auxiliary welding device can be conveniently adjusted in height and angle, is adapted to difference of size and angle of microwave antennas of different specifications, capable of completely restraining all parts of antenna components, and is good in heat dissipation performance in the welding process, and accumulated soldering paste after welding is convenient to clean.

Description

General microwave antenna auxiliary welding equipment

Technical field

The utility model belongs to auxiliary welding equipment, is specifically related to a kind of General welding servicing unit that is applicable to the microwave aerial assembly welding process.

Background technology

As shown in Figure 1, microwave antenna parts 6 are applied to the assembly of finding range, by waveguide 6-1, waveguide seat 6-2 and tri-parts of waveguide mouth of pipe 6-3, formed, three assembling parts that form the microwave antenna parts together after in free state, after reflow soldering, the attitude of microwave antenna parts and appearance and size can not be guaranteed, the uniformity of antenna element is poor, affects the microwave transmission performance of microwave antenna parts; Existing auxiliary welding equipment can only set wave guide bracket 6-2, and waveguide 6-1 is directly tightened by screw, is easy to waveguide is scratched; The waveguide mouth of pipe is lifted by a platform, can not play effect of contraction, and three parts of microwave antenna can not be completely fixed, thereby cause in solder reflow process, the distortion of solder(ing) paste expanded by heating, thus finally causing, antenna pattern, size do not meet designing requirement.

Simultaneously, the form factor of each model microwave antenna differs larger, existing auxiliary welding equipment, regulate size in can only be among a small circle, can only be suitable for reluctantly certain specific model, versatility is not strong, welder that need to be different to each type design, both improve the Production design cost, delayed again the production progress.

Summary of the invention

The utility model provides a kind of general microwave antenna auxiliary welding equipment, solves the existing problem that auxiliary welding equipment can not be completely fixed the microwave antenna component part and versatility is not strong.

A kind of general microwave antenna auxiliary welding equipment provided by the utility model, comprise base, support, adjustment plate, rotating shaft, sliding panel, top board, lower platen and clamp, it is characterized in that:

Described support is positioned on base, can, along base transverse shifting fixing, have vertical axis hole on support; Described adjustment plate is connected with described support side, the locating hole that has centre bore on adjustment plate and distribute along even circumferential; Described rotating shaft consists of one and mutually perpendicular vertical multidiameter and located lateral bar, vertically the multidiameter two ends lay respectively in adjustment plate centre bore and the vertical axis hole of support and matched in clearance, located lateral bar two ends are connected with respectively shop bolt, and on the position of shop bolt and described adjustment plate, match in the position of locating hole; Described sliding panel one end penetrates vertical multidiameter of rotating shaft, can move and fix along the shaft axis vertical direction, two pressing plate screw rods respectively with two screw hole threaded engagement of the described sliding panel other end, two pressing plate screw rods are through described top board, spacing by the bulb that is connected to pressing plate screw rod end, described lower platen is connected and fixed by screw and top board, and two bulbs are contained between upper and lower pressing plate; Rotating shaft is rotated and can be driven the variation of sliding panel angle, and inserts the locating hole location on adjustment plate by shop bolt, by adjusting two pressing plate screw rods, can change height and the angle of the upper lower platen be connected as a single entity;

Described clamp is positioned on base, can vertically move and fix along base; The horizontal sliding tray that has vertical clamp port and level on clamp, the distribution of laterally packing in sliding tray, by the distribution screw rod of rotation and clamp threaded engagement, control to promote and laterally laterally sliding in sliding tray.

Described general microwave antenna auxiliary welding equipment, it is further characterized in that:

Described base upper surface has laterally parallel front boss and rear boss, the described front boss of base upper surface and rear boss end position have vertically upper kidney slot and through hole, kidney slot and transversely rear kidney slot before having respectively transversely on described front boss and rear boss, described base lower surface corresponding described transversely before kidney slot and transversely after the kidney slot position have respectively laterally lower before kidney slot and horizontal lower rear kidney slot, described horizontal lower front kidney-shaped well width is greater than respectively described transversely front kidney slot and transversely rear kidney-shaped well width with horizontal lower rear kidney-shaped well width, the corresponding described vertically upper kidney slot of described base lower surface position has vertically lower kidney slot, vertically descends the kidney slot width to be greater than described vertically upper kidney slot width,

Described support forms L shaped by vertical beam and the longitudinal beam of one, described vertical beam upper end has vertical axis hole, described longitudinal beam bottom surface has laterally parallel forward recess and rearward recess, and the profile of the profile of described forward recess and size and rearward recess and size are mated with described front boss and rear boss respectively;

Described adjustment plate consists of disk and the connecting plate of one, and described disc centre has centre bore, and disc surfaces has the locating hole distributed along even circumferential;

Described rotating shaft consists of vertical multidiameter and the located lateral bar of one, and the thick axle that described vertical multidiameter is coaxial by one and thin axle form, and described located lateral bar is positioned at described thick axle centre position and perpendicular with thick axle; Have sliding eye between the interface of thick axle and axle carefully and located lateral bar on described thick axle, its direction with the located lateral bar is parallel, and on described thick axle, corresponding described sliding eye position has the spacing screw with the sliding eye vertical connection; The end of described thin axle has the pull bar installing hole; Described located lateral bar two ends are connected with respectively shop bolt, and between two shop bolts, distance and described disc surfaces distance between two locating holes of circle diameter adapts;

Described sliding panel is three-dimensional cuboid, and two screw holes parallel along the cuboid axis are arranged in the cuboid end;

Described top board upper surface has upper right kidney slot and the upper left kidney slot on the described top board center line that coexists, described top board lower surface has bottom right kidney slot and the bottom left kidney slot of corresponding upper right kidney slot and upper left kidney slot, and the width of described bottom right kidney slot and bottom left kidney slot is greater than respectively the width of described upper right kidney slot and upper left kidney slot;

The upper surface of described lower platen has spherical blind hole and the spherical groove on the described top board center line that coexists; The position of described spherical blind hole and spherical groove is corresponding with the position of the upper right kidney slot of described top board and upper left kidney slot respectively;

Described clamp consists of vertical panel and the transverse plate of one, has vertical clamp port on described transverse plate, the horizontal sliding tray that on described transverse plate, vertically the clamp port right side has level, and the transverse plate right side has the adjustment screw be communicated with described horizontal sliding tray;

The forward recess of described support longitudinal beam and rearward recess coordinate with front boss and the rear boss of described base respectively, the soket head cap screw by kidney slot through kidney slot before laterally lower and transversely and through kidney slot after laterally lower and transversely the soket head cap screw of rear kidney slot fix; The connecting plate of described adjustment plate is fixed in an end of described longitudinal beam by screw;

Thick axle one end of described rotating shaft penetrates in the centre bore of described disk, the thin axle sleeve of described rotating shaft has packing ring and stage clip, described thin axle one end is through vertical axis hole of described support, packing ring and stage clip are limited between the longitudinal beam of the interface of thick axle and thin axle and support, and pull bar is through the pull bar installing hole of thin shaft end affixed; The shop bolt of the located lateral bar of described rotating shaft inserts in the locating hole of described adjustment plate;

Described sliding panel one end is packed in the sliding eye of rotating shaft, by the screw in spacing screw, fixes; Two pressing plate screw rods respectively with two screw hole threaded engagement of the described sliding panel other end, one of them pressing plate screw rod is through upper right kidney slot and the bottom right kidney slot of described top board, the bulb that is positioned at the bottom right kidney slot is connected with this pressing plate screw rod end thread; Another one pressing plate screw rod is through upper left kidney slot and the bottom left kidney slot of described top board, and the bulb that is positioned at the bottom left kidney slot is connected with this pressing plate screw rod end thread; Described lower platen is connected and fixed by screw and top board, and two bulbs are contained in respectively in spherical blind hole and spherical groove;

The vertical panel lower surface of described clamp is pressed on the vertically upper kidney slot of described base, by the screw through vertically lower kidney slot and vertically upper kidney slot, fixes, and the vertical clamp port of the transverse plate of described clamp is positioned at the through hole top of described base;

The distribution of packing in the horizontal sliding tray of described clamp, there is the convex breach in described distribution, promote screw rod and adjustment screw threaded engagement, promote screw head and be embedded in the convex breach of described distribution, promote screw rod control by rotation and promote laterally slip in horizontal sliding tray.

Can mill into recessed and fin structure around the described through hole of described base upper surface, the lower surface of described lower platen can mill into recessed and fin structure, vertical clamp port left side wall on described clamp transverse plate can be processed into circular groove, the front end face of described distribution can be processed into circular groove, and the workpiece that is beneficial to be held dispels the heat in welding process.

Described general microwave antenna auxiliary welding equipment, it further is characterised in that:

There are two alignment pins on the longitudinal beam of described support and the connecting end surface of described connecting plate, there are two locating holes with described two alignment pin position coupling on the connecting plate of described adjustment plate, when by screw, fixing described connecting plate and described longitudinal beam, guarantee that vertical axis hole of centre bore on described adjustment plate and described support vertical beam is coaxial.

Described base, clamp and distribution all adopt aluminum products, prevent and the bonding inconvenience cleaning of tin-lead solder.

Front boss on the utility model base and rear boss form sliding tray, making support can drive the rotating shaft left and right moves freely, the upper lower platen be connected with sliding panel can, along again moving perpendicular to rotor shaft direction, can adapt to height and the width dimensions requirement of all model antennas in current 25mm～47mm size range.

N locating hole of even circumferential distribution on adjustment plate, hole of every adjustment, rotating shaft drives the sliding panel angle and changes, and two pressing plate screw rods are about 25 ° to the adjustment angle of the upper lower platen of one, by adjusting two pressing plate screw rods, can change height and the angle of the upper lower platen be connected as a single entity, adjustment plate matches with two pressing plate screw rods like this, can realize the gapless adjustment of upper lower platen angle, the difference that is applicable to different model waveguide shroud and waveguide vertical direction upper angle, thereby the waveguide shroud is compressed, go up the component of the vertical direction that lower platen produces simultaneously, can make waveguide and waveguide mount compress, reach the purpose that three parts of microwave antenna are completely fixed.

Clamp can move freely before and after base, thereby makes lower platen can aim at the center of different in width antenna, guarantees that the different model antenna is stressed evenly.

The distribution coordinated with clamp can the Complete Bind antenna the waveguide position, can guarantee again the perpendicularity of waveguide.

With solder(ing) paste, the base contacted is being arranged, clamp, the positions such as sliding pin all adopt aluminium to make, and with the solder(ing) paste adhesion, are convenient to cleaning after welding completes.

The utility model is convenient to regulate height, angle, can adapt to the size of different model microwave antenna and the difference of angle, can realize the Complete Bind to three component parts of antenna element, in welding process, heat radiation is good, not yielding in Reflow Soldering expanded by heating process, the solder(ing) paste of piling up after welding is convenient to cleaning.

The accompanying drawing explanation

Fig. 1 is the microwave antenna block diagram;

Fig. 2 is front side of the present utility model schematic diagram;

Fig. 3 is the utility model rear perspective schematic diagram;

Fig. 4 looks schematic perspective view on base;

Fig. 5 looks schematic perspective view at the bottom of base;

Fig. 6 is the support schematic perspective view;

Fig. 7 is the adjustment plate schematic perspective view;

Fig. 8 is the rotating shaft schematic perspective view;

Fig. 9 is the sliding panel schematic perspective view;

Figure 10 looks schematic perspective view on top board;

Figure 11 looks schematic perspective view at the bottom of top board;

Figure 12 is the lower platen schematic perspective view;

Figure 13 is the clamp schematic perspective view;

Figure 14 is for promoting schematic perspective view;

Figure 15 is working state schematic representation.

Mark in figure: base 1, support 2, adjustment plate 3, rotating shaft 4, sliding panel 5, microwave antenna parts 6, stage clip 7, pull bar 8, pressing plate screw rod 9, bulb 10, top board 11, lower platen 12, clamp 13, promote 14, promote screw rod 15, packing ring 16, alignment pin 17.

The specific embodiment

Below in conjunction with drawings and Examples, the utility model is further described:

As shown in Figures 2 and 3, embodiment of the present utility model, comprise base 1, support 2, adjustment plate 3, clamp 13, rotating shaft 4, sliding panel 5, top board 11 and lower platen 12; Described support 2 is positioned on base 1, can, along base 1 transverse shifting fixing, have vertical axis hole on support 2; Described adjustment plate 3 is connected with described support 2 sides, the locating hole that has centre bore on adjustment plate 3 and distribute along even circumferential; Described rotating shaft 4 consists of one and mutually perpendicular vertical multidiameter and located lateral bar, vertically the multidiameter two ends lay respectively in adjustment plate centre bore and the vertical axis hole of support and matched in clearance, located lateral bar two ends are connected with respectively shop bolt, and on the position of shop bolt and described adjustment plate 3, match in the position of locating hole; Described sliding panel 5 one ends penetrate vertical multidiameter of rotating shaft 4, can move and fix along the shaft axis vertical direction, two pressing plate screw rods 9 respectively with two screw hole threaded engagement of described sliding panel 5 other ends, two pressing plate screw rods 9 are through described top board 11, spacing by the bulb 10 that is connected to pressing plate screw rod end, described lower platen 12 is connected and fixed by screw and top board 11, and two bulbs 10 are contained between upper and lower pressing plate; Rotating shaft 4 is rotated and can be driven sliding panel 5 angles variations, and inserts the locating hole location on adjustment plate 3 by shop bolt, by adjusting two pressing plate screw rods 9, can change height and the angle of the upper lower platen be connected as a single entity;

Described clamp 13 is positioned on base 1, can vertically move and fix along base 1; The horizontal sliding tray that has vertical clamp port and level on clamp 13, laterally pack in sliding tray and promote 14, by the distribution screw rod 15 of rotation and clamp 13 threaded engagement, controls distribution 14 and laterally laterally sliding in sliding tray.

As Fig. 4, shown in Fig. 5, described base 1 upper surface has laterally parallel front boss 1-1 and rear boss 1-2, the base described front boss 1-1 of 1 upper surface and rear boss 1-2 end position have vertically upper kidney slot 1-3A and through hole 1-4, kidney slot 1-1A and transversely rear kidney slot 1-2A before having respectively transversely on described front boss 1-1 and rear boss 1-2, described base 1 lower surface corresponding described transversely before kidney slot 1-1A and transversely after kidney slot 1-2A position have respectively laterally lower before kidney slot 1-1B and horizontal lower rear kidney slot 1-2B, described horizontal lower front kidney slot 1-1B width is greater than respectively described transversely front kidney slot 1-1A and transversely rear kidney slot 1-2A width with horizontal lower rear kidney slot 1-2B width, the corresponding described vertically upper kidney slot 1-3A of described base 1 lower surface position has vertically lower kidney slot 1-3B, vertically descends kidney slot 1-3B width to be greater than described vertically upper kidney slot 1-3A width,

As shown in Figure 6, described support 2 forms L shaped by vertical beam 2-1 and the longitudinal beam 2-2 of one, described vertical beam 2-1 upper end has vertical axis hole 2-1A, described longitudinal beam 2-2 bottom surface has laterally parallel forward recess 2-2A and rearward recess 2-2B, and the profile of the profile of described forward recess 2-2A and size and rearward recess 2-2B and size are mated with described front boss 1-1 and rear boss 1-2 respectively;

As shown in Figure 7, described adjustment plate 3 consists of disk 3-1 and the connecting plate 3-2 of one, and described disk 3-1 center has centre bore 3-1A, and disc surfaces has 24 locating hole 3-1B that distribute along even circumferential;

As shown in Figure 8, described rotating shaft 4 consists of vertical multidiameter and the located lateral bar of one, the thick axle 4-1 that described vertical multidiameter is coaxial by one and thin axle 4-2 form, and described located lateral bar 4-3 is positioned at described thick axle 4-1 centre position and perpendicular with thick axle 4-1; There is sliding eye 4-1A between the interface of the upper thick axle 4-1 of described thick axle 4-1 and thin axle 4-2 and located lateral bar 4-3, its direction with located lateral bar 4-3 is parallel, and the upper corresponding described sliding eye 4-1A of described thick axle 4-1 position has the spacing screw 4-1B with sliding eye 4-1A vertical connection; The end of described thin axle 4-2 has pull bar installing hole 4-2A; Described located lateral bar 4-3 two ends are connected with respectively shop bolt 4-3A, and between two shop bolt 4-3A, distance and described disk 3-1 surface distance between two locating hole 3-1B of circle diameter adapts;

As shown in Figure 9, described sliding panel 5 is three-dimensional cuboid, and two the screw hole 5-1s parallel along the cuboid axis are arranged in the cuboid end;

As shown in Figure 10, Figure 11, described top board 11 upper surfaces have upper right kidney slot 11-1A and the upper left kidney slot 11-2A on described top board 11 center lines that coexist, described top board 11 lower surfaces have bottom right kidney slot 11-1B and the bottom left kidney slot 11-2B of corresponding upper right kidney slot 11-1A and upper left kidney slot 11-2A, and the width of described bottom right kidney slot 11-1B and bottom left kidney slot 11-2B is greater than respectively the width of described upper right kidney slot 11-1A and upper left kidney slot 11-2A;

As shown in figure 12, the upper surface of described lower platen 12 has spherical blind hole 12-1 and the spherical groove 12-2 on described top board 12 center lines that coexist; The position of described spherical blind hole 12-1 and spherical groove 12-2 is corresponding with the position of the upper right kidney slot 11-1A of described top board 11 and upper left kidney slot 11-2A respectively;

As shown in figure 13, described clamp 13 consists of vertical panel 13-1 and the transverse plate 13-2 of one, there is vertical clamp port 13-2A on described transverse plate 13-2, the horizontal sliding tray 13-2B that the upper vertical clamp port 13-2A of described transverse plate 13-2 right side has level, transverse plate 13-2 right side has the adjustment screw 13-2C be communicated with described horizontal sliding tray 13-2B;

As shown in Figures 2 and 3, the forward recess 2-2A of described support 2 longitudinal beam 2-2 and rearward recess 2-2B coordinate with front boss 1-1 and the rear boss 1-2 of described base 1 respectively, the soket head cap screw by kidney slot 1-1A through kidney slot 1-1B before laterally lower and transversely and through kidney slot 1-2B after laterally lower and transversely the soket head cap screw of rear kidney slot 1-2A fix; The connecting plate 3-2 of described adjustment plate 3 is fixed in the end of described longitudinal beam 2-2 by screw;

Thick axle 4-1 mono-end of described rotating shaft 4 penetrates in the centre bore 3-1A of described disk, the thin axle 4-2 cover of described rotating shaft 4 has packing ring 16 and stage clip 7, described thin axle 4-2 mono-end is through vertical axis hole 2-1A of described support 2, packing ring 16 and stage clip 7 are limited between the longitudinal beam 2-2 of the interface of thick axle 4-1 and thin axle 4-2 and support 2, and pull bar 8 is through the pull bar installing hole 4-2A of thin axle 4-2 end affixed; The shop bolt 4-3A of the located lateral bar 4-3 of described rotating shaft 4 inserts in the locating hole 3-1B of described adjustment plate 3;

Described sliding panel 5 one ends are packed in the sliding eye 4-1A of rotating shaft 4, by the screw in spacing screw 4-1B, fix; Two pressing plate screw rods 9 respectively with two screw hole 5-1 threaded engagement of described sliding panel 5 other ends, one of them pressing plate screw rod 9 is through upper right kidney slot 11-1A and the bottom right kidney slot 11-1B of described top board 11, and the bulb 10 that is positioned at bottom right kidney slot 11-1B is connected with these pressing plate screw rod 9 end thread; Another one pressing plate screw rod 9 is through upper left kidney slot 11-2A and the bottom left kidney slot 11-2B of described top board 11, and the bulb 10 that is positioned at bottom left kidney slot 11-2B is connected with these pressing plate screw rod 9 end thread; Described lower platen 12 is connected and fixed by screw and top board 11, and two bulbs 10 are contained in respectively in spherical blind hole 12-1 and spherical groove 12-2;

The vertical panel 13-1 lower surface of described clamp 13 is pressed on the vertically upper kidney slot 1-3A of described base 1, by the screw through vertically lower kidney slot 1-3B and vertically upper kidney slot 1-3A, fix, the vertical clamp port 13-2A of the transverse plate 13-2 of described clamp 13 is positioned at the through hole 1-4 top of described base 1;

Pack in the horizontal sliding tray 13-2B of described clamp 13 and promote 14, as shown in figure 14, there is convex breach 14-1 in described distribution 14, promote screw rod 15 and adjust screw 13-2C threaded engagement, promote screw head and be embedded in the convex breach 14-1 of described distribution 14, promote screw rod 15 by rotation and control distribution 14 laterally slip in horizontal sliding tray 13-2B.

In the present embodiment, mill into recessed and fin structure around the described through hole 1-4 of described base 1 upper surface, the following table facing cut of described lower platen 12 becomes recessed and fin structure, vertical clamp port 13-2A left side wall on described clamp 13 transverse plate 13-2 is processed into circular groove, the front end face of described distribution 14 is processed into circular groove, and the workpiece that is beneficial to be held dispels the heat in welding process.

There are two alignment pins 18 on the longitudinal beam 2-2 of described support 2 and the connecting end surface of described connecting plate 3-2, there are two locating holes with described two alignment pin position coupling on the connecting plate 3-2 of described adjustment plate 3, when by screw, fixing described connecting plate 3-2 and described longitudinal beam 2-2, guarantee that vertical axis hole 2-1A of centre bore 3-1A on described adjustment plate 3 and described support 2 vertical beam 2-1 is coaxial.

Described base, clamp and distribution all adopt aluminum products, prevent and the bonding inconvenience cleaning of tin-lead solder.

As shown in figure 15, while using the utility model to be welded, two part waveguide 6-1 of microwave antenna parts 6 and waveguide seat 6-2 are placed on base 1, unscrew base and vertically descend the screw in kidney slot, mobile clamp 13, make lower platen over against waveguide mouth of pipe center, screw screw, fixing chuck plate, promote screw rod by rotation and make to promote 14 translations again, thereby the compression waveguide, be fixed on waveguide on the waveguide seat.

Waveguide mouth of pipe 6-3 is arranged on waveguide, by adjust base laterally lower before kidney slot and laterally lower after the soket head cap screw of kidney slot, support 2 integrated movings, after correct position, then are screwed to soket head cap screw, fixed support.By screwing pressing plate screw rod 9, lower platen 12 is adjusted to and sliding panel 5 parallel positions, go out rotating shaft 4 by the outside horizontal drawing of pull bar 8 again, rotate to the position of lower platen 12 and waveguide mouth of pipe almost parallel, releasing lever 8, rotating shaft is by the elastic force effect of stage clip 7, shop bolt 4-3A is inserted in the locating hole of adjustment plate 3, then the screw of spacing screw is unscrewed to the correct position that mobile sliding panel matches with the waveguide mouth of pipe to lower platen, by screw-driving, fixing sliding panel; Screw two pressing plate screw rods 9, make the waveguide mouth of pipe that lower platen can the Complete Bind antenna element.

By above operation, the utility model can Complete Bind be lived the antenna element of difformity and size, solder(ing) paste is smeared in the contact site of three parts of the antenna element that is completely fixed, then weld by high temperature reflux, and three weld parts are fixed.

The present embodiment appearance and size, long 90mm, wide 80mm, full extension height 60mm, shrink height 43mm fully.Can adapt to the space requirement of high temperature reflux brazier.By adjusting the height angle, can be suitable for the welding of the existing all model antenna elements of factory fully.

Claims (6)

1. a general microwave antenna auxiliary welding equipment, comprise base (1), support (2), adjustment plate (3), rotating shaft (4), sliding panel (5), top board (11), lower platen (12) and clamp (13), it is characterized in that:

It is upper that described support (2) is positioned at base (1), can be along base (1) transverse shifting fixing, and support has vertical axis hole on (2); Described adjustment plate (3) is connected with described support (2) side, the locating hole that has centre bore on adjustment plate (3) and distribute along even circumferential; Described rotating shaft (4) consists of one and mutually perpendicular vertical multidiameter and located lateral bar, vertically the multidiameter two ends lay respectively in adjustment plate centre bore and the vertical axis hole of support and matched in clearance, located lateral bar two ends are connected with respectively shop bolt, match in the position of the upper locating hole of the position of shop bolt and described adjustment plate (3); Described sliding panel (5) one ends penetrate vertical multidiameter of rotating shaft (4), can move and fix along the shaft axis vertical direction, two pressing plate screw rods (9) respectively with two screw hole threaded engagement of described sliding panel (5) other end, two pressing plate screw rods (9) are through described top board (11), spacing by the bulb that is connected to pressing plate screw rod end (10), described lower platen (12) is connected and fixed by screw and top board (11), and two bulbs (10) are contained between upper and lower pressing plate; Rotating shaft (4) is rotated and can be driven the variation of sliding panel (5) angle, and insert the locating hole location on adjustment plate (3) by shop bolt, by adjusting two pressing plate screw rods (9), can change height and the angle of the upper lower platen be connected as a single entity;

It is upper that described clamp (13) is positioned at base (1), can vertically move and fix along base (1); The horizontal sliding tray that there is vertical clamp port and level on clamp (13), the distribution (14) of laterally packing in sliding tray, by the distribution screw rod (15) of rotation and clamp (13) threaded engagement, control and promote (14) laterally slip in horizontal sliding tray.

2. general microwave antenna auxiliary welding equipment as claimed in claim 1 is characterized in that:

Described base (1) upper surface has laterally parallel front boss (1-1) and rear boss (1-2), the described front boss of base (1) upper surface (1-1) and rear boss (1-2) end position have vertically upper kidney slot (1-3A) and through hole (1-4), kidney slot (1-1A) and transversely rear kidney slot (1-2A) before having respectively transversely on described front boss (1-1) and rear boss (1-2), described base (1) lower surface corresponding described transversely before kidney slot (1-1A) and transversely after kidney slot (1-2A) position have respectively laterally lower before kidney slot (1-1B) and laterally under rear kidney slot (1-2B), described horizontal lower front kidney slot (1-1B) width is greater than respectively described transversely front kidney slot (1-1A) and transversely rear kidney slot (1-2A) width with horizontal lower rear kidney slot (1-2B) width, the corresponding described vertically upper kidney slot (1-3A) of described base (1) lower surface position has vertically lower kidney slot (1-3B), vertically descends kidney slot (1-3B) width to be greater than described vertically upper kidney slot (1-3) width,

Described support (2) forms L shaped by vertical beam (2-1) and the longitudinal beam (2-2) of one, described vertical beam (2-1) upper end has vertical axis hole (2-1A), described longitudinal beam (2-2) bottom surface has laterally parallel forward recess (2-2A) and rearward recess (2-2B), and the profile of the profile of described forward recess (2-2A) and size and rearward recess (2-2B) and size are mated with described front boss (1-1) and rear boss (1-2) respectively;

Described adjustment plate (3) consists of disk (3-1) and the connecting plate (3-2) of one, and described disk (3-1) center has centre bore (3-1A), and disc surfaces has the locating hole (3-1B) distributed along even circumferential;

Described rotating shaft (4) consists of vertical multidiameter and the located lateral bar of one, the thick axle (4-1) that described vertical multidiameter is coaxial by one and thin axle (4-2) form, and described located lateral bar (4-3) is positioned at described thick axle (4-1) centre position and perpendicular with thick axle (4-1); There is sliding eye (4-1A) between the interface of the upper thick axle (4-1) of described thick axle (4-1) and thin axle (4-2) and located lateral bar (4-3), its direction with located lateral bar (4-3) is parallel, and the upper corresponding described sliding eye (4-1A) of described thick axle (4-1) position has and the spacing screw (4-1B) of sliding eye (4-1A) vertical connection; The end of described thin axle (4-2) has pull bar installing hole (4-2A); Described located lateral bar (4-3) two ends are connected with respectively shop bolt (4-3A), and between two shop bolts (4-3A), distance and described disk (3-1) surface are positioned at distance between two locating holes (3-1B) of circle diameter and adapt;

Described sliding panel (5) is three-dimensional cuboid, and two screw holes (5-1) parallel along the cuboid axis are arranged in the cuboid end;

Described top board (11) upper surface has upper right kidney slot (11-1A) and the upper left kidney slot (11-2A) on described top board (11) center line that coexists, described top board (11) lower surface has bottom right kidney slot (11-1B) and the bottom left kidney slot (11-2B) of corresponding upper right kidney slot (11-1A) and upper left kidney slot (11-2A), and the width of described bottom right kidney slot (11-1B) and bottom left kidney slot (11-2B) is greater than respectively the width of described upper right kidney slot (11-1A) and upper left kidney slot (11-2A);

The upper surface of described lower platen (12) has spherical blind hole (12-1) and the spherical groove (12-2) on described top board (12) center line that coexists; The position of described spherical blind hole (12-1) and spherical groove (12-2) is corresponding with the position of the upper right kidney slot (11-1A) of described top board (11) and upper left kidney slot (11-2A) respectively;

Described clamp (13) consists of vertical panel (13-1) and the transverse plate (13-2) of one, there is vertical clamp port (13-2A) on described transverse plate (13-2), the horizontal sliding tray (13-2B) that the upper vertical clamp port (13-2A) of described transverse plate (13-2) right side has level, transverse plate (13-2) right side has the adjustment screw (13-2C) be communicated with described horizontal sliding tray (13-2B);

The forward recess (2-2A) of described support (2) longitudinal beam (2-2) and rearward recess (2-2B) coordinate with front boss (1-1) and the rear boss (1-2) of described base (1) respectively, the soket head cap screw by kidney slot (1-1A) through kidney slot (1-1B) before laterally lower and transversely and through kidney slot (1-2B) after laterally lower and transversely the soket head cap screw of rear kidney slot (1-2A) fix; The connecting plate (3-2) of described adjustment plate (3) is fixed in an end of described longitudinal beam (2-2) by screw;

Thick axle (4-1) end of described rotating shaft (4) penetrates in the centre bore (3-1A) of described disk, thin axle (4-2) cover of described rotating shaft (4) has packing ring (16) and stage clip (7), described thin axle (4-2) end is through vertical axis hole (2-1A) of described support (2), packing ring (16) and stage clip (7) are limited between the longitudinal beam (2-2) of the interface of thick axle (4-1) and thin axle (4-2) and support (2), and pull bar (8) is through the pull bar installing hole (4-2A) of thin axle (4-2) end affixed; The shop bolt (4-3A) of the located lateral bar (4-3) of described rotating shaft (4) inserts in the locating hole (3-1B) of described adjustment plate (3);

Described sliding panel (5) one ends are packed in the sliding eye (4-1A) of rotating shaft (4), by the screw in spacing screw (4-1B), fix; Two pressing plate screw rods (9) respectively with two screw holes (5-1) threaded engagement of described sliding panel (5) other end, one of them pressing plate screw rod (9) is through upper right kidney slot (11-1A) and the bottom right kidney slot (11-1B) of described top board (11), and the bulb (10) that is positioned at bottom right kidney slot (11-1B) is connected with this pressing plate screw rod (9) end thread; Another one pressing plate screw rod (9) is through upper left kidney slot (11-2A) and the bottom left kidney slot (11-2B) of described top board (11), and the bulb (10) that is positioned at bottom left kidney slot (11-2B) is connected with this pressing plate screw rod (9) end thread; Described lower platen (12) is connected and fixed by screw and top board (11), and two bulbs (10) are contained in respectively in spherical blind hole (12-1) and spherical groove (12-2);

Vertical panel (13-1) lower surface of described clamp (13) is pressed on the vertically upper kidney slot (1-3A) of described base (1), by the screw through vertical lower kidney slot (1-3B) and vertically upper kidney slot (1-3A), fix, the transverse plate (13-2) of described clamp (13) vertically clamp port (13-2A) is positioned at above the through hole (1-4) of described base (1);

The distribution (14) of packing in the horizontal sliding tray (13-2B) of described clamp (13), there is convex breach (14-1) in described distribution (14), promote screw rod (15) and adjust screw (13-2C) threaded engagement, promote screw head and be embedded in the convex breach (14-1) of described distribution (14), promote screw rod (15) by rotation and control distribution (14) horizontal slip in horizontal sliding tray (13-2B).

3. general microwave antenna auxiliary welding equipment as claimed in claim 2 is characterized in that:

The described through hole of described base (1) upper surface (1-4) mills into recessed and fin structure on every side, the following table facing cut of described lower platen (12) becomes recessed and fin structure, vertical clamp port (13-2A) left side wall on described clamp (13) transverse plate (13-2) is processed into circular groove, the front end face of described distribution (14) is processed into circular groove, and the workpiece that is beneficial to be held dispels the heat in welding process.

4. general microwave antenna auxiliary welding equipment as claimed in claim 2 or claim 3 is characterized in that:

There are two alignment pins (17) on the longitudinal beam (2-2) of described support (2) and the connecting end surface of described connecting plate (3-2), there are two locating holes with described two alignment pin position coupling on the connecting plate (3-2) of described adjustment plate (3), when by screw, fix described connecting plate (3-2) and described longitudinal beam (2-2), guarantee vertical axis hole (2-1A) of centre bore (3-1A) on described adjustment plate (3) and described support (2) vertical beam (2-1) coaxially.

5. general microwave antenna auxiliary welding equipment as claimed in claim 2 or claim 3 is characterized in that:

Described base, clamp and distribution all adopt aluminum products, prevent and the bonding inconvenience cleaning of tin-lead solder.

6. general microwave antenna auxiliary welding equipment as claimed in claim 4 is characterized in that:

Described base, clamp and distribution all adopt aluminum products, prevent and the bonding inconvenience cleaning of tin-lead solder.

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