CN210437618U - Tooling for base station antenna assembly line - Google Patents

Abstract

The utility model belongs to base station antenna research and development and manufacturing field, concretely relates to can improve production efficiency and make things convenient for base station antenna frock for assembly line of assembly line turnover, the frock includes the bottom plate and fixes the support body on the bottom plate, the width and the length of support body all can be adjusted, the support body is used for supporting the sideboard of base station antenna reflecting plate both sides. The utility model has the advantages that the bracket body with adjustable width and length is fixedly arranged on the bottom plate, and the bracket can be suitable for the base station antenna reflecting plates with various specifications, thereby improving the turnover efficiency and saving the space; the utility model discloses be provided with the recess that is used for placing base station antenna reflecting plate sideboard on the stand top of support body, being provided with of recess does benefit to and firmly blocks the sideboard, avoids base station antenna reflecting plate landing from the support body in transmission process.

Description

Tooling for base station antenna assembly line

Technical Field

The utility model belongs to base station antenna research and development and manufacturing field, concretely relates to can improve production efficiency and make things convenient for frock for base station antenna assembly line of assembly line turnover.

Background

The base station antenna is a communication equipment composed of a plurality of parts, and the main parts comprise antenna housing, radiation array, reflecting plate, electromagnetic boundary sheet metal part, power division phase shift network (including cable, power divider and phase shifter), connector and support piece. It can be seen from the above listed components that the base station antenna has a very complex structure, so the production and manufacturing process is complicated, and a large amount of manpower and material resources are required to be consumed.

Due to the fact that the internal structure of the base station antenna is complex, and the related materials are various, the base station antenna industry is determined to have labor-intensive characteristics. The production and assembly links of the base station antenna occupy a large amount of labor resources, and the working efficiency of staff of a production line directly determines the manufacturing cost of the base station antenna product. At present, after production or assembly of one station is completed, a base station antenna reflection plate needs to be placed on a turnover support vehicle, then manually pushed to the next station, and then the next step of assembly is carried out. Because the support of turnover support car can not be adjusted, can't be applicable to the basic station antenna baffle of multiple different specifications, consequently, need prepare the turnover support car of multiple specification, a large amount of turnover support cars not only occupy a large amount of spaces, and the manual work promotes turnover inefficiency, and many supporting structures easily cause the bruise moreover. For the work efficiency who improves base station antenna production water line, practice thrift the space, solve the turnover problem that base station antenna production process faces and reduce the manufacturing cost of antenna, the utility model provides a frock for base station antenna assembly line with feasibility and practicality.

SUMMERY OF THE UTILITY MODEL

In order to improve the work efficiency of basic station antenna production water line, practice thrift the space, solve the turnover problem that basic station antenna production process faces, the utility model provides a basic station antenna frock for assembly line with feasibility and practicality, this frock is fixed on the bottom plate and is set up the equal adjustable support body of width and length, can be applicable to the basic station antenna reflecting plate of multiple different specifications, has effectively solved above-mentioned problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a basic station antenna frock for assembly line, includes the bottom plate and fixes the support body on the bottom plate, the width and the length of support body are all adjustable, the support body is used for supporting the sideboard of basic station antenna reflecting plate both sides.

Preferably, the bracket body comprises four upright posts for supporting the side plate, every two adjacent upright posts are connected through a length adjusting mechanism, and the length adjusting mechanism is used for adjusting the distance between the two adjacent upright posts.

Preferably, the length adjusting mechanism comprises a sleeve and a connecting rod sleeved in the sleeve, and the connecting rod is connected with the sleeve in a sliding manner.

Preferably, four above-mentioned stands are stand one, stand two, stand three and stand four respectively, stand one constitutes trident support one with two adjacent sleeve pipe fixed connection respectively, stand two and stand three are equallyd divide respectively with an adjacent sleeve pipe and an adjacent connecting rod fixed connection, constitute trident support two and trident support three respectively, stand four constitutes trident support four with two adjacent connecting rod fixed connection respectively.

Preferably, the four upright columns are respectively an upright column I, an upright column II, an upright column III and an upright column IV, and the upright column I, the upright column II, the upright column III and the upright column IV are respectively fixedly connected with an adjacent sleeve and an adjacent connecting rod to respectively form a three-fork support I, a three-fork support II, a three-fork support III and a four-fork support.

Preferably, at least one fixing hole is formed in one sleeve of the first three-fork support, and the fixing hole is used for fixing the first three-fork support on the bottom plate.

Preferably, each sleeve is provided with an adjusting hole and an adjusting tack matched with the adjusting hole at the top of one end of the sleeve far away from the upright fixedly connected with the sleeve, and the sleeve and the connecting rod are fixed after the distance between two adjacent uprights is determined.

Preferably, the top end of the upright post is provided with a groove for placing the side plate.

Preferably, the sleeve is a square tube, and the connecting rod is a square groove with an opening facing the bottom plate.

Preferably, the width adjusting range of the bracket body is 270-500mm, and the length adjusting range is 1000-1400 mm.

The utility model discloses following beneficial effect has: (1) the utility model has the advantages that the bracket body with adjustable width and length is fixedly arranged on the bottom plate, and the bracket can be suitable for the base station antenna reflecting plates with various specifications, thereby improving the turnover efficiency and saving the space;

(2) the utility model discloses be provided with the recess that is used for placing base station antenna reflecting plate sideboard on the stand top of support body, being provided with of recess does benefit to and firmly blocks the sideboard, avoids base station antenna reflecting plate landing from the support body in transmission process.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural view of the tool of the present invention;

fig. 2 is a schematic structural view of another embodiment of the tool of the present invention;

fig. 3 is a schematic structural diagram of a base station antenna reflection plate for supporting the tool of the present invention;

FIG. 4 is a schematic view of a specific application of the tool of the present invention;

FIG. 5 is a schematic structural view of the sleeve and the connecting rod of the present invention;

in the figure: 1. a base plate; 2. a stent body; 31. a first upright post; 32. a second upright post; 33. a third upright post; 34. a fourth upright post; 4. a length adjustment mechanism; 41. a sleeve; 411. adjusting the fastening nail; 412. fixing the bolt; 42. a connecting rod; 5. a groove; 9. a base station antenna reflector plate; 91. and (7) a side plate.

Detailed Description

The present invention will now be described in further detail with reference to examples.

The utility model provides a base station antenna frock for assembly line, as shown in figure 1, includes bottom plate 1 and fixes the support body on bottom plate 1, and the width and the length of support body are all adjustable, and the support body is used for supporting sideboard 91 of base station antenna reflecting plate 9 both sides. The bracket body with adjustable width and length is fixedly arranged on the bottom plate 1, and the length or the width of the bracket body can be adjusted or the length and the width can be adjusted simultaneously according to base station antenna reflecting plates with different specifications, so that the bracket can be used for transferring base station antennas with different specifications, the transferring efficiency is improved, and the space is saved; in practical application, can be according to the space in production assembly workshop and the concrete position of each station, set up the assembly line, will the utility model discloses the bottom plate of frock is placed on the assembly line, and after the assembly of a station was accomplished, puts the base station antenna reflecting plate on the support body, and the frock is taken the base station antenna reflecting plate and is transmitted to next station along with the assembly line, takes off the base station antenna reflecting plate after, carries out the assembly of this station, and the rethread flows the frock on the assembly line and transmits to another station after accomplishing. Compared with the traditional mode of transporting the base station antenna reflection plate through the turnover support vehicle, the automatic transmission mode greatly improves the production efficiency, saves a large amount of manpower and material resources and saves a large amount of space.

In a specific embodiment, as shown in fig. 1, the bracket body comprises four upright posts for supporting the side plate 91, each two adjacent upright posts are connected through a length adjusting mechanism 4, and the length adjusting mechanism 4 is used for adjusting the distance between the two adjacent upright posts. In a specific embodiment, any one of the four columns may be fixed on the bottom plate 1, the distance between the column and two adjacent columns is adjusted by the length adjusting mechanism 4 according to specific requirements, and further the position of the fourth column is determined by the length adjusting mechanism 4.

In a specific embodiment, as shown in fig. 1, the length adjustment mechanism 4 includes a sleeve 41 and a connecting rod 42 sleeved in the sleeve 41, and the connecting rod 42 is slidably connected to the sleeve 41.

In a specific embodiment, as shown in fig. 1, the four columns are a first column 31, a second column 32, a third column 33 and a fourth column 34, the first column 31 is fixedly connected with two adjacent sleeves 41 to form a first trifurcate support, the second column 32 and the third column 33 are fixedly connected with one adjacent sleeve 41 and one adjacent connecting rod 42 to form a second trifurcate support and a third trifurcate support, and the fourth column 34 is fixedly connected with two adjacent connecting rods 42 to form a fourth trifurcate support. In a specific embodiment, the upright and the sleeve and/or the connecting rod can be fixed together by welding. In a specific embodiment, the first trifurcate bracket may be fixed to the base plate 1, as shown in fig. 1, the distances between the second upright 32 and the first upright 31 and between the third upright 33 and the fourth upright 34 may be determined by two sets of length adjusting mechanisms 4 in the width direction, and then the distances between the third upright 33 and the first upright 31 and between the fourth upright 34 and the second upright 32 may be determined by two sets of length adjusting mechanisms 4 in the length direction, or the distance in the length direction may be determined first and then the distance in the width direction may be determined.

In a specific embodiment, as shown in fig. 2, the four columns are a first column 31, a second column 32, a third column 33 and a fourth column 34, and the first column 31, the second column 32, the third column 33 and the fourth column 34 are fixedly connected with an adjacent sleeve 41 and an adjacent connecting rod 42 respectively to form a first trifurcate bracket, a second trifurcate bracket, a third trifurcate bracket and a fourth trifurcate bracket. In a specific embodiment, the upright and the sleeve and/or the connecting rod can be fixed together by welding. In a specific embodiment, the first trifurcate bracket may be fixed to the base plate 1, as shown in fig. 2, the distances between the second upright 32 and the first upright 31 and between the third upright 33 and the fourth upright 34 may be determined by two sets of length adjusting mechanisms 4 in the width direction, and then the distances between the third upright 33 and the first upright 31 and between the fourth upright 34 and the second upright 32 may be determined by two sets of length adjusting mechanisms 4 in the length direction, or the distance in the length direction may be determined first and then the distance in the width direction may be determined.

In a specific embodiment, as shown in fig. 1 or fig. 2, at least one fixing hole is formed on one sleeve 41 of the first three-prong bracket, and is used for fixing the first three-prong bracket on the bottom plate 1. At least one fixing hole is formed in one sleeve 41 of the first three-prong bracket, the sleeve 41 (namely, the first three-prong bracket) is fixed on the bottom plate 1 through a fixing bolt 412, the position of the first upright post 31 is determined, the first upright post 31 is used as a reference object, and the positions of the other three upright posts are adjusted through the length adjusting mechanism 4.

In a specific embodiment, as shown in fig. 1 or fig. 2, each sleeve 41 is provided with an adjusting hole and an adjusting nail 411 matched with the adjusting hole at the top of the end far away from the column fixedly connected with the sleeve 41, and is used for fixing the sleeve 41 and the connecting rod 42 after the distance between two adjacent columns is determined. When the length and/or the width of the bracket body need to be adjusted, the adjusting fastening nail 411 is firstly unscrewed, the distance between the two upright posts is adjusted through the relative sliding between the sleeve 41 and the connecting rod 42, and after the proper position is reached, the adjusting fastening nail 411 is screwed down. In a specific embodiment, as shown in fig. 1 or fig. 2, the adjusting tack 411 has a handle at the top for easy rotation.

In a particular embodiment, as shown in fig. 1-2 and 4, the top end of the post has a recess 5 for receiving an edge plate 91. The arrangement of the groove 5 is favorable for firmly clamping the side plate 91 of the base station antenna reflection plate 9, and the base station antenna reflection plate 9 is prevented from sliding off the bracket body in the transmission process.

In a specific embodiment, as shown in fig. 5, the sleeve 41 is a square tube, and the connecting rod 42 is a square groove opening toward the base plate 1. The connecting rod 42 is set to be in a square groove structure, so that the connecting rod 42 can slide back and forth in the sleeve 41 conveniently, and the limitation of back and forth sliding of the connecting rod 42 when the side lengths of the square pipe and the square groove are too close can be effectively avoided.

In a specific embodiment, the sleeve 41 may also be a square groove opening toward the bottom plate 1, and besides the square pipe and the square groove, the sleeve 41 and the connecting rod 42 may also be other shapes that can be matched with each other, such as a cylindrical shape.

In a specific embodiment, the width adjustment range of the stent body is 270-500mm, and the length adjustment range is 1000-1400 mm. The width and length adjusting range can basically adapt to various current base station antenna reflecting plates, but the amplifying width adjusting range and the amplifying length adjusting range can also be released according to the requirements of actual conditions.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. The utility model provides a base station antenna frock for assembly line which characterized in that: the base station antenna reflector comprises a bottom plate (1) and a support body fixed on the bottom plate (1), wherein the width and the length of the support body can be adjusted, and the support body is used for supporting side plates (91) on two sides of a base station antenna reflector (9).

2. The tooling for the base station antenna assembly line of claim 1, wherein: the support body comprises four upright columns used for supporting the side plates (91), every two adjacent upright columns are connected through a length adjusting mechanism (4), and the length adjusting mechanism (4) is used for adjusting the distance between every two adjacent upright columns.

3. The tooling for the base station antenna assembly line of claim 2, wherein: the length adjusting mechanism (4) comprises a sleeve (41) and a connecting rod (42) sleeved in the sleeve (41), and the connecting rod (42) is connected with the sleeve (41) in a sliding mode.

4. The tooling for the base station antenna assembly line of claim 3, wherein: four the stand is stand one (31), stand two (32), stand three (33) and stand four (34) respectively, stand one (31) respectively with two adjacent sleeve pipe (41) fixed connection, constitute trident support one, stand two (32) and stand three (33) are equallyd divide respectively with an adjacent sleeve pipe (41) and an adjacent connecting rod (42) fixed connection, constitute trident support two and trident support three respectively, stand four (34) respectively with two adjacent connecting rod (42) fixed connection, constitute trident support four.

5. The tooling for the base station antenna assembly line of claim 3, wherein: four the stand is stand one (31), stand two (32), stand three (33) and stand four (34) respectively, stand one (31), stand two (32), stand three (33) and stand four (34) are equallyd divide respectively with an adjacent sleeve pipe (41) and an adjacent connecting rod (42) fixed connection, constitute trident support one, trident support two, trident support three and trident support four respectively.

6. The tooling for the base station antenna assembly line of claim 4 or 5, wherein: and one sleeve (41) of the first three-fork support is provided with at least one fixing hole for fixing the first three-fork support on the bottom plate (1).

7. The tooling for the base station antenna assembly line of claim 6, wherein: and the top of one end, far away from the stand column fixedly connected with the sleeve (41), of each sleeve (41) is provided with an adjusting hole and an adjusting tack (411) matched with the adjusting hole, and the sleeves (41) are fixed with the connecting rods (42) after the distance between every two adjacent stand columns is determined.

8. The tooling for the base station antenna assembly line of claim 2, wherein: the top end of the upright post is provided with a groove (5) for placing a side plate (91).

9. The tooling for the base station antenna assembly line of claim 3, wherein: the sleeve (41) is a square tube, and the connecting rod (42) is a square groove with an opening facing the bottom plate (1).

10. The tooling for the base station antenna assembly line of claim 1, wherein: the width adjusting range of the bracket body is 270-1400 mm and the length adjusting range is 270-500 mm.

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