CN214641162U - Welding auxiliary device applied to network filter - Google Patents

Abstract

The utility model discloses a welding auxiliary device applied to a network filter, wherein a translational movable plate driven by a translational driving mechanism is arranged on the upper end side of a fixed base, a rotary movable frame is arranged on the upper end side of the translational movable plate and comprises a movable frame bottom plate, a movable frame top plate and a movable frame supporting plate, a rotary driving cylinder is arranged on the upper surface of the translational movable plate in a screwed mode, and the driving end of the rotary driving cylinder is connected with the movable frame bottom plate; a filter positioning block is arranged on the upper surface of the movable frame top plate and provided with a shell positioning groove, a left pin positioning groove and a right pin positioning groove; a lifting through hole is formed between the filter positioning block and the top plate of the movable frame, a lifting driving cylinder is arranged on a cylinder mounting seat on the upper surface of the bottom plate of the movable frame, and an auxiliary electromagnet positioned in the lifting through hole is arranged at the extending end part of a piston rod of the lifting driving cylinder. The utility model has the advantages of structural design is novel, degree of automation is high, and can improve network filter pin welding efficiency effectively.

Description

Welding auxiliary device applied to network filter

Technical Field

The utility model relates to a network filter technical field especially relates to a be applied to network filter's welding auxiliary device.

Background

The function of the filter is to allow the signals of a certain part of frequencies to pass smoothly, while the signals of another part of frequencies are greatly suppressed, and the filter is essentially a frequency selection circuit. The frequency range in the filter through which a signal can pass is called a passband or passband; conversely, the frequency range in which the signal is greatly attenuated or completely suppressed is called the stop band; the dividing frequency between the pass band and the stop band is called the cut-off frequency; the voltage gain of the ideal filter in the pass band is constant, and the voltage gain in the stop band is zero; a transition band of a certain frequency range exists between the pass band and the stop band of the actual filter.

With the development and progress of network technology, the function of the network filter is also continuously improved. In the wiring process of the network filter, each left pin and each right pin of the network filter need to be welded respectively.

In the prior art, the pin welding of the network filter is generally realized by means of manual welding, and the welding efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a be applied to network filter's welding auxiliary device to prior art not enough, this be applied to network filter's welding auxiliary device structural design is novel, degree of automation is high, and can improve network filter pin welding efficiency effectively.

In order to achieve the above purpose, the present invention is achieved by the following technical solutions.

A welding auxiliary device applied to a network filter comprises a fixed base, wherein a horizontally-arranged and horizontally-movable horizontal moving plate which is horizontally movable from left to right is arranged on the upper end side of the fixed base;

the upper end side of the translational movable plate is provided with a rotary movable frame, the rotary movable frame comprises a movable frame bottom plate and a movable frame top plate which are respectively arranged transversely, the movable frame top plate is positioned at the upper end side of the movable frame bottom plate, the movable frame top plate and the movable frame bottom plate are arranged at intervals, a movable frame supporting plate is arranged between the movable frame top plate and the movable frame bottom plate, the upper end part of the movable frame supporting plate is in threaded connection with the movable frame top plate, and the lower end part of the movable frame supporting plate is in threaded connection with the movable frame bottom plate; the movable frame bottom plate is positioned on the upper end side of the translation movable plate and is arranged at intervals with the translation movable plate, the upper surface of the translation movable plate is screwed with a rotation driving cylinder, and the driving end of the rotation driving cylinder is connected with the movable frame bottom plate;

a filter positioning block is arranged on the upper surface of the movable frame top plate, a shell positioning groove is formed in the middle of the upper surface of the filter positioning block, left pin positioning grooves are formed in the upper surface of the filter positioning block on the left end side of the shell positioning groove and corresponding to left pins of the network filter respectively, and right pin positioning grooves are formed in the upper surface of the filter positioning block on the right end side of the shell positioning groove and corresponding to right pins of the network filter respectively; a lifting through hole is formed between the filter positioning block and the movable frame top plate, an upper end opening of the lifting through hole extends to the bottom surface of the shell positioning groove, a lower end opening of the lifting through hole extends to the lower surface of the movable frame top plate, a cylinder mounting seat is screwed on the upper surface of the movable frame bottom plate, a lifting driving cylinder which moves up and down is mounted on the cylinder mounting seat, the extending end portion of a piston rod of the lifting driving cylinder extends into the lifting through hole, and an auxiliary electromagnet is mounted at the extending end portion of the piston rod of the lifting driving cylinder.

The translation driving mechanism comprises a left screw rod seat and a right screw rod seat which are respectively screwed on the fixed base, the left screw rod seat is positioned on the left end side of the right screw rod seat, the left screw rod seat and the right screw rod seat are arranged right and left, a driving screw rod is arranged between the left screw rod seat and the right screw rod seat, and the left end part and the right end part of the driving screw rod are respectively arranged on the left screw rod seat and the right screw rod seat on the corresponding sides through bearings;

a motor mounting seat is screwed on the right end side of the right screw rod seat of the fixed base, a translation driving servo motor is screwed on the motor mounting seat, and a power output shaft of the translation driving servo motor is connected with the right end part of the driving screw rod through a coupler;

the lower surface spiral shell of translation fly leaf is equipped with the translation drive block, and translation drive block spiral shell is equipped with the screw-nut with drive lead screw matched with.

The lower surface spiral shell of translation fly leaf is equipped with along the horizontal guide rail that extends of left and right direction, unable adjustment base's upper surface spiral shell is equipped with the supporting seat in the below spiral shell of guide rail, and the upper end spiral shell of supporting seat is equipped with the slider, and the guide rail matches with the slider and constitutes a direction pair structure.

And a rotary support bearing surrounding the periphery of the rotary driving cylinder is arranged between the movable frame bottom plate and the translation movable plate.

The utility model has the advantages that: the utility model relates to a welding auxiliary device applied to a network filter, which comprises a fixed base, wherein the upper end side of the fixed base is provided with a horizontally arranged and horizontally movable translation movable plate, the fixed base is provided with a translation driving mechanism corresponding to the translation movable plate, and the translation driving mechanism is in driving connection with the translation movable plate; the upper end side of the translational movable plate is provided with a rotary movable frame, the rotary movable frame comprises a movable frame bottom plate and a movable frame top plate which are respectively arranged transversely, the movable frame top plate is positioned at the upper end side of the movable frame bottom plate, the movable frame top plate and the movable frame bottom plate are arranged at intervals, a movable frame supporting plate is arranged between the movable frame top plate and the movable frame bottom plate, the upper end part of the movable frame supporting plate is in threaded connection with the movable frame top plate, and the lower end part of the movable frame supporting plate is in threaded connection with the movable frame bottom plate; the movable frame bottom plate is positioned on the upper end side of the translation movable plate and is arranged at intervals with the translation movable plate, the upper surface of the translation movable plate is screwed with a rotation driving cylinder, and the driving end of the rotation driving cylinder is connected with the movable frame bottom plate; a filter positioning block is arranged on the upper surface of the movable frame top plate, a shell positioning groove is formed in the middle of the upper surface of the filter positioning block, left pin positioning grooves are formed in the upper surface of the filter positioning block on the left end side of the shell positioning groove and corresponding to left pins of the network filter respectively, and right pin positioning grooves are formed in the upper surface of the filter positioning block on the right end side of the shell positioning groove and corresponding to right pins of the network filter respectively; a lifting through hole is formed between the filter positioning block and the movable frame top plate, an upper end opening of the lifting through hole extends to the bottom surface of the shell positioning groove, a lower end opening of the lifting through hole extends to the lower surface of the movable frame top plate, a cylinder mounting seat is screwed on the upper surface of the movable frame bottom plate, a lifting driving cylinder which moves up and down is mounted on the cylinder mounting seat, the extending end portion of a piston rod of the lifting driving cylinder extends into the lifting through hole, and an auxiliary electromagnet is mounted at the extending end portion of the piston rod of the lifting driving cylinder. Through the structure design, the utility model has the advantages of structural design is novel, degree of automation is high, and can improve network filter pin welding efficiency effectively.

Drawings

The invention will be further described with reference to the drawings, but the embodiments in the drawings do not constitute any limitation of the invention.

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

In fig. 1, included are:

1-fixed base 2-movable plate for translation

3-translational driving mechanism 311-left screw rod seat

312-right screw base 32-drive screw

33-motor mounting seat 34-translational driving servo motor

35-coupling 36-translation driving block

37-lead screw nut 381-guide rail

382-slide block 39-support seat

4-rotating movable frame 41-movable frame bottom plate

42-movable frame top plate 43-movable frame support plate

5-rotary driving cylinder 6-filter positioning block

61 casing positioning groove 62 left side pin positioning groove

63-right pin positioning slot 7-lifting through hole

81-cylinder mounting seat 82-lifting driving cylinder

9-auxiliary electromagnet 100-slewing bearing.

Detailed Description

The present invention will be described with reference to specific embodiments.

As shown in fig. 1, an auxiliary welding device applied to a network filter includes a fixed base 1, a horizontally disposed and horizontally movable translational movable plate 2 installed on an upper end side of the fixed base 1, a translational driving mechanism 3 installed on the fixed base 1 corresponding to the translational movable plate 2, and the translational driving mechanism 3 in driving connection with the translational movable plate 2.

It should be explained that the translation driving mechanism 3 includes a left screw seat 311 and a right screw seat 312 which are respectively screwed to the fixed base 1, the left screw seat 311 is located at the left end side of the right screw seat 312, the left screw seat 311 and the right screw seat 312 are arranged right and left, a driving screw 32 is arranged between the left screw seat 311 and the right screw seat 312, and the left end part and the right end part of the driving screw 32 are respectively mounted on the left screw seat 311 and the right screw seat 312 at the corresponding sides through bearings; a motor mounting seat 33 is screwed on the right end side of the right screw rod seat 312 of the fixed base 1, a translation driving servo motor 34 is screwed on the motor mounting seat 33, and a power output shaft of the translation driving servo motor 34 is connected with the right end part of the driving screw rod 32 through a coupler 35; the lower surface of the translational movable plate 2 is provided with a translational driving block 36 in a threaded manner, and the translational driving block 36 is provided with a screw nut 37 matched with the driving screw 32 in a threaded manner.

Further, a rotary movable frame 4 is arranged on the upper end side of the translational movable plate 2, the rotary movable frame 4 comprises a movable frame bottom plate 41 and a movable frame top plate 42 which are respectively arranged transversely, the movable frame top plate 42 is positioned on the upper end side of the movable frame bottom plate 41, the movable frame top plate 42 and the movable frame bottom plate 41 are arranged at intervals, a movable frame supporting plate 43 is arranged between the movable frame top plate 42 and the movable frame bottom plate 41, the upper end part of the movable frame supporting plate 43 is in threaded connection with the movable frame top plate 42, and the lower end part of the movable frame supporting plate 43 is in threaded connection with the movable frame bottom plate 41; the movable frame bottom plate 41 is positioned on the upper end side of the translational movable plate 2, the movable frame bottom plate 41 and the translational movable plate 2 are arranged at intervals, the upper surface of the translational movable plate 2 is screwed with the rotary driving cylinder 5, and the driving end of the rotary driving cylinder 5 is connected with the movable frame bottom plate 41; wherein, a rotary supporting bearing 100 surrounding the periphery of the rotary driving cylinder 5 is arranged between the movable frame bottom plate 41 and the translational movable plate 2.

Furthermore, a filter positioning block 6 is installed on the upper surface of the movable frame top plate 42, a housing positioning groove 61 is formed in the middle position of the upper surface of the filter positioning block 6, a left pin positioning groove 62 is formed in the upper surface of the filter positioning block 6 on the left end side of the housing positioning groove 61 corresponding to each left pin of the network filter, and a right pin positioning groove 63 is formed in the upper surface of the filter positioning block 6 on the right end side of the housing positioning groove 61 corresponding to each right pin of the network filter; a lifting through hole 7 is formed between the filter positioning block 6 and the movable frame top plate 42, an upper end opening of the lifting through hole 7 extends to the bottom surface of the shell positioning groove 61, a lower end opening of the lifting through hole 7 extends to the lower surface of the movable frame top plate 42, a cylinder mounting seat 81 is screwed on the upper surface of the movable frame bottom plate 41, a lifting driving cylinder 82 which moves up and down is mounted on the cylinder mounting seat 81, the extending end part of a piston rod of the lifting driving cylinder 82 extends into the lifting through hole 7, and an auxiliary electromagnet 9 is mounted on the extending end part of the piston rod of the lifting driving cylinder 82.

In the process that the translation driving mechanism 3 drives the translation moving plate 2 to move left and right, the translation driving servo motor 34 drives the translation driving block 36 to move left and right through a screw rod transmission mechanism consisting of a driving screw rod 32 and a screw rod nut 37, the translation driving block 36 moving left and right drives the translation moving plate 2 to move left and right synchronously, and the translation moving plate 2 moving left and right drives the rotation driving cylinder 5, the rotation moving frame 4 and the filter positioning block 6 to move synchronously. For guaranteeing that 3 drive translation actuating mechanism translation fly leaf 2 steadily remove the removal reliably, the utility model discloses can adopt following guide structure design, it is concrete: the lower surface screw thread of translation fly leaf 2 is equipped with along the horizontal guide rail 381 that extends of left and right direction, and the upper surface screw thread below guide rail 381 of unable adjustment base 1 is equipped with supporting seat 39, and the upper end screw thread of supporting seat 39 is equipped with slider 382, and guide rail 381 cooperates with slider 382 and constitutes a direction pair structure.

In the working process of the utility model, the operator places the network filter in the filter positioning block 6, wherein the housing of the network filter is positioned in the housing positioning groove 61 of the filter positioning block 6, each left pin of the network filter is inserted and positioned in the corresponding left pin positioning groove 62, and each right pin of the network filter is inserted and positioned in the corresponding right pin positioning groove 63; after the network filter is positioned and placed, the auxiliary electromagnet 9 is electrified and magnetically adsorbs an iron core in the network filter, so that the network filter is magnetically adsorbed and fixed on the filter positioning block 6; when the left side pins of the network filter need to be welded, the rotary driving cylinder 5 acts and drives the rotary movable frame 4 and the filter positioning block to rotate, so that the left side pins of the network filter are located at a welding gun position; when the right side pin of the network filter needs to be welded, the rotary driving cylinder 5 acts and drives the rotary movable frame 4 and the filter positioning block 6 to rotate, so that the right side pin of the network filter is located at the position of a welding gun, and during welding, after one right side pin is welded, the servo motor 34 is driven to move in a translation mode and drives the network filter to move horizontally for one position, so that the next right side is moved to the position of the welding gun, and then the welding of all the right side pins of the network filter is completed in sequence.

After all the pins of the network filter are welded, the auxiliary electromagnet 9 is powered off, the lifting driving cylinder 82 acts, the lifting driving cylinder 82 pushes the auxiliary electromagnet 9 upwards, and the auxiliary electromagnet 9 pushes the welded network filter upwards.

Synthesize the above-mentioned condition and know, through above-mentioned structural design, the utility model has the advantages of structural design is novel, degree of automation is high, and can improve network filter pin welding efficiency effectively.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (4)

1. The utility model provides a be applied to network filter's welding auxiliary device which characterized in that: the device comprises a fixed base (1), wherein a horizontally arranged and horizontally movable translation movable plate (2) is arranged on the upper end side of the fixed base (1), a translation driving mechanism (3) is arranged on the fixed base (1) corresponding to the translation movable plate (2), and the translation driving mechanism (3) is in driving connection with the translation movable plate (2);

the upper end side of the translational movable plate (2) is provided with a rotary movable frame (4), the rotary movable frame (4) comprises a movable frame bottom plate (41) and a movable frame top plate (42) which are respectively transversely arranged, the movable frame top plate (42) is positioned on the upper end side of the movable frame bottom plate (41), the movable frame top plate (42) and the movable frame bottom plate (41) are arranged at intervals, a movable frame supporting plate (43) is arranged between the movable frame top plate (42) and the movable frame bottom plate (41), the upper end part of the movable frame supporting plate (43) is in threaded connection with the movable frame top plate (42), and the lower end part of the movable frame supporting plate (43) is in threaded connection with the movable frame bottom plate (41); the movable frame bottom plate (41) is positioned on the upper end side of the translation movable plate (2), the movable frame bottom plate (41) and the translation movable plate (2) are arranged at intervals, the upper surface of the translation movable plate (2) is provided with a rotary driving cylinder (5) in a screwed mode, and the driving end of the rotary driving cylinder (5) is connected with the movable frame bottom plate (41);

a filter positioning block (6) is arranged on the upper surface of the movable frame top plate (42), a shell positioning groove (61) is formed in the middle of the upper surface of the filter positioning block (6), a left pin positioning groove (62) is formed in the upper surface of the filter positioning block (6) on the left end side of the shell positioning groove (61) and corresponds to each left pin of the network filter, and a right pin positioning groove (63) is formed in the upper surface of the filter positioning block (6) on the right end side of the shell positioning groove (61) and corresponds to each right pin of the network filter; the filter positioning block (6) and the movable frame top plate (42) are provided with a lifting through hole (7), an upper end opening of the lifting through hole (7) extends to the bottom surface of the shell positioning groove (61), a lower end opening of the lifting through hole (7) extends to the lower surface of the movable frame top plate (42), an air cylinder mounting seat (81) is screwed on the upper surface of the movable frame bottom plate (41), the air cylinder mounting seat (81) is provided with a lifting driving air cylinder (82) which moves up and down, the extending end part of a piston rod of the lifting driving air cylinder (82) extends into the lifting through hole (7), and an auxiliary electromagnet (9) is arranged on the extending end part of the piston rod of the lifting driving air cylinder (82).

2. The welding assistance device applied to the network filter according to claim 1, wherein: the translation driving mechanism (3) comprises a left screw rod seat (311) and a right screw rod seat (312) which are respectively screwed on the fixed base (1), the left screw rod seat (311) is positioned on the left end side of the right screw rod seat (312), the left screw rod seat (311) and the right screw rod seat (312) are arranged right and left, a driving screw rod (32) is arranged between the left screw rod seat (311) and the right screw rod seat (312), and the left end part and the right end part of the driving screw rod (32) are respectively arranged on the left screw rod seat (311) and the right screw rod seat (312) on the corresponding sides through bearings;

a motor mounting seat (33) is screwed on the right end side of the right screw rod seat (312) of the fixed base (1), a translation driving servo motor (34) is screwed on the motor mounting seat (33), and a power output shaft of the translation driving servo motor (34) is connected with the right end part of the driving screw rod (32) through a coupler (35);

the lower surface spiral shell of translation fly leaf (2) is equipped with translation drive block (36), and translation drive block (36) spiral shell is equipped with and drives lead screw (32) matched with screw-nut (37).

3. A welding assistance device for network filters according to claim 2, wherein: the lower surface spiral shell of translation fly leaf (2) is equipped with along left right direction horizontal extension's guide rail (381), the upper surface of unable adjustment base (1) is equipped with supporting seat (39) in the below spiral shell of guide rail (381), and slider (382) are equipped with to the upper end spiral shell of supporting seat (39), and guide rail (381) and slider (382) match and constitute a direction pair structure.

4. The welding assistance device applied to the network filter according to claim 1, wherein: and a rotary support bearing (100) surrounding the periphery of the rotary driving cylinder (5) is arranged between the movable frame bottom plate (41) and the translation movable plate (2).

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