CN110596437B - Automatic crimping device for crimping HPLC communication module of electric energy meter - Google Patents

Abstract

The invention relates to an automatic crimping device for crimping an HPLC communication module of an electric energy meter, which overcomes the limitations of various wire bodies and adopts a cylinder-driven crimping device to replace manual automatic crimping; probes required by installing various communication modules are respectively staggered and arranged, so that the purpose of being compatible with various communication modules is achieved; the probes are distributed in 16 groups of 4X4, so that the purpose of crimping 16 identical electric energy meter HPLC communication modules can be achieved.

Description

Automatic crimping device for crimping HPLC communication module of electric energy meter

Technical Field

The invention relates to an automatic crimping device, in particular to an automatic crimping device for crimping an HPLC communication module of an electric energy meter.

Background

The automatic crimping device of the electric energy meter HPLC communication module has the main function of enabling the electric energy meter HPLC communication module to be automatically connected with electrical measurement equipment, so that the effect that the electrical measurement equipment can power on the electric energy meter HPLC communication module for communication detection is achieved.

Crimping device of present electric energy meter HPLC communication module:

(1) The manual operation is adopted for crimping, so that the efficiency is low and the cost is high.

(2) Because the crimping position of each communication module and the number of probes required are different, and enough pressure is needed during crimping, the current crimping device can only crimp for one specification and a single communication module, and if crimping for communication modules with other specifications, corresponding parts need to be replaced, which is time-consuming and labor-consuming.

Disclosure of Invention

The invention aims to overcome the defects, and aims to provide an automatic crimping device for crimping an HPLC communication module of an electric energy meter, which overcomes the limitations of various wire bodies and adopts a cylinder-driven crimping device to replace manual automatic crimping; probes required by installing various communication modules are respectively staggered and arranged, so that the purpose of being compatible with various communication modules is achieved; the probes are distributed in 16 groups of 4X4, so that the purpose of crimping 16 identical electric energy meter HPLC communication modules can be achieved.

The invention achieves the aim through the following technical scheme: an automatic crimping device for crimping an HPLC communication module of an electric energy meter, comprising: the device comprises a thimble device, a pressing device, a profile bracket, a belt conveying line and a tooling tray; the thimble device is respectively connected with the section bar bracket and the belt conveying line; the pressing device is connected with the section bar bracket; the tooling pallet is arranged on the belt conveying line and corresponds to the position of the thimble device; the tooling tray is used for placing the HPLC communication module; and pressing the HPLC communication module on the tooling pallet through the pressing device, and pressing the HPLC communication module upwards through the ejector pin device to finish the press connection.

Preferably, the thimble device comprises a jacking bottom plate, a jacking cylinder, a jacking linear bearing, a jacking guide shaft, a jacking cylinder connecting piece, a probe fixing plate, a positioning pin, a probe assembly I, a probe assembly II and a probe assembly III; the jacking air cylinder is connected to the jacking bottom plate; the jacking linear bearing is connected to the jacking bottom plate; the jacking guide shaft penetrates through the jacking linear bearing and is connected to the probe fixing plate; the jacking air cylinder connecting piece is connected with the jacking air cylinder and the probe fixing plate respectively; the positioning pin is connected to the probe fixing plate; the probe component I, the probe component II and the probe component III are respectively connected to the probe fixing plate.

Preferably, the probe assembly I, the probe assembly II and the probe assembly III have the same structure, and the probe assembly comprises a probe seat, a probe sleeve and a probe; the needle cover is connected to the probe seat, and the probe is connected to the needle cover.

Preferably, the pressing device comprises a supporting plate, a pressing cylinder mounting plate, a pressing cylinder, a pressing linear bearing, a pressing guide shaft, a pressing cylinder connecting piece, a pressing plate fixing plate, a pressing plate linear bearing, a pressing plate guide shaft liner, a pressing plate guide shaft, a compression spring and a pressing plate; the lower pressure cylinder mounting plate is connected to the support plate; the lower pressure cylinder and the lower pressure linear bearing are respectively connected to a lower pressure cylinder mounting plate; the pressing guide shaft penetrates through the pressing linear bearing and is connected to the pressing plate fixing plate; the lower air cylinder connecting piece is connected with the lower air cylinder and the pressing plate fixing plate respectively; the pressing plate linear bearing is connected to the pressing plate fixing plate; the pressing plate guide shaft penetrates through the compression spring and is connected between the pressing plate fixing plate and the pressing plate through the pressing plate guide shaft gasket.

Preferably, the tooling pallet comprises a pallet frame and a module positioning plate; the module locating plate is connected to the tray frame.

The invention has the beneficial effects that: the invention realizes the automatic crimping of the HPLC communication module, achieves the aim of being compatible with modules of various specifications by automatically switching the electrical measurement circuit through electrical control, reduces the labor cost, can simultaneously crimp 16 identical communication modules, and improves the working efficiency.

Drawings

FIG. 1 is a schematic diagram 1 of the whole structure of the invention;

FIG. 2 is a schematic diagram of the whole structure of the present invention 2;

FIG. 3 is a schematic view of the thimble device of the present invention 1;

FIG. 4 is a schematic view of the thimble device of the present invention;

FIG. 5 is a schematic view of the structure of the pressing device 1 of the present invention;

FIG. 6 is a schematic view of the structure of the pressing device 2 of the present invention;

FIG. 7 is a schematic view of a tooling pallet structure of the present invention;

fig. 8 is a schematic view of the probe assembly structure of the present invention.

Detailed Description

The invention will be further described with reference to the following specific examples, but the scope of the invention is not limited thereto:

Examples: as shown in fig. 1 and 2, an automatic crimping device for crimping an HPLC communication module of an electric energy meter is composed of a thimble device 1, a pressing device 2, a section bar bracket 3, a belt conveying line 4 and a tooling pallet 5. The thimble device 1 is respectively connected with the section bar bracket 3 and the belt conveying line 4; the pressing device 2 is connected with the section bar bracket 3; the tooling pallet 5 is placed on the belt conveying line 4 and corresponds to the thimble device 1 in position; the HPLC communication module 6 is placed on the tooling pallet 5; the HPLC communication module 6 is pressed on the tooling tray 5 through the pressing device 2, and then the probe is pressed up through the thimble device 1, so that the probe and the module are in press connection.

As shown in fig. 3 and 4, the thimble device comprises a jacking bottom plate 7, a jacking cylinder 8, a jacking linear bearing 9, a jacking guide shaft 10, a jacking cylinder connecting piece 11, a probe fixing plate 12, a positioning pin 13, a probe assembly I14, a probe assembly II15 and a probe assembly III16; the jacking air cylinder 8 is connected to the jacking bottom plate 7; the jacking linear bearing 9 is connected to the jacking bottom plate 7; the jacking guide shaft 10 passes through the jacking linear bearing 9 and is connected to the probe fixing plate 12; the jacking air cylinder connecting piece 11 is respectively connected with the jacking air cylinder 8 and the probe fixing plate 12; the positioning pin 13 is connected to the probe fixing plate 12; probe modules I14, II15, and III16 are attached to the probe-mounting plate 12, respectively.

As shown in fig. 5 and 6, the pressing device includes a support plate 17, a pressing cylinder mounting plate 18, a pressing cylinder 19, a pressing linear bearing 20, a pressing guide shaft 21, a pressing cylinder connecting piece 22, a pressing plate fixing plate 23, a pressing plate linear bearing 24, a pressing plate guide shaft gasket 25, a pressing plate guide shaft 26, a compression spring 27, and a pressing plate 28; the lower pressure cylinder mounting plate 18 is connected to the support plate 17; the lower pressure cylinder 19 and the lower pressure linear bearing 20 are connected to the lower pressure cylinder mounting plate 18; the pressing guide shaft 21 passes through the pressing linear bearing 20 and is connected to the pressing plate fixing plate 23; the lower air cylinder connecting piece 22 is respectively connected with the lower air cylinder 19 and the pressing plate fixing plate 23; the pressing plate linear bearing 24 is connected to the pressing plate fixing plate 23; the platen guide shaft 26 passes through the compression spring 27, and is connected with the platen fixing plate 23 and the platen 28 through the platen guide shaft pad 25.

As shown in fig. 7, the tooling pallet includes a pallet frame 29 and a module locating plate 30; a module positioning plate 30 is attached to the tray frame 29 for placing the HPLC communication modules.

The probe assemblies I14, II15 and III16 have the same structure, and as shown in FIG. 8, the probe assemblies comprise a probe seat 31, a probe sleeve 32 and a probe 33; the needle sleeve 32 is connected to the probe seat 31, the probe 33 is connected to the needle sleeve 32, and the electric transmission and communication between the electric measuring equipment and the communication module are realized through the probe assembly.

The foregoing is considered as illustrative of the principles of the present invention, and has been described herein before with reference to the accompanying drawings, in which the invention is not limited to the specific embodiments shown.

Claims (1)

1. An automatic crimping device for crimping an HPLC communication module of an electric energy meter, comprising: the device comprises a thimble device (1), a pressing device (2), a section bar bracket (3), a belt conveying line (4) and a tooling tray (5); the thimble device (1) is respectively connected with the section bar bracket (3) and the belt conveying line (4); the pressing device (2) is connected with the profile bracket (3); the tooling pallet (5) is placed on the belt conveyor line (4), and the tooling pallet (5) is used for placing an HPLC communication module; pressing the HPLC communication module on the tooling pallet (5) through the pressing device (2), and jacking through the thimble device (1) to finish crimping; the pressing device (2) comprises a supporting plate (17), a pressing cylinder mounting plate (18), a pressing cylinder (19), a pressing linear bearing (20), a pressing guide shaft (21), a pressing cylinder connecting piece (22), a pressing plate fixing plate (23), a pressing plate linear bearing (24), a pressing plate guide shaft gasket (25), a pressing plate guide shaft (26), a compression spring (27) and a pressing plate (28); the lower pressure cylinder mounting plate (18) is connected to the support plate (17); the lower pressure cylinder (19) and the lower pressure linear bearing (20) are respectively connected to the lower pressure cylinder mounting plate (18); the pressing guide shaft (21) penetrates through the pressing linear bearing (20) and is connected to the pressing plate fixing plate (23); the lower air cylinder connecting piece (22) is respectively connected with the lower air cylinder (19) and the pressing plate fixing plate (23); the pressing plate linear bearing (24) is connected to the pressing plate fixing plate (23); the pressing plate guide shaft (26) penetrates through the compression spring (27) and is connected between the pressing plate fixing plate (23) and the pressing plate (28) through the pressing plate guide shaft gasket (25); the thimble device (1) comprises a jacking bottom plate (7), a jacking cylinder (8), a jacking linear bearing (9), a jacking guide shaft (10), a jacking cylinder connecting piece (11), a probe fixing plate (12), a positioning pin (13), a probe assembly I (14), a probe assembly II (15) and a probe assembly III (16); the jacking air cylinder (8) is connected to the jacking bottom plate (7); the jacking linear bearing (9) is connected to the jacking bottom plate (7); the jacking guide shaft (10) penetrates through the jacking linear bearing (9) and is connected to the probe fixing plate (12); the jacking air cylinder connecting piece (11) is respectively connected with the jacking air cylinder (8) and the probe fixing plate (12); the positioning pin (13) is connected to the probe fixing plate (12); the probe assembly I (14), the probe assembly II (15) and the probe assembly III (16) are respectively connected to the probe fixing plate (12); the probe assembly I (14), the probe assembly II (15) and the probe assembly III (16) have the same structure, and the probe assembly comprises a probe seat (31), a needle sleeve (32) and a probe (33); the needle sleeve (32) is connected to the probe seat (31), and the probe (33) is connected to the needle sleeve (32); the tooling pallet (5) comprises a pallet frame (29) and a module positioning plate (30); the module positioning plate (30) is connected to the tray frame (29).