CN217702100U - WIA-PA wireless pressure acquisition board welding frock - Google Patents

Abstract

The utility model relates to a WIA-PA wireless pressure acquisition board welding frock, wherein wireless pressure acquisition board one side is equipped with a plurality of first makeup portions, and the opposite side is equipped with a plurality of second makeup portions, and first makeup portion and second makeup portion structure are the same and the symmetry sets up, and wherein first makeup portion openly is equipped with WIA-PA wireless communication module, and second makeup portion back is equipped with WIA-PA wireless communication module, is equipped with the acquisition board spacing groove in the fixture base, just the tank bottom parallel of acquisition board spacing groove is equipped with first mounting groove and second mounting groove, be equipped with multiunit contact pin placing hole in the first mounting groove, be equipped with communication module standing groove and multiunit pin socket standing groove in the second mounting groove, compress tightly the deckle board and be fixed in on the fixture base through fastening bolt, just wireless pressure acquisition board all around the edge pass through it is fixed to compress tightly the deckle board. The utility model provides high production efficiency has also improved welding quality in the time.

Description

WIA-PA wireless pressure acquisition board welding frock

Technical Field

The utility model belongs to the technical field of the wireless pressure acquisition board production of WIA-PA and specifically relates to a wireless pressure acquisition board welding frock of WIA-PA.

Background

The pressure gauge wireless information acquisition board based on the WIA-PA wireless technology generally comprises a WIA-PA module, a transceiver unit, a power amplification unit, a filtering unit, a power detection unit, a storage unit, a pressure sensor unit, a WIA-PA wireless communication module, connectors and other structures, in the existing production process, various pins and sockets need to be manually inserted into the pressure acquisition board, then the pressure acquisition board is turned over, and manual welding of the components and the pressure acquisition board is carried out, the problems of loosening, floating, inclination, even falling and the like of socket pins often occur in the turning process, the quality of manual welding is seriously influenced, in addition, only one component can be inserted and welded in the plug-in welding process, and then the other component is inserted and welded, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wireless pressure acquisition board welding frock of WIA-PA, can put into the pin contact pin earlier, on pin socket and WIA-PA wireless communication module put into the frock base, put into the welding of wireless pressure acquisition board and once only accomplishing each component again, and wireless pressure acquisition board front welding accomplishes the back, only need to place the pin contact pin again, pin socket and WIA-PA wireless communication module and with putting into again the frock base after wireless pressure acquisition board upset 180 degrees and can realize back welding, production efficiency has both been improved, it is not hard up also to have avoided turning over board in-process component to produce easily, it floats the height, the slope scheduling problem, welding quality has been improved.

The purpose of the utility model is realized through the following technical scheme:

the utility model provides a WIA-PA wireless pressure acquisition board welding frock, includes fixture base, compresses tightly the deckle board and wireless pressure acquisition board, and wherein wireless pressure acquisition board one side is equipped with a plurality of first makeup portions, and the opposite side is equipped with a plurality of second makeup portions, first makeup portion and the identical and symmetry setting of second makeup portion structure, wherein first makeup portion openly is equipped with WIA-PA wireless communication module, and second makeup portion back is equipped with WIA-PA wireless communication module, is equipped with in the fixture base and gathers the board spacing groove, just the tank bottom parallel of gathering the board spacing groove is equipped with first mounting groove and second mounting groove, be equipped with the multiunit contact pin hole of placing in the first mounting groove, be equipped with communication module standing groove and multiunit pin socket standing groove in the second mounting groove, compress tightly the deckle board and be fixed on the fixture base through fastening bolt, just wireless pressure acquisition board all around the edge pass through compress tightly the deckle board and fix.

The mounting structure is characterized in that a detachable strip-shaped protruding table is arranged in the first mounting groove, the upper surface of the strip-shaped protruding table and the bottoms of the first mounting grooves on the two sides of the strip-shaped protruding table are respectively provided with a contact pin placing hole.

The first mounting groove tank bottom of strip bellying platform both sides all is equipped with 4pin contact pins and places the hole and 8pin contact pins and place the hole, it places the hole to be equipped with 3pin contact pins on the strip bellying platform).

And the two sides of the strip-shaped boss are provided with bolts which are respectively inserted into jacks at the corresponding ends in the first mounting groove.

And a 4pin socket placing groove and a 2pin socket placing groove are arranged in the second mounting groove, the 4pin socket placing groove is arranged on one side of the corresponding communication module placing groove, and the 2pin socket placing groove is arranged on the other side of the corresponding communication module placing groove.

A plurality of detachable positioning blocks are arranged in the communication module placing groove.

The lower end of the positioning block is provided with a screw rod which is fixed in a corresponding threaded hole in the corresponding communication module placing groove.

The middle of the compression frame plate is provided with an opening for exposing the main body part of the wireless pressure acquisition plate, and the fixture base is arranged on the raised table surface around the acquisition plate limiting groove and is provided with screw holes matched with the locking bolts.

And a flexible protective strip is arranged on the lower side of the compression frame plate.

Notches are formed in two sides of the tool base.

The utility model discloses an advantage does with positive effect:

1. the utility model discloses during the use, can put into pin contact pin, pin socket, WIA-PA wireless communication module respectively on the frock base in the groove that corresponds, then put into the wireless pressure acquisition board again and to make each contact pin and pin pass the wireless pressure acquisition board and expose, then carry out disposable welding operation to wireless pressure acquisition board upper surface again, compare the prior cartridge welding of prior art and accomplish an element, then insert another kind of element and weld, the utility model discloses it is more simple and convenient to operate, has also improved welding efficiency when reducing workman's working strength.

2. The utility model discloses during the use, after wireless pressure acquisition board one side welding was accomplished, only need to replace pin contact pin, pin socket, WIA-PA wireless communication module and put into fixture base again behind the wireless pressure acquisition board upset 180 degrees and can realize the opposite side welding, also avoided turning over board in-process component when having improved production efficiency and produced not hard up, superficial high, slope scheduling problem easily, improved welding quality.

3. The utility model discloses a compress tightly the fixed wireless pressure acquisition board of deckle board edge all around, guarantee fixed firm to it is equipped with flexible protection strip in order to avoid damaging the wireless pressure acquisition board to compress tightly the deckle board downside.

4. The utility model discloses a be equipped with the strip bellying platform of dismantling the change that takes pin needle to place the hole in the first mounting groove, can satisfy the welding needs of the wireless pressure acquisition board of different specification models, and be equipped with the welding needs of detachable locating piece in order to adapt to different specification WIA-PA wireless communication module in the communication module standing groove in the second mounting groove, application scope is wider, and uses more in a flexible way.

Drawings

FIG. 1 is a schematic view of the usage state of the present invention,

figure 2 is a schematic diagram of the structure of the wireless pressure acquisition board of figure 1,

FIG. 3 is a schematic structural view of the wireless pressure acquisition board of FIG. 1 without the wireless pressure acquisition board,

figure 4 is a schematic view of the tooling base structure in figure 3,

figure 5 is a schematic view of the tooling base of figure 4 after placement of various components,

fig. 6 is an enlarged schematic view of the welding position of the wireless pressure acquisition board in fig. 1.

Wherein, 1 is the frock base, 101 is first mounting groove, 1011 is the hole is placed for the 4pin contact pin, 1012 is the hole is placed for the 8pin contact pin, 1013 is the hole is placed for the 3pin contact pin, 1014 is the protruding platform of strip, 102 is the second mounting groove, 1021 is the 4pin socket standing groove, 1022 is the communication module standing groove, 1023 is the 2pin socket standing groove, 103 is the acquisition board spacing groove, 104 is the notch, 105 is the screw, 2 is the pressure frame board, 3 is the wireless pressure acquisition board, 301 is first piece board portion, 302 is the second piece board portion, 4 is the locking bolt, 5 is the 4pin, 6 is the 8pin, 7 is the 3pin, 8 is the 4pin socket, 801 is first pin, 9 is the 2pin socket, 901 is the second pin, 10 is WIA-PA wireless communication module, 11 is the communication module pin.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1-6, the utility model discloses a frock base 1, compress tightly framed board 2 and wireless pressure acquisition board 3, wherein as shown in fig. 2, wireless pressure acquisition board 3 one side is equipped with a plurality of first piece board 301 that are a linear arrangement, and the opposite side is equipped with a plurality of second piece board 302 that are a linear arrangement, first piece board 301 and second piece board 302 the same and symmetry setting of structure, wherein first piece board 301 openly is equipped with WIA-PA wireless communication module 10, and second piece board 302 back is equipped with WIA-PA wireless communication module 10, as shown in fig. 3-5, be equipped with acquisition board spacing groove 103 in frock base 1, just the tank bottom parallel of acquisition board spacing groove 103 is equipped with first mounting groove 101 and second mounting groove 102, be equipped with the multiunit contact pin hole in first mounting groove 101, be equipped with communication module standing groove 1022 and multiunit pin socket standing groove in second mounting groove 102, compress tightly framed board 2 is fixed in frock base 1 through locking bolt 4, just wireless pressure acquisition board 3 is along the fixed compression plate 2.

As shown in fig. 4, in this embodiment, a strip-shaped protruding table 1014 is disposed in the first mounting groove 101, and the bottoms of the first mounting grooves 101 on the two sides of the strip-shaped protruding table 1014 are respectively provided with a 4pin placing hole 1011 and an 8pin placing hole 1012, and the strip-shaped protruding table 1014 is provided with a 3pin placing hole 1013, as shown in fig. 5, when this embodiment is used, the 4pin 5 is placed in the corresponding 4pin placing hole 1011, the 8pin 6 is placed in the corresponding 8pin placing hole 1012, and the 3pin 7 is placed in the corresponding 3pin placing hole 1013, as shown in fig. 6, after the wireless pressure collecting plate 3 is placed, the 4pin 5, the 8pin 6, and the 3pin 7 respectively pass through the corresponding through holes on the wireless pressure collecting plate 3 and then are exposed for welding operation.

In this embodiment, the bar-shaped protrusion table 1014 is detachably disposed in the first mounting groove 101, so that the bar-shaped protrusion table 1014 with a suitable height can be replaced according to the welding requirements of the wireless pressure acquisition boards 3 with different specifications and models. In this embodiment, the two sides of the bar-shaped protruding platform 1014 are provided with plugs respectively inserted into the jacks at the corresponding ends in the first mounting groove 101, the two ends of the bar-shaped protruding platform 1014 are positioned and cannot move, and the bar-shaped protruding platform 1014 can be replaced by lifting up, which is convenient to replace.

As shown in fig. 4, in the present embodiment, a 4pin socket placing groove 1021 and a 2pin socket placing groove 1023 are arranged in the second mounting groove 102, the 4pin socket placing groove 1021 is arranged on one side of the corresponding communication module placing groove 1022, the 2pin socket placing groove 1023 is arranged on the other side of the corresponding communication module placing groove 1022, as shown in fig. 5, when the present embodiment is used, the 4pin socket 8 is placed in the corresponding 4pin socket placing groove 1021, the 2pin socket 9 is placed in the corresponding 2pin socket placing groove 1023, the WIA-PA wireless communication module 10 is placed in the corresponding communication module placing groove 1022, and the first pin 801 of the 4pin socket 8, the second pin 901 of the 2pin socket 9, and the communication module pin 11 of the WIA-PA wireless communication module 10 are all arranged upward, as shown in fig. 6, after the wireless pressure collection board 3 is placed, the first pin 801, the second pin 901, and the communication module pin 11 respectively pass through corresponding through holes on the wireless pressure collection board 3 and are exposed for performing a welding operation.

In this embodiment, be equipped with a plurality of detachable locating pieces in communication module standing groove 1022, like this with can select whether to place the locating piece according to the specification and size condition of different WIA-PA wireless communication module 10, perhaps change the locating piece of suitable height to guarantee wireless communication module 10 upper surface level, when wireless pressure gathers board 3 and puts into, communication module pin 11 can pass wireless pressure and gathers board 3 smoothly like this. In this embodiment, the lower end of the positioning block is provided with a screw fixed in a corresponding threaded hole in the corresponding communication module placement groove 1022, and the positioning block can be installed or detached by screwing the positioning block.

As shown in fig. 1, the middle of the pressing frame plate 2 is provided with an opening to expose the main body of the wireless pressure acquisition plate 3 for welding, as shown in fig. 4, the fixture base 1 is provided with a screw hole 105 matched with the locking bolt 4 on the raised table top around the acquisition plate limiting groove 103, and the lower side of the pressing frame plate 2 is provided with a flexible protection strip (such as a sponge strip) to avoid pressing down and damaging the wireless pressure acquisition plate 3.

As shown in fig. 4, notches 104 are formed on two sides of the tool base 1 to facilitate an operator to lift the wireless pressure collecting plate 3.

The utility model discloses a theory of operation does:

when the utility model works, firstly, a plurality of groups of pin pins are respectively placed in the corresponding pin placing holes in the first mounting groove 101, the WIA-PA wireless communication module 10 and a plurality of groups of pin sockets are respectively placed in the corresponding placing grooves in the second mounting groove 102, then the wireless pressure acquisition board 3 is placed in the acquisition board limiting groove 103, at the moment, each first board part 301 is placed at the upper side of the first mounting groove 101 (welding pin), the second board part 302 is placed at the upper side of the second mounting groove 102 (welding pin socket and WIA-PA wireless communication module 10), and as shown in figure 6, each group of pin pins, each group of pin socket pins and each communication module pin 11 on the WIA-PA wireless communication module 10 are respectively exposed after passing through the corresponding through holes on the wireless pressure acquisition board 3, welding operators weld each pin and pin on the wireless pressure acquisition board 3, thereby completing the front welding of the wireless pressure acquisition board 3, then moving the wireless pressure acquisition board 3 away, and placing the pin, the pin socket and the WIA-PA wireless communication module 10 again, then placing the wireless pressure acquisition board 3 into the acquisition board limiting groove 103 again after turning 180 degrees, when turning, because all the elements are welded and fixed on the wireless pressure acquisition board 3, the problems of looseness, floating height, inclination, falling off and the like can not occur, when the wireless pressure acquisition board 3 is turned and placed, the second board splicing part 302 is placed on the upper side of the first mounting groove 101 (welding pin), the first board splicing part 301 is placed on the upper side of the second mounting groove 102 (welding pin socket and WIA-PA wireless communication module 10), then welding operators weld all the pin and pins passing through the wireless pressure acquisition board 3 on the wireless pressure acquisition board 3, thereby completing the back welding of the wireless pressure collecting plate 3.

Claims (10)

1. The utility model provides a WIA-PA wireless pressure acquisition board welding frock which characterized in that: including fixture base (1), compress tightly framed board (2) and wireless pressure acquisition board (3), wherein wireless pressure acquisition board (3) one side is equipped with a plurality of first makeup portion (301), and the opposite side is equipped with a plurality of second makeup portion (302), first makeup portion (301) and second makeup portion (302) structure is the same and the symmetry sets up, and wherein first makeup portion (301) openly is equipped with WIA-PA wireless communication module (10), and second makeup portion (302) back is equipped with WIA-PA wireless communication module (10), is equipped with in fixture base (1) and gathers board spacing groove (103), just the tank bottom parallel of gathering board spacing groove (103) is equipped with first mounting groove (101) and second mounting groove (102), be equipped with the multiunit contact pin hole in first mounting groove (101), be equipped with communication module standing groove (1022) and multiunit pin socket standing groove in second mounting groove (102), compress tightly framed board (2) are fixed in fixture base (1) through fastening (4), just wireless pressure acquisition board (3) is through all around the fixed frame board (2).

2. The WIA-PA wireless pressure acquisition board welding tool according to claim 1, characterized in that: the improved structure is characterized in that a detachable strip-shaped boss (1014) is arranged in the first mounting groove (101), and inserting needle placing holes are formed in the upper surface of the strip-shaped boss (1014) and the bottoms of the first mounting grooves (101) on the two sides of the strip-shaped boss (1014).

3. The WIA-PA wireless pressure acquisition board welding tool of claim 2, wherein: the bottom of the first mounting groove (101) on the two sides of the strip-shaped protruding table (1014) is provided with a 4pin placing hole (1011) and an 8pin placing hole (1012), and the strip-shaped protruding table (1014) is provided with a 3pin placing hole (1013).

4. The WIA-PA wireless pressure acquisition board welding tool according to claim 2, characterized in that: and the two sides of the strip-shaped boss (1014) are provided with bolts which are respectively inserted into the jacks at the corresponding ends in the first mounting groove (101).

5. The WIA-PA wireless pressure acquisition board welding tool according to claim 1, characterized in that: and a 4pin socket placing groove (1021) and a 2pin socket placing groove (1023) are arranged in the second mounting groove (102), the 4pin socket placing groove (1021) is arranged on one side of the corresponding communication module placing groove (1022), and the 2pin socket placing groove (1023) is arranged on the other side of the corresponding communication module placing groove (1022).

6. The WIA-PA wireless pressure acquisition board welding tool according to claim 1, characterized in that: a plurality of detachable positioning blocks are arranged in the communication module placing groove (1022).

7. The WIA-PA wireless pressure acquisition board welding tool of claim 6, wherein: the lower end of the positioning block is provided with a screw rod which is fixed in a corresponding threaded hole in a corresponding communication module placing groove (1022).

8. The WIA-PA wireless pressure acquisition board welding tool of claim 1, wherein: the middle of the pressing frame plate (2) is provided with an opening for exposing the main body part of the wireless pressure acquisition plate (3), and the fixture base (1) is arranged on the raised table surface around the acquisition plate limiting groove (103) and is provided with a screw hole (105) matched with the fastening bolt (4).

9. The WIA-PA wireless pressure acquisition board welding tool of claim 1 or 8, wherein: and a flexible protective strip is arranged on the lower side of the compression frame plate (2).

10. The WIA-PA wireless pressure acquisition board welding tool of claim 1 or 8, wherein: notches (104) are formed in two sides of the tool base (1).

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