CN115084963A - Connector pipe treatment tool and method for attaching Mylar pipe installation - Google Patents

Abstract

The invention discloses a connector pipe jig and a Mylar pipe fitting method thereof, wherein the connector pipe jig comprises a fixed seat and a positioning seat, a plurality of connector material grooves are arranged on the upper surface of the fixed seat at intervals, the positioning seat can be arranged at the lower end of the connector material grooves in a transverse sliding mode, a plurality of material pipe positioning grooves are arranged on the positioning seat at intervals, a stop block is formed between every two adjacent material pipe positioning grooves, a detachable baffle plate is arranged between the fixed seat and the positioning seat, the number of the connector material grooves is twice that of the material pipe positioning grooves, the connector material grooves comprise odd-numbered rows of material grooves and even-numbered rows of material grooves, a connector is blocked by a pipe installing front baffle plate to prevent the connector from sliding into the material pipe positioning grooves from the connector material grooves, and when the material pipe positioning grooves are aligned to the odd-numbered rows of material grooves, the stop block blocks the even-numbered rows of material grooves. The method for filling the pipe by adhering Mylar comprises the steps of preparing Mylar strips, arranging connectors, adhering Mylar, tearing off a film and filling the pipe. The invention can realize that the connector is pasted with Mylar films in batches, quickly finish the Mylar tube pasting operation, has high efficiency and reduces the production cost.

Description

Connector pipe treatment tool and method for attaching Mylar pipe installation

Technical Field

The invention relates to the technical field of connector production, in particular to a connector pipe treatment tool and a method for attaching Mylar pipe loading to the connector pipe treatment tool.

Background

At present, the FPC connector on the market is mainly used for connecting an LCD display screen to a driving circuit, and generally includes an insulating plastic seat on which terminals are provided and pins are provided on both sides. The FPC connector needs to be loaded into the feed tube after the assembly is completed, so as to perform the subsequent process. Because insulating plastic seat surface unevenness is difficult to absorb with the suction nozzle in production, therefore some producers through paste the wheat to the connector on so that the suction nozzle can absorb, traditional mode adopts the manual work to paste a whole strip wheat to a plurality of connectors on, and the reuse scissors is with the wheat between two adjacent connectors after cutting off the individual charging pipe of putting into one by one. However, the method has the disadvantages of high labor intensity, low production efficiency and high production cost.

Disclosure of Invention

The invention provides a connector pipe jig and a Mylar pipe sticking method thereof, aiming at the defects in the prior art, which can realize that connectors are stuck with Mylar films in batches, can quickly finish Mylar pipe sticking operation, improves production efficiency and reduces production cost.

In order to achieve the purpose, the invention adopts the following technical scheme:

a connector pipe jig comprises a fixed seat and a positioning seat, wherein a plurality of connector troughs which are transversely arranged are arranged on the upper surface of the fixed seat at intervals, the connector troughs longitudinally and obliquely extend downwards, the positioning seat can be transversely and slidably arranged on one side of an opening at the lower end of each connector trough, a plurality of material pipe positioning grooves which are transversely arranged are arranged on the positioning seat at intervals, a stop block is formed between every two adjacent material pipe positioning grooves, a detachable baffle plate is arranged between the fixed seat and the positioning seat, the number of the connector troughs is twice that of the material pipe positioning grooves, the connector troughs comprise odd-numbered rows of troughs and even-numbered rows of troughs, the baffle plate blocks a connector from sliding into the material pipe positioning grooves from the connector troughs before pipe loading, and the stop block blocks the even-numbered rows of troughs when the material pipe positioning grooves are aligned with the odd-numbered rows of troughs; through setting up the fixing base, positioning seat and baffle, the fixing base upper surface sets up transverse arrangement and slope downwardly extending's connector silo, set up transverse arrangement's material pipe constant head tank on the positioning seat, before the tubulation, arrange the location in pouring into the connector silo with the connector earlier, transversely expand wheat draw the strip once only with a plurality of wheat draws on pasting and cover to the connector in bank again, insert at last material pipe and open the baffle and make the pasting cover have the connector inflow material pipe that wheat drawn, thereby realize that the connector pastes in batches and covers wheat and draw, can accomplish fast and paste wheat and draw the tubulation operation, and the production efficiency is improved, and the production cost is reduced.

Preferably, the length of the connector trough is 1/2 of the length of the material pipe.

As a preferred scheme, the material pipe positioning groove penetrates through the front surface, the rear surface and the upper surface of the positioning seat, and a cover plate is arranged above the material pipe positioning groove.

As a preferred scheme, a baffle accommodating groove is formed between the fixing seat and the positioning seat, the baffle accommodating groove is communicated with the connector trough and the material pipe positioning groove, and the baffle is detachably arranged in the baffle accommodating groove.

As a preferred scheme, the baffle accommodating groove is formed in the upper end of one side, facing the connector material groove, of the positioning seat, and the baffle accommodating groove penetrates through the surfaces of the two transverse sides and the upper surface of the positioning seat.

As a preferred scheme, the side walls of the two sides of the bottom of the connector trough are concavely provided with limiting notches corresponding to the pins on the two sides of the connector, and the limiting notches penetrate through the end faces of the front side and the rear side of the fixing seat.

As a preferred scheme, supporting legs are arranged on two sides of the fixing seat, and the upper ends of the supporting legs are rotatably connected with the fixing seat.

Preferably, the height of the connector is greater than the depth of the connector trough.

A method for attaching Mylar tubes to a connector comprises the following steps:

preparing a mylar strip, wherein the mylar strip comprises a release film and a plurality of independent mylar strips attached to the surface of one side of the release film side by side, and the size of each mylar strip is matched with the size of an attachment surface of a connector;

step two, arranging connectors, namely longitudinally pouring the connectors to be stuck with Mylar films into the connector material grooves of the connector pipe jig of claim 1 from material pipes for positioning, so that the connectors form a plurality of rows of connector transverse rows on a fixed seat of the connector pipe jig, and each row of the connectors comprises a plurality of connectors which are arranged in parallel on a straight line;

step three, pasting Mylar, transversely unfolding a Mylar strip, pasting the Mylar strip on all connectors in the same connector transverse row, and repeating the operation to paste the Mylar on all connectors;

tearing the release film, and tearing off the release film to separate the mylar sheet from the release film after the connector is attached with the mylar sheet;

and fifthly, loading the pipe, inserting the pipe into the pipe positioning groove, taking out the baffle from the baffle accommodating groove, enabling the connector coated with the Mylar film to slide downwards into the pipe, wherein the connector material groove comprises odd-numbered rows of material grooves and even-numbered rows of material grooves, collecting the connector of the odd-numbered rows of material grooves by the pipe firstly, and then transversely sliding the positioning seat to enable the pipe to correspond to the even-numbered rows of material grooves and collect the connector of the even-numbered rows of material grooves.

Compared with the prior art, the connector has the advantages and beneficial effects that the connector batch pasting and covering Mylar is realized by arranging the fixed seat, the positioning seat and the baffle plate, wherein the connector troughs which are transversely arranged and obliquely extend downwards are arranged on the upper surface of the fixed seat; the number of the connector material grooves is twice of that of the material pipe positioning grooves, so that a stop block is formed between every two adjacent material pipe positioning grooves, connectors of odd-numbered rows of material grooves can be collected in sequence, and then the positioning seats are transversely slid to collect connectors of even-numbered rows of material grooves, so that the material pipes do not need to be changed frequently, a small number of material pipes can be collected with a large number of connectors, and the efficiency is doubled; and the quantity of material pipe constant head tank is less relatively, has enough big space between two adjacent material pipe constant head tanks, conveniently inserts the material pipe or extracts the material pipe constant head tank, and the connector silo is more relatively, and the space of make full use of fixing base can arrange more connectors simultaneously.

To more clearly illustrate the structural features and technical means of the present invention and the specific objects and functions attained thereby, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments:

drawings

FIG. 1 is a schematic view of a Mylar strip structure according to an embodiment of the invention;

FIG. 2 is a schematic diagram of a connector according to an embodiment of the present invention;

FIG. 3 is a schematic view of a tube installation jig according to an embodiment of the present invention;

FIG. 4 is an exploded schematic view of FIG. 3;

FIG. 5 is a schematic view of a fixing base according to an embodiment of the present invention;

FIG. 6 is a diagram of a Mylar reference state of the embodiment of the invention;

FIG. 7 is another Mylar reference state diagram of an embodiment of the invention;

FIG. 8 is a tubulation reference state diagram according to an embodiment of the present invention;

FIG. 9 is another tubulation reference diagram in accordance with an embodiment of the present invention;

FIG. 10 is a schematic view of the flow of Mylar coating process according to an embodiment of the present invention.

The attached drawings indicate the following:

10-wheat pulling strip 11-release film 12-wheat pulling strip

13-connector 14-pin 20-base

21-fixed seat 22-supporting leg 23-connector trough

231-odd row trough 232-even row trough 24-limit notch trough

25-chute 30-positioning seat 31-material pipe positioning groove

32-cover plate 33-baffle 34-baffle containing groove

35-stopper 40-tube

Detailed Description

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the positions or elements referred to must have specific orientations, be constructed and operated in specific orientations, and thus, are not to be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood as appropriate by those of ordinary skill in the art.

As shown in fig. 1-9, the present invention discloses a connector pipe treatment tool, which comprises a base 20, a fixing seat 21 and a positioning seat 30, wherein the fixing seat 21 is arranged on the base 20, the base 20 is provided with a sliding chute 25 extending transversely, the positioning seat 30 is arranged in the sliding chute 25 in a transverse sliding manner, supporting legs 22 are arranged on two sides of the fixing seat 21, the upper ends of the supporting legs 22 are rotatably connected with the fixing seat 21, the supporting legs 22 rotatably connected with the fixing seat 21 are arranged, the inclination angle of the fixing seat 21 can be adjusted by rotating the supporting legs 22, a plurality of connector material grooves 23 arranged transversely are arranged on the upper surface of the fixing seat 21 at intervals, the connector material grooves 23 extend downwards and longitudinally, the positioning seat 30 is arranged on one side of the lower opening of the connector material grooves 23 in a transverse sliding manner, and a plurality of material pipe positioning grooves 31 arranged transversely are arranged on the positioning seat 30 at intervals, a stop 35 is formed between two adjacent tube positioning grooves 31, a detachable baffle 33 is arranged between the fixed seat 21 and the positioning seat 30, the number of the connector troughs 23 is twice that of the tube positioning grooves 31, the connector troughs 23 comprise odd rows 231 and even rows 232, before tube loading, the baffle 33 stops the connector 13 to prevent the connector troughs 23 from sliding into the tube positioning grooves 31, and when the tube positioning grooves 31 are aligned with the odd rows 231, the stop 35 stops the even rows 232.

The length of the connector trough 23 is 1/2 of the length of the material pipe 40, and one material pipe 40 just meets the number of connectors 13 for collecting two connector troughs 23 by setting the length of the connector trough 23 to be 1/2 of the length of the material pipe 40.

The material pipe positioning groove 31 penetrates through the front surface, the rear surface and the upper surface of the positioning seat 30, a cover plate 32 is arranged above the material pipe positioning groove 31, the cover plate 32 is detachably connected with the positioning seat 30 through screws, and the material pipe 40 is inserted into the material pipe positioning groove 31 and then tightly pressed on the upper surface of the material pipe 40 through the cover plate 32, so that the material pipe 40 is prevented from tilting and falling off.

Be equipped with baffle storage tank 34 between fixing base 21 and the positioning seat 30, baffle storage tank 34 intercommunication connector silo 23 and material pipe constant head tank 31, and baffle storage tank 34 has left side opening, right side opening and upside opening, baffle 33 can be dismantled and locate in baffle storage tank 34, has left side opening, right side opening and upside open-ended baffle storage tank 34 through the setting for baffle 33 can transversely or vertically insert, take out baffle storage tank 34, and it is convenient to insert to take out, and is efficient, and the opening is many, is favorable to observing the position of baffle 33, can look over the fender material condition fast.

The baffle receiving groove 34 is formed in the upper end of one side of the positioning seat 30 facing the connector groove 23, and the baffle receiving groove 34 penetrates through the lateral two side surfaces and the upper surface of the positioning seat 30.

The both sides lateral wall of connector silo 23 bottom is concave to be equipped with the spacing groove of scarce that corresponds with pin 14 of connector 13 both sides, spacing scarce groove runs through the terminal surface of fixing base 21 front and back both sides, and through setting up spacing scarce groove, when connector 13 pours into connector silo 23, pin 14 of connector 13 both sides stretches into spacing scarce groove and can restrict connector 13 and move about from top to bottom, also can avoid connector 13 to adorn reversely simultaneously, plays and prevents slow-witted effect.

The height of connector 13 is greater than the degree of depth of connector silo 23, and the height through setting up connector 13 is greater than the degree of depth of connector silo 23, ensures that the upper surface of connector 13 bulges connector silo 23 upper limb to conveniently paste wheat pulling-on piece 12 and cover the upper surface to connector 13.

As shown in fig. 1-10, the invention also discloses a method for attaching mylar tubing to a connector, comprising the following steps:

preparing a wheat pulling strip, wherein the wheat pulling strip 10 comprises a release film 11 and a plurality of independent wheat pulling strips 12 attached to the surface of one side of the release film 11 side by side, and the size of each wheat pulling strip 12 is matched with the size of the attachment surface of a connector 13;

step two, arranging connectors, namely longitudinally pouring the connectors 13 to be attached with the mylar sheets 12 into the connector material grooves 23 of the pipe installing jig for the connectors 13 in claim 1 from the material pipes 40 for positioning, so that the connectors 13 form a plurality of rows of connector transverse rows on the fixed seat 21 of the connector pipe jig, and each row of connectors comprises a plurality of connectors 13 which are arranged in parallel on a straight line;

step three, attaching Mylar, transversely unfolding the Mylar strip 10, attaching the Mylar 12 on the Mylar strip 10 to all connectors 13 in the same connector 13 transverse row, and repeating the operation to attach the Mylar 12 to all the connectors 13;

tearing off the release film, after the connector 13 is attached with the Mylar film 12, tearing off the release film 11 to separate the Mylar film 12 from the release film 11;

step five, loading the pipe, inserting the pipe 40 into the pipe positioning groove 31, then taking the baffle 33 out of the baffle accommodating groove 34, and sliding the connector 13 coated with the Mylar film 12 downwards into the pipe 40, wherein the connector groove 23 comprises odd-numbered rows of grooves 231 and even-numbered rows of grooves 232, when receiving the material, the pipe 40 firstly collects the connectors 13 of the odd-numbered rows of grooves 231, and then transversely slides the positioning seat 30, so that the pipe 40 corresponds to the even-numbered rows of grooves 232 and collects the connectors 13 of the even-numbered rows of grooves 232.

In summary, according to the invention, the fixing base 21, the positioning base 30 and the baffle 33 are arranged, the connector troughs 23 which are transversely arranged and obliquely extend downwards are arranged on the upper surface of the fixing base 21, the material pipe positioning grooves 31 which are transversely arranged are arranged on the positioning base 30, before pipe installation, the connectors 13 are firstly poured into the connector troughs 23 for arrangement and positioning, the mylar sheets 10 are transversely unfolded to attach a plurality of mylar sheets 12 to the connectors 13 in rows at one time, and finally the material pipes 40 are inserted and the baffle 33 is opened to enable the connectors 13 attached with the mylar sheets to flow into the material pipes 40, so that the mylar sheets are attached to the connectors 13 in batches, the mylar sheet attaching and pipe installation operation can be rapidly completed, the production efficiency is improved, and the production cost is reduced; by setting the number of the connector material grooves 23 to be twice of the number of the material pipe 40 positioning grooves 31, a stop block 35 is formed between every two adjacent material pipe positioning grooves 31, connectors 13 of odd rows of material grooves can be collected in sequence, then the positioning seat 30 is transversely slid to collect the connectors 13 of even rows of material grooves, frequent material pipe changing is not needed, a small number of material pipes 40 can be used for collecting a large number of connectors 13, and the efficiency is doubled; and the quantity of material pipe constant head tank 31 is less relatively, has enough big space between two adjacent material pipe constant head tanks 31, conveniently inserts or extracts material pipe 40 in material pipe constant head tank 31, and connector silo 23 is more relatively, and the space of make full use of fixing base 21 can arrange more connector 13 simultaneously.

The above description is only for the preferred embodiment of the present invention and is not intended to limit the present invention, so that any modifications, equivalents, improvements, etc. made to the above embodiment according to the present invention are within the scope of the present invention.

Claims (9)

1. The connector pipe jig is characterized by comprising a fixed seat and a positioning seat, wherein a plurality of connector material grooves which are transversely arranged are arranged on the upper surface of the fixed seat at intervals, the connector trough is longitudinally inclined downwards and extends, the positioning seat can be transversely arranged at one side of the lower opening of the connector trough in a sliding manner, a plurality of material pipe positioning grooves which are transversely arranged are arranged on the positioning seat at intervals, a stop block is formed between every two adjacent material pipe positioning grooves, a detachable baffle is arranged between the fixed seat and the positioning seat, the number of the connector material grooves is twice of that of the material pipe positioning grooves, the connector material grooves comprise odd-number rows of material grooves and even-number rows of material grooves, before the pipe is loaded, the baffle plate blocks the connector to prevent the connector from sliding into the material pipe positioning groove from the connector material grooves, and when the material pipe positioning grooves are aligned to odd rows of material grooves, the even rows of material grooves are blocked by the stop blocks.

2. The connector pipe treatment tool of claim 1, wherein the connector channel has a length of 1/2 the length of the pipe.

3. The connector pipe jig of claim 1, wherein the pipe positioning grooves extend through the front, rear, and upper surfaces of the positioning socket, and a cover plate is disposed over the pipe positioning grooves.

4. The connector pipe treatment tool of claim 1, wherein a baffle receiving groove is disposed between the fixing seat and the positioning seat, the baffle receiving groove communicates with the connector groove and the pipe positioning groove, and the baffle is detachably disposed in the baffle receiving groove.

5. The connector tube jig of claim 4, wherein the baffle receiving groove is provided at an upper end of a side of the positioning seat facing the connector groove, the baffle receiving groove penetrating both lateral side surfaces and an upper surface of the positioning seat.

6. The connector pipe jig according to claim 1, wherein the side walls of the bottom of the connector trough are recessed with limiting notches corresponding to the pins on both sides of the connector, and the limiting notches penetrate through the front and rear end surfaces of the fixing base.

7. The connector pipe treatment tool according to claim 1, wherein support legs are provided on both sides of the fixing seat, and upper ends of the support legs are rotatably connected to the fixing seat.

8. The connector tube management tool of any one of claims 1-7, wherein the height of the connector is greater than the depth of the connector channel.

9. A method for attaching Mylar tubes to a machine connector is characterized by comprising the following steps:

preparing a mylar strip, wherein the mylar strip comprises a release film and a plurality of independent mylar strips attached to the surface of one side of the release film side by side, and the size of each mylar strip is matched with the size of an attachment surface of a connector;

step two, arranging connectors, namely longitudinally pouring the connectors to be stuck with Mylar films into the connector material grooves of the connector pipe jig of claim 1 from material pipes for positioning, so that the connectors form a plurality of rows of connector transverse rows on a fixed seat of the connector pipe jig, and each row of the connectors comprises a plurality of connectors which are arranged in parallel on a straight line;

step three, pasting Mylar, transversely unfolding a Mylar strip, pasting the Mylar strip on all connectors in the same connector transverse row, and repeating the operation to paste the Mylar on all connectors;

tearing off the release film, and tearing off the release film to separate the Mylar film from the release film after the connector is attached with the Mylar film;

and fifthly, loading the pipe, inserting the pipe into the pipe positioning groove, taking out the baffle from the baffle accommodating groove, enabling the connector coated with the Mylar film to slide downwards into the pipe, wherein the connector material groove comprises odd-numbered rows of material grooves and even-numbered rows of material grooves, collecting the connector of the odd-numbered rows of material grooves by the pipe firstly, and then transversely sliding the positioning seat to enable the pipe to correspond to the even-numbered rows of material grooves and collect the connector of the even-numbered rows of material grooves.

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