CN115180199B - Material transfer device for small-batch moisture fast-curing type heat-conducting adhesive - Google Patents

Abstract

The invention relates to a material transfer device for small-batch moisture fast-curing heat-conducting glue, which comprises: the transfer box is provided with a through hole and a discharge pipe; the embedded box is formed in the transfer box, the inner side of the embedded box is communicated with the through hole, and a through groove is formed at one end of the embedded box, which is far away from the through hole; the movable sealing head is movably arranged in the embedded box and is connected with a first spring arranged in the embedded box; the extruding plate is movably arranged in the transfer box, a blanking channel is formed on the extruding plate, and the extruding plate is connected with a driving piece arranged in the transfer box; the two movable baffles are oppositely arranged and are arranged in an inserting groove formed on the extruding plate in a sliding manner, so that the blanking channel is conducted or blocked; the pushing piece is connected with the movable sealing head and penetrates through the embedded box, and one end, away from the movable sealing head, of the pushing piece is connected with the movable baffle. Ensure the effect of the finished product after the transfer of the heat-conducting glue.

Description

Material transfer device for small-batch moisture fast-curing type heat-conducting adhesive

Technical Field

The invention relates to the technical field related to heat-conducting glue, in particular to a material transfer device for small-batch moisture fast-curing heat-conducting glue.

Background

When the heat dissipation interface materials such as the heat conduction paste, the heat conduction mud, the heat conduction gasket, the heat conduction ceramic sheet and the like are used, the heat dissipation effect is improved by ensuring effective contact between the heat dissipation interface materials and the heating surfaces of the radiator and the power device by means of bolts, rivets and fastening fixing positions. The heat-conducting adhesive is a thermal interface material with bonding and heat conducting properties, and after the coating construction, the heat-conducting adhesive is gradually solidified between the radiator and the high-temperature area of the heating device, so that the radiator and the power device are connected together, mechanical parts such as bolts and the like are omitted, holes are reduced, and the assembly space is compact. The moisture curing heat conducting glue is cured by moisture in the air, the heat conducting glue with the surface drying time within 10 minutes is used for rapidly positioning a radiator and a power component, and when the stirring amount of the moisture curing heat conducting glue is less than 5L, the surface of the heat conducting glue is manually filled to be easy to crust, so that colloidal particles are formed, and the extrusion and heat dissipation effects are affected.

When 1-5Kg of small-batch moisture curing heat-conducting adhesive is filled into a 10-300CC packaging needle cylinder, manual filling and extrusion filling by a material pressing machine are generally adopted, air bubbles and colloidal particles are easy to form during manual small-quantity transfer filling, the air bubbles and colloidal particles are not easy to extrude from the needle cylinder during dispensing, even the needle cylinder explodes, material loss is easy to form at the bottom of a stirring cylinder, the material extrusion pipe and extrusion joints during extrusion filling by the material pressing machine, particularly when the moisture quick curing heat-conducting adhesive has high heat conductivity coefficient and high cost, waste caused by the material loss is serious, and in addition, pipelines and joints are difficult to clean due to solidification of the adhesive during filling by the material pressing machine.

Disclosure of Invention

The present invention is directed to a material transfer device for small batches of moisture-fast-curing heat-conductive glue, which solves the above-mentioned problems of the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a material transfer apparatus for a small batch of moisture fast curing heat-conductive glue, comprising:

the transfer box is provided with a through hole and a discharge pipe;

the embedded box is formed in the transfer box, the inner side of the embedded box is communicated with the through hole, and a through groove is formed at one end of the embedded box, which is far away from the through hole;

the movable sealing head is movably arranged in the embedded box and is connected with a first spring arranged in the embedded box;

the extruding plate is movably arranged in the transfer box, a blanking channel is formed on the extruding plate, and the extruding plate is connected with a driving piece arranged in the transfer box;

the two movable baffles are oppositely arranged and are arranged in an inserting groove formed on the extruding plate in a sliding manner, so that the blanking channel is conducted or blocked;

the pushing piece is connected with the movable sealing head and penetrates through the embedded box, and one end, away from the movable sealing head, of the pushing piece is connected with the movable baffle plate so as to drive the two movable baffle plates to move oppositely when the movable sealing head moves towards the extrusion plate.

The material transfer device for small batches of moisture fast curing heat-conductive glue as described above: the pushing piece comprises a connecting rod hinged on the movable sealing head, and at least one pressing wheel is rotatably arranged at one end of the connecting rod away from the movable sealing head;

the movable baffle plate is characterized by further comprising an abutting block fixed on the movable baffle plate, and the abutting block abuts against the abutting wheel.

The material transfer device for small batches of moisture fast curing heat-conductive glue as described above: the side end of the movable sealing head is provided with an extending piece in an annular structure, the connecting rod is hinged to the extending piece, and two ends of the first spring are respectively abutted to the extending piece and the bottom of the embedded box;

the inner side of the embedded box is provided with a step part, and when the two movable baffles are abutted, the extension piece is abutted with the step part.

The material transfer device for small batches of moisture fast curing heat-conductive glue as described above: at least four dampers are arranged on the inner side of the step part in the embedded box, and the movable ends of the dampers protrude out of the step part and are in butt joint with the extension piece.

The material transfer device for small batches of moisture fast curing heat-conductive glue as described above: an inserting groove for inserting the filling head is formed in the movable sealing head, and an annular piece is arranged on the side wall of the inserting groove and used for limiting the relative position of the filling head after the filling head is inserted;

the bottom of the movable sealing head is in a cylindrical structure, a plurality of discharging holes are formed in the bottom of the movable sealing head, and the outer diameter of the bottom of the movable sealing head is the same as the inner diameter of the through groove.

The material transfer device for small batches of moisture fast curing heat-conductive glue as described above: the inner side of the inserting groove is provided with at least two second springs, two ends of each second spring are respectively abutted with the movable baffle plate and the inner wall of the inserting groove, and when the two movable baffle plates are abutted, the second springs are in a compression state.

The material transfer device for small batches of moisture fast curing heat-conductive glue as described above: the transfer box is provided with a handle which is arranged in a U-shaped structure, and is provided with a control button, the control button is electrically connected with the driving piece, and when the control button is triggered, the driving piece moves to drive the extrusion plate to move.

The material transfer device for small batches of moisture fast curing heat-conductive glue as described above: the driving piece comprises a plurality of multi-stage telescopic rods, and the movable ends of the multi-stage telescopic rods are fixed with the extrusion plate.

The material transfer device for small batches of moisture fast curing heat-conductive glue as described above: the discharging pipe is provided with a control valve, and a plurality of strip-shaped grooves are formed in the side wall of one end, far away from the transfer box, of the discharging pipe.

Compared with the prior art, the invention has the beneficial effects that: the invention has novel design, the whole heat-conducting glue enters the transfer box 1 and is transferred to the heat-conducting glue cylinder, so that the problems that the heat-conducting glue is quickly solidified by moisture for many times and is contacted with moisture in the air in a large area when the heat-conducting glue is manually transferred and split-packed or filled, and mixed with the air, and the heat-conducting glue reacts to generate colloidal particles to cause discontinuous dispensing are avoided, the finished product effect of the transferred heat-conducting glue is ensured, and the practicability is strong.

Drawings

Fig. 1 is an isometric view of a material transfer apparatus for a small batch of moisture fast curing heat-conductive glue.

Fig. 2 is a schematic structural view of a material transfer device for small batches of moisture fast curing heat-conductive glue.

FIG. 3 is a schematic view of another angle of a material transfer device for small batches of moisture fast curing heat-conductive glue.

Fig. 4 is a semi-sectional isometric view of a material transfer device for a small batch of moisture fast curing heat transfer adhesive.

Fig. 5 is a schematic view showing a semi-sectional structure of a material transfer device for a small lot of moisture fast-curing heat-conductive paste.

Fig. 6 is an enlarged view of the structure at a in fig. 5.

Fig. 7 is an exploded view of the structure of the embedded box and movable sealing head in the material transfer device for small batches of moisture fast curing heat-conducting glue.

In the figure: 1-transfer box, 2-transparent glass, 3-handle, 4-discharging pipe, 5-control valve, 6-through hole, 7-negative pressure connector, 8-bar slot, 9-stripper plate, 10-embedded box, 11-movable sealing head, 12-damper, 13-extension piece, 14-connecting rod, 15-inserting groove, 16-pressing wheel, 17-first spring, 18-annular piece, 19-discharging hole, 20-abutting block, 21-through groove, 22-step, 23-multistage telescopic link, 24-limiting block, 25-movable baffle, 26-second spring, 27-inserting groove.

Detailed Description

Various exemplary embodiments, features and aspects of the present application will be described in detail below with reference to the accompanying drawings. In the drawings, like reference numbers indicate identical or functionally similar elements. Although various aspects of the embodiments are illustrated in the accompanying drawings, the drawings are not necessarily drawn to scale unless specifically indicated.

The word "exemplary" is used herein to mean "serving as an example, embodiment, or illustration. Any embodiment described herein as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments.

In addition, numerous specific details are set forth in the following examples in order to provide a better understanding of the present application. It will be understood by those skilled in the art that the present application may be practiced without some of these specific details. In some instances, well known methods, procedures, and components have not been described in detail so as not to obscure the subject matter of the present application.

Referring to fig. 1 to 7, in an embodiment of the present invention, a material transfer device for a small batch of moisture fast curing heat-conductive glue includes: transfer box 1, embedded box 10, movable sealing head 11, stripper plate 9, movable baffle 25 and impeller.

The transfer case 1 is square or cylindricality structure setting, and the inboard is formed with deposits the chamber, the upper end of transfer case 1 is provided with through-hole 6, and the lower extreme is provided with discharging pipe 4, and still is provided with the bar on the lateral wall of transfer case 1 and lead to the groove, the bar leads to the groove and carries out the shutoff through transparent glass 2 to look over the filling volume of heat conduction glue in the transfer case 1, be provided with negative pressure connector 7 on the transfer case 1, negative pressure connector 7 is used for connecting the negative pressure machine, in order to realize before not filling, keep being vacuum negative pressure state in the transfer case 1.

The embedded box 10 is formed in the transfer box 1, the inner side of the embedded box 10 is communicated with the through hole 6, a through groove 21 is formed at one end, far away from the through hole 6, of the embedded box 10, the movable sealing head 11 is movably arranged in the embedded box 10 and is connected with a first spring 17 arranged in the embedded box 10, when the movable sealing head 11 is not subjected to other forces, the first spring 17 generates extrusion force on the movable sealing head 11, and at the moment, the movable sealing head 11 does not protrude out of the through groove 21 and is abutted in the embedded box 10.

The stripper plate 9 activity is located in the transfer box 1, is formed with the blanking passageway on this stripper plate 9, stripper plate 9 is in with setting up the driving piece in the transfer box 1 is connected, and two movable baffles 25 of relative setting are in the slip setting is in the insertion groove 15 that forms on the stripper plate 9 for realize the switching on or shutoff of blanking passageway, when movable baffle 25 realized blanking logical groove shutoff, the up end of movable baffle 25 and the sealed laminating of bottom of embedded box 10, when movable baffle 25 realized blanking logical groove switching on, movable baffle 25 still keeps the laminating state with embedded box 10 bottom, forms the clearance between two movable baffles 25, and the width of clearance is greater than the internal diameter of logical groove 21.

The pushing piece is connected with the movable sealing head 11 and penetrates through the embedded box 10, and one end, away from the movable sealing head 11, of the pushing piece is connected with the movable baffle 25, so that when the movable sealing head 11 moves towards the extrusion plate 9, the two movable baffles 25 are driven to move oppositely.

In summary, when the transfer device provided by the invention is used, the filling head is inserted into the movable sealing head 11, and extrusion force is generated on the movable sealing head 11, so that the movable sealing head 11 moves towards the through groove 21, the movable baffle 25 moves oppositely under the action of the pushing piece when the movable sealing head 11 moves, so that the blanking through groove is opened, when the bottom of the movable sealing head 11 and the bottom of the through groove 21 are in the same plane, the distance between the movable baffle 25 is just the same as the outer diameter of the movable sealing head 11, at the moment, the movable sealing head 11 continuously moves downwards, the inner side of the movable sealing head 11 is communicated with the inner side of the transfer box 1, under the action of negative pressure, the heat conducting glue in the filling head enters the transfer box 1 through the movable sealing head 11, the problem of contact with air in the heat conducting glue transfer process is effectively eliminated, the finished product effect after the heat conducting glue transfer is ensured, and the practicability is strong.

Further, the pushing member includes a connecting rod 14 hinged to the movable sealing head 11, at least one pressing wheel 16 is rotatably mounted at one end of the connecting rod 14 away from the movable sealing head 11, and an abutting block 20 fixed on the movable baffle 25, where the abutting block 20 abuts against the pressing wheel 16, and illustratively, an arc groove is formed on the abutting block 20 to prevent the pressing wheel 16 from being separated from the abutting block 20 when the pressing wheel 16 contacts with the abutting block 20, so as to affect the use effect.

The side end of the movable sealing head 11 is provided with an extension piece 13 arranged in an annular structure, the connecting rod 14 is hinged on the extension piece 13, and two ends of the first spring 17 are respectively abutted with the extension piece 13 and the bottom of the embedded box 10; the inner side of the embedded box 10 is formed with a step portion 22, and when the two movable baffles 25 are abutted, the extension piece 13 is abutted with the step portion 22, so that the step portion 22 does not limit the upper end of the movable sealing head 11, and the first spring 17 is ensured to be kept in a compressed state.

Preferably, in order to ensure that the movable sealing head 11 maintains an inclined state without external force, the side end of the extension member 13 is provided with a stopper 24, and when the pressing force is not generated between the connecting rod 14 and the abutment block 20, the connecting rod 14 maintains an inclined state, so as to prevent the vertical placement of the connecting rod 14 from affecting the upward movement of the pressing plate 9.

The inside of the step portion 22 in the embedded box 10 is provided with at least four dampers 12, the movable end of the damper 12 protrudes out of the step portion 22 and is abutted against the extension piece 13, the damper 12 is similar to the damping structure arranged on the existing drawer or cabinet body, and mainly aims to achieve that the movable sealing head 11 can be slowly reset when the movable sealing head 11 is separated from the extrusion force of the filling head, so that when the bottom of the movable sealing head 11 is not completely flush with the bottom of the through groove 21, the residual heat-conducting glue in the movable sealing head 11 can be completely introduced into the transfer box 1 under the action of negative pressure.

An inserting groove 27 for inserting the filling head is formed in the movable sealing head 11, an annular piece 18 is arranged on the side wall of the inserting groove 27, and the annular piece 18 is used for limiting the relative position of the filling head after being inserted, so that a flow guide channel is formed between the inner sides of the movable sealing head 11 at the position of a discharge hole of the filling head; the bottom of the movable sealing head 11 is in a cylindrical structure, a plurality of discharging holes 19 are formed, the outer diameter of the bottom of the movable sealing head 11 is the same as the inner diameter of the through groove 21, and the discharging holes 19 are used for discharging heat-conducting glue.

The inside of inserting groove 15 is provided with two at least second springs 26, the both ends of second spring 26 respectively with movable baffle 25 reaches the inner wall butt of inserting groove 15, and when two movable baffle 25 butt, second spring 26 is in the compressed state, through the second spring 26 that sets up for movable baffle 25 can automatic re-set when movable seal head 11 moves up.

Install the handle 3 that is U type structure setting on the transfer box 1, and be provided with control button on the handle 3, control button with driving piece electric connection, works as when control button triggers, the driving piece motion is in order to drive stripper plate 9 removes, can make things convenient for the extraction and the taking of transfer box 1 through the handle 3 that set up, convenient to use, but simultaneously through the work of the control button steerable driving piece of setting to drive stripper plate 9 and remove.

In the embodiment of the present invention, the driving member includes a plurality of multi-stage telescopic rods 23, the movable ends of the multi-stage telescopic rods 23 are fixed to the extrusion plate 9, the multi-stage telescopic rods 23 are provided as electric telescopic rods and electrically connected to the control buttons, so as to drive the extrusion plate 9 to move when the multi-stage telescopic rods 23 work, and of course, in a specific implementation process, a storage battery may also be installed at the side end of the transfer case 1, so as to realize portable use.

Be provided with control valve 5 on the discharging pipe 4, just discharging pipe 4 is kept away from be provided with a plurality of bar grooves 8 on the one end lateral wall of transfer case 1, when can realize needing the heat conduction to glue the cylinder intussuseption of heat conduction to fill heat conduction glue through the bar groove 8 that sets up, the gaseous discharge in the heat conduction glue cylinder ensures the compactibility of filling.

In summary, the invention has novel design, the whole heat-conducting glue enters the transfer box 1 and is transferred to the heat-conducting glue cylinder, so that the problems that the heat-conducting glue is quickly solidified for many times and is in contact with moisture in the air in a large area when the heat-conducting glue is manually transferred and split-packed or filled, and mixed with the air, and the heat-conducting glue reacts to generate colloidal particles, so that glue dispensing discontinuity is caused are avoided, the finished product effect after transferring the heat-conducting glue is ensured, and the practicability is strong.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (9)

1. A material transfer apparatus for a small batch of moisture fast curing heat-conductive glue, comprising:

the transfer box (1), a through hole (6) and a discharging pipe (4) are formed on the transfer box (1);

the embedded box (10) is formed in the transfer box (1), the inner side of the embedded box (10) is communicated with the through hole (6), and a through groove (21) is formed at one end, far away from the through hole (6), of the embedded box (10);

the movable sealing head (11) is movably arranged in the embedded box (10) and is connected with a first spring (17) arranged in the embedded box (10);

the extruding plate (9) is movably arranged in the transfer box (1), a blanking channel is formed on the extruding plate (9), and the extruding plate (9) is connected with a driving piece arranged in the transfer box (1);

two movable baffles (25) which are oppositely arranged are arranged in an inserting groove (15) formed on the extruding plate (9) in a sliding manner and are used for realizing the conduction or the blocking of the blanking channel;

the pushing piece is connected with the movable sealing head (11) and penetrates through the embedded box (10), one end, away from the movable sealing head (11), of the pushing piece is connected with the movable baffle (25), and when the movable sealing head (11) moves towards the extrusion plate (9), the two movable baffles (25) are driven to move oppositely.

2. A material transfer device for small batches of moisture fast-curing heat-conducting glue according to claim 1, characterized in that the pushing element comprises a connecting rod (14) hinged on the movable sealing head (11), the end of the connecting rod (14) remote from the movable sealing head (11) being rotatably mounted with at least one pressing wheel (16);

the movable baffle plate is characterized by further comprising an abutting block (20) fixed on the movable baffle plate (25), and the abutting block (20) abuts against the abutting wheel (16).

3. The material transfer device for small-batch moisture quick-curing heat-conducting glue according to claim 2, wherein an extending piece (13) arranged in a ring-shaped structure is formed at the side end of the movable sealing head (11), the connecting rod (14) is hinged on the extending piece (13), and two ends of the first spring (17) are respectively abutted against the extending piece (13) and the bottom of the embedded box (10);

a step part (22) is formed on the inner side of the embedded box (10), and when the two movable baffles (25) are abutted, the extension piece (13) is abutted with the step part (22).

4. A material transfer device for small batches of moisture fast curing heat-conducting glue according to claim 3, characterized in that at least four dampers (12) are arranged inside the step (22) in the embedded box (10), the movable ends of the dampers (12) protrude out of the step (22) and are in abutment with the extension piece (13).

5. A material transfer device for small batches of moisture fast-curing heat-conducting glue according to claim 1, characterized in that an insertion groove (27) for inserting a filling head is formed in the movable sealing head (11), and an annular piece (18) is arranged on the side wall of the insertion groove (27), wherein the annular piece (18) is used for limiting the relative position of the filling head after insertion;

the bottom of the movable sealing head (11) is in a cylindrical structure, a plurality of discharging holes (19) are formed in the bottom of the movable sealing head (11), and the outer diameter of the bottom of the movable sealing head is the same as the inner diameter of the through groove (21).

6. The material transfer device for small-batch moisture quick-curing heat-conducting glue according to claim 1, wherein at least two second springs (26) are arranged on the inner side of the insertion groove (15), two ends of each second spring (26) are respectively abutted against the movable baffle (25) and the inner wall of the insertion groove (15), and when the two movable baffles (25) are abutted against each other, the second springs (26) are in a compressed state.

7. The material transfer device for small-batch moisture quick-curing heat-conducting glue according to claim 1, wherein a handle (3) arranged in a U-shaped structure is arranged on the transfer box (1), a control button is arranged on the handle (3), the control button is electrically connected with the driving piece, and when the control button is triggered, the driving piece moves to drive the extrusion plate (9) to move.

8. A material transfer device for small batches of moisture fast curing heat-conductive glue according to claim 7, characterized in that the driving member comprises a plurality of multi-stage telescopic rods (23), the movable ends of the multi-stage telescopic rods (23) being fixed to the squeeze plate (9).

9. A material transfer device for small batches of moisture fast curing heat-conducting glue according to claim 1, characterized in that the discharge pipe (4) is provided with a control valve (5) and that the side wall of the end of the discharge pipe (4) remote from the transfer box (1) is provided with a plurality of strip-shaped grooves (8).

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