CN220668898U - Flexible NTC temperature sensing device of FPC gel curing mould in batches - Google Patents

Abstract

The utility model discloses a batch gel curing die for flexible NTC temperature sensing devices of an FPC, and belongs to the technical field of sensor processing dies. The flexible NTC temperature sensor comprises a base, wherein a placement part is arranged on one side of the top surface of the base and is used for placing an FPC flexible NTC temperature sensor body and a square frame; the pushing part is slidably arranged on the base and is positioned above the placing part, the cover plate is movably arranged on the placing part of the base, and the at least one group of clamp is arranged on the other side of the top surface of the base; the pushing part is used for moving the square frame to the preset position of the FPC flexible NTC temperature sensor body, the cover plate is used for limiting the square frame, and the clamp is used for limiting the cover plate in a butt joint mode. According to the utility model, the position calibration between the square frame and the FPC flexible NTC temperature sensor body is not needed by manpower, the accuracy of the position between the square frame and the FPC flexible NTC temperature sensor body is improved, and the production efficiency is improved.

Description

Flexible NTC temperature sensing device of FPC gel curing mould in batches

Technical Field

The utility model relates to the technical field of sensor processing dies, in particular to a batch gel curing die for flexible NTC temperature sensing devices of an FPC.

Background

The probe of the flexible NTC temperature sensor of FPC is usually installed by adopting a mode of matching a rectangular frame with gel, in the existing installation process, an operator is mostly adopted to fix the rectangular frame on a flexible body by using auxiliary tools such as tweezers, gel is injected into the rectangular frame to wait for solidification of the gel, but in the gel injection process, the rectangular frame is easy to displace in the gel injection process due to the fact that the auxiliary tools are used for fixing the position of the rectangular frame, so that the quality of products is influenced, and in addition, the installation efficiency is low due to the fact that the single installation mode is adopted, and the production cost is improved.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provide a batch gel curing die for FPC flexible NTC temperature sensor devices, so as to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the batch gel curing die for the FPC flexible NTC temperature sensor comprises a base, wherein a placing part is arranged on one side of the top surface of the base and is used for placing an FPC flexible NTC temperature sensor body and a square frame;

the pushing part is slidably arranged on the placing part and is partially positioned above the placing part; the pushing part is used for moving the square frame to a preset position of the FPC flexible NTC temperature sensor body;

the cover plate is movably arranged on the base placing part; the cover plate is used for limiting the square frame;

at least one group of clamp is arranged on the other side of the top surface of the base; the clamp is used for limiting the butt joint of the cover plate.

Preferably, the propelling part includes:

two groups of convex sliding blocks which are slidably arranged on the base and positioned at two sides of the placement part; the height of the convex sliding block is higher than that of the placement part;

the two ends of the sliding rod are respectively arranged at the top of the convex sliding block; the bottom surface of the sliding rod and the top of the placement part are provided with gaps, and the gaps are lower than the top surface of the square frame.

Preferably, the placement portion includes:

the groove extends inwards along the outer side edge of the base to form a step shape;

the rectangular groove is arranged in the groove and extends downwards along the top surface of the groove;

the plurality of placing grooves are arranged on the bottom surface of the rectangular groove and are arranged along the long-direction linear array; the standing groove extends to the inside along rectangular groove outside border department, the degree of depth of standing groove is less than square frame's height.

Preferably, the cover plate includes:

the cover plate body is placed on the placement part and is in surface contact with the placement part under the action of external force;

a plurality of mounting grooves extending inwards along the outer side edge of the cover plate body; the extending length is longer than the length of the square frame; the width of the mounting groove is smaller than the length of the outer frame of the square frame and larger than the length of the inner frame of the square frame.

Preferably, the method further comprises:

at least one group of limit posts arranged on the top surface of the placement part;

the through holes with the same number as the limit posts are arranged on the cover plate; the limiting column is coupled with the through hole and limits the cover plate.

Preferably, the clamp comprises:

the pliers seat is arranged on the base;

the handle is longitudinally rotatably arranged on the clamp seat;

the rocking handle is rotatably arranged on the clamp seat along the horizontal direction; the rocking handle is provided with a rectangular through hole;

one end of the connecting rod is rotationally connected with the handle, and the other end of the connecting rod is rotationally connected with the rocking handle; changing the included angle between the rocking handle and the clamp seat under the mutual matching of the handle and the connecting rod;

the bolts are placed in the rectangular through holes through the baffle plates;

and the elastic pressing block is arranged at the lower end of the bolt.

The beneficial effects are that: the operator will place flexible NTC temperature sensor body of FPC and square frame and place in proper order in placing the portion, make square frame pile up on placing flexible NTC temperature sensor body of FPC, place the back of accomplishing, under the effect of external force, drive the propulsion and remove on placing the portion, will be located the square frame of placing flexible NTC temperature sensor body of FPC top and remove to placing flexible NTC temperature sensor body preset position of FPC, after square frame removes the completion, under the mutually supporting of apron and clamp, it is spacing fixed to add gel in the square frame, accomplish the installation of flexible NTC temperature sensor body of FPC and square frame, need not the manual work to the position calibration between square frame and the flexible NTC temperature sensor body of FPC, improve the precision of position between the two, and improve production efficiency.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is an exploded view of the present utility model;

FIG. 3 is a cross-sectional view of a base of the present utility model;

FIG. 4 is an enlarged view at A of FIG. 3;

FIG. 5 is a schematic diagram of a sensor according to the present utility model.

The reference numerals in fig. 1 to 5 are: 1. a base; 2. a placement unit; 3. a propulsion section; 4. a cover plate; 5. a clamp; 6. a limit column; 7. a through hole; 8. an FPC flexible NTC temperature sensor body; 9. a square frame; 21. a groove; 22. rectangular grooves; 23. a placement groove; 31. a convex slide block; 32. a slide bar; 41. a cover plate body; 42. a mounting groove; 51. a clamp seat; 52. a handle; 53. a rocking handle; 54. a connecting rod; 55. a bolt; 56. and (5) an elastic pressing block.

Detailed Description

Referring to fig. 1 to 5, the present utility model provides a technical solution: the utility model provides a flexible NTC temperature sensing device of FPC gel curing mold in batches, includes base 1, place portion 2 has been seted up to base 1 top surface one side, place portion 2 top surface and be provided with at least a set of spacing post 6, adopt two spacing posts 6 in this embodiment, place portion 2 and be used for placing flexible NTC temperature sensing device of FPC body 8 and square frame 9, slidable mounting propulsion portion 3 in place portion 2, through applying external force to propulsion portion 3, make propulsion portion 3 remove on place portion 2, under the effect of propulsion portion 3, drive square frame 9 moves on flexible NTC temperature sensing device body 8 of FPC, makes square frame 9 remove to the preset position, place portion 2 on place portion 4, be provided with the through-hole 7 the same with spacing post 6 quantity on the apron 4, when apron 4 is placed on place portion 2, can be quick to apron 4 spacing, make apron 4 can accurate square frame 9 tighten spacing, be provided with at least a set of 5 on the base 1 top surface opposite side and carry out in the effect of propulsion portion 3, take place 5 in the square frame 5, take place simultaneously with the square frame 5 and take place the square frame 5 at least, the same time, the square frame is fixed with 5 is filled into the square frame is fixed with the square frame 9, the temperature sensor is difficult to the product, the square frame is difficult to be filled into the product, the square frame is difficult to be fixed with 5, the temperature sensor is difficult to be filled into the square frame is difficult to be filled with 5, the square frame is difficult to be convenient to be filled with the product, the product is easy to be convenient to be filled with.

In a further embodiment, the placement part 2 includes a groove 21, a rectangular groove 22, two sets of convex grooves and a plurality of placement grooves 23, the groove 21 extends inwards along the outer side edge of the base 1, so that the base 1 forms a step shape, that is, the groove 21 is used for placing the flexible NTC temperature sensor body 8 and the square frame 9 of the FPC, the protruding part is used for installing the clamp 5, the rectangular groove 22 is formed in the groove 21, the rectangular groove 22 extends downwards along the top surface of the groove 21, the placement grooves 23 are formed on the bottom surface of the rectangular groove 22, the placement grooves 23 are arranged in a long linear array of the rectangular groove 22, the placement grooves 23 extend inwards along the outer side edge of the rectangular groove 22, the depth of the placement grooves 23 is smaller than the height of the square frame 9, the placement grooves 23 are used for placing the flexible NTC temperature sensor body 8 and the square frame 9 of the FPC, and the convex grooves are arranged at two ends of the rectangular groove 22 and are parallel to the placement grooves 23.

The pushing part 3 comprises two groups of convex sliding blocks 31 and sliding rods 32, the convex sliding blocks 31 are slidably arranged in the convex grooves, the height of the convex sliding blocks 31 is higher than that of the placing part 2, two ends of each sliding rod 32 are respectively arranged at the top of the convex sliding blocks 31, namely, the sliding rods 32 cross the placing grooves 23, the sliding rods 32 can be arranged on the graphic sliding blocks in a welded mode but are not limited to the graphic sliding blocks, gaps are reserved between the bottom surfaces of the sliding rods 32 and the top of the placing part 2 and are lower than the top surfaces of the square frames 9, when the flexible NTC temperature sensor body 8 and the square frames 9 of the FPC are placed in the placing grooves 23, external force is applied to the sliding rods 32, the sliding rods 32 move in the placing part 2, when the sliding rods 32 move to the vicinity of the square frames 9, the side surfaces of the square frames 9 are in surface contact with the sliding rods 32, the sliding rods 32 drive the square frames 9 to move, and the square frames 9 move to the appointed positions of the flexible NTC temperature sensor body 8 to wait for installation.

The apron 4 includes apron body 41 and a plurality of mounting groove 42, apron body 41 is under the effect of external force, place on place portion 2 and with place portion 2 face contact, mounting groove 42 extends along apron body 41 outside border department inboard, the length that mounting groove 42 extends is greater than square frame 9's length, the width of mounting groove 42 is less than square frame 9 outline length, is greater than square frame 9 inner frame length, and when apron 4 placed in place portion 2 promptly, square frame 9 is located the below of mounting groove 42, and the frame of mounting groove 42 exerts decurrent pressure to square frame 9's frame, realizes spacing fixed square frame 9, avoids when injecting into the gel to square frame 9 in, square frame 9 takes place the displacement, influences the quality of product.

In a further embodiment, the pliers 5 includes a pliers seat 51, a handle 52, a rocking handle 53, a connecting rod 54, a bolt 55 and an elastic pressing block 56, the pliers seat 51 is installed on the base 1 through the bolt 55, but not limited to this installation mode, the handle 52 is installed on the pliers seat 51 in a longitudinal rotation mode, the rocking handle 53 is installed on the pliers seat 51 in a horizontal rotation mode, the rocking handle 53 is provided with a rectangular through hole 7, one end of the connecting rod 54 is rotationally connected with the handle 52, the other end of the connecting rod 54 is rotationally connected with the rocking handle 53, an included angle between the rocking handle 53 and the pliers seat 51 is changed under the mutual matching of the handle 52 and the connecting rod 54, the bolt 55 is placed at the rectangular through hole 7 through a baffle, the elastic pressing block 56 is installed at the lower end of the bolt 55, when the cover plate 4 is placed in the placement portion 2, an external force is applied to the handle 52, the rocking handle 53 is driven to approach the cover plate 4, the bolt 55 is made to be vertical above the cover plate 4, the elastic pressing block 56 is abutted on the cover plate 4, and limiting and fixing of the cover plate 4 is achieved.

The specific features described in the above embodiments may be combined in any suitable manner without contradiction. The various possible combinations of the utility model are not described in detail in order to avoid unnecessary repetition.

Claims (6)

1. The utility model provides a flexible NTC temperature sensing device batch gel curing mould of FPC which characterized in that includes:

the flexible NTC temperature sensor comprises a base (1), wherein a placement part (2) is arranged on one side of the top surface of the base (1) and is used for placing an FPC flexible NTC temperature sensor body (8) and a square frame (9);

a pushing part (3) which is slidably mounted on the placement part (2) and is partially positioned above the placement part (2); the pushing part (3) is used for moving the square frame (9) to a preset position of the FPC flexible NTC temperature sensor body (8);

a cover plate (4) movably mounted on the placement part (2) of the base (1); the cover plate (4) is used for limiting the square frame (9);

at least one group of clamps (5) arranged on the other side of the top surface of the base (1); the clamp (5) is used for limiting the butt of the cover plate (4).

2. The FPC flexible NTC temperature sensing device batch gel curing die of claim 1 characterized in that the pushing part (3) comprises:

two groups of convex sliding blocks (31) are slidably arranged on the base (1) and positioned on two sides of the placement part (2); the height of the convex sliding block (31) is higher than that of the placement part (2);

the two ends of the sliding rod (32) are respectively arranged at the top of the convex sliding block (31); the bottom surface of the sliding rod (32) is provided with a gap with the top of the placement part (2) and is lower than the top surface of the square frame (9).

3. The FPC flexible NTC temperature sensing device batch gel curing die of claim 1, characterized in that the placement section (2) comprises:

a groove (21) extending inwards along the outer side edge of the base (1) to form a step-like shape for the base (1);

the rectangular groove (22) is arranged in the groove (21) and extends downwards along the top surface of the groove (21);

the plurality of placing grooves (23) are arranged on the bottom surface of the rectangular groove (22) and are arranged along the long-direction linear array; the placement groove (23) extends inwards along the outer side edge of the rectangular groove (22), and the depth of the placement groove (23) is smaller than the height of the square frame (9).

4. The flexible NTC temperature sensing device batch gel curing die of FPC of claim 1 wherein the cover plate (4) comprises:

the cover plate body (41) is placed on the placement part (2) under the action of external force and is in surface contact with the placement part (2);

a plurality of mounting grooves (42) extending inwards along the outer side edge of the cover plate body (41); the extending length is longer than the length of the square frame (9); the width of the mounting groove (42) is smaller than the length of the outer frame of the square frame (9) and larger than the length of the inner frame of the square frame (9).

5. The FPC flexible NTC temperature sensing device batch gel curing die of claim 1 further comprising:

at least one group of limit posts (6) arranged on the top surface of the placement part (2);

through holes (7) with the same number as the limit posts (6) are arranged on the cover plate (4); the limiting column (6) is coupled with the through hole (7) to limit the cover plate (4).

6. The FPC flexible NTC temperature sensing device batch gel curing die of claim 1 characterized in that the clamp (5) comprises:

the pliers seat (51) is arranged on the base (1);

a handle (52) which is rotatably mounted on the jaw seat (51) in the longitudinal direction;

a rocking handle (53) which is rotatably mounted on the jaw base (51) in the horizontal direction; the rocking handle (53) is provided with a rectangular through hole (7);

a connecting rod (54) one end of which is rotatably connected to the handle (52) and the other end of which is rotatably connected to the rocking handle (53); changing the included angle between the rocking handle (53) and the clamp seat (51) under the mutual matching of the handle (52) and the connecting rod (54);

the bolts (55) are placed in the rectangular through holes (7) through the baffle plates;

and the elastic pressing block (56) is arranged at the lower end of the bolt (55).