CN211554168U - Electrothermal film inspection device - Google Patents

Abstract

The utility model provides an electric heat membrane verifying attachment relates to electric heat membrane technical field, and the inspection efficiency who has solved the electric heat membrane that exists among the prior art is low, leads to proof quality uncontrolled easily, and there is the technical problem of potential safety hazard in the scene moreover. The electrothermal film inspection device comprises a positioning assembly, a sliding assembly and a power-on assembly; the positioning assembly can fix and limit the electrothermal film and is provided with a height limiting block for adjusting the height of the electrothermal film; the sliding assembly can drive the electrifying assembly to be in electrical contact with or separated from the electrothermal film, and the electrifying assembly can inspect the electrothermal film after being in electrical contact with the electrothermal film. The utility model discloses be provided with the height that the electric heat membrane was adjusted to limit for height piece, improved verifying attachment's suitability. The quick inspection of the electrothermal film is realized, the whole operation process is simple and convenient, the inspection efficiency is high, and the problems of uncontrollable quality and potential safety hazard caused by manual operation are avoided.

Description

Electrothermal film inspection device

Technical Field

The utility model belongs to the technical field of the electric heat membrane technique and specifically relates to an electric heat membrane verifying attachment is related to.

Background

The electric heating film warmer is heating equipment which takes electric power as an energy source and a resistor as a heating body and supplies heat to the room in a far infrared heat mode, has the advantages of long service life and small volume, and is more and more widely applied. The electrothermal film is generally in a sheet structure and is a key component of the electrothermal film warmer, and the heating principle is that carbon molecular groups in a heating body generate Brownian motion under the action of an electric field of the electrothermal film, violent friction and impact occur among carbon molecules, and generated heat energy is transmitted outwards in the form of far infrared radiation and convection.

The electric heat membrane is at the in-process that heats, the problem that the thickness of membrane body itself is inhomogeneous, the dispersion of interior conducting medium of membrane appears most easily, and this homogeneity that can influence the electric heat membrane and the ability that generates heat of electric heat membrane need carry out the circular telegram inspection to the electric heat membrane, whether can normally generate heat. At present, the hook is added on the cross bar by an inspector to hang the electrothermal film on the hook for electrifying inspection.

The applicant has found that the prior art has at least the following technical problems:

the inspection efficiency of the electrothermal film is low, the inspection quality is easily uncontrolled, and potential safety hazards exist on the site.

Disclosure of Invention

An object of the utility model is to provide an electrothermal film verifying attachment to the inspection efficiency who solves the electrothermal film that exists among the prior art is low, leads to proof quality uncontrolled easily, and there is the technical problem of potential safety hazard in the scene moreover. The utility model provides a plurality of technical effects that preferred technical scheme among a great deal of technical scheme can produce see the explanation below in detail.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides an electrothermal film inspection device, which comprises a positioning component, a sliding component and a power-on component; the positioning assembly can fix and limit the electrothermal film and is provided with a height limiting block for adjusting the height of the electrothermal film; the sliding assembly can drive the electrifying assembly to be in electrical contact with or separated from the electrothermal film, and the electrifying assembly can inspect the electrothermal film after being in electrical contact with the electrothermal film.

Optionally, the positioning assembly further comprises a card slot and a probe; the clamping grooves are at least one pair of oppositely arranged and can fix the electric heating film through a groove-shaped structure; the height limiting block is arranged between the pair of clamping grooves; the probe can contact with the power supply access end of the electric heating film to electrify the electric heating film.

Optionally, the height limiting block can adjust different heights of the electrothermal film through a contraction structure.

Optionally, the sliding assembly comprises a sliding stop and a bearing mount, the sliding stop and the bearing mount respectively limiting movement of the energizing assembly from both sides.

Optionally, the sliding assembly further comprises a push rod, a linear guide rail and a connecting plate; the push rod drives the push rod to move under the action of external force, and the push rod drives the connecting plate to move through the linear guide rail.

Optionally, the connecting plate is connected with the electrifying assembly and can drive the electrifying assembly to move.

Optionally, a first spring is arranged on the push rod, and the first spring can drive the push rod to move after being compressed.

Optionally, the energizing assembly comprises a wire holder, a probe fixing block, a transparent protective cover and a sliding base, and the wire holder and the probe fixing block are jointly arranged in a space enclosed by the transparent protective cover and the sliding base; the probe fixing block is used for fixing the probe, and the wire holder can supply power to the electrothermal film.

Optionally, the electrothermal film inspection device further comprises a base assembly, wherein the base assembly comprises a support plate and a mounting plate; the supporting plate is detachably connected with the mounting plate; the mounting plate can be fixedly mounted and bear the positioning assembly, the sliding assembly and the electrifying assembly.

Optionally, the positioning assembly, the sliding assembly and the power-on assembly are respectively provided with two groups and are arranged at two ends of the base assembly.

Any technical scheme can at least produce the following technical effects:

the utility model discloses locating component is provided with the height that the electric heat membrane was adjusted to the limit for height piece, can realize through the limit for height piece that the electric heat membrane of circular telegram subassembly and difference switches on, has improved verifying attachment's suitability. Sliding assembly drives the circular telegram subassembly and breaks away from the electricity after contacting with the electric heat membrane, can take out the electric heat membrane that the inspection was examined or replace and wait to examine the electric heat membrane at the locating component, then sliding assembly drives circular telegram subassembly and inspects with electric heat membrane electric contact, so circulation, the quick inspection to the electric heat membrane has been realized, whole operation process is simple and convenient, the inspection efficiency is high, it is controllable to have also ensured the inspection quality of electric heat membrane through this kind of standard flow operation, site operation's safety, quality uncontrollable and the potential safety hazard problem that manual operation brought has been avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a perspective view of the present invention;

fig. 2 is a top view of the present invention;

fig. 3 is a side view of the present invention;

fig. 4 is a partial exploded view of the present invention.

FIG. 1, a positioning assembly; 11. a height limiting block; 12. a card slot; 13. a probe; 2. a sliding assembly; 21. a sliding stopper; 22. a bearing fixing seat; 23. a push rod; 24. a linear guide rail; 25. a connecting plate; 26. a first spring; 27. a linear bearing; 3. a power-on component; 31. a wire holder; 32. a probe fixing block; 33. a transparent protective cover; 34. a sliding base; 35. a second spring; 4. a base assembly; 41. a support plate; 42. and (7) mounting the plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The utility model provides an electrothermal film inspection device, as shown in figures 1-4, which comprises a positioning component 1, a sliding component 2 and a power-on component 3. The positioning assembly 1 can fix and limit an electrothermal film (not shown in the figure), so that the electrothermal film inspection device can inspect the electrothermal film. The height that locating component 1 was provided with limit for height piece 11 and adjusts the electric heat membrane, the power access end's of different electric heat membranes highly different can realize that circular telegram subassembly 3 switches on with different electric heat membranes through limit for height piece 11, has improved verifying attachment's suitability. Sliding assembly 2 and 3 sliding connection of circular telegram subassembly, sliding assembly 2 can drive circular telegram subassembly 3 and electric heat membrane electrical contact or break away from the electrical contact, can inspect the electric heat membrane after circular telegram subassembly 3 and electric heat membrane electrical contact (with the power access end contact of electric heat membrane), and the power access end of electric heat membrane can normally generate heat and express electric heat membrane normal work promptly after circular telegram subassembly 3 contact circular telegram, through detecting. Sliding assembly 2 drives circular telegram subassembly 3 and the electric heat membrane and breaks away from the electricity after contacting, can take out the electric heat membrane that examines or place the new electrothermal film of waiting to examine at locating component 1, then sliding assembly 2 drives circular telegram subassembly 3 and inspects with the electric heat membrane electrical contact, so circulate, realized the quick inspection to the electric heat membrane, whole operation process is simple and convenient, high verification efficiency, it is controllable to have also ensured the proof mass of electric heat membrane through this kind of standard flow operation, field operation's safety, quality uncontrollable and the potential safety hazard problem that manual operation brought has been avoided.

As an alternative embodiment, as shown in fig. 1-4, the positioning assembly 1 further includes a card slot 12 and a probe 13, and the height of the probe 13 is lower than the height of most of the electric heating film access end. The draw-in groove 12 is relative at least a pair of that sets up, and a pair of draw-in groove just can inspect the electric heat membrane of a specification (the general width of electric heat membrane of different specifications is different), and unilateral locating component 1 shown in the figure is provided with two pairs of draw-in grooves 12, and the distance between two pairs of draw-in grooves 12 is different, and consequently, unilateral locating component 1 just can realize inspecting the electric heat membrane of two kinds of different specifications, has improved verifying attachment's suitability. The clamping groove 12 can fix the electric heating film through the groove-shaped structure, is fixed with the mounting plate 42 of the base assembly 4 through screw connection, glue joint and the like, the width of the groove-shaped structure is matched with the thickness of the fixing piece (generally a copper bar and the like) on two sides of the electric heating film, and the preferred width is slightly larger than the thickness of the fixing piece on two sides of the electric heating film so that the electric heating film can be rapidly placed in the groove of the clamping groove 12. The groove-shaped structure of the clamping groove 12 is convenient for realizing the limiting and fixing of the electrothermal film, and meanwhile, the rapid loading of the electrothermal film can be realized and the expansion state can be kept. As shown in fig. 1, 2, and 4, the height limiting block 11 is disposed between a pair of slots 12, preferably, the width of the height limiting block 11 is greater than or equal to the width between a plurality of pairs of slots 12, the positioning assembly 1 on one side only needs a pair of height limiting blocks 11, and the height limiting blocks 11 are fixed to the mounting plate 42 by screws and are in contact with the slots 12, or are connected to the slots 12 by snapping and then are placed on the mounting plate 42. When the electric heat membrane was put into draw-in groove 12, bottom and limit for height piece 11 butt, limit for height piece 11 have realized the altitude mixture control to the electric heat membrane, and the power access end of the electric heat membrane of different grade type is highly probably different, just can make the power access end of the electric heat membrane of different grade type can with circular telegram subassembly 3 electrical contacts through limit for height piece 11. After the height of the power supply access end of the electric heating film is matched with that of the probe 13, the probe 13 can be in contact with the position of the power supply access end of the electric heating film to electrify the electric heating film. The height limiting block 11 can adjust different heights of the electric heating film through a telescopic structure, and the height limiting block 11 is a telescopic structure in the prior art, such as a telescopic drawing structure of a clothes supporting rod. Height limiting block 11 is geometrical shapes such as cylinder or cuboid, including outside sleeve pipe and at least one sleeve pipe of inside, each inside sleeve pipe all is slightly littleer than adjacent outside sleeve pipe external diameter, inside sleeve pipe can shrink and get into outside sleeve pipe, the tensile outside sleeve pipe that stretches out, stay at corresponding height because of the frictional force between inside sleeve pipe and the outside sleeve pipe, the electric heat membrane quality is lighter, can not make inside sleeve pipe shrink and get into outside sleeve pipe, the continuous regulation of height limiting block 11 has been realized, the minimum height of whole height limiting block 11 is outermost sleeve pipe height, the maximum height is outside sleeve pipe and a plurality of inside sheathed tube's overall height, adjust the height through height limiting block 11 and easy the realization of easy operation.

As an alternative embodiment, as shown in fig. 1, 3 and 4, the sliding assembly 2 includes a sliding stopper 21 and a bearing fixing seat 22, and the sliding stopper 21 and the bearing fixing seat 22 respectively limit the movement of the energizing assembly 3 from two sides, thereby limiting the movement range of the energizing assembly 3. When the sliding stop block 21 is abutted to the electrifying assembly 3 and limits the electrifying assembly 3, the electrifying assembly 3 is separated from the electric heating film, and the electric heating film can be placed in or taken out of the clamping groove 12; bearing fixing base 22 and circular telegram subassembly 3 butt and carry out spacing to circular telegram subassembly 3, circular telegram subassembly 3 and electric heat membrane electrical contact, carry out the circular telegram inspection to the electric heat membrane this moment. The sliding assembly 2 further comprises a push rod 23, a linear guide 24 and a connecting plate 25. The push rod 23 is connected with the bearing fixing seat 22, and a linear bearing 27 is further arranged between the push rod 23 and the bearing fixing seat, so that the motion resistance of the push rod 23 is reduced. Two ends of the linear guide rail 24 are respectively abutted against the sliding stop block 21 and the bearing fixing seat 22, and the length of the linear guide rail 24 is set according to requirements; the connecting plate 25 is placed on linear guide 24, and both sliding connection, connecting plate 25 realize along linear guide 24 linear motion through the butt with bearing fixing base 22 under the drive of push rod 23. The push rod 23 drives the push rod 23 to move under the action of external force (such as an air cylinder and the like), and the push rod 23 drives the connecting plate 25 to move through the linear guide rail 24. The connecting plate 25 is connected with the electrifying assembly 3 and can drive the electrifying assembly 3 to move, the connecting plate 25 is connected with the sliding base 34 through screws and the like, and therefore when the push rod 23 pushes the connecting plate 25 to move, the connecting plate 25 can drive the sliding base 34 and other parts of the electrifying assembly 3 to move together. Be provided with first spring 26 on push rod 23, first spring 26 cup joints in the body outside of push rod 23, push rod head and linear bearing 27 carry on spacingly at both ends to first spring 26, under the exogenic action, push rod 23 is to draw-in groove 12 direction motion, first spring 26 is compressed, elastic potential energy has, after external force disappears, first spring 26 after the compression is under elastic potential energy effect, push rod 23 is to the direction motion of keeping away from draw-in groove 12, can drive push rod 23 motion after the compression of first spring 26, thereby connecting plate 25 and circular telegram subassembly 3 also corresponding motion thereupon.

As an alternative embodiment, the energizing assembly 3 includes a wire holder 31 and a probe fixing block 32, and the wire holder 31 and the probe fixing block 32 are jointly disposed in a space surrounded by a transparent shield 33 and a sliding base 34. The wire holder 31 is connected to the sliding base 34, such as a snap connection, a screw connection, etc., and the probe fixing block 32 is connected to the sliding base 34, such as a snap connection, a screw connection, etc. The transparent protective cover 33 is used for protecting the wire holder 31 and the probe fixing block 32 inside the transparent protective cover 33, the transparent protective cover 33 is made of glass or plastic materials and is clamped with the wire holder or connected with screws, and potential safety hazards caused by direct exposure of the wire holder 31 and the like are avoided. Probe 13 is fixed to probe fixed block 32, is connected with the wire between wire holder 31 and the probe 13, and after wire holder 31 switch on power, probe 13 also switches on to can switch on the power for the electric heat membrane. The probe fixing block 32 is provided with a hole structure matched with the probe 13, and the probe 13 is abutted against the probe fixing block 32 through the hole structure. Still cup jointed the second spring 35 on the probe rod body, probe fixed block 32 is spacing to second spring 35 from both ends with the probe head, and when probe 13 moved to the electric heat membrane direction, second spring 35 was in compression state, and its elastic potential energy can make probe 13 and the better butt of power access end of electric heat membrane, and the power that realizes the electric heat membrane more easily switches on.

As an alternative embodiment, as shown in fig. 1-4, the electrothermal film inspection device further comprises a base assembly 4, wherein the base assembly 4 is arranged below the positioning assembly 1, the sliding assembly 2 and the energizing assembly 3. The base assembly 4 comprises a support plate 41 and a mounting plate 42, wherein the support plate 41 is detachably connected with the mounting plate 42, such as by bolts, and the support plate 41 is located below the mounting plate 42. The positioning assembly 1, the sliding assembly 2 and the electrifying assembly 3 can be fixedly installed on and carried by the installation plate 42, wherein the positioning assembly 1 and the sliding assembly 2 are directly installed on the installation plate 42.

As an optional implementation mode, as shown in fig. 1-3, the positioning assembly 1, the sliding assembly 2 and the power-on assembly 3 are two groups and are installed at two ends of the base assembly 4, so that the bidirectional inspection of the electrothermal film inspection device is realized, an operator can simultaneously operate in the left direction and the right direction to inspect the electrothermal film, and the operation efficiency is improved. A set of locating component 1, sliding component 2 and circular telegram subassembly 3 all are connected with a mounting panel 42, and electric heat membrane verifying attachment is provided with two mounting panels 42 promptly, and two mounting panels 42 rethread backup pad 41 are connected, and mounting panel 42 is connected with backup pad 41 accessible screw when the mode, and backup pad 41 places again on ground or with table surface bolt fastening just realized whole electric heat membrane verifying attachment's fixed.

The utility model provides an electric heat membrane verifying attachment working process as follows: first, open both ends cylinder, under the cylinder effect, the push rod 23 at both ends all moves to the direction that is close to draw-in groove 12, and first spring 26 is compressed, promotes connecting plate 25 through bearing fixing base 22 and moves along linear guide 24 to connecting plate 25 drives the direction removal of circular telegram subassembly 3 to keeping away from draw-in groove 12, and probe 13 also keeps away from draw-in groove 12 thereupon. Then, an electrothermal film is placed in the clamping grooves 12 of the matched specifications, the electrothermal film can be placed in the clamping grooves 12 at the two ends in sequence, and the height of the power supply access end of the electrothermal film is consistent with that of the probe 13 by properly adjusting the height limiting block. Connecting plate 25 and the back of the 21 butt of slip dog, the exogenic action of cylinder is relieved, push rod 23 removes to the direction of keeping away from draw-in groove 12 under the effect of the first spring 26 of compression, and connecting plate 25 drives the direction removal of circular telegram subassembly 3 to being close to draw-in groove 12 to probe 13 also removes and with the power access end butt of electric heat membrane to the direction of being close to draw-in groove 12, has realized switching on of electric heat membrane, begins to carry out the circular telegram inspection. After the inspection is finished, the cylinders at the two ends are opened, the push rod 23 drives the electrifying assembly 3 to move towards the direction far away from the clamping groove 12, the probe 13 is also separated from the electric contact with the electric heating film, and the electric heating film in the clamping groove 12 is taken out to finish the inspection process.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. An electrothermal film inspection device is characterized by comprising a positioning assembly, a sliding assembly and a power-on assembly; the positioning assembly can fix and limit the electrothermal film and is provided with a height limiting block for adjusting the height of the electrothermal film; the sliding assembly can drive the electrifying assembly to be in electrical contact with or separated from the electrothermal film, and the electrifying assembly can inspect the electrothermal film after being in electrical contact with the electrothermal film.

2. The electrothermal film inspection device of claim 1, wherein the positioning assembly further comprises a card slot and a probe; the clamping grooves are at least one pair of oppositely arranged and can fix the electric heating film through a groove-shaped structure; the height limiting block is arranged between the pair of clamping grooves; the probe can contact with the power supply access end of the electric heating film to electrify the electric heating film.

3. The electrothermal film inspection device of claim 2, wherein the height limiting block is capable of adjusting different heights of the electrothermal film by a contraction structure.

4. An electrothermal film inspection device according to any one of claims 1 to 3, wherein the sliding assembly comprises a sliding stop and a bearing mount, the sliding stop and bearing mount respectively limiting movement of the energising assembly from both sides.

5. The electrothermal film inspection device according to claim 4, wherein the sliding assembly further comprises a push rod, a linear guide rail and a connecting plate; the push rod drives the push rod to move under the action of external force, and the push rod drives the connecting plate to move through the linear guide rail.

6. An electrothermal film inspection device according to claim 5, wherein the connection plate is connected to the energizing assembly and can move the energizing assembly.

7. The electrothermal film inspection device according to claim 5, wherein a first spring is arranged on the push rod, and the first spring can drive the push rod to move after being compressed.

8. The electrothermal film inspection device according to claim 1, wherein the energizing assembly comprises a wire holder, a probe fixing block, a transparent protective cover and a sliding base, and the wire holder and the probe fixing block are jointly arranged in a space enclosed by the transparent protective cover and the sliding base; the probe fixing block is used for fixing the probe, and the wire holder can supply power to the electrothermal film.

9. The electrothermal film inspection device according to claim 1, further comprising a base assembly, the base assembly comprising a support plate and a mounting plate; the supporting plate is detachably connected with the mounting plate; the mounting plate can be fixedly mounted and bear the positioning assembly, the sliding assembly and the electrifying assembly.

10. The electrothermal film inspection device according to claim 9, wherein the positioning assembly, the sliding assembly and the energizing assembly are provided in two groups and are installed at both ends of the base assembly.

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