CN218765804U - Cooling paste sealing performance detection device - Google Patents

Abstract

The utility model relates to a leakproofness detection area specifically is subsides leakproofness detection device of bringing down a fever, including following component parts: the conveying frame is used for conveying the packaged cooling paste; a cooling air port is arranged above the conveying frame, is in a shape of a square and corresponds to the shape and the position of a heat sealing area of the cooling patch, and the cooling air port exhausts air at intervals so as to cool the sequentially-passed cooling patches; the first detection box and the second detection box are positioned at the downstream end of the conveying frame and are arranged in an up-down opposite mode, the front end and the rear end of each of the first detection box and the second detection box are provided with openings for the heat-reducing paste to enter and exit, and conveying belts are arranged in the first detection box and the second detection box so that the heat-reducing paste can be conveyed from the inlets of the first detection box and the second detection box to the outlets; the transition belt is used for conveying the heat-removing paste on the conveying frame to the conveying belt in the first detection box or the second detection box; the utility model discloses the leakproofness detection efficiency of subsides of bringing down a fever has been improved by a wide margin.

Description

Cooling paste sealing detection device

Technical Field

The utility model relates to a leakproofness detection area specifically is subsides leakproofness detection device defervesces.

Background

The antipyretic plaster has the antipyretic and cooling effects, can relieve fever and headache caused by cold and the symptoms of pain caused by toothache, sunburn and muscle sprain, and mainly serves for infants and children. The subsides of bringing down a fever mainly take away the heat through the inside moisture evaporation of gel, play the effect of physics cooling, and the package is torn in bringing down a fever after, and the water content in the gel can the evaporation reduce, therefore opens the back for a long time, and the gel has basically lost the cooling effect that brings down a fever, therefore the packing leakproofness of subsides of bringing down a fever seems especially important.

In the present subsides hot card production line, often set up a leakproofness on the production line and detect between, a set of fever of bringing down is pasted and is sent to between the leakproofness detects the back, and the production line conveyer belt stops to carry, and the subsides of will subsequently bringing down a fever again and continue to carry to the leakproofness between detecting until this group of fever of bringing down a fever detects the completion, and each group's fever of bringing down a fever pastes the detection operation of waiting in line, and the conveyer belt on the production line need constantly stop during the detection, and detection efficiency is low, therefore awaits the solution urgently.

SUMMERY OF THE UTILITY MODEL

In order to avoid and overcome the technical problem who exists among the prior art, the utility model provides a subsides leakproofness detection device defervesces. The utility model discloses the leakproofness detection efficiency of subsides of bringing down a fever has been improved by a wide margin.

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

the detection device for the sealing performance of the cooling paste comprises the following components:

the conveying frame is used for conveying the packaged defervescence paste; a cooling air port is arranged above the conveying frame, is in a shape of a square and corresponds to the shape and the position of a heat sealing area of the cooling patch, and the cooling air port exhausts air at intervals so as to cool the sequentially-passed cooling patches;

the first detection box and the second detection box are positioned at the downstream end of the conveying frame and are arranged in an up-down opposite mode, the front end and the rear end of each of the first detection box and the second detection box are provided with openings for the heat-reducing paste to enter and exit, and conveying belts are arranged in the first detection box and the second detection box so that the heat-reducing paste can be conveyed from the inlets of the first detection box and the second detection box to the outlets;

the transition belt is used for conveying the heat-removing paste on the conveying frame to the conveying belt in the first detection box or the second detection box;

the sealing plates are arranged at openings at two ends of the first detection box and the second detection box and can close the openings so that the first detection box and the second detection box are in a sealing state;

the pressure regulating column is arranged between the first detection box and the second detection box along the vertical direction, two ends of the pressure regulating column extend into the first detection box and the second detection box, the pressure regulating column is arranged in a sealing mode with the contact parts of the first detection box and the second detection box, and when the first detection box or the second detection box is in a sealing state, the pressure regulating column can move along the vertical direction to change the pressure level in the first detection box or the second detection box.

As a further aspect of the present invention: the transition belts comprise a first transition belt for conveying the cooling paste into the first detection box and a second transition belt for conveying the cooling paste into the second detection box, and the first transition belt and the second transition belt are staggered in height and are fixedly connected through a first connecting support; the first connecting support is in sliding fit with the conveying frame along the vertical direction so as to drive the head end of the first transition belt or the second transition belt to be in butt joint with the tail end of the conveying frame, the tail end of the first transition belt is in butt joint with the conveying belt in the first detection box when the first transition belt is in butt joint with the conveying frame, and the tail end of the second transition belt is in butt joint with the conveying belt in the second detection box when the second transition belt is in butt joint with the conveying frame.

As a further aspect of the present invention: gaps exist between the tail end of the first transition zone and the tail end of the second transition zone and the first detection box and between the tail end of the first transition zone and the tail end of the second transition zone and the second detection box, and the sealing plate is arranged at the gaps along the vertical direction.

As a further aspect of the present invention: the first detection box and the second detection box are fixedly connected through a fixing column which is vertically arranged, a guide seat which can slide along a column body of the fixing column is arranged on the fixing column, the cross rod is horizontally fixed on the guide seat, and the pressure regulating columns are all fixed on the rod body of the cross rod so as to move along the vertical direction along with the cross rod.

As a further aspect of the present invention: a second transmission rack is arranged on the guide seat along the vertical direction, a transmission gear is coaxially fixed on a motor shaft of the driving motor between the first detection box and the second detection box, and the transmission gear and the second transmission rack form gear-rack matching to drive the guide seat to slide along the vertical direction.

As the utility model discloses further scheme again: the head ends of the first transition zone and the second transition zone are fixedly connected through a first connecting support which is vertically arranged, the tail ends of the first transition zone and the second transition zone are fixedly connected through a second connecting support which is vertically arranged, a first transmission rack is arranged on the second connecting support along the vertical direction, and the transmission gear is positioned between the second connecting support and the guide seat and is simultaneously matched with the first transmission rack and the second transmission rack, namely a gear and a rack.

As a further aspect of the present invention: the sealing plates comprise a first sealing plate arranged at the inlet of the first detection box and the second detection box and a second sealing plate arranged at the outlet of the first detection box and the second detection box;

the first sealing plate is in sliding fit with the inlets of the first detection box and the second detection box along the vertical direction, and when the first sealing plate seals the inlet of the first detection box, the cooling paste on the second transition belt can be conveyed into the second detection box without being blocked; when the first sealing plate seals the inlet of the second detection box, the heat-removing paste on the first transition belt can be conveyed into the first detection box without being blocked;

the second sealing plate is in sliding fit with the outlets of the first detection box and the second detection box along the vertical direction, and driving guide rails corresponding to the second sealing plate and the first sealing plate are arranged in the first detection box and/or the second detection box respectively so as to drive the second sealing plate and the first sealing plate to synchronously lift along the vertical direction.

As a further aspect of the present invention: the first sealing plate is provided with a via hole corresponding to the position of the transmission gear in the vertical direction, the transmission gear penetrates through the via hole and then is matched with the second transmission rack, the gear and the rack, and the via hole moves along the vertical direction along with the first sealing plate and then is avoided from the opening positions of the first detection box and the second detection box.

As a further aspect of the present invention: and a collecting bin is arranged below the outlets of the first detection box and the second detection box so as to collect the detected antipyretic paste.

As a further aspect of the present invention: and the first transition belt and the second transition belt are provided with starting controllers, and the first transition belt and the second transition belt move along the vertical direction until the head ends of the first transition belt and the second transition belt are flush with the tail end of the conveying frame and then start conveying operation.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a set up two sets of detection casees that the upper and lower opposition was arranged, set up the closing plate and thus can seal the opening of two sets of detection casees on the opening of detection case, because be provided with the transition zone between detection case and the carriage, switch the direction of delivery of transition zone, can make the subsides of bringing down a fever on the carriage carry to first detection case or second detection case, when bringing down a fever on the carriage and being carried in the first detection case, begin the leakproofness to detect in the second detection case, when bringing down a fever on the carriage and being carried in the second detection case, begin the leakproofness to detect in the first detection case; because the pressure regulating column is arranged between the first detection box and the second detection box, when the detection boxes are in a sealed state, the pressure regulating column moves along the vertical direction in a piston mode, so that the pressure intensity in the first detection box or the second detection box is changed, when the pressure regulating column leaves any detection box, the pressure intensity in the detection box is reduced, at the moment, the heat-reducing paste is bulged due to the pressure intensity difference between the inside and the outside of the heat-reducing paste, at the moment, the heat-reducing paste can be considered to have good sealing performance, and if the heat-reducing paste is not changed, the heat-reducing paste is considered to be a defective product; when the pressure regulating column leaves the detection box which is detecting the tightness, the column body of the pressure regulating column extends into the detection box which is not detecting the sealing box, and occupies a part of space in the detection box, so that the subsequent tightness detection of the detection box is prepared in advance; so set up, can carry out the leakproofness that lasts to the subsides of bringing down a fever under the state that the carriage lasts the transport and detect, need not the carriage and open repeatedly and stop, improved the leakproofness detection efficiency that the subsides of bringing down a fever by a wide margin, and detection device's space occupancy is low.

2. The transition belts of the utility model are divided into two groups, and the transition belts are arranged in a staggered way with the upper and lower heights, and the two groups of transition belts are connected and fixed through the connecting bracket; when the first transition belt is in butt joint with the conveying frame, the tail end of the first transition belt is just in butt joint with the conveying belt in the first detection box, when the second transition belt is in butt joint with the conveying frame, the tail end of the second transition belt is just in butt joint with the conveying belt in the second detection box, and continuous accurate conveying of the annealing belt on the conveying frame and the annealing belt in the two detection boxes can be realized through the matching of the first transition belt and the second transition belt; because the sealing plate is arranged at the gap between the transition belt and the detection box, the excessively small gap also prevents the cooling paste from falling from the transition belt while the sealing effect is achieved.

3. The utility model arranges a plurality of groups of pressure regulating columns, fixes the pressure regulating columns on the cross rod, and drives the guide seat to slide along the vertical direction through the gear and rack meshing, thereby driving each pressure regulating column to move up and down; meanwhile, a second connecting support between the first transition belt and the second transition belt is meshed with a transmission gear of a driving motor in a gear and rack mode, the driving motor drives the transmission gear to rotate, and meanwhile the pressure regulating column and the transition belt can be driven to move up and down in opposite directions simultaneously to drive a driving source of the motor, and pressure regulation in the detection box and conveying switching of the transition belt are completed.

4. The sealing plates of the utility model are arranged at the front and back ends of the first detection box and the second detection box respectively, and the lifting operation of the sealing plates is driven by the driving of the driving guide rail respectively, so that the sealing states of the first detection box and the second detection box can be switched; the arrangement of the conducting holes on the sealing plate can avoid position interference between the sealing plate and a transmission gear of a driving motor when the sealing plate is lifted; the arrangement of the collecting bin can directly collect the cooling paste falling from the outlet of the detection box; the start-up controller is arranged to facilitate switching the start-up of the first transition zone and the second transition zone.

Drawings

Fig. 1 is a schematic structural diagram of the present invention in one of the operating states.

Fig. 2 is a schematic structural view of the present invention in another working state.

In the figure:

a. a cooling paste 1 and a conveying frame;

21. a first transition zone; 22. a second transition zone; 23. a first connecting bracket;

24. a second connecting bracket; 241. a first drive rack;

31. a first detection box; 32. a second detection box; 33. a conveyor belt;

34. fixing a column; 35. a guide seat; 351. a second drive rack;

36. a cross bar; 361. a pressure regulating column;

37. a first sealing plate; 371. a via hole; 38. a second sealing plate; 39. a transmission gear;

4. and collecting the bin.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, in an embodiment of the present invention, a device for detecting sealing performance of an annealing paste includes a conveying frame 1 for conveying a packaged annealing paste a, wherein the conveying frame 1 is a belt-type conveying frame; a certain amount of gas exists in the packaged defervescence paste a, and the pressure in the bag body is equal to the atmospheric pressure.

A cooling air port is arranged above the conveying frame 1, is in a shape of a Chinese character kou and corresponds to the shape and the position of a hot air area of the cooling paster a; the cooling air port is communicated with an air source, so that the heat-sealing area of the heat-sealing area is cooled by air when the heat-sealing area passes through the conveying frame 1, and the heat of the heat-sealing area is prevented from generating heat influence on the substances in the heat-sealing area.

And the detection station comprises a first detection box 31 and a second detection box 32, the first detection box 31 and the second detection box 32 are arranged oppositely up and down, both are opened front and back to form a channel-shaped structure, and conveying belts 33 are arranged in the first detection box 31 and the second detection box 32, so that the heat-reducing pastes a are conveyed from the input ports to the output ports of the first detection box 31 and the second detection box 32.

The first detection box 31 and the second detection box 32 have the same length and are staggered in height, the first detection box 31 and the second detection box 32 are fixedly connected through the fixing posts 34 which are vertically arranged, the number of the fixing posts 34 is not limited, and two sets of the fixing posts are preferably arranged in a left-right symmetrical mode so as to support the first detection box 31 and the second detection box 32 at two points.

The opening sides of the first and second inspection boxes 31 and 32 are provided with sealing plates for closing the openings of the first and second inspection boxes 31 and 32. The sealing plate includes a first sealing plate 37 at the inlet of the first and second inspection boxes 31 and 32, and a second sealing plate 38 at the outlet of the first and second inspection boxes 31 and 32.

The first and second sealing plates 37 and 38 are movable in the vertical direction to close the openings of the first and second detection boxes 31 and 32, and the driving source of the first and second sealing plates 37 and 38 is not limited, and is preferably an electromagnetic driving rail, and the driving rail is not limited in position, and may be provided in the first detection box 31, the second detection box 32, or between the first and second detection boxes 31 and 32.

The first sealing plate 37 and the second sealing plate 38 are lifted and lowered synchronously all the time, and the first sealing plate 37 and the second sealing plate 38 have the same size, so that the following two working states are completed:

the first sealing plate 37 and the second sealing plate 38 rise to seal the entrance of the first detection box 31, so that the first detection box 31 is in a sealed state, at this time, the first sealing plate 37 and the second sealing plate 38 let out the entrance of the second detection box 32, so that the cooling paste a can be normally conveyed into the second detection box 32, and the cooling paste a detected in the second detection box 32 can also be normally conveyed away.

The first sealing plate 37 and the second sealing plate 38 descend to seal the entrance and exit of the second detection box 32, so that the second detection box 32 is in a sealing state, at this time, the first sealing plate 37 and the second sealing plate 38 let out the entrance and exit of the first detection box 31, so that the cooling paste a can be normally conveyed into the first detection box 31, and the cooling paste a detected in the first detection box 31 can also be normally conveyed away.

In order to achieve a good detection effect, the fixing column 34 is provided with a guide seat 35 which can produce a vertical sliding action along the column body of the fixing column 34, a cross rod 36 is horizontally arranged between the guide seats 35 of the two fixing columns 34, and a pressure regulating column 361 is arranged on the cross rod 36 along the vertical direction. Both upper and lower ends of the pressure-regulating column 361 extend into the first detection box 31 and the second detection box 32, and are retracted from the conveyor belt 33 in the first detection box 31 and the second detection box 32. The first and second detection boxes 31 and 32 are provided with a gasket at a contact portion with the pressure regulating column 361 so that the portions of the first and second detection boxes 31 and 32 can maintain sealability. The fixed posts 34 are not limited in number and are arranged in an array along the length of the cross bar 36.

When the first detection box 31 and the second detection box 32 are in a sealed state, the pressure regulating column 361 moves along the vertical direction along with the cross rod 36, and a piston-like effect can be achieved to change the pressure in the first detection box 31 and the second detection box 32. Taking the first detection box 31 as an example, when the pressure regulating column 361 leaves the first detection box 31, the pressure inside the first detection box 31 is reduced, and at this time, the heat-releasing tape a bag in the first detection box 31 expands due to the pressure difference, and at this time, the sealing property is considered to be good, and if the heat-releasing tape a bag does not change, the bag is considered to have a leakage phenomenon.

The driving source for the guide holder 35 to slide in the vertical direction is not limited, and it is preferable that a driving motor is disposed between the first detection box 31 and the second detection box 32, a transmission gear 39 is coaxially fixed on a motor shaft of the driving motor, a second transmission rack 351 is disposed on the guide holder 35 adjacent to the driving motor in the vertical direction, and the transmission gear 39 is engaged with the second transmission rack 351 in a rack-and-pinion manner, so that the guide holder 35 can be driven to ascend or descend in the vertical direction when the driving motor is started.

In order to facilitate the smooth transportation of the heat-removing labels a on the conveying frame 1 to the first detection box 31 and the second detection box 32, a transition zone is arranged between the conveying frame 1 and the detection station. The transition zone comprises a first transition zone 21 and a second transition zone 22 which are arranged in a staggered height mode, and the first transition zone 21 and the second transition zone 22 are symmetrically arranged obliquely along the horizontal plane.

The head ends of the first transition belt 21 and the second transition belt 22 (i.e., the adjacent ends of the conveyor frames 1) are connected by a first connecting bracket 23 arranged vertically, and the tail ends of the first transition belt 21 and the second transition belt 22 (and the adjacent ends of the inspection stations) are connected by a second connecting bracket 24 arranged vertically.

The first connecting bracket 23 is in sliding fit with the conveying frame 1 through a guide rail along the vertical direction; the second connecting bracket 24 is provided with a first transmission rack 241 along the vertical direction at one side of the adjacent detection station, and the first transmission rack 241 is also matched with a gear rack 39 on the motor shaft of the driving motor. The second linking bracket 24 and the guide holder 35 are respectively disposed at both sides of the driving gear 39 so that the guide holder 35 and the second linking bracket 24 are driven to ascend and descend in opposite directions when the driving gear 39 rotates, that is, the second linking bracket 24 descends when the guide holder 35 ascends.

In order to prevent interference with the transmission gear 39, the first sealing plate 37 is provided with a through hole 371 along the vertical direction for the transmission gear 39 to pass through. When the first seal plate 37 moves in the vertical direction, the first seal plate 37 and the transmission gear 39 are positionally deviated due to the presence of the through hole 371. And the through hole 371 is displaced from the opening positions of the first detection box 31 and the second detection box 32 when moving in the vertical direction, preventing the through hole 371 from releasing pressure to the first detection box 31 and the second detection box 32.

The first ends of the conveyor belts 33 in the first detection box 31 and the second detection box 32 correspond to the opening positions of the first detection box 31 and the second detection box 32. Gaps, which are typically set to 3 to 5cm, exist between the trailing ends of the first and second transition zones 21, 22 and the first and second inspection boxes 31, 32, and first and second seal plates 37, 38 are provided at the gaps. Taking the first transition belt 21 as an example, when the first sealing plate 37 moves downward and leaves the inlet of the first detection box 31, the heat-dissipating patch a conveyed on the first transition belt 21 crosses the gap between the first transition belt 21 and the first detection box 31 and then falls on the conveyor belt 33 of the first detection box 31, and since the gap distance is much shorter than the length of the heat-dissipating patch a, the heat-dissipating patch a can smoothly cross the gap and directly fall on the conveyor belt 33 of the first detection box 31 without falling.

First transition belt 21 and second transition belt 22 are small-size belt formula drive belt, for the operation of convenient control first transition belt 21 and second transition belt 22, the head end of first transition belt 21 and second transition belt 22 is provided with start control ware, and the tail end of carriage 1 is provided with signal transmitter, when first transition belt 21 and second transition belt 22 move to and carriage 1 high correspondence, start control ware receives signal transmitter's on the carriage 1 signal, first transition belt 21 or second transition belt 22 just begin to operate.

The position switching speed of the first transition belt 21 and the second transition belt 22 is greater than the conveying speed of the adjacent annealing patches a on the conveying frame 1, so that when the first transition belt 21 and the second transition belt 22 are switched between the ascending position and the descending position, no annealing patches a on the conveying frame 1 are conveyed to the first transition belt 21 and the second transition belt 22, and the conveying process is prevented from being disturbed. The drive motor speed is usually adjusted so that the position switching of the first transition zone 21 and the second transition zone 22 is completed within 1 s.

For the detection effect in the first detection case 31 of convenient control and the second detection case 32, can set up first detection case 31 and second detection case 32 into the translucent cover body, whether the staff's visual observation that is convenient for subsides a that defervesces heaves, or set up the monitoring camera in first detection case 31 and second detection case 32, whether subsides a that defervesces heaves through camera automatic monitoring.

The detection process of the detection station is as follows:

the carriage 1 continuously conveys the packaged annealed tape a at a constant speed, and for example, when the sealing performance is being detected in the first detection box 31, after the detection is completed, the first sealing plate 37 and the second sealing plate 38 are lowered to release the sealing state of the first detection box 31 and to maintain the second detection box 32 in the sealing state (when the first detection box 31 and the second detection box 32 are maintained in the sealing state, the conveyor belt 33 therein is stopped, and when the sealing state is released, the conveyor belt 33 is returned to the normal operation).

After the first sealing plate 37 and the second sealing plate 38 completely seal the second sealing box 32, the driving motor is started, the guide post 34 is driven to move upwards through the rotation of the transmission gear 39, and the second connecting bracket 24 is driven to move downwards at the same time, at this time, the first transition belt 21 is finally flush with the conveying rack 1 and started, so that the cooling paste a from the conveying rack 1 is received and conveyed into the first detection box 31, and at this time, the second transition belt 22 stops the conveying process. Meanwhile, the guide column 34 moves upward, and the space in the second detection box 32 is enlarged, so that the air pressure in the second detection box 32 is reduced, the heat-removing tape a with good sealing performance in the second detection box 32 is swelled due to the influence of the pressure difference, and the damaged heat-removing tape a bag body is unchanged.

After all the detected cooling tapes a in the first detection box 31 are conveyed away from the first detection box 31, the detection process of the second detection box 32 is completed. At this time, the first sealing plate 37 and the second sealing plate 38 are lifted, the second detection box 32 is released from the sealed state, and the first detection box 31 enters the sealed state. The driving motor is turned over, the guide post 34 is driven to move downwards through the rotation of the transmission gear 39, the second connecting support 24 is driven to move upwards at the same time, the second transition belt 22 is finally flush with the conveying rack 1 and is started, the heat-removing paste a from the conveying rack 1 is received and conveyed into the second detection box 32, and at the moment, the first transition belt 21 stops the conveying process. Meanwhile, when the guide column 34 moves downwards, the space in the first detection box 31 is enlarged, so that the air pressure in the first detection box 31 is reduced, the heat-removing tape a with good sealing performance in the first detection box 31 is swelled under the influence of pressure difference, and the damaged heat-removing tape a bag body is unchanged.

The tightness detection of the cooling patch a can be continuously completed by repeating the above process.

The basic principles of the present application have been described above with reference to specific embodiments, but it should be noted that advantages, effects, etc. mentioned in the present application are only examples and are not limiting, and the advantages, effects, etc. must not be considered to be possessed by various embodiments of the present application. Furthermore, the foregoing disclosure of specific details is for the purpose of illustration and description and is not intended to be limiting, since the foregoing disclosure is not intended to be exhaustive or to limit the disclosure to the precise details disclosed.

The block diagrams of devices, apparatuses, devices, systems referred to in this application are only used as illustrative examples and are not intended to require or imply that they must be connected, arranged, or configured in the manner shown in the block diagrams. These devices, apparatuses, devices, systems may be connected, arranged, configured in any manner, as will be appreciated by those skilled in the art. Words such as "including," "comprising," "having," and the like are open-ended words that mean "including, but not limited to," and are used interchangeably therewith. As used herein, the words "or" and "refer to, and are used interchangeably with, the word" and/or, "unless the context clearly dictates otherwise. The word "such as" is used herein to mean, and is used interchangeably with, the phrase "such as but not limited to".

It should also be noted that in the devices, apparatuses, and methods of the present application, the components or steps may be decomposed and/or recombined. These decompositions and/or recombinations are to be considered as equivalents of the present application.

The previous description of the disclosed aspects is provided to enable any person skilled in the art to make or use the present application. Various modifications to these aspects will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other aspects without departing from the scope of the application. Thus, the present application is not intended to be limited to the aspects shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

The foregoing description has been presented for purposes of illustration and description. Furthermore, the description is not intended to limit embodiments of the application to the form disclosed herein. While a number of example aspects and embodiments have been discussed above, those of skill in the art will recognize certain variations, modifications, alterations, additions and sub-combinations thereof.

Claims (10)

1. The detection device for the sealing performance of the cooling paste is characterized by comprising the following components:

a conveying frame (1) for conveying the packaged cooling paste (a); a cooling air port is arranged above the conveying frame (1), is in a shape of a Chinese character 'kou' and corresponds to the shape and the position of a heat sealing area of the cooling paste (a), and the cooling air port exhausts air at intervals so as to cool the sequentially-passed cooling paste (a);

the first detection box (31) and the second detection box (32) are positioned at the downstream end of the conveying frame (1) and are arranged oppositely up and down, the front end and the rear end of each of the first detection box (31) and the second detection box (32) are opened to allow the cooling paste (a) to enter and exit, and conveying belts (33) are arranged in each of the first detection box (31) and the second detection box (32) to convey the cooling paste (a) to an outlet from inlets of the first detection box (31) and the second detection box (32);

the transition belt is used for conveying the heat-removing paste (a) on the conveying frame (1) to a conveying belt (33) in the first detection box (31) or the second detection box (32);

sealing plates which are arranged at openings at both ends of the first detection box (31) and the second detection box (32) and can close the openings so that the first detection box (31) and the second detection box (32) are in a sealed state;

the pressure regulating column (361) is arranged between the first detection box (31) and the second detection box (32) along the vertical direction, two ends of the pressure regulating column extend into the first detection box (31) and the second detection box (32), the contact part of the pressure regulating column (361) and the first detection box (31) and the contact part of the pressure regulating column (361) and the second detection box (32) are arranged in a sealing mode, and when the first detection box (31) or the second detection box (32) are in a sealing state, the pressure regulating column (361) can move along the vertical direction to change the pressure height in the first detection box (31) or the second detection box (32).

2. The sealing performance detection device of the heat-reducing paste is characterized in that the transition belt comprises a first transition belt (21) for conveying the heat-reducing paste (a) into a first detection box (31) and a second transition belt (22) for conveying the heat-reducing paste (a) into a second detection box (32), and the first transition belt (21) and the second transition belt (22) are staggered in height and are connected and fixed through a first connecting bracket (23); the first connecting support (23) is in sliding fit with the conveying frame (1) along the vertical direction to drive the head end of the first transition belt (21) or the head end of the second transition belt (22) to be in butt joint with the tail end of the conveying frame (1), the tail end of the first transition belt (21) is in butt joint with the conveying belt (33) in the first detection box (31) when in butt joint with the conveying frame (1), and the tail end of the second transition belt (22) is in butt joint with the conveying belt (33) in the second detection box (32) when in butt joint with the conveying frame (1).

3. The sealing performance detection apparatus according to claim 2, wherein a gap is provided between each of the trailing end of the first transition zone (21) and the trailing end of the second transition zone (22) and the first detection box (31) and the second detection box (32), and the sealing plate is disposed in the gap in the vertical direction.

4. The detection device for the sealing performance of the heat-clearing paste as claimed in claim 2 or 3, wherein the first detection box (31) and the second detection box (32) are fixedly connected through a fixing column (34) which is vertically arranged, a guide seat (35) which can slide along a column body of the fixing column (34) is arranged on the fixing column (34), a cross rod (36) is horizontally fixed on the guide seat (35), and each pressure regulating column (361) is fixed on a rod body of the cross rod (36) so as to be capable of moving along the vertical direction along with the cross rod (36).

5. The detection device for the sealing performance of the heat-removing paste as claimed in claim 4, wherein a second transmission rack (351) is arranged on the guide seat (35) along the vertical direction, a transmission gear (39) is coaxially fixed on a motor shaft of the driving motor between the first detection box (31) and the second detection box (32), and the transmission gear (39) and the second transmission rack (351) form gear-rack matching to drive the guide seat (35) to slide along the vertical direction.

6. The sealing performance detection device for the heat-clearing patch according to claim 5, wherein the head ends of the first transition belt (21) and the second transition belt (22) are fixedly connected through a first connecting support (23) which is vertically arranged, the tail ends of the first transition belt (21) and the second transition belt (22) are fixedly connected through a second connecting support (24) which is vertically arranged, a first transmission rack (241) is arranged on the second connecting support (24) along the vertical direction, and a transmission gear (39) is located between the second connecting support (24) and the guide seat (35) and is simultaneously matched with the first transmission rack (241) and the second transmission rack (351).

7. The antipyretic patch sealing property detection device according to claim 6, wherein the sealing plate includes a first sealing plate (37) arranged at an inlet of the first detection box (31) and the second detection box (32) and a second sealing plate (38) arranged at an outlet of the first detection box (31) and the second detection box (32);

the first sealing plate (37) is in sliding fit with the inlets of the first detection box (31) and the second detection box (32) along the vertical direction, and when the first sealing plate (37) seals the inlet of the first detection box (31), the heat-removing paste (a) on the second transition belt (22) can be conveyed into the second detection box (32) without being blocked; when the first sealing plate (37) seals the inlet of the second detection box (32), the heat-removing paste (a) on the first transition belt (21) can be conveyed into the first detection box (31) without being blocked;

the second sealing plate (38) is in sliding fit with the outlets of the first detection box (31) and the second detection box (32) along the vertical direction, and driving guide rails corresponding to the positions of the second sealing plate (38) and the first sealing plate (37) are arranged in the first detection box (31) and/or the second detection box (32) respectively so as to drive the second sealing plate (38) and the first sealing plate (37) to synchronously lift along the vertical direction.

8. The sealing performance detection device for the heat-clearing paste as claimed in claim 7, wherein a via hole (371) corresponding to the position of the transmission gear (39) is formed in the first sealing plate (37) along the vertical direction, the transmission gear (39) penetrates through the via hole (371) and then is matched with the gear rack of the second transmission rack (351), and the via hole (371) moves along the vertical direction along with the first sealing plate (37) and then is retracted from the opening positions of the first detection box (31) and the second detection box (32).

9. The sealing performance detecting device for the heat-removing paste as claimed in any one of claims 1 to 3, wherein a collecting chamber (4) is provided below the outlets of the first detecting box (31) and the second detecting box (32) to collect the heat-removing paste (a) after detection.

10. The device for detecting the sealing performance of the heat-clearing patch according to claim 2 or 3, wherein the first transition belt (21) and the second transition belt (22) are respectively provided with a starting controller, and the first transition belt (21) and the second transition belt (22) move along the vertical direction until the head ends of the transition belts are flush with the tail end of the conveying frame (1) and then start conveying operation.

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