CN218315279U - Plane gauze mask ear area welding mechanism - Google Patents

Abstract

The utility model belongs to the technical field of gauze mask ear area welding, concretely relates to plane gauze mask ear area welding mechanism, which comprises a conveyor belt, cooling mechanism, welding mechanism, set up in the conveyer belt top before welding mechanism and the cooling mechanism, cooling mechanism includes the shell body, the shell body outside is equipped with the heat preservation, landing leg and external screw thread stopper, the gas outlet has been seted up, heat conduction fin one of shell body top surface installation is connected with heat dissipation fan and semiconductor refrigeration piece, semiconductor refrigeration piece is connected with heat conduction fin two, the fan that admits air is installed to shell body one end, welding mechanism includes the support body, the support body side is connected with the support, cylinder one and guide rail are installed to the support body inner wall, slidable mounting's slide is connected with the connecting seat on the guide rail, cylinder two of connecting seat top surface installation are connected with the soldered connection head. The beneficial effects of the utility model are that: after welding mechanism welded the gauze mask of conveying on the conveyer belt, the air that the fan of admitting air carried was discharged from top to bottom through the gas outlet after the heat conduction fin two cooling is dry, carries out quick cooling to the gauze mask.

Description

Plane gauze mask ear area welding mechanism

Technical Field

The utility model belongs to the technical field of the welding of gauze mask ear area, concretely relates to plane gauze mask ear area welding mechanism.

Background

When the plane gauze mask is in production and processing, need use welding mechanism, weld its gauze mask and ear area, make the plane gauze mask be a complete finished product, and current plane gauze mask ear area welding mechanism when welding, can't cool down gauze mask after welding and ear area welding department, lead to the speed of solidifying slower, not only influence work efficiency, and be unfavorable for the processing and the packing of gauze mask, bring inconvenience for the staff.

Chinese utility model patent with publication No. CN214605941U discloses a welding mechanism for ear bands of flat masks, which stores condensate by arranging a water tank, extracts the condensate in the water tank by a water pump, conveys the condensate by a water pipe, and sprays the condensate by an injector head to cool the welding position of the mask and the ear bands; the above method adopts a treatment mode of cooling by spraying condensed water, which can cause the humidity of the mask and influence the performance and the sanitation of the mask.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model aims to: the utility model provides a plane gauze mask ear area welding mechanism, solve the problem that can not be safe and sanitary carries out the cooling to gauze mask and ear area splice after the plane gauze mask welding.

For the purpose of realizing above, the utility model discloses a technical scheme: the utility model provides a plane gauze mask ear area welding mechanism, includes conveyer belt, cooling mechanism, welding mechanism, adjacent setting is in the top of conveyer belt around welding mechanism and the cooling mechanism, cooling mechanism includes the shell body, the internally mounted of shell body has the baffle, the outside of shell body is equipped with heat preservation and bottom surface and is connected with landing leg, external screw thread stopper, has seted up the gas outlet, heat conduction fin one is installed to the top surface of shell body, heat dissipation fan and semiconductor refrigeration piece are installed respectively to the upper and lower terminal surface of heat conduction fin one, the bottom surface of semiconductor refrigeration piece is connected with heat conduction fin two, the fan that admits air is installed to the one end of shell body, welding mechanism includes the support body, the side of support body is connected with the support, cylinder one and guide rail are installed to the inner wall of support body, the side-mounting of slidable mounting's slide has the connecting seat on the guide rail, cylinder two is installed to the top surface of connecting seat, the soldered connection is installed to the bottom of the piston rod of cylinder two.

The utility model has the advantages that: after welding mechanism welded the gauze mask of conveying on the conveyer belt, the air that the fan of admitting air carried was discharged from top to bottom through the gas outlet after the heat conduction fin two cooling is dry, carries out quick cooling to the gauze mask.

In order to make the gas smoothly blown on the surface of the mask;

as a further improvement of the above technical solution: the quantity of gas outlet is a plurality of, and interval equiphase is seted up around the bottom surface of shell body, the through-hole the same with the wind channel diameter of admitting air fan is seted up to the terminal surface of shell body, set up the notch with the limit portion parallel and level of gas outlet on the heat preservation of the perpendicular below of gas outlet.

The beneficial effect of this improvement does: the air inlet fan can suck external air, so that the air flow is uniformly cooled down through the downward flow of the air outlets to cool the mask.

In order to ensure the cooling effect of the cooling mechanism;

as a further improvement of the above technical solution: the heat preservation is 5-20 mm's of thickness rubber and plastic sponge structure, the heat preservation bonds in the outside of shell body.

The beneficial effect of this improvement does: the heat preservation layer plays the thermal-insulated effect of heat preservation, makes the effectual gauze mask that cools down of the cold air in the shell body.

The condensed water generated in the air cooling process is prevented from falling onto the mask through the air outlet;

as a further improvement of the above technical solution: the baffle is square plate structure, and the inner wall of shell body is connected at the both ends of baffle, the top surface of baffle is not higher than the bottom surface of heat conduction fin two, gas outlet are located both sides around the baffle respectively.

The beneficial effect of this improvement does: the baffle plate is matched with the inner wall of the outer shell to form a groove body structure, and condensed water generated on the second heat conduction fin is collected.

For convenient drainage of collected condensed water;

as a further improvement of the above technical solution: the bottom surface of the shell body is provided with an internal thread through hole structure in threaded connection with the external thread plug.

The beneficial effect of this improvement does: an operator can conveniently unscrew the external thread plug for drainage.

In order to effectively cool the air for a long time;

as a further improvement of the above technical solution: the semiconductor refrigeration piece is characterized in that heat-conducting silicone grease is coated between the cold and hot end face of the semiconductor refrigeration piece and the first heat-conducting fin and the second heat-conducting fin, a notch for installing the semiconductor refrigeration piece in an adaptive mode is formed in the top face of the outer shell, and the first heat-conducting fin and the second heat-conducting fin are installed above the outer shell and inside the outer shell respectively.

The beneficial effect of this improvement does: the hot junction of semiconductor refrigeration piece is cooled down through the heat dissipation fan, guarantees the long-time work that can be stable, through the temperature of two transmission cold junctions of heat conduction fin.

In order to effectively weld the mask;

as a further improvement of the above technical solution: the piston rod of the first air cylinder is fixedly connected with the side face of the connecting seat, and the axis of the second air cylinder is perpendicular to the top face of the conveying belt.

The beneficial effect of this improvement does: the mask below the welding head is welded through the movement of the two groups of cylinders, and compared with a motor lead screw mechanism, the motor lead screw mechanism is low in cost and convenient to maintain.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the cooling mechanism of the present invention;

FIG. 3 is a schematic view of a sectional structure of the cooling mechanism of the present invention;

FIG. 4 is a schematic structural view of a welding mechanism according to the present invention;

in the figure: 1. a conveyor belt; 2. a cooling mechanism; 21. an outer housing; 22. a support leg; 23. a heat-insulating layer; 24. an air outlet; 25. a semiconductor refrigeration sheet; 26. a first heat conduction fin; 27. a second heat conduction fin; 28. a heat dissipation fan; 29. a partition plate; 291. an external thread plug; 292. an air inlet fan; 3. a welding mechanism; 31. a frame body; 32. a support; 33. a first cylinder; 34. a guide rail; 35. a slide base; 36. a connecting seat; 37. a second air cylinder; 38. and (7) welding a head.

Detailed Description

The following detailed description of the present invention is given for the purpose of better understanding technical solutions of the present invention by those skilled in the art, and the present description is only exemplary and explanatory and should not be construed as limiting the scope of the present invention in any way.

Example 1:

as shown in fig. 1-4: the utility model provides a plane gauze mask ear area welding mechanism, includes conveyer belt 1, cooling mechanism 2, welding mechanism 3 and cooling mechanism 2 are by preceding top at conveyer belt 1 to the back setting, cooling mechanism 2 includes shell body 21 the internally mounted of shell body 21 has baffle 29, the outside of shell body 21 is equipped with heat preservation 23 and bottom surface and is connected with landing leg 22, external screw thread stopper 291, has seted up gas outlet 24, heat conduction fin 26 is installed to the top surface of shell body 21, heat dissipation fan 28 and semiconductor refrigeration piece 25 are installed respectively to the upper and lower terminal surface of heat conduction fin 26, the bottom surface of semiconductor refrigeration piece 25 is connected with two heat conduction fins 27, air inlet fan 292 is installed to the one end of shell body 21, welding mechanism 3 includes support body 31, the side of support body 31 is connected with support 32, cylinder 33 and guide rail 34 are installed to the inner wall of support body 31, the side-mounting of slide mounting's slide 35 has connecting seat 36 on the guide rail 34, cylinder two 37 are installed to the top surface of connecting seat 36, the bottom mounting of cylinder two 37's piston rod has soldered connection 38.

The working principle of the technical scheme is as follows: after the gauze mask is put neatly through personnel's manual or other nonstandard equipment, cylinder 33 and cylinder two 37 stretch out and draw back respectively and drive soldered connection 38 and remove, weld the junction of gauze mask and ear area, after the welding, under the conveying of conveyer belt 1, the gauze mask is carried to the below of cooling mechanism 2, air inlet fan 292 during operation sends into the inside of shell body 21 with the outside air suction, the air is when two 27 through heat conduction fins, semiconductor wafer 25 of work gives two 27 heat conduction fins with cold junction heat transfer, make the temperature of the air through two 27 heat conduction fins reduce, air current rethread gas outlet 24 discharge downwards after the cooling, cool down the junction of gauze mask and ear area.

Example 2:

as shown in fig. 1-4, as the further optimization of above-mentioned embodiment, a plane gauze mask ear area welding mechanism, including conveyer belt 1, cooling mechanism 2, welding mechanism 3 and cooling mechanism 2 are by preceding the top that sets up at conveyer belt 1 after to, cooling mechanism 2 includes shell body 21 the internally mounted of shell body 21 has baffle 29, the outside of shell body 21 is equipped with heat preservation 23 and bottom surface and is connected with landing leg 22, external screw thread stopper 291, has seted up gas outlet 24, heat conduction fin 26 is installed to the top surface of shell body 21, heat dissipation fan 28 and semiconductor refrigeration piece 25 are installed respectively to the upper and lower terminal surface of heat conduction fin 26, the bottom surface of semiconductor refrigeration piece 25 is connected with heat conduction fin two 27, air inlet fan 292 is installed to the one end of shell body 21, welding mechanism 3 includes support body 31, the side connection of support body 31 has support 32, cylinder one 33 and guide rail 34 are installed to the inner wall of support body 31, sliding seat 35's side-mounting has connecting seat 36 on guide rail 34, cylinder two 37's top surface installs cylinder 37, soldered connection seat 38 is installed to cylinder two 37's the bottom of piston rod. The quantity of gas outlet 24 is a plurality of, and the equidistance is seted up at the bottom surface of shell body 21 around the interval, the through-hole the same with air inlet fan 292's wind channel diameter is seted up to the terminal surface of shell body 21, set up the notch with the limit portion parallel and level of gas outlet 24 on the heat preservation 23 of the perpendicular below of gas outlet 24.

Example 3:

as shown in fig. 1-4, as the further optimization of the above-mentioned embodiment, a plane gauze mask ear area welding mechanism, including conveyer belt 1, cooling mechanism 2, welding mechanism 3 and cooling mechanism 2 are by preceding the top of setting at conveyer belt 1 to the back, cooling mechanism 2 includes shell body 21 the internally mounted of shell body 21 has baffle 29, the outside of shell body 21 is equipped with heat preservation 23 and bottom surface and is connected with landing leg 22, external screw thread stopper 291, has seted up gas outlet 24, heat conduction fin 26 is installed to the top surface of shell body 21, heat dissipation fan 28 and semiconductor refrigeration piece 25 are installed respectively to the upper and lower terminal surface of heat conduction fin 26, the bottom surface of semiconductor refrigeration piece 25 is connected with heat conduction fin two 27, fan 292 admits air is installed to the one end of shell body 21, welding mechanism 3 includes support body 31, the side of support body 31 is connected with support 32, cylinder one 33 and guide rail 34 are installed to the inner wall of support body 31, the side-mounting's of slide carriage 35 on guide rail 34 has connecting seat 36, cylinder two 37's top surface installs cylinder 37, soldered connection 38 is installed to the bottom of the piston rod. The heat preservation layer 23 is of a rubber and plastic sponge cushion structure with the thickness of 5-20 mm, and the heat preservation layer 23 is bonded on the outer side of the outer shell 21.

Example 4:

as shown in fig. 1-4, as the further optimization of the above-mentioned embodiment, a plane gauze mask ear area welding mechanism, including conveyer belt 1, cooling mechanism 2, welding mechanism 3 and cooling mechanism 2 are by preceding the top of setting at conveyer belt 1 to the back, cooling mechanism 2 includes shell body 21 the internally mounted of shell body 21 has baffle 29, the outside of shell body 21 is equipped with heat preservation 23 and bottom surface and is connected with landing leg 22, external screw thread stopper 291, has seted up gas outlet 24, heat conduction fin 26 is installed to the top surface of shell body 21, heat dissipation fan 28 and semiconductor refrigeration piece 25 are installed respectively to the upper and lower terminal surface of heat conduction fin 26, the bottom surface of semiconductor refrigeration piece 25 is connected with heat conduction fin two 27, fan 292 admits air is installed to the one end of shell body 21, welding mechanism 3 includes support body 31, the side of support body 31 is connected with support 32, cylinder one 33 and guide rail 34 are installed to the inner wall of support body 31, the side-mounting's of slide carriage 35 on guide rail 34 has connecting seat 36, cylinder two 37's top surface installs cylinder 37, soldered connection 38 is installed to the bottom of the piston rod. The partition plate 29 is of a square plate structure, the two ends of the partition plate 29 are connected with the inner wall of the outer shell 21, the top surface of the partition plate 29 is not higher than the bottom surface of the second heat conduction fin 27, and the second heat conduction fin 27 and the air outlet 24 are respectively located on the front side and the rear side of the partition plate 29.

Example 5:

as shown in fig. 1-4, as the further optimization of above-mentioned embodiment, a plane gauze mask ear area welding mechanism, including conveyer belt 1, cooling mechanism 2, welding mechanism 3 and cooling mechanism 2 are by preceding the top that sets up at conveyer belt 1 after to, cooling mechanism 2 includes shell body 21 the internally mounted of shell body 21 has baffle 29, the outside of shell body 21 is equipped with heat preservation 23 and bottom surface and is connected with landing leg 22, external screw thread stopper 291, has seted up gas outlet 24, heat conduction fin 26 is installed to the top surface of shell body 21, heat dissipation fan 28 and semiconductor refrigeration piece 25 are installed respectively to the upper and lower terminal surface of heat conduction fin 26, the bottom surface of semiconductor refrigeration piece 25 is connected with heat conduction fin two 27, air inlet fan 292 is installed to the one end of shell body 21, welding mechanism 3 includes support body 31, the side connection of support body 31 has support 32, cylinder one 33 and guide rail 34 are installed to the inner wall of support body 31, sliding seat 35's side-mounting has connecting seat 36 on guide rail 34, cylinder two 37's top surface installs cylinder 37, soldered connection seat 38 is installed to cylinder two 37's the bottom of piston rod. The bottom surface of the outer shell 21 is provided with an internal thread through hole structure in threaded connection with the external thread plug 291.

Example 6:

as shown in fig. 1-4, as the further optimization of the above-mentioned embodiment, a plane gauze mask ear area welding mechanism, including conveyer belt 1, cooling mechanism 2, welding mechanism 3 and cooling mechanism 2 are by preceding the top of setting at conveyer belt 1 to the back, cooling mechanism 2 includes shell body 21 the internally mounted of shell body 21 has baffle 29, the outside of shell body 21 is equipped with heat preservation 23 and bottom surface and is connected with landing leg 22, external screw thread stopper 291, has seted up gas outlet 24, heat conduction fin 26 is installed to the top surface of shell body 21, heat dissipation fan 28 and semiconductor refrigeration piece 25 are installed respectively to the upper and lower terminal surface of heat conduction fin 26, the bottom surface of semiconductor refrigeration piece 25 is connected with heat conduction fin two 27, fan 292 admits air is installed to the one end of shell body 21, welding mechanism 3 includes support body 31, the side of support body 31 is connected with support 32, cylinder one 33 and guide rail 34 are installed to the inner wall of support body 31, the side-mounting's of slide carriage 35 on guide rail 34 has connecting seat 36, cylinder two 37's top surface installs cylinder 37, soldered connection 38 is installed to the bottom of the piston rod. The heat conduction silicone grease is coated between the cold and hot end face of the semiconductor refrigeration piece 25 and the first heat conduction fin 26 and the second heat conduction fin 27, a notch matched with the semiconductor refrigeration piece 25 is formed in the top face of the outer shell 21, and the first heat conduction fin 26 and the second heat conduction fin 27 are respectively installed above the outer shell 21 and inside the outer shell 21.

Example 7:

as shown in fig. 1-4, as the further optimization of the above-mentioned embodiment, a plane gauze mask ear area welding mechanism, including conveyer belt 1, cooling mechanism 2, welding mechanism 3 and cooling mechanism 2 are by preceding the top of setting at conveyer belt 1 to the back, cooling mechanism 2 includes shell body 21 the internally mounted of shell body 21 has baffle 29, the outside of shell body 21 is equipped with heat preservation 23 and bottom surface and is connected with landing leg 22, external screw thread stopper 291, has seted up gas outlet 24, heat conduction fin 26 is installed to the top surface of shell body 21, heat dissipation fan 28 and semiconductor refrigeration piece 25 are installed respectively to the upper and lower terminal surface of heat conduction fin 26, the bottom surface of semiconductor refrigeration piece 25 is connected with heat conduction fin two 27, fan 292 admits air is installed to the one end of shell body 21, welding mechanism 3 includes support body 31, the side of support body 31 is connected with support 32, cylinder one 33 and guide rail 34 are installed to the inner wall of support body 31, the side-mounting's of slide carriage 35 on guide rail 34 has connecting seat 36, cylinder two 37's top surface installs cylinder 37, soldered connection 38 is installed to the bottom of the piston rod. The piston rod of the first air cylinder 33 is fixedly connected with the side surface of the connecting seat 36, and the axis of the second air cylinder 37 is perpendicular to the top surface of the conveyor belt 1.

The utility model discloses a theory of operation and use flow: after the gauze mask is put neatly through manual or other nonstandard equipment of personnel, cylinder 33 and cylinder two 37 stretch out and draw back respectively and drive soldered connection 38 and remove, weld the junction of gauze mask and ear area, after the welding, under the conveying of conveyer belt 1, the gauze mask is carried to the below of cooling mechanism 2, the inside of shell body 21 is sent into with the outside air suction to the fan 292 during operation that admits air, the air is when two 27 heat conduction fins, the semiconductor refrigeration piece 25 of work gives two 27 heat conduction fins with cold junction heat transfer, make the temperature of the air through two 27 heat conduction fins reduce, the air current rethread gas outlet 24 discharge downwards after the cooling, cool down the junction of gauze mask and ear area.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts of the present invention. The foregoing is only a preferred embodiment of the present invention, and it should be noted that there are objectively infinite specific structures due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes may be made without departing from the principle of the present invention, and the above technical features may be combined in a suitable manner; such modifications, variations, or combinations, or other applications of the inventive concepts and solutions as may be employed without such modifications, are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides a plane gauze mask ear area welding mechanism which characterized in that: comprises a conveyor belt (1), a cooling mechanism (2) and a welding mechanism (3), the welding mechanism (3) and the cooling mechanism (2) are arranged above the conveyor belt (1) from front to back, the cooling mechanism (2) comprises an outer shell (21), a clapboard (29) is arranged in the outer shell (21), the outer side of the outer shell (21) is provided with a heat-insulating layer (23), the bottom surface of the outer shell is connected with supporting legs (22), an external thread plug (291) and an air outlet (24), a first heat conduction fin (26) is arranged on the top surface of the outer shell (21), the upper end surface and the lower end surface of the first heat conduction fin (26) are respectively provided with a heat dissipation fan (28) and a semiconductor refrigeration piece (25), the bottom surface of the semiconductor refrigerating sheet (25) is connected with a second heat conduction fin (27), an air inlet fan (292) is arranged at one end of the outer shell (21), the welding mechanism (3) comprises a frame body (31), the side surface of the frame body (31) is connected with a bracket (32), a first cylinder (33) and a guide rail (34) are arranged on the inner wall of the frame body (31), a connecting seat (36) is arranged on the side surface of a sliding seat (35) which is arranged on the guide rail (34) in a sliding way, a second air cylinder (37) is arranged on the top surface of the connecting seat (36), and a welding head (38) is arranged at the bottom end of a piston rod of the second air cylinder (37).

2. The ear band welding mechanism for flat masks according to claim 1, characterized in that: the quantity of gas outlet (24) is a plurality of, and the interval is in the same order and is seted up around the bottom surface of shell body (21), the through-hole the same with the wind channel diameter of air inlet fan (292) is seted up to the terminal surface of shell body (21), offer the notch with the limit portion parallel and level of gas outlet (24) on heat preservation (23) of the perpendicular below of gas outlet (24).

3. The ear band welding mechanism for flat masks according to claim 1, characterized in that: the heat-insulating layer (23) is of a rubber-plastic sponge cushion structure with the thickness of 5-20 mm, and the heat-insulating layer (23) is bonded on the outer side of the outer shell (21).

4. The ear band welding mechanism for flat masks according to claim 1, characterized in that: the partition plate (29) is of a square plate structure, the two ends of the partition plate (29) are connected with the inner wall of the outer shell (21), the top surface of the partition plate (29) is not higher than the bottom surface of the second heat conduction fin (27), and the second heat conduction fin (27) and the air outlet (24) are respectively located on the front side and the rear side of the partition plate (29).

5. The ear band welding mechanism for flat masks according to claim 1, characterized in that: the bottom surface of the outer shell (21) is provided with an internal thread through hole structure in threaded connection with an external thread plug (291).

6. The ear band welding mechanism for flat masks according to claim 1, characterized in that: all be coated with heat conduction silicone grease between the cold and hot terminal surface of semiconductor refrigeration piece (25) and heat conduction fin (26), heat conduction fin two (27), the notch of adaptation installation semiconductor refrigeration piece (25) is seted up to the top surface of shell body (21), the inside at the top of shell body (21) and shell body (21) is installed respectively to heat conduction fin (26), heat conduction fin two (27).

7. The ear band welding mechanism for flat masks according to claim 1, characterized in that: the piston rod of the first air cylinder (33) is fixedly connected with the side face of the connecting seat (36), and the axis of the second air cylinder (37) is perpendicular to the top face of the conveyor belt (1).

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