CN217528073U - Heating device of dispenser - Google Patents

Abstract

The utility model relates to a heating device of a dispenser, which comprises an X-direction adjusting component and a Y-direction adjusting component, wherein the X-direction adjusting component is connected with the Y-direction adjusting component in a sliding way; the Z-direction adjusting assembly is connected with the X-direction adjusting assembly in a sliding manner; and a heating mechanism is arranged at the top of the Z-direction adjusting assembly. This application is through adjusting the position of heating mechanism in X direction, Y direction and Z direction, realizes the contact heating to the work piece, simple structure, and the suitability is strong, low in manufacturing cost.

Description

Heating device of dispenser

Technical Field

The utility model relates to a heating device technical field especially relates to a heating device of point gum machine.

Background

Heating device among the current point gum machine comprises heating mechanism and adjustment mechanism, and heating mechanism generally includes aluminum plate and the stick that generates heat, and aluminum plate fixes on adjustment mechanism, is equipped with the stick that generates heat on the aluminum plate. However, the adjusting mechanism in the heating device of the dispenser can only perform small-range adjustment in the X and Y directions, the position of the heating mechanism is adjusted to be below the workpiece, and the heating mechanism heats the workpiece to a set temperature by a non-contact heating method. But the non-contact heating of the aluminum plate and the heating rod has the problem of uneven heating. In addition, when heating, the heat can radiate to the periphery, so that the electric elements arranged around the heating mechanism are in an environment with overhigh temperature for a long time to influence the service life.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims at providing a heating device of point gum machine can realize the contact heating to the work piece.

The utility model discloses a realize through following technical scheme:

a heating device of a dispenser comprises an X-direction adjusting assembly and a Y-direction adjusting assembly, wherein the X-direction adjusting assembly is connected with the Y-direction adjusting assembly in a sliding manner; the Z-direction adjusting assembly is connected with the X-direction adjusting assembly in a sliding manner; and a heating mechanism is arranged at the top of the Z-direction adjusting assembly.

Compared with the prior art, the utility model discloses a set up X to adjusting part, Y to adjusting part and Z to adjusting part to heating mechanism sets up on Z is to adjusting part, adjusts heating mechanism in X direction, Y direction and the ascending position of Z side, realizes the contact heating to the work piece. This application simple structure, the suitability is strong, reforms transform with low costsly.

Furthermore, the Y-direction adjusting assembly comprises a Y-direction optical axis and optical axis supporting side seats which are respectively arranged at two ends of the Y-direction optical axis; the X-direction adjusting assembly comprises an X-direction optical axis and is vertical to the Y-direction optical axis; the optical axis fixing block is respectively connected with the X-direction optical axis and the Y-direction optical axis in a sliding manner; the Z-direction adjusting assembly comprises an optical axis sliding block and is in sliding connection with the X-direction optical axis; one side surface of the jacking cylinder connecting plate is fixedly connected with the optical axis sliding block; the jacking cylinder is detachably fixed on the jacking cylinder connecting plate; and the heating mechanism connecting plate is horizontally fixed on a piston rod of the jacking cylinder.

Furthermore, the Z-direction adjusting assembly also comprises a jacking cylinder limiting plate which is fixedly connected with the lower part of the jacking cylinder connecting plate and is abutted against the bottom of the jacking cylinder to limit the position of the jacking cylinder in the vertical direction; and the normal line of the jacking cylinder limiting plate is respectively vertical to the X-direction optical axis and the Y-direction optical axis.

Further, the heating mechanism comprises a heating component which is arranged on the heating mechanism connecting plate; the heat conducting plate is arranged on the heating component; the heating assembly comprises two layers of heating cloth and one layer of heating wire, the heating wire is arranged between the two layers of heating cloth, the heating cloth positioned on the lower layer is contacted with the heating mechanism connecting plate, and the heating cloth positioned on the upper layer is contacted with the heat conducting plate.

Furthermore, the heating mechanism further comprises a heat insulation assembly, the heat insulation assembly comprises a heat insulation bottom plate, the heat insulation bottom plate is horizontally fixed on the heating mechanism connecting plate, heat insulation side plates surround the periphery of the heat insulation bottom plate to form an accommodating cavity with an upward opening, and the heating assembly is located in the accommodating cavity.

Further, the heat insulation assembly further comprises heat insulation cotton, and the heat insulation cotton is arranged at the bottom and the side part in the accommodating cavity and is positioned between the heat insulation bottom plate and the heating assembly and between the heat insulation side plate and the heating assembly.

Further, the heating cloth is silica gel heating cloth.

Further, the heating mechanism further comprises a heat diffusion member for transferring heat generated by the heating component to the heat conducting plate more quickly, and the heat diffusion member is arranged at the bottom of the heat insulation bottom plate; the heat insulation bottom plate is provided with a vent hole, the first end of the heat dissipation part is communicated with the vent hole, and the second end of the heat dissipation part is a free end.

Further, a plurality of heat conduction holes are formed in the heat conduction plate.

Further, the heat diffusion member is an L-shaped pipe.

For a better understanding and an implementation, the present invention is described in detail below with reference to the accompanying drawings.

Drawings

FIG. 1 is a connection diagram of an X-direction adjusting assembly, a Y-direction adjusting assembly and a Z-direction adjusting assembly in a heating device of a dispenser according to the present invention;

fig. 2 is a perspective view of a Z-direction adjusting assembly in the heating device of the dispenser of the present invention;

fig. 3 is an exploded view of a heating mechanism in the heating device of the dispenser of the present invention;

fig. 4 is a cross-sectional view of the heating component of the heating mechanism in the heating device of the dispenser of the present invention;

fig. 5 is a perspective view of a heat diffusing member of a heating mechanism in the heating device of the dispenser of the present invention;

description of the labeling: 10-X direction adjusting component, 100-optical axis fixing block, 102-X direction optical axis, 12-Y direction adjusting component, 120-optical axis supporting seat, 122-Y direction optical axis, 14-Z direction adjusting component, 140-X direction optical axis sliding block, 140 a-sliding hole, 142-jacking cylinder connecting plate, 144-jacking cylinder, 146-heating mechanism connecting plate, 148-jacking cylinder positioning plate, 20-heating mechanism, 200-heat conducting plate, 200 a-heat conducting hole, 202-heating component, 2020-first heating cloth, 2022-heating wire, 2024-second heating cloth, 2040-heat insulating bottom plate, 2040 a-vent hole, 2042-heat insulating side plate, 206-heat diffusing piece, 206 a-first end of heat diffusing piece and 206 b-second end of heat diffusing piece.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

Referring to fig. 1, the heating device of the dispenser of the present invention includes an X-direction adjusting assembly 10, a Y-direction adjusting assembly 12, and a Z-direction adjusting assembly, wherein the X-direction adjusting assembly 10 is slidably connected to the Y-direction adjusting assembly 12.

Specifically, the Y-direction adjusting assembly 12 includes 6 optical axis supporting bases 120 and 3Y-direction optical axes 122, each Y-direction optical axis 122 is horizontally fixed between two optical axis supporting bases 120, and each Y-direction optical axis 122 is parallel.

The X-direction adjusting assembly 10 comprises 6 optical axis fixing blocks 100 and two X-direction optical axes 102; each optical axis fixing block 100 is provided with two cylindrical through holes, which are a first through hole (not shown) and a second through hole (not shown), respectively, and a central axis of the first through hole (not shown) is perpendicular to a central axis of the second through hole (not shown). An X-axis 102 passes through the first through hole (not shown), and a Y-axis passes through the second through hole (not shown), so that each X-axis is perpendicular to each Y-axis. Each optical axis fixing block 100 is slidably connected to a Y-direction optical axis 122 and an X-direction optical axis 102, respectively.

Further, the adjusting mechanism 1 further comprises a Z-direction adjusting assembly 14. Please refer to fig. 2,Z, the axial adjustment assembly 14 is located between two parallel X-axis optical axes 102; the Z-direction adjustment assembly 14 includes two optical axis sliders 140, a jacking cylinder connection plate 142, a jacking cylinder 144, and a heating mechanism connection plate 146. The jacking cylinder connecting plate 142 is in a T shape, the two optical axis sliding blocks 140 are fixed at two ends of the upper part of one side surface of the jacking cylinder connecting plate 142, and each of the two optical axis sliding blocks 140 is provided with a through hole which is a sliding hole 140a; the diameter of the sliding hole 140a is larger than the diameter of the X-direction optical axis 102, and the central axis of the sliding hole 140a is parallel to the X-direction optical axis 102. A through hole (not shown) is also formed in the corresponding position of the jacking cylinder connecting plate 142, and forms a sliding channel with the sliding hole 140a on the optical axis slider 140; the X-direction optical axis passes through the sliding passage, so that the jacking cylinder connecting plate 142 can reciprocate along the X-direction optical axis.

In addition, the Z-direction adjusting assembly 14 further includes a jacking cylinder positioning plate 148, the jacking cylinder positioning plate 148 is fixedly connected to the lower portion of the jacking cylinder connecting plate 142 and perpendicular to the jacking cylinder connecting plate 142, so that the normal of the jacking cylinder positioning plate 148 is perpendicular to the X-direction optical axis 102 and the Y-direction optical axis 122, respectively. Jacking cylinder locating plate 148 and jacking cylinder 122 bottom butt to restriction jacking cylinder 122 is in the ascending position of vertical direction, ensures that the piston rod of jacking cylinder 144 is perpendicular up, and the skew appears in the position when preventing jacking cylinder 144 from fixing on jacking cylinder connecting plate 142, thereby leads to the piston rod of jacking cylinder 144 not to have perpendicular to X simultaneously to optical axis 102 and Y to optical axis 122.

The heating device of the dispenser is provided with the X-direction adjusting assembly 10, the Y-direction adjusting assembly 12 and the Z-direction adjusting assembly 14, and the heating mechanism 20 is arranged at the top of the Z-direction adjusting assembly 14, so that the position of the heating mechanism 20 in the X-direction, the Y-direction and the Z-direction can be adjusted, the requirements for processing workpieces with different sizes are met, and the use is flexible.

Further, referring to fig. 3, the heating mechanism 20 includes a heat conducting plate 200, a heat generating component 202 and a heat insulating component 204. The insulating assembly 204 is disposed on the heating mechanism connecting plate 146, the heating element 202 is located within the insulating assembly 204, and the thermally conductive plate 200 is disposed on top of the heating element 202.

Specifically, the heat insulation assembly 204 includes a heat insulation bottom plate 2040 and a heat insulation side plate 2042, the heat insulation bottom plate 2040 is horizontally fixed on the top of the heating mechanism connecting plate 146, the heat insulation side plate 2042 surrounds the heat insulation bottom plate 2040 to form an accommodating cavity (not shown) with an upward opening, and the heating assembly 202 is disposed in the accommodating cavity (not shown). By arranging the heat-insulating bottom plate 2040 and the heat-insulating side plate 2042 to cover the bottom and the peripheral side parts of the heating assembly 202, heat generated by the heating assembly is prevented from being diffused to the bottom and the peripheral side parts, and the heat is intensively and upwards transferred to a workpiece, so that heat loss in the heating process is reduced, and the influence of the heat radiated to the periphery on components arranged on the periphery is also reduced. Preferably, the heat insulation assembly 204 further includes heat insulation cotton (not shown), which is disposed at the bottom and the side of the accommodating cavity (not shown) and between the heat insulation bottom plate 2040, the heat insulation side plate 2042 and the heat generating assembly 202, so as to further prevent heat generated by the heat generating assembly 202 from radiating to the surroundings.

Referring to fig. 4, the heating element 202 includes two heating cloths, a first heating cloth 2020 and a second heating cloth 2024, respectively, and a heating wire 2022. The first heating cloth 2020 and the second heating cloth 2024 are specifically silica gel heating cloths with good heat resistance, and the uniformly wound heating wire 2022 is clamped between the first heating cloth 2020 and the second heating cloth 2024 to form a three-layer structure which is sequentially the first heating cloth 2020, the heating wire 2022 and the second heating cloth 2024 from bottom to top. Wherein the first heating cloth 2020 is in contact with the heat insulating bottom plate 2040. The heat conducting plate 200 is disposed on the top of the second heat generating cloth 2024. When the heating wire 2022 in the heating element 202 is operated, the heat is uniformly dispersed in the second heating cloth 2024, and then is transferred to the heat conducting plate 200, and then the workpiece is heated. Preferably, the heat conductive plate 200 has a plurality of heat conductive holes 200a to more uniformly transfer heat generated from the heat generating component 202 to the workpiece. The heat-conducting holes 200a may be uniformly distributed on the heat-conducting plate 200, or may be distributed in an array, which is adopted in the present embodiment.

When the heating device of the dispenser works, the heating mechanism 20 is adjusted to the position right facing the workpiece through the X-direction adjusting assembly 10 and the Y-direction adjusting assembly 12, then the position of the heating mechanism 20 in the Z direction is adjusted through the Z-direction adjusting assembly 14, so that the heat conducting plate 200 in the heating mechanism 20 is attached to the bottom of the workpiece, and heat generated by the heating assembly 202 is transferred to the workpiece through the heat conducting plate 200, so that the workpiece is heated in a contact manner.

As an optimization of the above technical solution, the heating mechanism further includes a heat spreader 206. Referring to fig. 3 and 5, the heat spreader 206 is an "L" shaped pipe and is disposed at the bottom of the heat insulation bottom plate 2040; the heat insulation bottom plate 2040 is provided with a through hole 2040a; the first end 206a of the heat spreader 206 is in communication with the vent hole 2040, and the second end 206b thereof is a free end. By introducing gas into the second end 206b of the heat spreader 206, the gas enters the heat generating component 20, so that the heat generated by the heat generating component 202 is transferred from the bottom to the top more quickly. Because the first heating cloth 2020, the heating wire 2022 and the second heating cloth 2024 all have gaps, when the air flow enters the heating element 202, the air flow moves transversely in the first heating cloth 2020, the heating wire 2022 and the second heating cloth 2024 in addition to moving longitudinally, so that the heat generated by the heating element 202 is transferred to the workpiece through the heat conduction holes 200a of the heat conduction plate 200, and the workpiece is uniformly heated.

Compared with the prior art, the utility model discloses a set up X to adjusting part, Y to adjusting part and Z to adjusting part, adjust heating mechanism in X direction, Y direction and Z ascending position of side, wherein, mutually perpendicular between X direction, Y direction and the Z direction realizes the position control on a large scale to heating mechanism to realize the contact heating to the work piece. In addition, through setting up the heating element and the thermal-insulated subassembly of being by two-layer heating cloth centre gripping heater, ensure that the heat evenly transmits the heat-conducting plate, evenly heat the work piece again to obstructed heat and radiated to bottom and all around, effective less heat loss reduces the influence of the heat of radiation to the components and parts around the heating mechanism simultaneously, has improved the life of device. The application has the advantages of simple structure, strong applicability and low manufacturing cost.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, to those skilled in the art, changes and modifications may be made without departing from the spirit of the invention, and it is intended that the invention also encompass such changes and modifications.

Claims (10)

1. The utility model provides a heating device of point gum machine which characterized in that includes:

the X-direction adjusting assembly is connected with the Y-direction adjusting assembly in a sliding manner; and the number of the first and second groups,

the Z-direction adjusting component is connected with the X-direction adjusting component in a sliding manner;

and a heating mechanism is arranged at the top of the Z-direction adjusting assembly.

2. The heating device of a dispenser according to claim 1,

the Y-direction adjusting assembly comprises:

y-direction optical axis, and

the optical axis supporting side seats are respectively arranged at two ends of the Y-direction optical axis;

the X-direction adjusting assembly comprises:

an X-direction optical axis perpendicular to the Y-direction optical axis;

the optical axis fixing block is respectively connected with the X-direction optical axis and the Y-direction optical axis in a sliding manner;

the Z-direction adjusting assembly comprises:

the optical axis sliding block is connected with the X-direction optical axis in a sliding manner;

the jacking cylinder connecting plate is fixedly connected with the optical axis sliding block;

the jacking cylinder is fixed on the jacking cylinder connecting plate;

and the heating mechanism connecting plate is horizontally fixed on a piston rod of the jacking cylinder.

3. The heating device of the dispenser according to claim 2,

the Z-direction adjusting assembly further comprises a jacking cylinder limiting plate which is fixedly connected with the lower part of the jacking cylinder connecting plate and is abutted against the bottom of the jacking cylinder to limit the position of the jacking cylinder in the vertical direction; and the normal line of the jacking cylinder limiting plate is perpendicular to the X-direction optical axis and the Y-direction optical axis respectively.

4. The heating device of the dispenser according to claim 2,

the heating mechanism includes:

the heating component is arranged on the heating mechanism connecting plate;

the heat conducting plate is arranged on the heating component;

the heating assembly comprises two layers of heating cloth and one layer of heating wire, the heating wire is arranged between the two layers of heating cloth, the heating cloth positioned on the lower layer is contacted with the heating mechanism connecting plate, and the heating cloth positioned on the upper layer is contacted with the heat conducting plate.

5. Heating device of glue dispenser according to claim 4,

the heating mechanism further includes a thermal insulation assembly, the thermal insulation assembly comprising:

a heat insulation bottom plate horizontally fixed on the heating mechanism connecting plate,

the heat insulation side plate surrounds the periphery of the heat insulation bottom plate to form an accommodating cavity with an upward opening, and the heating assembly is located in the accommodating cavity.

6. The heating device of the dispenser according to claim 5,

the heat insulation assembly further comprises heat insulation cotton, and the heat insulation cotton is arranged at the bottom and the side part in the accommodating cavity and is positioned between the heat insulation bottom plate and the heating assembly and between the heat insulation side plate and the heating assembly.

7. The heating device of the dispenser according to claim 6,

the heating cloth is silica gel heating cloth.

8. The heating device of a dispenser according to any one of claims 5 to 7,

the heating mechanism also comprises a heat diffusion piece which is used for transferring the heat generated by the heating component to the heat conducting plate more quickly, and the heat diffusion piece is arranged at the bottom of the heat insulation bottom plate;

the heat insulation bottom plate is provided with a vent hole, the first end of the heat dissipation part is communicated with the vent hole, and the second end of the heat dissipation part is a free end.

9. The heating device of a dispenser according to any one of claims 4 to 7,

the heat conducting plate is provided with a plurality of heat conducting holes.

10. The heating device of the dispenser according to claim 8,

the heat diffusion member is an L-shaped tube.

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