CN209808284U - Shoe drying machine with telescopic function - Google Patents

Abstract

The utility model discloses a shoe dryer with a telescopic function, which comprises a main body part and a heater, wherein the main body part comprises a base and a heat-sending pipe, the heat-sending pipe is connected on the base, the heater is connected on the main body part, and hot air generated by the heater is output from the heat-sending pipe; the heat-transmitting pipe comprises at least three sections of pipe fittings which are sleeved inside and outside and can slide relatively, and the at least three sections of pipe fittings form a multi-section telescopic mechanism. It has the following advantages: the heat transfer pipe comprises at least three sections of pipe fittings which are sleeved inside and outside and can slide relatively, the telescopic distance is large, the shoe drying machine is convenient to store and can be used for short and long boots, and the application range is wide.

Description

Shoe drying machine with telescopic function

Technical Field

The utility model relates to a stoving mechanism especially relates to a shoes drying machine of flexible function in area.

Background

The existing shoe drying machine comprises a main body part, a heater and a fan, wherein the main body part comprises a base, a heat delivery pipe and an object support, the heat delivery pipe is fixedly arranged on the base, the object support is arranged on the heat delivery pipe, the heater and the fan are arranged in the main body part, and hot air generated by the cooperation of the fan and the heater is blown out of the heat delivery pipe. The heat-feeding pipe is a single pipe body or a detachable multi-section pipe body structure, is high or is easy to scatter and not easy to store after being detached, so that the whole shoe drying machine occupies a large space and is inconvenient to package, store and transport.

SUMMERY OF THE UTILITY MODEL

The utility model provides a shoe drying machine with a telescopic function, which overcomes the defects of the shoe drying machine in the background technology.

The utility model provides an adopted technical scheme of its technical problem is:

a shoe dryer with a telescopic function comprises a main body part and a heater, wherein the main body part comprises a base and a heat delivery pipe, the heat delivery pipe is connected to the base, the heater is connected to the main body part, and hot air generated by the heater is output from the heat delivery pipe; the heat-transmitting pipe comprises at least three sections of pipe fittings which are sleeved inside and outside and can slide relatively, and the at least three sections of pipe fittings form a multi-section telescopic mechanism.

In one embodiment: this send heat pipe includes the three section pipe fittings, and this three section pipe fitting is low tube, well pipe and top tube respectively, and this low tube dress connects on the base, and this well pipe ability sliding connection low tube, this top tube ability sliding connection well pipe.

In one embodiment: the lower pipe can be connected to the base in a swinging mode.

In one embodiment: the lower pipe is fixedly connected to the base.

In one embodiment: the middle pipe is provided with a first bulge which can move between a convex state and a non-convex state relative to the middle pipe, and the middle pipe and the lower pipe are kept in an extending state by propping the lower pipe through the first bulge in the convex state.

In one embodiment: the middle pipe is connected with the first bulge through a first cantilever capable of elastically deforming relative to the middle pipe.

In one embodiment: the middle pipe is provided with a first through hole which penetrates through the middle pipe from inside to outside, the first cantilever is positioned in the first through hole, and one end of the first cantilever is fixedly connected with the inner wall of the first through hole.

In one embodiment: the first cantilever is also provided with a first pressing part for a user to press, and the first pressing part is positioned outside the lower pipe when the middle pipe and the lower pipe are kept in an extension state.

In one embodiment: the upper tube is concavely provided with a yielding groove which is matched with the first cantilever to be pressed by the first pressing part.

In one embodiment: this well epirelief is equipped with first anticreep arch, and this low tube inner wall is equipped with first occlusion part, realizes the anticreep through the cooperation of first anticreep arch and first occlusion part.

In one embodiment: the upper pipe is provided with a second protrusion which can move between a protruding state and a non-protruding state relative to the upper pipe, and the second protrusion in the protruding state props the middle pipe so that the insertion pipe and the middle pipe are kept in an extending state.

In one embodiment: the insertion tube is connected to the second protrusion by a second cantilever that is elastically deformable with respect to the upper tube.

In one embodiment: the upper pipe is provided with a second through hole which penetrates through the upper pipe and the lower pipe, the second cantilever is positioned in the second through hole, and one end of the second cantilever is fixedly connected to the inner wall of the second through hole.

In one embodiment: the second cantilever is provided with a second pressing part for a user to press, and the second pressing part is positioned outside the middle pipe when the upper pipe and the middle pipe are kept in an extension state.

In one embodiment: the protruding second anticreep that is equipped with the ability relative top tube and moves about between convex state and the non-convex state of this top tube is protruding, and this well pipe is equipped with the cooperation groove, and the protruding cooperation groove that inserts of second anticreep that is located convex state realizes the anticreep.

In one embodiment: be equipped with coupling mechanism between two pipe fittings of relative slip, this coupling mechanism includes: a sliding groove is concavely arranged on the upper part of the peripheral surface of the pipe fitting, a sliding seat is arranged on the sliding groove, and the sliding seat is provided with a convex part; the sliding seat can move between an extending state and a retracting state relative to the pipe fitting, the protruding part in the extending state abuts against the bottom end face of the other pipe fitting, and the protruding part in the retracting state retracts into the sliding groove.

In one embodiment: the anti-separation structure is arranged between the two pipe fittings which slide relatively, the anti-separation structure comprises a plug-in and a slot, the anti-separation is realized through the matching of the plug-in and the slot, and the plug-in and the slot are respectively arranged on the two pipe fittings.

In one embodiment: be equipped with coupling mechanism between interconnect's two pipe fittings, this coupling mechanism includes: a sliding groove is concavely arranged on one pipe fitting, a sliding seat is connected to the sliding groove in a sliding manner, the sliding seat can slide inwards and outwards in the radial direction relative to the pipe fitting, and the sliding seat is provided with a protruding part and an insert; the other pipe fitting is provided with a slot; the sliding seat can move between an extending state and a retracting state relative to the pipe fitting, the protruding part in the extending state abuts against the bottom end face of the other pipe fitting, the plug-in is matched with the slot, the protruding part in the retracting state retracts into the sliding groove, and the matching is released.

Compared with the background technology, the technical scheme has the following advantages:

the heat transfer pipe comprises at least three sections of pipe fittings which are sleeved inside and outside and can slide relatively, the telescopic distance is large, the shoe drying machine is convenient to store and can be used for short and long boots, and the application range is wide.

The connecting mechanism includes: a sliding groove is concavely arranged on the upper part of the peripheral surface of the pipe fitting, a sliding seat is arranged on the sliding groove, and the sliding seat is provided with a convex part; the sliding seat can move between an extending state and a retracting state relative to the pipe fitting, the protruding part in the extending state abuts against the bottom end face of the other pipe fitting, and the protruding part in the retracting state retracts in the sliding groove.

Be equipped with the anticreep structure between two pipe fittings of relative slip, the anticreep structure includes plug-in components and slot, realizes the anticreep through the cooperation of this plug-in components and slot and breaks away from, extracts the heat pipe of sending when can avoiding taking out shoes, increases the convenience of use.

The connecting mechanism includes: a sliding groove is concavely arranged on one pipe fitting, a sliding seat is connected to the sliding groove in a sliding manner, the sliding seat can slide inwards and outwards in the radial direction relative to the pipe fitting, and the sliding seat is provided with a protruding part and an insert; the other pipe fitting is provided with a slot; this slide can be relative this pipe fitting and move about between the state of stretching out and the state of contracting in, and the bulge top that is located the state of stretching out supports the bottom face of another pipe fitting and the slot cooperation of plug-in components and another pipe fitting, and the bulge that is located the state of contracting in contracts in the spout, and this coupling mechanism can not only play the effect of connecting two pipe fittings but also can realize preventing the effect that breaks away from.

Drawings

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

Fig. 1 is a perspective view illustrating a shoe dryer according to an embodiment.

Fig. 2 is a perspective exploded view of a shoe dryer according to an embodiment.

FIG. 3 is a schematic perspective view of an embodiment heat transfer tube in an extended state.

FIG. 4 is a perspective view of an embodiment heat transfer tube in a contracted state.

FIG. 5 is a schematic perspective exploded view of a heat transfer tube according to an embodiment.

FIG. 6 is a second perspective exploded view of the heat pipe according to the second embodiment.

FIG. 7 is one of the schematic tube perspective views of the preferred embodiment.

FIG. 8 is a second schematic perspective view of the tube of the present embodiment.

Fig. 9 is one of the tubes in the embodiment shown in perspective view.

Fig. 10 is a second perspective view of the tube according to the second embodiment.

Detailed Description

Referring to fig. 1 to 10, a shoe dryer with a telescopic function includes a main body 10 including a base 11 and a heat pipe 12, and a heater 20, the heat pipe 12 being attached to the base, the heater being attached to the main body 10 and hot air generated from the heater being output from the heat pipe 12; the heat-supplying pipe 12 includes three sections of pipe fittings which are sleeved inside and outside and can slide relatively, and the three sections of pipe fittings form a multi-section telescopic mechanism. This send hot pipe 12 includes three section pipe fittings, and these three section pipe fittings are lower tube 121, well pipe 122 and upper tube 123 respectively, and this lower tube dress connects on the base, and this well pipe can sliding connection lower tube, and this upper tube can sliding connection well pipe. In this embodiment, the lower tube 121 can be connected to the base 11 in a swinging manner so that the air supply pipe 12 can be folded or unfolded relative to the base, and when the lower tube is in a folded state, the lower tube has a compact structure, occupies a small space, and is convenient to package, transport and store, but not limited thereto, and the lower tube is also fixedly connected to the base as required.

The middle pipe 122 can be inserted into the lower pipe 121 in a sliding mode, the first protrusions 1221 capable of moving between a protruding state and a non-protruding state relative to the middle pipe 122 are arranged on the middle pipe 122, the middle pipe and the lower pipe are kept in an extending state through the top support of the first protrusions 1221 in the protruding state on the tail end face of the lower pipe, the telescopic operation is convenient, and the supporting stability is high. In a specific structure, the middle tube 122 is connected with a first projection 1221 through a first cantilever 1222 capable of elastically deforming relative to the middle tube; furthermore, this well pipe 122 is equipped with the first through-hole 1223 that runs through inside and outside, and this first cantilever 1222 is located first through-hole 1223, and first cantilever 1222 one end rigid coupling is at first through-hole 1223 inner wall, simple structure, compactness, and it is convenient to press, and flexible convenience, low in production cost. For pressing convenience, a first pressing part 1224 is provided on the first cantilever 1222, the first pressing part 1224 is located above the first protrusion 1221 and spaced apart, and the first pressing part is located outside the lower pipe when the middle pipe and the lower pipe are kept in an extended state, so that a user can press the first pressing part to contact the support and retract the support.

The middle pipe 122 is convexly provided with a first anti-falling bulge 1225, the inner wall of the lower pipe 121 is provided with a first shielding part, anti-falling is realized through the cooperation of the first anti-falling bulge 1225 and the first shielding part, the middle pipe is prevented from being separated from the lower pipe, and the structure is simple and reliable; preferably, the first protrusion 1211 supports against the end surface of the lower pipe, and the first anti-slip protrusion 1225 abuts against the first shielding portion, so that the first protrusion 1211 can be engaged with the first shielding portion to prevent the first protrusion from being disengaged from the first shielding portion and to stabilize and secure the telescopic mechanism.

The upper tube 123 is provided with a connecting tube 1230 and an inserting tube 1231 fixedly connected to the connecting tube, the inserting tube 1231 is adapted to be inserted into the middle tube 122, and the inserting tube 1231 and the middle tube 122 form a telescopic sliding connection. The insertion tube 1231 is provided with a second projection 1232 movable between a projected state and a non-projected state with respect to the insertion tube 1231, and the insertion tube 1231 and the intermediate tube 122 are held in an extended state by the second projection 1232 in the projected state being supported against the end face of the intermediate tube 122. In a specific structure, the insertion tube 1231 is connected to the second protrusion 1232 through a second suspension arm 1233 that is elastically deformable with respect to the insertion tube 1231, and further, the insertion tube 1231 is provided with a second through hole 1234 penetrating inside and outside, the second suspension arm 1233 is located in the second through hole 1234, and one end of the second suspension arm 1233 is fixed to an inner wall of the second through hole 1234. The outer wall of the connecting pipe is flush with the outer wall of the lower pipe. For the convenience of pressing, a second pressing portion 1238 is provided on the second cantilever 1233, and the second pressing portion 1238 is located above the second protrusion 1232 and spaced apart from the second protrusion, so that the second pressing portion is located outside the middle tube when the upper tube and the middle tube are kept in the extended state, so that the user can press the second pressing portion conveniently to contact and support the second pressing portion, and the second pressing portion can retract inwards.

A second anti-falling protrusion 1236 which can move between a convex state and a non-convex state relative to the insertion tube is convexly arranged on the insertion tube 1231, the middle tube 122 is provided with a matching groove, and the second anti-falling protrusion in the convex state is inserted into the matching groove to realize anti-falling; the middle pipe 122 is provided with a fourth through hole 1226 which penetrates through the inside and the outside, a fourth cantilever 1227 is arranged in the fourth through hole, one end of the fourth cantilever is connected to the inner wall of the fourth through hole, the fourth cantilever is matched with the second anti-falling bulge, and the fourth cantilever abuts against the second anti-falling bulge to enable the second anti-falling bulge to move to a non-convex state; according to the requirement, the inner wall of the fourth cantilever can be provided with the matching groove; the outer wall of the fourth cantilever is provided with a pressing head. The structure is convenient to operate, simple and compact.

In this embodiment: the insertion tube 1231 is provided with a third protrusion 1235 which can move between a protruding state and a non-protruding state relative to the insertion tube, the middle tube 122 is provided with a third through hole, the third protrusion in the protruding state is inserted into the third through hole, and the telescopic tube is kept in a retracted state through the cooperation of the third protrusion and the third through hole. The structure of the insertion tube with the third protrusion is similar to the structure of the insertion tube with the second protrusion. The insertion tube is connected to the third projection by a third cantilever arm that is elastically deformable relative to the insertion tube.

The base 11 includes an upper case 111 and a lower case 112 fixedly attached together, and the heater is attached between the upper case and the lower case. The heater is provided with a metal heat conduction device (such as a metal heat conduction sheet), the heater and the metal heat conduction device are fixedly arranged in the lower pipe, and heat flow generated by the cooperation of the metal heat conduction device and the heater is blown out from the heat supply pipe. If necessary, a fan can be matched, for example, the fan is arranged in the base or the lower pipe, the fan and the heater are matched to generate hot air, and the hot air is blown out from the pipe orifice of the heat supply pipe to convey heat energy.

The inserting pipe is further concavely provided with a yielding groove 1237 matched with the first cantilever to be pressed by the first pressing part, and the telescopic pipe is ensured to be sequentially retracted through the yielding groove, such as the upper pipe and the middle pipe are firstly retracted, and then the whole of the upper pipe and the lower pipe is retracted with the lower pipe.

The connection tube includes a first body integrated with the insertion tube and a first fitting body 1239 fixedly attached to the first body by a screw. The lower tube includes a second body and a second mating body 1211 securable to the second body.

According to the requirement, the end of the upper pipe can be provided with an object support. The object support and the heat-sending pipe form a connecting structure which can be assembled and disassembled, and the shoe drying machine is adapted to various object supports, and the object support is as follows: the five-finger-shaped object support for sleeving the glove, or the shoe support for supporting the shoe, or the bulb-shaped object support for supporting the helmet can be replaced and used by a user through the detachable structure.

The above description is only a preferred embodiment of the present invention, and therefore the scope of the present invention should not be limited by this description, and all equivalent changes and modifications made within the scope and the specification of the present invention should be covered by the present invention.

Claims (18)

1. A shoe dryer with a telescopic function comprises a main body part and a heater, wherein the main body part comprises a base and a heat delivery pipe, the heat delivery pipe is connected to the base, the heater is connected to the main body part, and hot air generated by the heater is output from the heat delivery pipe; the method is characterized in that: the heat-transmitting pipe comprises at least three sections of pipe fittings which are sleeved inside and outside and can slide relatively, and the at least three sections of pipe fittings form a multi-section telescopic mechanism.

2. A shoe dryer with telescopic function according to claim 1, characterized in that: this send heat pipe includes the three section pipe fittings, and this three section pipe fitting is low tube, well pipe and top tube respectively, and this low tube dress connects on the base, and this well pipe ability sliding connection low tube, this top tube ability sliding connection well pipe.

3. A shoe dryer with telescopic function as claimed in claim 2, characterized in that: the lower pipe can be connected to the base in a swinging mode.

4. A shoe dryer with telescopic function as claimed in claim 2, characterized in that: the lower pipe is fixedly connected to the base.

5. A shoe dryer with telescopic function according to claim 2, 3 or 4, characterized in that: the middle pipe is provided with a first bulge which can move between a convex state and a non-convex state relative to the middle pipe, and the middle pipe and the lower pipe are kept in an extending state by propping the lower pipe through the first bulge in the convex state.

6. A shoe dryer with telescopic function according to claim 5, characterized in that: the middle pipe is connected with the first bulge through a first cantilever capable of elastically deforming relative to the middle pipe.

7. A shoe dryer with telescopic function according to claim 6, characterized in that: the middle pipe is provided with a first through hole which penetrates through the middle pipe from inside to outside, the first cantilever is positioned in the first through hole, and one end of the first cantilever is fixedly connected with the inner wall of the first through hole.

8. A shoe dryer with telescopic function according to claim 6, characterized in that: the first cantilever is also provided with a first pressing part for a user to press, and the first pressing part is positioned outside the lower pipe when the middle pipe and the lower pipe are kept in an extension state.

9. A shoe dryer with telescopic function according to claim 8, characterized in that: the upper tube is concavely provided with a yielding groove which is matched with the first cantilever to be pressed by the first pressing part.

10. A shoe dryer with telescopic function according to claim 5, characterized in that: this well epirelief is equipped with first anticreep arch, and this low tube inner wall is equipped with first occlusion part, realizes the anticreep through the cooperation of first anticreep arch and first occlusion part.

11. A shoe dryer with telescopic function according to claim 2, 3 or 4, characterized in that: the upper pipe is provided with a second protrusion which can move between a protruding state and a non-protruding state relative to the upper pipe, and the second protrusion in the protruding state props the middle pipe so that the insertion pipe and the middle pipe are kept in an extending state.

12. A shoe dryer with telescopic function according to claim 11, characterized in that: the insertion tube is connected to the second protrusion by a second cantilever that is elastically deformable with respect to the upper tube.

13. A shoe dryer with telescopic function according to claim 12, characterized in that: the upper pipe is provided with a second through hole which penetrates through the upper pipe and the lower pipe, the second cantilever is positioned in the second through hole, and one end of the second cantilever is fixedly connected to the inner wall of the second through hole.

14. A shoe dryer with telescopic function according to claim 12, characterized in that: the second cantilever is provided with a second pressing part for a user to press, and the second pressing part is positioned outside the middle pipe when the upper pipe and the middle pipe are kept in an extension state.

15. A shoe dryer with telescopic function according to claim 11, characterized in that: the protruding second anticreep that is equipped with the ability relative top tube and moves about between convex state and the non-convex state of this top tube is protruding, and this well pipe is equipped with the cooperation groove, and the protruding cooperation groove that inserts of second anticreep that is located convex state realizes the anticreep.

16. A shoe dryer with telescopic function according to claim 1, characterized in that: be equipped with coupling mechanism between two pipe fittings of relative slip, this coupling mechanism includes: a sliding groove is concavely arranged on the upper part of the peripheral surface of the pipe fitting, a sliding seat is arranged on the sliding groove, and the sliding seat is provided with a convex part; the sliding seat can move between an extending state and a retracting state relative to the pipe fitting, the protruding part in the extending state abuts against the bottom end face of the other pipe fitting, and the protruding part in the retracting state retracts into the sliding groove.

17. A shoe dryer with telescopic function according to claim 1, characterized in that: the anti-separation structure is arranged between the two pipe fittings which slide relatively, the anti-separation structure comprises a plug-in and a slot, the anti-separation is realized through the matching of the plug-in and the slot, and the plug-in and the slot are respectively arranged on the two pipe fittings.

18. A shoe dryer with telescopic function according to claim 1, characterized in that: be equipped with coupling mechanism between interconnect's two pipe fittings, this coupling mechanism includes: a sliding groove is concavely arranged on one pipe fitting, a sliding seat is connected to the sliding groove in a sliding manner, the sliding seat can slide inwards and outwards in the radial direction relative to the pipe fitting, and the sliding seat is provided with a protruding part and an insert; the other pipe fitting is provided with a slot; the sliding seat can move between an extending state and a retracting state relative to the pipe fitting, the protruding part in the extending state abuts against the bottom end face of the other pipe fitting, the plug-in is matched with the slot, the protruding part in the retracting state retracts into the sliding groove, and the matching is released.