CN209877599U - Balloon drying support structure - Google Patents

Abstract

The utility model discloses a balloon drying and supporting structure, which comprises a main bone, a supporting bone, a pull rod, a sleeve, an upper connecting block, a middle connecting block, a lower connecting block, a supporting column sliding sleeve and a base, wherein the supporting column is fixedly connected at the center of the upper surface of the base, the upper end of the supporting column is fixedly connected with the upper connecting block, the middle connecting block and the lower connecting block which are fixedly connected on the supporting column are arranged below the upper connecting block, the middle connecting block and the lower connecting block are connected by a spring I, the upper end of the spring I is connected with the lower surface of the middle connecting block, the lower end of the spring I is connected with the upper surface of the lower connecting block, the upper end of the supporting column sliding sleeve is connected on the lower surface of the lower connecting block, one end of the main bone is hinged with the upper connecting block, the other end of the main bone is hinged with, the sleeve is sleeved in the middle of the supporting bone in a sliding manner.

Description

Balloon drying support structure

Technical Field

The utility model relates to a dry field of sacculus specifically is the dry bearing structure of sacculus.

Background

With the continuous development of science and technology, in order to facilitate the work of people's life and medical staff, in the continuous development of industries such as life, medical treatment, a lot of practical new articles appear, for example, sacculus are the spherical cysts of waterproof material, and the surface only opens one to two apertures, and the application field is very wide.

Because of the wide application field, the user base number of the saccule is increased year by year, but no matter in any field, when a user uses the saccule, the drying inside the saccule is necessary to be ensured, the non-drying inside the saccule can cause the saccule to lose the basic function, and because the material of the saccule is waterproof and the surface opening is small, the drying space inside the saccule is very narrow, and the inner wall can be attached to further extrude the drying space due to the moisture inside the saccule in many times, under the condition, the natural drying inside the saccule is difficult to dry, the existing drying mode is to dry naturally through the natural air drying mode, the narrow drying space inside the saccule is not favorable for the circulation of air and the escape of water vapor inside the saccule, the long-time air drying can damage the surface of the saccule, and the function of the saccule can be weakened even seriously to lose the basic function after, therefore, how to safely and effectively dry the inside of the balloon becomes a problem to be solved urgently.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome prior art sacculus because the material is waterproof and the opening very little causes under the narrow and small inside moist condition of sacculus drying space of sacculus drying efficiency low not enough, provides a dry bearing structure of sacculus, has effectively increased the inside drying space of sacculus, has improved the inside drying efficiency of sacculus.

The purpose of the utility model is mainly realized through the following technical scheme:

a balloon drying support structure comprises a main rib, a support rib, a pull rod, a sleeve, an upper connecting block, a middle connecting block, a lower connecting block, a support column sliding sleeve and a base, wherein the support column is fixedly connected to the center of the upper surface of the base, the upper end of the support column is fixedly connected with the upper connecting block, the middle connecting block and the lower connecting block which are sleeved on the support column are arranged below the upper connecting block, the middle connecting block and the lower connecting block are connected through a spring I, the middle connecting block is fixed on the support column, the upper end of the spring I is connected with the lower surface of the middle connecting block, the lower end of the spring I is connected with the upper surface of the lower connecting block, the upper end of the support column sliding sleeve is connected to the lower surface of the lower connecting block, one end of the main rib is hinged to the upper connecting block, the other end of the, the sleeve is sleeved in the middle of the supporting bone in a sliding manner. The support column sliding sleeve can slide up and down along the support column, when the support column sliding sleeve slides up and down along the support column, the support column sliding sleeve drives the lower connecting block to synchronously slide up and down along the support column, the lower connecting block is connected with the middle connecting block through the spring I, when the lower connecting block slides up and down along with the support column sliding sleeve, the lower connecting block drives the spring I to stretch, when the spring I is in a shrinking state, support bones hinged on the upper connecting block and the middle connecting block and main bones are transversely unfolded, the support bones are uniformly distributed around the middle connecting block for a circle, the main bones are uniformly distributed around the upper connecting block for a circle, because narrow and narrow materials are adopted in a balloon internal drying space in a natural state for preventing water and wind, the drying process is extremely slow in the natural state, if the internal drying space is required to be expanded in the, and the user can not leave in the drying process in the sacculus, which is a great consumption to the physical power of the user, and simultaneously, the expanding mode is not ideal because the human body can not block the drying effect to the air flow, in the utility model, when the inside of the sacculus needs to be dried, the support column sliding sleeve slides downwards, the lower connecting block drives the spring I to stretch, the lower connecting block also drives the pull rod to pull the support bone to fold downwards, the support bone drives the hinged main bone to fold downwards synchronously, the whole structure is plugged into the sacculus after folding, the spring I drives the main bone and the support bone to expand transversely when restoring deformation, the inner wall of the sacculus is jointed with the main bone to expand the inside of the sacculus, the support bone and the pull rod support the opening of the sacculus to keep the expanded state, thus, a good circulation channel is also established for the air flow in the sacculus when the drying space in the sacculus is expanded, effectively increased the inside drying space of sacculus, improved the inside drying efficiency of sacculus.

Furthermore, the support column further comprises a locking structure which is sleeved outside the support column and fixedly connected to the base. When the locking structure is arranged on the base, the supporting column sliding sleeve can be limited to the position of the locking structure on the base, at the moment, the pull rod, the supporting bone and the main bone are in a longitudinally folded state, the space position occupied by the whole structure in the unused state is reduced, meanwhile, the workload of a user when the integral structure is sleeved into the balloon is reduced, and the using process of the user is greatly simplified.

Further, the locking structure includes the locking shell, the buckle, keep off the shoulder, the screw lock cover, spring II and spring coupling block, keep off shoulder fixed connection in the upper end of locking shell and to the surface of the opposite direction protrusion locking shell of locking shell central line, the last edge of locking shell evenly is equipped with four breachs all around and is equipped with the external screw thread at the surface, the cover is equipped with the screw lock cover of connecting through the spiral pair with the locking shell on the external screw thread, the inside of locking structure is equipped with and locks shell internal surface connection's spring II, the spring coupling block on the support column is established to the intermediate junction cover of spring II, buckle fixed connection is in the upper end of locking shell and to locking shell central line direction protrusion locking shell internal surface, support column sliding sleeve lower extreme is equipped with detains the shoulder, the buckle pins the. The locking shell is made of materials with elastic deformation capacity, the spring II is connected with the inner wall of the locking shell, the spring II supports the upper end of the locking shell to be outwards opened to enable the initial state of the locking shell to be inverted splayed, when a transversely unfolded main bone and a transversely unfolded support bone need to be folded, the support column sliding sleeve is downwards pulled until a buckling shoulder on the support column sliding sleeve is clamped into a buckle in the locking shell, then the threaded locking sleeve is screwed to the upper end to be contacted with a blocking shoulder, the threaded locking sleeve is made of rigid materials and has a diameter slightly smaller than the opened diameter of the locking shell, the upper end of the locking shell is pressed to be tightened towards the direction of a central line when moving upwards, the spring II is in a compression state, the upper end of the locking shell is tightened to enable the buckle to firmly clamp the buckling shoulder, meanwhile, the locking shell clamping shoulder is firmly clamped by the threaded locking sleeve, and the support column sliding, thereby realize overall structure's the locking of drawing in, improved the stability of locking, locking shell upper end is equipped with keeps off the shoulder, has prevented droing of screw lock cover, and this locking structure is by the even pulling force that has born II reboundings of spring of screw lock cover, provides the thrust of popping out the support column sliding sleeve after removing the locking by spring II, the effectual stable locking of having ensured the structure.

Further, the hinge joint of the main bone and the support bone is provided with an elastic silica gel shell, and the whole end part of the hinge joint is wrapped by the silica gel shell. When main bone and support bone transversely expand, main bone and support bone articulated department can contact with the sacculus inner wall, articulated department also can corresponding activity when main bone and support bone take place to move, ordinary articulated structure is articulated to be in can damaging the sacculus inner wall when the activity, the sacculus inner wall is impaired can lead to the damage of sacculus function or even the loss of sacculus function, after main bone and support bone articulated department wrap up with elastic silica gel shell, because its elastic property the silica gel shell can not influence the activity of main bone and support bone, avoided articulated department directly to contact with the sacculus inner wall simultaneously, the silica gel shell with the contact of sacculus inner wall can not produce the injury to the sacculus inner wall, effectually protected the sacculus not receive the injury in the use.

Furthermore, a limiting block for blocking the sleeve from sliding is arranged in the middle of the support bone. When supporting the bone middle part and not setting up the stopper, support sleeve on the bone can not exert decurrent effort to supporting the bone before the connecting block in the contact, and support bone and the activity of well connecting block hinge joint can be restricted when the sleeve supports well connecting block, from this support drawing in of bone can receive uncertain influence, and set up the stopper in supporting the bone middle part, the sleeve is when moving the stopper, thereby support bone can receive decurrent pulling force and draw in and support bone and main bone, the hinge structure has not only been protected like this, the life of hinge joint has been improved, and the stability of drawing in and supporting the bone has also been improved.

Furthermore, the top end of the supporting column is provided with a tip, and the tip is a circular table with the diameter of the upper end part smaller than that of the lower end part. Because the opening of the saccule is generally small, the opening of the saccule needs to be manually opened when the integral structure is sleeved in the saccule, so that the physical power of a user is consumed, the effect is not ideal, even the whole structure can be completed by matching with a plurality of people sometimes, meanwhile, the opening of the saccule is easily destroyed to cause the loss of the basic function of the saccule, the top is arranged at the top end of the supporting column to effectively assist the integral mechanism to be sleeved in the saccule, the top is arranged to be a round platform with the diameter of the upper end part smaller than the diameter of the lower end part, so that the sharp part of the top is avoided, the top cannot damage the inner wall of the saccule when the integral structure is sleeved in the saccule, the diameter of the upper end of the top is smaller than the opening diameter of the conventional saccule, the.

To sum up, compared with the prior art, the utility model has the following beneficial effects:

(1) the balloon is propped open inside the main bone fitting balloon, the supporting bone and the pull rod prop the opening of the balloon to keep the opening state of the balloon, so that a benign circulation channel is established for the air flow inside the balloon while the drying space inside the balloon is enlarged, the drying space inside the balloon is effectively increased, and the drying efficiency inside the balloon is improved.

(2) The position of the locking structure of the support column sliding sleeve on the base is limited by the locking structure, the pull rod, the support bone and the main bone are in a longitudinal furled state at the moment, the space position occupied by the whole structure in an unused state is reduced, the workload of a user when the whole structure is sleeved into the balloon is reduced, and the using process of the user is greatly simplified.

(3) Through the even pulling force that has born II rebounds of spring of screw lock sleeve, provide by spring II and know the thrust that pops out the support column sliding sleeve after removing the locking, the effectual stability that ensures the locking.

(4) The arrangement of the circular truncated cone-shaped tip ensures that the tip of the integral structure can not damage the inner wall of the balloon when the integral structure is sleeved in the balloon, and the efficiency of the integral structure in sleeving the balloon is effectively improved while the balloon is prevented from being damaged.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

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

fig. 2 is the utility model discloses locking structure section:

1-center, 2-main bone, 3-silica gel shell, 4-support bone, 5-sleeve, 6-pull rod, 7-upper connecting block, 8-middle connecting block, 9-spring I, 10-lower connecting block, 11-support column, 12-support column sliding sleeve, 13-buckle shoulder, 14-locking structure, 141-notch, 142-buckle, 143-stop shoulder, 144-thread locking sleeve, 145-spring II, 146-spring connecting block, 147-locking shell and 15-base.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

Example 1:

as shown in fig. 1-2, the balloon drying support structure comprises a main rib 2, a support rib 4, a pull rod 6, a sleeve 5, an upper connecting block 7, a middle connecting block 8, a lower connecting block 10, a support pillar 11, a support pillar sliding sleeve 12 and a base 15, wherein the support pillar 11 is fixedly connected to the center of the upper surface of the base 15, the upper end of the support pillar 11 is fixedly connected with the upper connecting block 7, the middle connecting block 8 and the lower connecting block 10 which are sleeved on the support pillar 11 are arranged below the upper connecting block 7, the middle connecting block 8 and the lower connecting block 10 are connected by a spring i 9, the middle connecting block 8 is fixed on the support pillar 11, the upper end of the spring i 9 is connected to the lower surface of the middle connecting block 8, the lower end of the spring i 9 is connected to the upper surface of the lower connecting block 10, the upper end of the support pillar sliding sleeve 12 is connected to the lower surface of the lower, the other end of the support bone 4 is hinged to the middle connecting block 8, one end of the pull rod 6 is hinged to the lower connecting block 10, the other end of the pull rod 6 is connected to the sleeve 5, the sleeve 5 is sleeved in the middle of the support bone 4 in a sliding mode, the top end of the support column 11 is provided with a tip 1, and the tip 1 is a circular truncated cone with the diameter of the upper end portion smaller than that of the lower end portion. The locking structure 14 is sleeved outside the supporting column 11 and fixedly connected to the base 15. The locking structure 14 comprises a locking shell 147, a buckle 142, a retaining shoulder 143, a threaded locking sleeve 144, a spring ii 145 and a spring connecting block 146, wherein the retaining shoulder 143 is fixedly connected to the upper end of the locking shell 147 and protrudes out of the outer surface of the locking shell 147 in the opposite direction of the center line of the locking shell 147, four notches 141 are uniformly formed on the periphery of the upper edge of the locking shell 147 and external threads are formed on the outer surface of the locking shell 147, the outer thread is sleeved with a thread locking sleeve 144 connected with the locking shell 147 through a screw pair, a spring II 145 connected with the inner surface of the locking shell 147 is arranged in the locking structure 14, the middle of the spring II 145 is connected with a spring connecting block 146 sleeved on the support column 11, a buckle 142 is fixedly connected to the upper end of the locking shell 147 and protrudes out of the inner surface of the locking shell 147 towards the central line direction of the locking shell 147, a buckle shoulder 13 is arranged at the lower end of the support column sliding sleeve 12, and the buckle 142 locks the support column sliding sleeve 12 through the buckle shoulder 13. The utility model discloses a dry the sacculus inside, support the whole tip that the articulated department was covered to silica gel shell 3, the articulated department of main bone 2 and support bone 4 sets up to have elastic silica gel shell 3, the middle part of supporting bone 4 is equipped with and blocks the gliding stopper of sleeve 5 in the utility model, first slide support column sliding sleeve 12 downwards, lower connecting block 10 drives spring I9 to stretch, lower connecting block 10 still drives pull rod 6 to pull supporting bone 4 and fold down simultaneously, supporting bone 4 drives articulated main bone 2 and folds down synchronously, pack the overall structure into the sacculus inside after folding, spring I9 resumes deformation and just drives main bone 2 and supporting bone 4 to expand transversely at the same time, main bone 2 laminating sacculus inner wall struts the inside of sacculus, supporting bone 4 and pull rod 6 support the sacculus opening simultaneously and make it keep the state of strutting, when transversely expanding main bone 2 and supporting bone 4 need to fold in, the support column sliding sleeve 12 is pulled downwards until the buckling shoulder 13 on the support column sliding sleeve 12 is clamped into the buckling 142 in the locking shell 147, and because the outer ring of the spring II 145 is hinged with the inner wall of the locking shell 147, the spring II 145 pulls the upper end of the locking shell 147 to move inwards, so that the buckling shoulder 13 is firmly clamped by the buckling 142, then the threaded locking sleeve 144 is screwed to the upper end to be in contact with the blocking shoulder 143, the locking shell 147 clamping the support column sliding sleeve 12 is firmly locked, the folding and locking of the integral structure are realized, the locking stability is improved, and the blocking shoulder 143 is arranged at the upper end of the locking shell 147, so that the threaded locking sleeve 144 is prevented from falling off. According to the experimental data of record and concrete actual operation, use the utility model discloses dry sacculus is inside to be compared in its natural drying and has saved 96.72% time, does not discover to damage the condition emergence of sacculus inner wall simultaneously in 500 dry experiments, according to this the utility model discloses effectively increased the inside dry space of sacculus on the basis that does not damage the sacculus, improved the inside drying efficiency of sacculus.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (6)

1. A balloon drying support structure is characterized by comprising a main bone (2), a support bone (4), a pull rod (6), a sleeve (5), an upper connecting block (7), a middle connecting block (8), a lower connecting block (10), a support column (11), a support column sliding sleeve (12) and a base (15), wherein the support column (11) is fixedly connected to the center of the upper surface of the base (15), the upper end of the support column (11) is fixedly connected with the upper connecting block (7), the lower part of the upper connecting block (7) is provided with the middle connecting block (8) and the lower connecting block (10) which are sleeved on the support column (11), the middle connecting block (8) is fixed on the support column (11), a gap is reserved between the lower connecting block (10) and the support column (11), the middle connecting block (8) is connected with the lower connecting block (10) through a spring I (9) which is sleeved on the support column (11), the upper end of the spring I (, the upper surface of connecting block (10) down is connected to the lower extreme of spring I (9), the upper end of support column sliding sleeve (12) is connected on the lower surface of connecting block (10) down, the one end of main bone (2) and last connecting block (7) are articulated, the other end of main bone (2) and the one end of supporting bone (4) are articulated, the other end of supporting bone (4) and well connecting block (8) are articulated, the one end of pull rod (6) and lower connecting block (10) are articulated, the other end of pull rod (6) is connected on sleeve (5), sleeve (5) sliding sleeve connects the middle part at supporting bone (4).

2. The balloon drying support structure according to claim 1, further comprising a locking structure (14), wherein the locking structure (14) is sleeved outside the support column (11) and is fixedly connected to the base (15).

3. The balloon drying support structure according to claim 2, wherein the locking structure (14) comprises a locking shell (147), a buckle (142), a retaining shoulder (143), a threaded locking sleeve (144), a spring II (145) and a spring connecting block (146), the retaining shoulder (143) is fixedly connected to the upper end of the locking shell (147) and protrudes out of the outer surface of the locking shell (147) in the opposite direction of the center line of the locking shell (147), four notches (141) are uniformly formed in the periphery of the upper edge of the locking shell (147) and are provided with external threads on the outer surface, the threaded locking sleeve (144) connected with the locking shell (147) through a screw pair is sleeved on the external threads, the spring II (145) connected with the inner surface of the locking shell (147) is arranged inside the locking structure (14), the middle of the spring II (145) is connected with the spring connecting block (146) sleeved on the support column (11), the buckle (142) is fixedly connected to the upper end of the locking shell (147) and protrudes out of the inner surface of the locking shell (147) in the direction of the center line of the locking shell (147), the lower end of the support column sliding sleeve (12) is provided with a buckle shoulder (13), and the buckle (142) locks the support column sliding sleeve (12) through the buckle shoulder (13).

4. The balloon drying support structure according to claim 1, wherein a hinge joint of the main bone (2) and the support bone (4) is provided with an elastic silica gel shell (3), and the whole end part of the hinge joint is wrapped by the silica gel shell (3).

5. The balloon drying support structure according to claim 1, characterized in that the middle of the support bone (4) is provided with a limiting block for blocking the sliding of the sleeve (5).

6. The balloon drying support structure according to claim 1, wherein the top end of the support column (11) is provided with a tip (1), and the tip (1) is a circular truncated cone with an upper end diameter smaller than a lower end diameter.