CN202956692U - Rotating wheel damp structure and rotating wheel damp device - Google Patents

Abstract

The utility model discloses a rotating wheel damp structure and a rotating wheel damp device and relates to the field of application of damp structure technologies. The rotating wheel damp structure comprises a support frame, a rotating wheel, a rotating shaft and a damping ring. Two corresponding lateral walls of the support frame are respectively provided with penetrating holes. A through hole is arranged at the center of the rotating wheel. The damping ring and the rotating wheel are located in the support frame. The damping ring is located in a gap between one lateral wall of the support frame and the rotating wheel, and the gap is smaller than the size of the damping ring in the width direction and enables the damping ring to be extruded in the gap. The rotating shaft penetrates into a penetrating hole on one lateral wall of the support frame, the through hole at the center of the rotating wheel, the damping ring and the penetrating hole on the other lateral wall of the support frame. The rotating wheel damp structure is simple in assembly. when the whole structure moves, the damping ring provides stable fiction force for the rotating wheel and the support frame and limits relative motion of the rotating wheel and the support frame, and the problem that a structure in the prior art is complicated or has volatile influence is solved.

Description

Runner damping structure and equipment

Technical field

The utility model relates to the damping structure technical applications, particularly a kind of runner damping structure and equipment.

Background technology

Along with the continuous progress of modern society, people also have higher requirement to the quality of product when pursuing product diversification, and the outward appearance of product constantly changes, and the stability of operation and subjective feel more and more are taken seriously.Especially utilize rotaring wheel structure that product function is carried out in adjustment process, need to give the operator a kind of operational feedback is provided, to satisfy the human oriented design demand of product.

The common rotary-type scheme of controlling of electronic product, adopts parts scheme or the realizations of use damping wet goods chemical characteristic scheme such as damping gear, torsion spring more at present, and such scheme is being realized the impact of complexity or volatility.

The utility model content

The utility model provides a kind of runner damping structure and equipment, and this runner damping structure has stable damping, and the puzzlement that is not subjected to chemical volatility simple in structure.

For achieving the above object, the technical solution of the utility model is achieved in that

The utility model discloses a kind of runner damping structure, this runner damping structure comprises: stand frame, runner, rotating shaft and damping ring; On the corresponding two side of described stand frame, perforation is arranged respectively; There is through hole at the center of described runner;

Described damping ring and runner are positioned at described stand frame;

Described damping ring is in a sidewall of described stand frame and the gap between described runner, and this gap makes damping ring be compressed in this gap less than the size of damping ring Width;

Described rotating shaft is through in perforation on another sidewall of through hole, damping ring and described stand frame at perforation on a sidewall of described stand frame, runner center.

In this runner damping structure, rotating shaft is provided with two supports that the perforation on corresponding two side with described stand frame coordinates face that is rotatably assorted.

In this runner damping structure, rotating shaft is provided with the spacing end face of runner of the displacement of restriction runner on rotor shaft direction.

In this runner damping structure, rotating shaft is provided with and coordinates the support location backstop that rotating shaft is fixed on assigned address with a sidewall of described support.

In this runner damping structure, rotating shaft is provided with and drives the transmitting gear that rotating shaft is rotated when being subject to External Force Acting.

In this runner damping structure, damping ring is the silica gel damping ring.

The utility model discloses a kind of equipment, wherein, this equipment comprises above-mentioned runner damping structure;

This equipment is electronic product or household electrical appliance.

The disclosed this runner damping structure of the utility model comprises: stand frame, runner, rotating shaft and damping ring; On the corresponding two side of stand frame, perforation is arranged respectively; There is through hole at center at runner; Damping ring and runner are positioned at stand frame; Damping ring is in sidewall of stand frame and the gap between runner, and this gap makes damping ring be compressed in this gap less than the size of damping ring Width; Rotating shaft is through at the technical scheme in perforation on another sidewall of through hole, damping ring and stand frame at perforation on a sidewall of stand frame, runner center, owing to being the integral type structure after this Standard, and assembling is simple, when one-piece construction is moved, damping ring provides stable friction force to runner and stand frame, limits that it is relatively moving, makes the damping of this structure have stability, and adopt damping ring rather than damping oil, therefore be not subjected to the puzzlement of chemical volatility.

Description of drawings

The schematic diagram of all parts before the runner damping structure that Fig. 1 provides for the utility model embodiment is assembled;

Black box schematic diagram after the runner damping structure that Fig. 2 provides for the utility model embodiment is assembled;

The schematic diagram of the rotating shaft in the runner damping structure that Fig. 3 provides for the utility model embodiment;

The process flow diagram of the implementation method of a kind of runner damping structure that Fig. 4 provides for the utility model embodiment.

Embodiment

Core concept of the present utility model is to provide a kind of runner damping structure, and this structure comprises: stand frame, runner, rotating shaft and damping ring; On the corresponding two side of stand frame, perforation is arranged respectively; There is through hole at center at runner; Damping ring and runner are positioned at stand frame; Damping ring is in sidewall of stand frame and the gap between runner, and this gap makes damping ring be compressed in this gap less than the size of damping ring Width; Rotating shaft is through in perforation on another sidewall of through hole, damping ring and stand frame at perforation on a sidewall of stand frame, runner center.

For making the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing, the utility model embodiment is described in further detail.

The schematic diagram of all parts before the runner damping structure that Fig. 1 provides for the utility model embodiment is assembled.Referring to Fig. 1, this runner damping structure comprises: stand frame 101, runner 102, rotating shaft 103 and damping ring 104; On the corresponding two side of stand frame 101, perforation is arranged respectively, in embodiment of the present utility model, being specially has a perforation 105 on the left side wall of stand frame 101, a perforation 106 is arranged on right side wall; There is through hole 107 at the center of runner 102; Damping ring 104 and runner 102 are positioned at stand frame 101.

Black box schematic diagram after the runner damping structure that Fig. 2 provides for the utility model embodiment is assembled.

Referring to Fig. 2, damping ring 104 in sidewall of stand frame 101 and the gap between runner 102 (in the utility model embodiment, be specially damping ring 104 in the left side wall of stand frame 101 and the gap between runner 102), and this gap makes damping ring 104 be compressed in this gap less than the size of damping ring 104 Widths; Like this, after this runner damping structure assembling, the compressed distortion of damping ring 104 makes damping ring 104 be in squeezed state.

Referring to Fig. 1 and Fig. 2, the sidewall that described rotating shaft 103 is through at stand frame 101 (here, a sidewall is right side wall) on perforation 106, runner 102 centers through hole 107, damping ring 104 and stand frame 101 another sidewall (here, another sidewall is left side wall) on perforation 105 in, just be assembled into runner damping structure as shown in Figure 2, can find out thus this runner damping structure simple in structure, easily assembling.

The schematic diagram of the rotating shaft in the runner damping structure that Fig. 3 provides for the utility model embodiment.

Referring to Fig. 3, in this runner damping structure, rotating shaft 103 is provided with two supports that perforation on corresponding two side with stand frame 101 (referring to Fig. 1, the perforation on the two side is to bore a hole 106 on perforation 105 and right side wall on left side wall) coordinates face that is rotatably assorted.Referring to Fig. 3, two support faces of being rotatably assorted are respectively that the support that coordinates with perforation 105 on left side wall is rotatably assorted face 301 and the support that coordinates with perforation 106 on right side wall is rotatably assorted face 302.

Referring to Fig. 3, in this runner damping structure, rotating shaft 103 is provided with the spacing end face 303 of runner of the displacement of restriction runner 102 on rotating shaft 103 directions, like this, just can guarantee in the one-piece construction motion, runner can not be moved to rotor shaft direction, guarantees that damping ring 104 is in squeezed state all the time.And the spacing end face 303 of runner makes runner and rotating shaft, and displacement can not relatively rotate in the rotation process of runner.

Referring to Fig. 3, in this runner damping structure, rotating shaft 103 be provided with a sidewall of stand frame 101 (here, a sidewall is specially right side wall) coordinate the support location backstop 304 that rotating shaft 103 is fixed on assigned address, like this, just make this runner damping structure after assembling is completed, whole module becomes one, the formula that becomes one runner damping structure.

Referring to Fig. 3, in this runner damping structure, rotating shaft 103 is provided with and drives the transmitting gear 305 that runner 102 rotates when being subject to External Force Acting.

In this runner damping structure, damping ring 104 is the silica gel damping ring.Damping ring has simple in structure, the advantage that processing cost is low.

Be below the runner damping structure that the utility model embodiment provides to be had the explanation of stable damping: damping ring is placed in the gap between motion runner and stand frame, and this gap is less than the size of damping ring Width, after making assembling, damping ring is in squeezed state; Be provided with in rotating shaft and coordinate the support location backstop that rotating shaft is fixed on assigned address with a sidewall of stand frame, after completing assembling, make whole module become one, runner coordinates by the spacing end face of runner with rotating shaft, make runner can't move in rotor shaft direction, guarantee that damping ring is in squeezed state all the time when one-piece construction is moved; Due to above-mentioned architectural characteristic, when one-piece construction was moved, damping ring provided stable friction force to runner and support by its surface of contact, the relative motion of restriction runner and support, and then damping is stablized in realization.Therefore, the runner damping structure that provides of the utility model embodiment has just had advantages of damping stability.

It is below the overall package process of the runner damping structure that provides of the utility model embodiment.

Referring to Fig. 1-3, at first, damping ring 104, runner 102 are placed in stand frame 101 inner corresponding positions, carry out Primary Location, secondly, the support of rotating shaft 103 the be rotatably assorted end at face 301 places perforation 106 right sides from stand frame 101 right side walls are inserted, pass successively through hole 107, the damping ring 104 of runner 102, and the perforation 106 on stand frame 101 left side walls, last, when determining that rotating shaft 103 is inserted into the position of all parts appointment, complete assembling.

The runner damping structure that the utility model provides can be used for any and need the equipment of runner damping structure, and as electronic product or household electrical appliance etc., wherein, electronic product can be video camera, wrist-watch etc.

The process flow diagram of the implementation method of a kind of runner damping structure that Fig. 4 provides for the utility model embodiment.As shown in Figure 4, the implementation method of the disclosed a kind of runner damping structure of the utility model comprises:

Step 401 arranges respectively perforation on the corresponding two side of stand frame;

Step 402 arranges through hole at the center of runner;

Step 403 is placed at relevant position in stand frame with damping ring and runner;

Step 404 is placed on sidewall of stand frame and the gap between runner with damping ring, and makes this gap less than the size of damping ring Width, makes damping ring be compressed in this gap;

Step 405 penetrates rotating shaft in the perforation on another sidewall of through hole, damping ring and stand frame at perforation on a sidewall of stand frame, runner center.

The method also comprises: two supports of the perforation cooperation on the corresponding two side that arranges in rotating shaft with described stand frame face that is rotatably assorted; At the spacing end face of runner that the displacement of restriction runner on rotor shaft direction is set in rotating shaft; Arrange in rotating shaft and coordinate the support that rotating shaft is fixed on assigned address to locate backstop with a sidewall of described support; Be arranged in rotating shaft and drive the transmitting gear that rotating shaft is rotated when being subject to External Force Acting.

The method also comprises: damping ring is selected the silica gel damping ring.

In sum, the technical solution of the utility model has the following advantages:

1, be placed in the gap of runner and a sidewall of support due to damping ring, the size in gap makes damping ring be in squeezed state less than the size of damping ring Width; Again because runner is moved in rotor shaft direction at the Shi Buhui that rotates, and then can guarantee that when runner moved, damping ring also remained on the state of being squeezed; In one-piece construction when motion,, damping ring provides stable friction force by its surface of contact to runner and support, thereby makes the damping of this runner damping structure have advantages of stable.

2, when assembling, because assembling just can be completed in the relevant position that only needs rotating shaft to be inserted into this runner damping structure all parts, thereby it is simple in structure to make this runner damping structure have, and holds easy-to-assemble advantage.

3, due to damping ring self have advantages of simple in structure, processing cost is low, thereby makes this runner damping structure have advantages of that cost is low.

The above is only preferred embodiment of the present utility model, is not be used to limiting protection domain of the present utility model.All any modifications of doing, be equal to replacement, improvement etc. within spirit of the present utility model and principle, all be included in protection domain of the present utility model.

Claims (7)

1. a runner damping structure, is characterized in that, described runner damping structure comprises: stand frame, runner, rotating shaft and damping ring; On the corresponding two side of described stand frame, perforation is arranged respectively; There is through hole at the center of described runner;

Described damping ring and runner are positioned at described stand frame;

Described damping ring is in a sidewall of described stand frame and the gap between described runner, and this gap makes damping ring be compressed in this gap less than the size of damping ring Width;

Described rotating shaft is through in perforation on another sidewall of through hole, damping ring and described stand frame at perforation on a sidewall of described stand frame, runner center.

2. a kind of runner damping structure according to claim 1, is characterized in that, described rotating shaft is provided with two supports that the perforation on corresponding two side with described stand frame coordinates face that is rotatably assorted.

3. a kind of runner damping structure according to claim 1, is characterized in that, described rotating shaft is provided with the spacing end face of runner of the displacement of restriction runner on rotor shaft direction.

4. a kind of runner damping structure according to claim 1, is characterized in that, described rotating shaft is provided with and coordinates the support location backstop that rotating shaft is fixed on assigned address with a sidewall of described support.

5. a kind of runner damping structure according to claim 1, is characterized in that, described rotating shaft is provided with and drives the transmitting gear that rotating shaft is rotated when being subject to External Force Acting.

6. runner damping structure according to claim 1, is characterized in that, described damping ring is the silica gel damping ring.

7. equipment, wherein, this equipment comprises runner damping structure as described in any one in claim 1 to 6;

This equipment is electronic product or household electrical appliance.

Images