CN201190017Y - Panel structure of conveyer belt - Google Patents

Abstract

The utility model relates to a conveying belt faceplate structure. A shock-absorbing soft pad is arranged on the surface of the conveying belt faceplate, the shock-absorbing soft pad is made of soft rubber and plastic, and a plurality of shock absorbing convex parts are integrally arranged on the outer end surface of the shock absorbing soft pad; therefore, when various soft products which are easy to be damaged are conveyed by the conveying belt, the slip limiting function of the shock absorbing convex parts of the shock-absorbing soft pad on the faceplate is used, simultaneously, when the products are contacted with the shock-absorbing soft pad, the entire weight is equally distributed on the shock absorbing convex parts made of soft materials, the direct contact and collision between the products and the faceplate can be avoided, the damage to the surfaces of the products can be prevented, and the use value is better embodied during the operation of the whole conveying belt.

Description

The load-transfer device panel construction

Technical field

The utility model relates to a kind of load-transfer device panel construction, refer in particular to a kind of can make various soft easily impaired article carried by load-transfer device the time, not only has an on-slip effect, and can prevent that this article surface from taking place because of the collision that contacts with the load-transfer device panel causes the situation of damage simultaneously, and use the load-transfer device panel construction that has more practical value its whole execution.

Background technology

Generally on the automatic flow board, often can see and be provided with conveyer belt structure, various various article to be processed or that desire to pack etc. can being placed on the load-transfer device, and utilize this load-transfer device with this article delivery to the pre-position; Wherein, common conveyer belt structure is corresponded to each other to join by each panel and forms; Each outwards equidistantly protrudes out several extensions two sides of this panel, and the extension of two sides is staggered the setting up that correspond to each other, wherein be provided with pivot in each extension of a side in this panel, in addition then be provided with the pivot hole of tool breach in each extension of side in panel, the width of this breach is less than the diameter length of pivot; In view of the above, the indentation, there from the opposite side extension of another panel embeds in the pivot hole, is linked to be a load-transfer device so that each panel is given the pivot joint group.

Yet; above-mentioned " structural improvement of load-transfer device " is though can reach the expection effect that makes each panel pivot joint group be linked to be the various article of load-transfer device confession conveying; but implement discovery in the use in its practical operation; because for asking the impregnability of this load-transfer device; make the panel of this load-transfer device be all a rigid material made (as: plastics injection molding etc.); it is one plane to add that this load-transfer device panel upper end face is all; cause this load-transfer device when carrying some soft easily impaired article (as: various fruit etc.); regular meeting rolls being on the plane load-transfer device panel because of these article; cause the made load-transfer device panel of these article and rigid material to collide mutually; cause this article surface damage; reduce the sense of worth of these article; even also need directly these article to be eliminated when serious; cause and make the dealer suffer great loss, and then make the structure design of this load-transfer device panel still have improved space.

Therefore, in view of this design people adheres to for many years the abundant of these relevant industries and designs and develops and the actual fabrication experience, is studied improvement again at existing structure and disappearance, provides a kind of load-transfer device panel construction, in the hope of reaching the purpose of better practical value.

The utility model content

The purpose of this utility model provides a kind of load-transfer device panel construction, avoids the direct collision that contacts with panel of these article, prevents that this article surface from causing the situation of damage to take place.

Above-mentioned purpose of the present utility model can realize by following technical solution, a kind of load-transfer device panel construction, and it is by the synthetic load-transfer device of many panel johning knots, all is provided with the shock-absorbing cushion at each panel surface of this load-transfer device; This shock-absorbing cushion is that soft rubber, plastic cement are made, and convexes with many shock-absorbing protuberances in this shock-absorbing cushion outer face one.

In preferred embodiment, utilize between this load-transfer device panel and shock-absorbing cushion and stick together fixed form and combine.

In preferred embodiment, attach secure bond with this shock-absorbing cushion in the lump when being used in this panel injection molding between this load-transfer device panel and shock-absorbing cushion.

Characteristics of the present utility model and advantage are:

It mainly contains this load-transfer device panel surface and is provided with the shock-absorbing cushion, and this shock-absorbing cushion is that a soft materials is made, and convexes with many shock-absorbing protuberances in this shock-absorbing cushion outer face one; Thus, make when various soft easily impaired article are carried by load-transfer device on this load-transfer device, can utilize the shock-absorbing protuberance of shock-absorbing cushion on this panel to have an on-slip effect, simultaneously when these article contact with this shock-absorbing cushion, the overall weight average mark can be dissipated to also on each shock-absorbing protuberance of soft materials formed thereby, avoid the direct collision that contacts with panel of these article, prevent that this article surface from causing the situation of damage to take place, and have more practical value its whole execution in the use.

Description of drawings

Fig. 1: whole perspective view of the present utility model.

Fig. 2: perspective view of the present utility model.

Fig. 3: running condition scheme drawing of the present utility model.

Description of reference numerals:

1 load-transfer device, 11 panels

2 shock-absorbing cushions, 21 shock-absorbing protuberances

The specific embodiment

For the technology contents, the purpose that make the utility model use and the effect reached thereof have more complete and clearly disclose, now under describe it in detail, and see also accompanying drawing and Reference numeral:

At first, see also shown in Fig. 1 whole perspective view of the present utility model, the utility model mainly synthesizes load-transfer device 1 by many panel 11 johning knots, and all is provided with shock-absorbing cushion 2 in each panel 11 surface of this load-transfer device 1; Wherein:

See also shown in Fig. 2 perspective view of the present utility model, this shock-absorbing cushion 2 is that a soft rubber, plastic cement are made, and convex with many shock-absorbing protuberances 21 in these shock-absorbing cushion 2 outer face one, 2 of load-transfer device 1 panel 11 and shock-absorbing cushions then can utilize and stick together fixed form or attach fixing with shock-absorbing cushion 2 in the lump when panel 11 injection moldings.

Thus, please consult in the lump again shown in Fig. 3 running condition scheme drawing of the present utility model, make when placing various soft easily impaired article on this load-transfer device 1, it can utilize the shock-absorbing protuberance 21 of the shock-absorbing cushion 2 that is set firmly on the panel 11 of this load-transfer device 1 to have an on-slip effect, simultaneously when these article contact with this shock-absorbing cushion 2, the overall weight average mark can be dissipated to this also by on integrally formed each the shock-absorbing protuberance 21 that is convexly equipped with of shock-absorbing cushion 2 soft materials, avoid the direct collision that contacts with the panel 11 of load-transfer device 1 of these article, and in the articles conveyed process of load-transfer device 1, can prevent that this article surface from causing the situation of damage to take place.

Previous embodiment or accompanying drawing and non-limiting structure sample attitude of the present utility model or size have suitable variation or the modification of knowing the knowledgeable usually in any affiliated technical field, all should be considered as not breaking away from patent category of the present utility model.

By the above, the composition of this element with use implementation as can be known, the utility model and existing knot Structure is compared, because the utility model mainly is provided with the shock-absorbing cushion at this conveyer belt panel surface, this shock-absorbing cushion Be that a soft materials is made, and convex with many shock-absorbing protuberances in this shock-absorbing cushion outer face one, so that When various soft easily impaired article are subjected to tape transport on this conveyer belt, can utilize on this panel shock-absorbing soft The shock-absorbing protuberance of pad has an on-slip effect, and when these article contacted with this shock-absorbing cushion, energy was with whole simultaneously It also is on each shock-absorbing protuberance of soft materials formed thereby that the body weight average mark is dissipated to, and avoids these article directly and face The plate collision that contacts prevents that the situation of this article surface injury from taking place, and uses its whole execution Have more practical value.

Claims (3)

1. load-transfer device panel construction, it is characterized in that by the synthetic load-transfer device of many panel johning knots, all is provided with the shock-absorbing cushion at each panel surface of this load-transfer device; This shock-absorbing cushion is that soft rubber, plastic cement are made, and convexes with many shock-absorbing protuberances in this shock-absorbing cushion outer face one.

2. load-transfer device panel construction according to claim 1 is characterized in that, utilizes between this load-transfer device panel and shock-absorbing cushion to stick together fixed form and combine.

3. load-transfer device panel construction according to claim 1 is characterized in that, attaches secure bond with this shock-absorbing cushion in the lump when being used in this panel injection molding between this load-transfer device panel and shock-absorbing cushion.

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