Toy Slot Car with Protective Cover for Conductive Elements

Abstract

A slot car comprises a chassis (110), a motor mounted on the chassis (110) for driving the slot car and a plurality of conductive elements (101, 102) exposed on the chassis (110) which is electrically connected to the motor for driving the slot car. The slot car further comprises a cover (100) covering at least a portion of the conductive elements (101, 102) and which is adapted to restrict the conductive elements (101, 102) from bending and dislocating. The conductive elements (101, 102) may be in form of metal brush (101, 102). The cover (100) is formed with a slanted surface so that the angle between the chassis (110) and the conducting elements (101, 102) does not exceed 7 degree and is further provided with guide members (106, 107). Such guide members (106, 107) restrict the lateral displacements of the conductive elements (101, 102). Moreover, the cover (100) may be integrally formed with the chassis (110), or may be provided with fastening means (103, 104) for attached removably to the chassis (110).

Description

FIELD OF INVENTION

The present application relates to a toy vehicle with a detachable cover. Specifically, the present application relates to a slot car with detachable protective cover for covering the metal conductive brushes on slot cars to avoid damages and deformations of the metal brushes.

BACKGROUND OF INVENTION

A slot car is a powered miniature vehicle that is guided by a slot in a track which it runs on. Typically, a slot car is guided to run on the track by a pin extends from the bottom of the car into the slot. Traditionally, slot cars are powered by a DC power source on the track. A typical slot car may include a pair copper elements or metal brushes underneath the chassis for conducting electricity from track to the motor of the slot car. Shortcomings of using copper elements include but not limited to corrosions or rusting after prolonged period of use. Additionally, as the copper elements grind on the metal rails on the track, the same generates intense sparks which could hardly fulfill toys regulation requirements. As a result, slot cars with copper elements are obsolete nowadays.

Although the use of a pair of metal brushes on slot cars has greatly eliminated the problems of corrosion and sparking, the deformation and damages of the metal brush could not be avoided. As the metal brush is made by slender copper thread woven, it deforms very easily especially when the slot cars are being intentionally moved backwards or outside the designated track. It is an objective of the present invention to alleviate the above-mentioned issues by adding a protective cover to cover up a large portion of the metal brushes so as to reduce deformations and damages of the metal brushes.

SUMMARY OF INVENTION

According to the present application, there is provided a slot car including a chassis, a motor mounted on the chassis for driving the slot car and a plurality of conducting element exposed on the chassis which is electrically connected to the motor for driving the slot car. The slot car further includes a cover covering at least a portion of the conducting elements and the cover is adapted to restrict the conducting elements from bending and dislocating. The conducting elements may be in form of metal brush. The cover serves to restrict the conducting elements from bending away from the chassis.

The cover is formed with a slanted surface so that the angle between the chassis and the conducting element does not exceed 7 degree, and is further provided with guide members. Such guide members restrict the lateral displacements of the conducting elements. Moreover, the cover may be provided with fastening means for removably attached to the chassis, such as snap-on hooks. However, the cover may also be integrally formed with the chassis. The cover extends widthwise exceeding the overall widths of the conducting elements and further extends in the lengthwise direction of the conducting elements, covering at least ⅓ but less than half of the length of the conducting elements.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 shows a bottom perspective view of a slot car to be fitted with a protective cover of the present application.

FIG. 2a shows a top perspective view of the protective cover of the present application.

FIG. 2b shows a bottom perspective view of the protective cover of the present application.

FIG. 2c shows a top perspective view of the protective cover of the present application installed on the chassis of a slot car.

FIG. 3a shows a side view of the protective cover of the present application detached from the slot car.

FIG. 3b shows an elevation view of the protective cover of the present application detached from the slot car.

DETAILED DESCRIPTION

The present application relates to a slot car having a cover for protecting the metal conductive elements from deforming and damaging due to mistreat by the user during handling or operating the slot car.

According to the present application, a removable cover is provided on the underside of a slot car for covering a portion of the metal conductive elements, metal brushes as non-limiting example, in order to avoid deformation and damage of the same. The pair of metal brushes is the essential component of the slot car as it carries a direct electric current conducted continuously throughout the metal rails on the track to the motor in the slot car as it runs on the track. The metal brushes are the contact points for conducting electricity from the metal rails on the track to the slot car's motor and provide the power source to the slot car. They are engaged in a frictional contact with the metal rails as the slot car runs.

In order to maintain good frictional contact between the metal rails on the track and the metal brushes on the slot car, the metal brushes are shaped and situated so that the downward facing sides of the metal brushes are biased against the surface of the metal rails on the track. The metal brushes are extended lengthwise in the direction opposite to travel and are sufficiently long to reach from the chassis of the slot car to the surface of the metal rail on the track. The positions where the metal brushes are in contact with the metal rails on the track relied on the strength of the metal brushes themselves, that is, the ability for the metal brushes to retain in their positions. Due to the orientation of layout of the metal brushes and their flexibility, the slot car is not able to run in reverse as the metal brushes will likely be deformed and displaced.

Referring to FIG. 1, the present application provides a cover 100 for preventing the metal brushes 101 & 102 to bend as well as maintaining their respective positions during frictional contact with the track. The cover 100 may be a plastic plate attached to the underside of the chassis 110 of the slot car. As an example, the cover may be removably attached to the underside of the chassis 110 by any fastening means, i.e., by snap-on hooks 103 & 104 as shown in FIGS. 2a and 2b. The cover 100 being detachable provides the ease in situation that worn metal brushes are to be serviced or replaced. However, the cover 100 may also be integrally formed with the chassis 110. Details of the cover 100 will be discussed in details in the following descriptions.

The cover 100 to be used on a slot car for preventing deformations and damages of the metal brushes 101 & 102 may be formed as shape as shown in FIGS. 2a and 2b. The cover 100 essentially extends widthwise across the two metal brushes 101 & 102. On the other hand, the cover 100 only covers portions of the metal brushes 101 & 102 which are closest to the chassis 110. The cover 100 extends lengthwise in direction to cover about one third to half of the length of the metal brushes 101 & 102. This leaves a length of metal brushes exposed and in contact with the metal rails on the track as shown in FIG. 2c. Further, the above allows the metal brushes 101 & 102 to retain some degree of flex for better contact with the metal rails on the track. As the metal brushes 101 & 102 are initially bent and point towards the rear direction of the slot car, the cover 100 restricts the metal brushes 101 & 102 from being bent in the opposition direction.

As shown in FIG. 3a, it is noted that the covering portion of the cover 100 is slanted at about 7 degrees relative to the plane of the chassis 110. By incorporating the above angle, a space 105 is formed between the cover and the chassis. The slant of the cover allows the metal brushes 101 & 102 to maintain its angle relative to the chassis at about 7 degrees, which strikes a good balance between contacting quality and amount of friction between the brushes and the metal rails on the track. The cover 100 serves another important purpose of limiting the bending angle of metal brushes 101 & 102 for avoiding fatigue due to stress concentration at the bend. This prolongs the life of the metal brushes 101 & 102 and minimizes accidental damages due to mishandle by user.

Furthermore, due to the high flexibility of the metal brushes 101 & 102, the metal brushes 101 & 102 are prone to being bent sideways which affects the contact quality with the metal rails. To alleviate the above, side guides 106 & 107 are provided at the edges of the cover 100 as shown in FIGS. 2b & 3b. For a non-limiting example, the side guides 106 & 107 may be two raised steps provided on the cover 100 which serve as blockades for preventing the metal brushes to displace sideways or laterally. Side guides may be provided on both sides of the metal brush for even better effect of maintaining the metal brush in a straight position.

With the incorporation of the metal brush cover 100, the frictional contacts between the metal brushes 101 & 102 and the metal rails of the track are enhanced. Even in the circumstance that the slot cars are being handled out of the race track or being intentionally moved in a reversed direction, the metal brushes 101 & 102 are not easily deformed or damaged. By installing the abovementioned cover, issues of deformation of metal brushes are greatly reduced and thus enhancing the overall quality and re-liability of slot cars.

A non-commercial experiment involving young toddlers and less skilled individuals was conducted for the purpose of understanding how slot cars are being handled in the course of operating the same. It is not surprising for toddlers who are not familiar with slot cars, are not aware of the fragileness of the metal brushes underneath the chassis. The slot cars may be taken out of the track and being pushed in any direction by young toddlers. Slot cars with the metal brush cover installed are able to withstand the mentioned abuses and maintain operative after the experiment was conducted.

It is acknowledged according to the sales figures from the applicant that the return rates due to the deformation and damages of metal brushes reached as high as 50%-60%. The present application would contribute to the decrease of defective and return rates of slot car products.

It may be appreciated that various modifications and additions can be made to the exemplary embodiments discussed without departing from the scope of the present invention. For example, while the embodiments described above refer to particular features, the scope of this invention also includes embodiments having different com-binations of features and embodiments that do not include all of the above described features.

Claims

1. A slot car comprising: a chassis;a motor mounted on the chassis for driving the slot car;a plurality of conducting elements exposed on the chassis and are electrically connected to the motor for driving the slot car; anda cover covering at least a portion of the conducting elements and adapted to restrict the conducting elements from bending and dislocating.

2. The slot car according to claim 1, wherein the conducting element is in form of metal brush.

3. The slot car according to claim 1, wherein the cover is formed with a slanted surface so that the angle between the chassis and the conducting element does not exceed 7 degree.

4. The slot car according to claim 1, wherein the cover is further provided with a guide member, wherein the guide member restricts the lateral displacement of the conducting element.

5. The slot car according to claim 4, wherein the guide member is integrally formed with the cover.

6. The slot car according to claim 1, wherein the cover is provided with fastening means for removably attached to the chassis.

7. The slot car according to claim 5, wherein the fastening means is in a form of snap-on hooks.

8. The slot car according to claim 1, wherein the cover is integrally formed with the chassis.

9. The slot car according to claim 1, wherein the cover extends widthwise exceeding the overall widths of the conducting elements.

10. The slot car according to claim 1, wherein the cover extends in the lengthwise direction of the conducting elements and covering at least ⅓ but less than half of the length of the conducting elements.