Abstract:
An adjustable serve training net device (10) for developing a proper ball toss and contact point height for the serve. The practice net device (10) includes a lower ground base (15) having two base sides (11A) and (11B) and a cross base memer (21). A pair of support legs (22a) and (22b) attach to lower ground base (15) and support the upper net structure (41) above the ground base (15). Telescoping members (24e) and (24b) telescope in and out of support legs (22a) and (22b) enabling upper net structure (41) to be raised or lowered to the desired height needed by the individual.

Description:
BACKGROUND 
     1. Field of Invention 
     This invention relates to tennis serve training devices, specifically to such devices which try and help develop a ball toss and contact hitting point for the serve. 
     2. Description of Prior Art 
     Devices have been developed to provide overhead assistance for learning a ball toss but offer little assistance for developing a proper contact point height for serving the ball. These other devices are insufficient because they do not significantly help an individual learn both these aspects of the serve. 
     Examples of these devices are disclosed in the following issued U.S. Patents: U.S. Pat. No. 4,502,685 issued Mar. 5, 1985, to Vanice and Glendale Phillips; U.S. Pat. No. 4,023,798 issued May 17, 1977, to Alexander Pronin; and U.S. Pat. No. 3,940,132 issued Feb. 24, 1976, to John S. Lopatto. 
     In the patent issued to Vanice and Glendale Phillips, the device uses a suspended overhead target. The problem with this device is that the target interferes with the individuals swing. The individual must raise the target above their proper contact point height when serving the ball. The device therefore does not help individuals develop a proper ball toss or contact point height for the serve. 
     In the patent issued to Alexander Pronin, the device uses a complex and bulky overhead target which is aligned with a ground target below. This device is complicated to use and would be inconvenient to set-up and move around because of its size and weight. 
     In the patent issued to John S. Lopatto, the device suspends tennis balls overhead by the use of an electrically-operated suction pump. This device is very complex and presents an inconvenience because most outdoor public tennis courts do not have electricity available. 
     The need therefore exists for a tennis serve training net device operated on the tennis court just out in front of the individuals serve follow through. With the device properly placed out in front of the individual there is no interference unlike the overhead devices mentioned above. 
     OBJECT AND ADVANTAGES 
     The object of the tennis serve training net device is to help individuals develop a proper ball toss and contact point height for their serve. 
     The first advantage of the present invention is that the device permits the individuals serve to be carried out without any overhead interference. 
     The second advantage of the present invention is that the top portion of the upper net structure helps out as a reference point for the individual. The reference point helps the individual determine the proper height needed for the ball toss and the height at which the tennis ball must exceed when serving the ball. 
     The third advantage of the present invention is that the device is adjustable in height. The device is adjustable in height so it can be used effectively by individuals with various serving heights. 
     Some additional advantages of the present invention are that it is easy to transport, quick to set-up, simple to use and durable enough to withstand any hazards it may encounter. 
     These and additional advantages of the present invention will become apparent after a consideration of the drawings and the ensuing descriptions thereof. 
    
    
     DRAWING FIGURES 
     In the drawings, closely related figures have the same number but different alphabetic suffixes. 
     FIG. 1A shows an exploded view of the present invention. 
     FIG. 1B shows the assembled parts in each section. 
     FIG. 2 shows general function of present invention. 
     FIG. 3 shows a perspective view of the present invention. 
    
    
     REFERENCE NUMBERS AND NUMBERS WITH ALPHABETIC SUFFIXES IN DRAWINGS 
     10 complete embodiment of present invention 
     11 A, B base sides of lower ground base structure 15 
     12 a, b end caps 
     14 a, b, c, d tubular side base members 
     15 complete lower ground base structure 
     16 a, b female-thread tee fittings 
     18 a, b, c, d, e, f male-thread adaptors 
     20 a, b female-thread ell fittings 
     21 tubular cross base member 
     22 a, b tubular support legs 
     24 a, b tubular telescoping members 
     25 a, b adjustment holes 
     26 a, b adjustment pins 
     28 a, b slip tee fittings 
     30 lower tubular net support 
     32 a, b tubular side net supports 
     34 upper tubular net support 
     36 a, b slip elbow fittings 
     40 velcro straps 
     41 complete upper net structure 
     DESCRIPTIONS 
     FIGS. 1A and 1B 
     The complete embodiment of the present inventions serve training structure is illustrated in FIG. 1A (exploded view) and FIG. 1B (assembled view). The structure of the tennis serve training net device has a lower ground base 15 (FIG. 1B), two support legs 22a and 22b, telescoping members 24a and 24b and a upper net structure 41. In the preferred embodiment, the tennis serve training devices structure consists of durable plastic tubular piping and platic pipe fittings--available from Industrial plastics Inc. 
     The lower ground base structure 15 as illustrated in (FIG. 1B) has two vertically parallel base sides 11A and 11B and a tubular horizontal cross base member 21. 
     Base side 11A (FIG. 1A) has an end cap 12a slipped over top and attached in place with an adhesive to the front end of tubular side base member 14a. The opposite end of tubular side base member 14a slides into the front slip opening of female-thread tee fitting 16a and is attached in place with an adhesive. Tubular side base member 14b slides its front end into the rear slip opening of female-thread tee fitting 16a and is attached in place with an adhesive. The opposite end of tubular side base member 14b slides into the front slip opening of male-thread adaptor 18c and is attached in place with an adhesive to complete base side 11A. 
     Base side 11B (FIG. 1A) has an end cap 12b slipped over top and attached in place with an adhesive to the front end of tubular side base member 14c. The opposite end of tubular side base member 14c slides into the front slip opening of female-thread tee fitting 16b and is attached in place with an adhesive. Tubular side base member 14d slides its front end into the rear slip opening of female-thread tee fitting 16b and is attached in place with an adhesive. The opposite end of tubular side base member 14d slides into the front slip opening of male-thread adaptor 18d Description-FIGS. 1A and 1B continued and is attached in place with an adhesive to complete base side 11B. 
     Tubular cross base member 21 (FIG. 1A) is positioned horizontally across the top ends of the two vertically parallel basesides 11A and 11B. The two female ell fittings 20a and 20b slide their slip openings over top each end of tubular cross base member 21 and are attached in place with an adhesive to complete cross base member 21. 
     Base side 11A (FIG. 1B) attaches inside the female ell fitting 20a located on the right end of tubular cross base member 21. The connection is made by twisting base side 11A&#39;s rear male-thread adaptor 18c into the front thread opening of female ell fitting 20a. 
     Base side 11B (FIG. 1B) attaches inside the female ell fitting 20b located on the left end of tubular cross base member 21. The connection is made by twisting base side 11B&#39;s rear male-thread adaptor 18d into the front thread opening of female ell fitting 20b to complete the lower ground base structure 15. 
     The tubular support legs 22a and 22b of the present invention and their telescoping members 24a and 24b are illustrated in FIGS. 1A and 1B. 
     Tubular support leg 22a (FIG. 1A) slides its lower end into the top slip opening of lower male-thread adaptor 18a and is attached in place with an adhesive. The upper male-thread adaptor 18e slides its lower slip opening over top the upper end of tubular support leg 22a and is attached in place with an adhesive. 
     The tubular support leg 22a (FIG. 1B) connects with female tee fitting 16a located on base side 11A of the lower ground base structure 15. The connection is made by twisting support leg 22a&#39;s lower male-thread adaptor 18a inside the top thread opening of female-thread tee fitting 16a. 
     Support leg 22a has tubular telescoping member 24a (FIG. 1B) sliding into the top opening of male thread adaptor 18e. The telescoping member 24a extends down into the tubular support leg 22a. The telescoping member is secured in place by steel height adjustment pin 26a sliding through one of the height adjustment holes 25a of the telescoping member 24a. 
     Tubular support leg 22b (FIG. 1A) slides its lower end into the top slip opening of lower male-thread adaptor 18b and is attached in place with an adhesive. The upper male-thread adaptor 18f slides its lower slip opening over top the upper end of tubular support leg 22b and is attached in place with an adhesive. 
     The tubular support leg 22b (FIG. 1B) connects with female tee fitting 16b located on base side 11B of the lower ground base structure 15. The connection is made by twisting support leg 22b&#39;s lower male-thread adaptor 18b inside the top thread opening of female-thread tee fitting 16b. 
     Support leg 22b has tubular telescoping member 24b (FIG. 1B) sliding into the top opening of male thread adaptor 18f. The telescoping member 24b extends down into the tubular support leg 22b. The telescoping member is secured in place by steel height adjustment pin 26b sliding through one of the height adjustment holes 25b of the telescoping member 24b. 
     DESCRIPTION 
     FIGS. 1A and 1B continued 
     The upper net structure 41 of the present invention is illustrated in FIGS. 1A and 1B. The upper net structure 41 (FIG. 1A) has tubular side net supports 32a and 32b plus upper tubular net support 34 and lower tubular net support 30. 
     Tubular side net support 32a (FIG. 1A) extends vertically and slides its lower end into the top slip opening of slip tee fitting 28a and is attached in place with an adhesive. The slip elbow fitting 36a slides its lower slip opening over top the upper end of tubular side net support 32a and is attached in place with an adhesive. 
     Lower tubular net support 30 (FIG. 1A) extends horizontally and slides its right end onto the side slip opening of slip tee fitting 28a and attached in place with an adhesive. The opposite end of lower tubular net support 30 slides into the side slip opening of slip tee fitting 28b and is attached in place with an adhesive. 
     Side net support 32b (FIG. 1A) extends vertically and slides its lower end into the top slip opening of slip tee fitting 28b and is attached in place with an adhesive. The slip elbow fitting 36b slides its lower slip opening over top the upper end of tubular side net support 32b and is attached in place with an adhesive. 
     The upper tubular net support 34 (FIG. 1A) extends horizontally and slides its left end into the remaining side slip opening of slip elbow fitting 36b and is attached in place with an adhesive. The opposite end of upper tubular net support 34 slides into the remaining side slip opening of slip elbow fitting 36a and is attached in place with an adhesive to complete the upper net structure 41. 
     The netting 38 (FIG. 1A) attaches to the upper net structure 41 by wrapping velcro strips 40 through the netting and then attaching them around the frame members of the upper net structure 41. 
     The upper net structure 41 (FIG. 1B) is secured in place on the upper ends of tubular telescoping members 24a and 24b. The connection is made by sliding the lower slip openings of slip tee fittings 28a and 28b of the upper net structure over top the upper ends of telescoping members 24a and 24b. 
     From the description FIGS. 1A and 1B, a few other advantages of my tennis serve training net device become evident. 
     The use of the thread pipe fittings in the present invention make the device quick and easy to set-up. 
     The use of velcro strips 40 allow the netting 38 to be attached quickly and easily to the frame members of the upper net structure 41. 
     The design of the present inventions lower ground base structure 15 almost makes it impossible for the device to accidently tip over. 
     OPERATIONAL 
     FIGS. 1B and 2 
     The manner of using the present tennis serve training net device 10 is quite different from other known tennis serve training devices. The present device as shown in (FIG. 2) is designed to be set-up and operated out in front of the individual rather than directly overhead. 
     The first step is to set-up the present serve training net device 10 (FIG. 1B). The individual starts by assembling the lower ground base structure 15. The lower ground base structure 15 (FIG. 1B) is equipped with tubular cross base member 21 which has two female-thread ell fittings 20a and 20b on its ends. The lower ground base is also equipped with two base sides 11A and 11B that have male-thread adaptors 18c and 18d on each rear end. The male-thread adaptors allow the two base sides to attach to cross base member 21 to complete the lower ground base structure 15. 
     The support legs 22a and 22b of the present invention (FIG. 1B) are attached next. The support legs are designed to attach easily to the lower ground base structure 15. The support leg 22a attaches to base side 11A by twisting its lower male-thread adaptor 18a into the top thread opening of female-thread ell fitting 16a. The support leg 22b attaches to base side 11B by twisting its lower male-thread adaptor 18b into the top thread opening of female-thread ell fitting 16b. The support legs 22a and 22b (FIG. 2) along with their telescoping members 24a and 24b support the upper net structure 41 up and out in front of the individual. 
     The height adjustment of each telescoping member 24a and 24b (FIG. 2) is made by sliding each telescoping member up or down to the next same desired height adjustment holes 25a or 25b. The height desired is secured by placing each height adjustment pin 26a and 26b through one of the height adjustment holes 25a and 25b. Operational-FIGS. 1B and 2 continued 
     The upper net structure 41 (FIG. 2) which is supported up and out in front of the individual by the telescoping members 24a and 24b is designed to stop improper hit tennis balls. The upper net support 34 (FIG. 2) of the upper net structure 41 acts as a reference point for the individual. The reference point helps the individual determine the height needed for their ball toss and the height the tennis ball must exceed when they contact the ball. 
     The purpose of the present invention is to help people develop a proper ball toss and contact hitting point for the serve. 
     The individual starts by positioning one&#39;s self along the service base line in their normal serving position. The serve training net device 10 is placed about six inches out in front of their serve follow through. 
     The individual begins with the serve training net device 10 at its lowest level. The individual must execute a proper ball toss and contact the tennis ball successfully above the upper net support 34 and have the tennis ball land successfully in the service box. If they achieve this they can move the upper net structure 41 up to the next height adjustment level. 
     The individual as they gradually move up each height adjustment level will begin to develop a fundamentally sound ball toss and contact hitting point height for the serve. The individual will achieve their proper serving height when they reach the highest level above the upper net support 34 (FIG. 2) in which they can execute a successful serve in the service box. 
     The individual who experiences difficulties getting the proper height on the ball toss and contacts the tennis ball to low will simply hit the tennis ball into the upper net structure 41. The individual must remain at their present level or drop down a level until they achieve a successful serve above the upper net support 34 which lands in the service box. 
     SUMMARY, RAMIFICATION AND SCOPE 
     The reader will see that the structure of the present serve training net device which is set-up out in front of the individual consists of plastic tubular piping and various plastic fittings. The plastic fittings allow the device to be set-up and taken down quickly. In addition plastic tubular telescoping members are used so the tennis serve training net device can be adjusted in height to suit the height needed by any individual using it. 
     Although the description above contains some specific descriptions this should not be construed that the present invention is limited to these descriptions given. Its possible that various other materials could be used to construct the structure of the tennis serve training device. For example, the present invention could utilize a light weight metal tubular piping or even a aluminum piping and pipe fittings for its structure. 
     Thus the scope of the invention should be determined by the appended claims and their legal equivalents, rather than by the examples given.