Dual-sided vented pocketed spring comfort layer

We claim: 1. A comfort layer configured to overlay a spring core of a bedding or seating cushion product, said comfort layer comprising: a matrix of mini pocketed springs, each mini coil spring of which is contained within a pocket, said pocket being permeable to airflow through said pocket and having a weld seam around the pocket joining first and second pieces of fabric of the pocket; at least one of said pieces of fabric being made of a nonwoven aperture fabric to increase a rate at which air escapes through the fabric of the pocket when a load is placed on the pocket, a rate of compression of the mini coil springs subjected to the load being increased by apertures in the fabric wherein at least one of the pieces of fabric is a four mesh or greater fabric to cause air to pass therethrough at a higher or increased rate compared to a rate at which air flows through a nonwoven spunbond polypropylene material. 2. The comfort layer of claim 1 wherein at least one of the pieces of fabric is made at least partially of polyester. 3. The comfort layer of claim 1 wherein each weld seam comprises multiple weld segments. 4. The comfort layer of claim 1 wherein at least one of the pieces of fabric has a fabric weight of between 45 grams per square meter and 150 grams per square meter. 5. The comfort layer of claim 1 wherein at least one of the pieces of fabric is a ten-mesh sized fabric. 6. The comfort layer of claim 1 wherein the apertures in the fabric are oval-shaped. 7. The comfort layer of claim 1 wherein the pockets are arranged in rows spaced from each other. 8. A comfort layer configured to overlay a spring core of a bedding or seating product, said comfort layer comprising: a matrix of mini coil springs; a first piece of nonwoven aperture fabric permeable to airflow through the fabric on one side of the matrix of mini coil springs; a second piece of nonwoven aperture fabric permeable to airflow through the fabric on another side of the matrix of mini coil springs, the first and second pieces of fabric being joined with weld seams to create individual pockets which contain the mini coil springs, said comfort layer being characterized, when at least some of the mini coil springs in at least some of the pockets are subjected to a load air moves through apertures in the fabric, a rate of compression of the mini coil springs being increased by the apertures in the fabric, wherein at least one of the first and second pieces of nonwoven aperture fabric is between four and twenty-two mesh fabric and air passes through the nonwoven aperture fabric at a higher or increased rate compared to a rate at which air flows through a nonwoven spunbond polypropylene material using identical test methods. 9. The comfort layer of claim 8 wherein the weld seams comprise weld segments around each of the mini coil springs. 10. The comfort layer of claim 8 wherein a rate of return of the mini coil springs in the pockets is increased by the apertures in the first and second pieces of fabric. 11. The comfort layer of claim 8 wherein the weld seams are circular. 12. The comfort layer of claim 8 wherein the weld seams are rectangular. 13. A comfort layer configured to overlay a spring core of a bedding or seating product, said comfort layer comprising: mini coil springs; a first piece of nonwoven fabric having apertures, the first piece of nonwoven fabric being on one side of the mini coil springs; a second piece of nonwoven fabric having apertures, the second piece of nonwoven fabric being on another side of the mini coil springs, the first and second pieces of fabric being joined with weld seams comprising spaced weld segments surrounding each of the mini coil springs to create gaps between the weld segments and individual pockets which contain the mini coil springs, the first and second pieces of fabric being permeable to airflow through the apertures in the first and second pieces of fabric, said comfort layer being characterized, when at least some of the pockets are subjected to a load air moves quickly out of the pockets through the apertures in the first and second pieces of fabric, a rate of compression of the mini coil springs being increased by the apertures in the first and second pieces of fabric, wherein the first and second pieces of fabric have at least four apertures per square centimeter so air passes through the nonwoven fabric at a higher or increased rate compared to a rate at which air flows through a nonwoven spunbond polypropylene material. 14. The comfort layer of claim 13 wherein the fabric is made at least partially of polyester. 15. The comfort layer of claim 13 wherein the weld seams are rectangular. 16. The comfort layer of claim 13 wherein the apertures are oval-shaped. 17. The comfort layer of claim 13 wherein at least one of said first and second pieces of fabric is a ten-mesh fabric. 18. The comfort layer of claim 13 wherein said mini coil springs in a relaxed condition are approximately between 0.75 and 2.5 inches tall. 19. The comfort layer of claim 13 wherein at least some of said mini coil springs has a barrel shape. 20. The comfort layer of claim 13 wherein the pieces of fabric are the same mesh size.