A particulate non-clumping animal litter composition is disclosed. The composition comprises non-clumping absorbent particles bound to magnetically-attractable metal particles such that substantially all particles of the animal litter composition are attracted to a magnetic surface. The animal litter composition exhibits favorable properties such as absorbency, resiliency, homogeneity, and particle size. Methods of production for non-clumping animal litter compositions are also disclosed that employ sufficient shear to bind the non-clumping absorbent particulate material to the magnetically-attractable metal particles such that the animal litter compositions exhibit favorable properties. A method and apparatus for the collection of magnetically-attractable animal litter particles are also disclosed.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 illustrates a perspective view of a magnetic sweeper in accordance with the present disclosure.
FIG. 2 illustrates a perspective view of a hand-held electromagnetic collector in accordance with the present disclosure.
Claims
1-67. (canceled)
68. A particulate non-clumping animal litter composition, comprising:
(a) about 50 to 98 weight % of a non-clumping absorbent particulate material; and,(b) about 2 to 50 weight % of magnetically-attractable metal particles; wherein:(i) the non-clumping absorbent particulate material and magnetically-attractable metal particles are bound together; and,(ii) substantially all particles of the animal litter composition are attracted to a magnetic surface.
69. The animal litter composition of claim 68, wherein the resiliency of the animal litter composition is at least about 40%, the resiliency being determined by measuring the weight fraction of animal litter particles initially larger than 40 mesh that are retained on a 40-mesh sieve after being fragmented by swirling at a rate of about 280 rpm and tapping at a frequency of about 150 min−1 for 5 minutes in the pan of a rotary test sieve shaker containing ten ⅝″-diameter ball bearings.
70. The animal litter composition of claim 69, wherein the resiliency of the animal litter composition is at least about 45%.
71. The animal litter composition of claim 70, wherein the resiliency of the animal litter composition is about 50 to 98%.
72. The animal litter composition of claim 68, comprising about 80 to 97 weight % of the non-clumping absorbent particulate material and 3 to 20 weight % of magnetically-attractable metal particles.
74. The animal litter composition of claim 68, wherein the non-clumping absorbent particulate material comprises a non-swelling clay.
75. The animal litter composition of claim 68, wherein the non-swelling clay is selected from the group consisting essentially of: calcium bentonite, kaolinite, attapulgite, and sepiolite.
76. The animal litter composition of claim 68, wherein non-clumping absorbent particulate material has a particle size distribution such that at least 25 weight % of the particles pass a 50-mesh sieve.
77. The animal litter composition of claim 68, wherein the magnetically-attractable metal particles comprise iron, nickel, cobalt, or mixtures thereof.
78. The animal litter composition of claim 68, wherein the magnetically-attractable metal particles have a particle size distribution such that at least 25 weight % of the particles pass a 50-mesh sieve.
79. The animal litter composition of claim 68, wherein the magnetically-attractable metal particles comprise magnetite, taconite, or mixtures thereof.
80. The animal litter composition of claim 68, wherein the magnetically-attractable metal particles comprise taconite having an iron content of at least 25 weight %.
81. The animal litter composition of claim 68, wherein the particles of the animal litter composition have particle sizes between 8 and 50 mesh.
82. The animal litter composition of claim 81, wherein the particles of the animal litter composition have particle sizes between 10 and 40 mesh.
83. The animal litter composition of claim 68, further comprising an additive selected from the group consisting essentially of: carboxymethyl cellulose, methyl cellulose, hydroxypropyl cellulose, hydroxypropylmethyl cellulose, hydroxybutylmethyl cellulose, sodium silicate, starch, dextrin, xanthan gum, guar gum, lignin, sodium or calcium lignosulfonate and their derivatives, sucrose, lactose, and dextrose.
84. The animal litter composition of claim 68, further comprising an additive selected from the group consisting essentially of: carboxymethyl cellulose, sodium silicate, xanthan gum, and guar gum.
85. The animal litter composition of claim 68, further comprising an additive selected from the group consisting essentially of: a fragrance, a color agent, an anti-microbial agent, an odor-control agent, an odor-masking agent, and a bactericide.
86. The animal litter composition of claim 68, further comprising a surface coating selected from the group consisting essentially of: a fragrance, a color agent, an anti-microbial agent, an odor-control agent, an odor-masking agent, and a bactericide.
87. A particulate non-clumping animal litter composition, comprising:
(a) about 50 to 98 weight % of a non-clumping absorbent particulate material; and,(b) about 2 to 50 weight % of magnetically-attractable metal particles; wherein:(i) the non-clumping absorbent particulate material and magnetically-attractable metal particles are bound together; and,(ii) the inhomogeneity of the animal litter composition is not more than about 30%, wherein the inhomogeneity is determined by measuring the reduction in weight fraction of animal litter particles adhering to a vertical magnetic surface after being crushed such that the D50 of the animal litter particles after crushing is at least about ⅓ less than the D50 of the animal litter particles before crushing.
88. The animal litter composition of claim 87, wherein the inhomogeneity of the animal litter composition is not more than about 20%.
89. The animal litter composition of claim 88, wherein the inhomogeneity of the animal litter composition is not more than about 10%.
90. A method of manufacturing a magnetically-attractable particulate non-clumping animal litter, comprising:
mixing about 50 to about 98 weight % of a non-clumping absorbent particulate material together with about 2 to about 50 weight % of magnetically-attractable metal particles;wherein the mixing is accomplished with mixer that imparts sufficient shear to the absorbent and metal particles such that:(i) the non-clumping absorbent particulate material and magnetically-attractable metal particles are bound together in stable, non-dusty aggregates; and,(ii) substantially all particles of the animal litter composition are attracted to a magnetic surface.
91. The method of claim 90, wherein the resiliency of the animal litter composition is at least about 50%, the resiliency being determined by measuring the weight fraction of animal litter particles initially larger than 40 mesh that are retained on a 40-mesh sieve after being fragmented by swirling at a rate of about 280 rpm and tapping at a frequency of about 150 min−1 for 5 minutes in the pan of a rotary test sieve shaker containing ten ⅝″-diameter ball bearings.
92. The method of claim 90, wherein the mixer is selected firm the group consisting essentially of: a pin mixer, a pug mill, an extruder, or a counter-current mixer.
93. The method of claim 90, wherein the mixer comprises a rotating impeller having a tip, wherein the impeller tip speed is about 2 to 85 ft/sec.
94. The method of claim 93, wherein the mixer comprises a rotating impeller having a tip, wherein the impeller tip speed is about 5 to 75 ft/sec.
95. The method of claim 94, wherein the mixer comprises a rotating impeller having a tip, wherein the impeller tip speed is about 20 to 70 ft/sec.
96. The method of claim 95, wherein the mixer comprises a rotating impeller having a tip, wherein the impeller tip speed is about 35 to 65 ft/sec.
97. A method of manufacturing a magnetically-attractable particulate non-clumping animal litter having a particular final particle size distribution, comprising mixing a non-clumping absorbent particulate material together with magnetically-attractable metal particles, wherein:
(i) the non-clumping absorbent particulate material has a D50 less than the D50 of the final particle size distribution of the magnetically-attractable particulate clumping animal litter; and,(ii) the mixing is accomplished with sufficient shear to adhere the non-clumping absorbent particulate material and the magnetically-attractable metal particles and to provide water-absorbent magnetically-attractable particulate clumping animal litter particles having the particular final particle size distribution without grinding or otherwise subdividing the adhered absorbent and metal particles.
98. The method of claim 97, wherein the D50 of the non-clumping absorbent particulate material is less than about 300 μm.
99. The method of claim 97, wherein the D50 of the non-clumping absorbent particulate material is less than about 200 μm.
100. The method of claim 97, wherein at least about 60 weight % of the magnetically-attractable particulate clumping animal litter particles generated by the mixing step have sizes between 8 and 50 mesh.
101. The method of claim 100, wherein about 70 to 99 weight % of the magnetically-attractable particulate clumping animal litter particles generated by the mixing step have sizes between 8 and 50 mesh.
102. The method of claim 101, wherein about 80 to 95 weight % of the magnetically-attractable particulate clumping animal litter particles generated by the mixing step have sizes between 8 and 50 mesh.
103. The method of claim 97, wherein about 75 to 95 weight % of the magnetically-attractable particulate clumping animal litter particles generated by the mixing step have sizes between 10 and 40 mesh.
104. A particulate clumping animal litter composition, comprising:
(a) about 85 to 95 weight % of non-swelling clay particles having a particle size distribution such that at least 50 weight % of the particles pass a 50-mesh sieve; and.(b) about 5 to 15 weight % of magnetically-attractable metal particles having a particle size distribution such that at least 50 weight % of the particles pass a 50-mesh sieve, the magnetically-attractable metal particles comprising magnetite, taconite, or mixtures thereof; wherein:(i) the attapulgite particles and magnetically-attractable metal particles are bound together:(iii) the particles of the animal litter composition have particle sizes between 8 and 50 mesh;(iii) substantially all particles of the animal litter composition are attracted to a magnetic surface; and,(iv) the resiliency of the animal liner composition is at least about 50 %, the resiliency being determined by measuring the weight fraction of animal litter particles initially larger than 40 mesh that are retained on a 40-mesh sieve after being fragmented in the pan of a rotary test sieve shaker containing ten ⅝″-diameter ball bearings for 5 minutes.
105. The animal litter composition claim 104, wherein the inhomogeneity of the animal litter composition is not more than about 20 %, wherein the inhomogeneity is determined by measuring the reduction in weight fraction of animal litter particles adhering to a vertical magnetic surface after being crushed such that the D50 of the animal litter particles after crushing is at least about ⅓ less than the D50 of the animal litter particles before crushing.
106. The animal litter composition of claim 104, wherein the non-swelling clay is selected from the group consisting essentially of: calcium bentonite, kaolinite, attapulgite, and sepiolite.
Patent Application
20070175403
