CN113484083A - Quick sampling device of food detection breakage degree - Google Patents

Abstract

The invention discloses a rapid sampling device for detecting the degree of breakage of food, which comprises an outer box, wherein a breaking cone is arranged in the outer box, a rotating shaft is arranged in the breaking cone, a cylinder is arranged in the rotating shaft, a fixed column is arranged at the bottom end of the cylinder, three rotating rods are arranged in the fixed column, a material storage box is arranged outside the three rotating rods, a blanking box is arranged below the material storage box, a discharging pipe is arranged at the lower end of the other side of the blanking box, symmetrical rotating discs are arranged in the blanking box, a plurality of limiting blocks are annularly distributed between the symmetrical rotating discs, a connecting disc is arranged at the center of the limiting blocks which are annularly distributed, a blanking channel is arranged in the connecting disc, a rotating disc is arranged at the other side of the rotating disc, the food is broken by the breaking cone, and the rotating disc drives the limiting blocks and a material storage groove formed by the rotating disc to rotate, so that the food in the storage chute falls down from the blanking channel to realize quantitative blanking.

Description

Quick sampling device of food detection breakage degree

Technical Field

The invention relates to the technical field of food detection, in particular to a rapid sampling device for detecting the degree of breakage of food.

Background

Food generally refers to food for people to eat, so the safety of food is the most important thing, in order to ensure the safety of food, the food circulating on the market needs to be detected safely, when the food needs to be detected, the food needs to be sampled firstly, the food safety detection is to detect harmful substances in the food according to national indexes, mainly the detection of some harmful and toxic indexes, such as heavy metal, aflatoxin and the like, and in the daily production of food processing factories, the food produced needs to be sampled and detected regularly to ensure the production safety of the food, so the food needs to be sampled and processed by using a food detection sampling device. Food need carry out crushing treatment to it before the sample, and current food detects sampling device does not possess and carries out broken function to food, and can not carry out the ration and get food.

Disclosure of Invention

The invention aims to provide a quick sampling device for detecting the degree of breakage of food, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a quick sampling device for detecting the degree of breakage of food comprises an outer container, wherein a feed inlet is formed in the top end of the outer container, a breakage cone is arranged inside the outer container, a rotating shaft is arranged inside the breakage cone, a cylinder is arranged inside the rotating shaft, a fixed column is arranged at the bottom end of the cylinder, a gear box is arranged outside the fixed column, a third rotating rod is arranged inside the fixed column, a storage box is arranged outside the third rotating rod, and a blanking pipe is arranged at the bottom end of the storage box;

blanking box is installed to blanking tube bottom, the connecting seat is installed to blanking box one side, blanking box opposite side lower extreme installs the discharging pipe, blanking box internally mounted has the carousel of symmetry, the symmetry annular distribution has a plurality of stopper between the carousel, the annular distribution the stopper center department installs the connection disc, the inside blanking passageway of having seted up of connection disc, the carousel opposite side is installed and is rotated the disc, it installs No. four dwangs to rotate disc opposite side center department.

Preferably, conical gear is installed to the axis of rotation lower extreme, the snap ring is installed at a conical gear both ends, conical gear meshing has No. two conical gear, No. two conical gear internally mounted has a dwang, a bearing of symmetry is installed to a dwang middle-end, and is symmetrical No. one the passageway is installed in the bearing outside, a motor is installed to the dwang other end.

Preferably, install a gear on the dwang No. one, gear engagement has No. two gears, No. two gear internally mounted have No. two dwangs, No. two bearings of symmetry are installed to No. two dwang middle-ends, and is symmetrical No. two passageways are installed in No. two bearing outsides, No. three conical gear is installed to No. two dwang other ends, No. three conical gear meshing has No. four conical gear.

Preferably, No. three dwangs are installed to No. four internal center departments of conical gear, install the No. three bearings of symmetry on No. three dwangs, the symmetry the fixed column is installed in No. three bearing outsides, the gear box is installed in the fixed column outside, gear box outside annular distribution has a plurality of dead lever, No. three dwang lower extreme annular distribution has a plurality of connecting rod, the puddler is installed to the connecting rod other end, and the annular distributes the storage case is installed in the puddler outside, two sets of chassis are installed in the storage case outside, chassis bottom annular distribution has a plurality of bracing piece.

Preferably, the first channel penetrates through the outer box and the gear box, the second channel penetrates through the fixing column, the fixing column penetrates through and is clamped at the bottom end of the gear box, and the bottom end of the cylinder is fixedly connected with the top end of the fixing column.

Preferably, the cylinder dislocation is installed inside the axis of rotation, broken awl bottom and gear box top contactless, storage case top and outer container bottom fixed connection, puddler and the contact of storage incasement wall, dead lever one end fixed mounting is inboard at the outer container, the fixing base is installed in the motor outside, fixing base fixed mounting is on the chassis top of top layer.

Preferably, the bearing frame is installed to No. four dwang other ends, the sheave is installed to No. four dwang middle-ends, the sliding card is equipped with the gag lever post on the sheave, the rocking arm is installed to the gag lever post bottom, No. two motors are installed to rocking arm other end one side, unfilled corner disc is installed to rocking arm other end opposite side.

Preferably, one side of the connecting disc is fixedly arranged on one side inside the blanking box, the limiting blocks and the symmetrical rotary discs are distributed in an annular mode to form a plurality of groups of symmetrical storage tanks, and two ends of the blanking channel can be located on the same straight line with the symmetrical storage tanks and the symmetrical discharge pipes.

Preferably, the output end of the second motor is connected with a unfilled corner disc, the bottom end of the unfilled corner disc is provided with a rotating arm, and the unfilled corner disc can be clamped with the grooved pulley.

According to the food discharging device, the food is crushed by the crushing cone, the rotating disc rotates to drive the storage tank formed by the limiting block and the rotating disc to rotate, so that the food in the storage tank falls from the discharging channel, and quantitative discharging is realized. .

Drawings

FIG. 1 is a schematic front view of the structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic sectional view of the blanking box according to the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 5 is an enlarged view of the structure at B in FIG. 2 according to the present invention;

FIG. 6 is an enlarged view of the structure at C of FIG. 2 according to the present invention;

FIG. 7 is an enlarged view of the structure shown at D in FIG. 2 according to the present invention;

in the figure: 1. an outer box; 101. a feed inlet; 102. a crushing cone; 103. a rotating shaft; 104. a cylinder; 105. a first conical gear; 106. a snap ring; 107. a second bevel gear; 108. a first rotating rod; 109. a first bearing; 110. a first channel; 111. a first motor; 112. a first gear; 113. a second gear; 114. a second rotating rod; 115. a second bearing; 116. a second channel; 117. a third bevel gear; 118. a fourth bevel gear; 119. a third rotating rod; 120. a third bearing; 121. fixing a column; 122. a gear case; 123. fixing the rod; 124. a connecting rod; 125. a stirring rod; 126. a material storage box; 127. a chassis; 128. a support bar; 129. a blanking pipe; 2. blanking the material box; 201. a connecting seat; 202. a discharge pipe; 203. a limiting block; 204. a turntable; 205. connecting the disks; 206. a blanking channel; 207. rotating the disc; 208. a fourth rotating rod; 209. a bearing seat; 210. a grooved wheel; 211. a limiting rod; 212. a rotating arm; 213. a second motor; 214. unfilled corner disc.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a quick sampling device for detecting the degree of breakage of food comprises an outer box 1, wherein a feed inlet 101 is arranged at the top end of the outer box 1, a breakage cone 102 is arranged inside the outer box 1, a rotating shaft 103 is arranged inside the breakage cone 102, a cylinder 104 is arranged inside the rotating shaft 103, a fixing column 121 is arranged at the bottom end of the cylinder 104, a gear box 122 is arranged outside the fixing column 121, a third rotating rod 119 is arranged inside the fixing column 121, a storage box 126 is arranged outside the third rotating rod 119, and a blanking pipe 129 is arranged at the bottom end of the storage box 126;

blanking box 2 is installed to blanking pipe 129 bottom, connecting seat 201 is installed to blanking box 2 one side, discharging pipe 202 is installed to blanking box 2 opposite side lower extreme, blanking box 2 internally mounted has the carousel 204 of symmetry, the annular distributes between the carousel 204 of symmetry has a plurality of stopper 203, stopper 203 center department that the annular distributes installs connection disc 205, connection disc 205 inside has seted up blanking passageway 206, carousel 204 opposite side is installed and is rotated disc 207, No. four dwang 208 are installed to rotation disc 207 opposite side center department.

A conical gear 105 is installed to axis of rotation 103 lower extreme, snap ring 106 is installed at a conical gear 105 both ends, a conical gear 105 meshes has No. two conical gear 107, No. two conical gear 107 internally mounted has a dwang 108, a bearing 109 of symmetry is installed to a dwang 108 middle-end, a passageway 110 is installed in a bearing 109 outside of symmetry, a motor 111 is installed to a dwang 108 other end, utilize a motor 111 to drive axis of rotation 103 and rotate on cylinder 104.

A first gear 112 is arranged on the first rotating rod 108, the first gear 112 is meshed with a second gear 113, a second rotating rod 114 is arranged inside the second gear 113, a symmetrical second bearing 115 is arranged at the middle end of the second rotating rod 114, a second channel 116 is arranged outside the symmetrical second bearing 115, a third conical gear 117 is arranged at the other end of the second rotating rod 114, a fourth conical gear 118 is meshed with the third conical gear 117, a third rotating rod 119 is arranged at the center inside the fourth conical gear 118, a symmetrical third bearing 120 is arranged on the third rotating rod 119, a fixing column 121 is arranged outside the symmetrical third bearing 120, a gear box 122 is arranged outside the fixing column 121, a plurality of fixing rods 123 are annularly distributed outside the gear box 122, a plurality of connecting rods 124 are annularly distributed at the lower end of the third rotating rod 119, a stirring rod 125 is arranged at the other end of the connecting rods 124, and a material storage box 126 is arranged outside the annularly distributed stirring rod 125, two sets of chassis 127 are installed to the storage case 126 outside, and a plurality of bracing pieces 128 are distributed to chassis 127 bottom annular, utilize a dwang 108 to rotate and drive puddler 125 and rotate in storage case 126.

No. one passageway 110 runs through outer container 1 and gear box 122, and No. two passageways 116 run through fixed column 121, and fixed column 121 runs through and the card is located the gear box 122 bottom, and cylinder 104 bottom and fixed column 121 top fixed connection utilize No. one passageway 110 and No. two passageways 116 to carry out spacing and protection to a dwang 108 and No. two dwang 114.

Cylinder 104 dislocation mounting is inside rotation axis 103, make rotation axis 103 can carry out oval rotation around cylinder 104, broken awl 102 bottom and gear box 122 top contactless, storage case 126 top and 1 bottom fixed connection of outer container, puddler 125 and the contact of storage case 126 inner wall, dead lever 123 one end fixed mounting is inboard at outer container 1, the fixing base is installed in the motor 111 outside, fixing base fixed mounting is on the chassis 127 top of top layer, utilize puddler 125 to stir storage case 126 inside, prevent that food from attaching to in storage case 126 inner wall.

A bearing seat 209 is installed to the fourth dwang 208 other end, and the sheave 210 is installed to fourth dwang 208 middle-end, and the slip card is equipped with the gag lever post 211 on the sheave 210, and rocking arm 212 is installed to the gag lever post 211 bottom, and No. two motors 213 are installed to rocking arm 212 other end one side, and unfilled corner disc 214 is installed to rocking arm 212 other end opposite side, utilizes gag lever post 211 to drive sheave 210 and is intermittent type rotation.

One side of the connecting disc 205 is fixedly arranged at one side inside the blanking box 2, the limit blocks 203 distributed in an annular shape and the symmetrical turntables 204 form a plurality of groups of symmetrical storage troughs, and two ends of the blanking channel 206 can be in the same straight line with the symmetrical storage troughs and the discharge pipe 202, so that food can fall out through the blanking channel 206, the storage troughs and the discharge pipe 202.

The output end of the second motor 213 is connected with a unfilled corner disc 214, the bottom end of the unfilled corner disc 214 is provided with a rotating arm 212, the unfilled corner disc 214 can be clamped with the grooved wheel 210, and the unfilled corner disc 214 is clamped on the grooved wheel 210 to limit the rotation of the grooved wheel 210.

When the food crusher is used, the first motor 111 is started, the first motor 111 drives the first rotating rod 108 to rotate, the first rotating rod 108 rotates to drive the second bevel gear 107 and the first gear 112 to rotate, the second bevel gear 107 rotates to drive the first bevel gear 105 to rotate, the first bevel gear 105 rotates to drive the rotating shaft 103 to rotate on the cylinder 104, the rotating shaft 103 rotates to drive the crushing cone 102 to rotate, the crushing cone 102 is utilized to do elliptic motion in the outer box 1, food to be detected is put into the outer box from the feed port 101, and the crushing cone 102 is utilized to crush the food.

Food after the breakage gets into storage case 126 from the passageway between outer container 1 and the gear box 122, utilize a gear 112 to rotate this moment and drive No. two gears 113 and rotate, No. two gears 113 rotate and drive No. two dwang 114 and rotate, No. two dwang 114 rotates and drives No. three conical gear 117 and rotate, No. three conical gear 117 rotates and drives No. four conical gear 118 and rotates, No. four conical gear 118 rotates and drives No. three dwang 119 and rotates, No. three dwang 119 rotates and drives puddler 125 and rotate at storage case 126, prevent food piling up and the not blanking condition that leads to in storage case 126, and can carry out breakage once more and cleanness to storage case 126 inner wall.

The crushed food enters the blanking box 2 from the blanking pipe 129 and then falls into a plurality of groups of symmetrical storage troughs formed by the limit blocks 203 and the symmetrical turntables 204 which are distributed annularly, the second motor 213 is started, the second motor 213 drives the unfilled corner disc 214 and the turning arm 212 to rotate, the turning arm 212 rotates to drive the limit rod 211 to do circular motion and clamp the grooved wheel 210, so that the grooved wheel 210 rotates intermittently, the unfilled corner disc 214 is clamped on the grooved wheel 210 to limit the rotation of the grooved wheel 210, the grooved wheel 210 rotates to drive the fourth turning rod 208 to rotate, the fourth turning rod 208 rotates to drive the turning disc 207 to rotate, the turning disc 207 rotates to drive the storage troughs to do circular motion, so that the storage troughs move to the top end of the blanking channel 206, and the food in the storage troughs falls into the symmetrical storage troughs from the blanking channel 206 and the symmetrical storage troughs, and then falls out through the discharge pipe 202, and quantitative material taking of the food is realized.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a quick sampling device of food detection breakage degree, includes outer container (1), its characterized in that: a feeding hole (101) is formed in the top end of the outer box (1), a crushing cone (102) is installed inside the outer box (1), a rotating shaft (103) is installed inside the crushing cone (102), a cylinder (104) is installed inside the rotating shaft (103), a fixing column (121) is installed at the bottom end of the cylinder (104), a gear box (122) is installed on the outer side of the fixing column (121), a third rotating rod (119) is installed inside the fixing column (121), a material storage box (126) is installed on the outer side of the third rotating rod (119), and a blanking pipe (129) is installed at the bottom end of the material storage box (126);

blanking box (2) are installed to blanking pipe (129) bottom, connecting seat (201) are installed to blanking box (2) one side, discharging pipe (202) are installed to blanking box (2) opposite side lower extreme, blanking box (2) internally mounted has carousel (204) of symmetry, the symmetry annular distribution has a plurality of stopper (203) between carousel (204), and the annular distributes stopper (203) center department installs connection disc (205), connect inside blanking passageway (206) of having seted up of disc (205), carousel (204) opposite side is installed and is rotated disc (207), it installs No. four dwang (208) to rotate disc (207) opposite side center department.

2. The rapid sampling device for detecting the degree of breakage of food according to claim 1, wherein: no. one conical gear (105) is installed to axis of rotation (103) lower extreme, snap ring (106) are installed at conical gear (105) both ends, No. one conical gear (105) meshing has No. two conical gear (107), No. two conical gear (107) internally mounted has a dwang (108), a bearing (109) of symmetry is installed to dwang (108) middle-end, and is symmetrical No. one passageway (110) is installed in a bearing (109) outside, No. one motor (111) is installed to dwang (108) other end.

3. The rapid sampling device for detecting the degree of breakage of food according to claim 2, wherein: install a gear (112) on dwang (108), a gear (112) meshing has No. two gears (113), No. two gear (113) internally mounted have No. two dwang (114), No. two bearing (115) of symmetry are installed to No. two dwang (114) middle-ends, and is symmetrical No. two passageway (116) are installed in No. two bearing (115) outsides, No. two dwang (114) other ends are installed No. three conical gear (117), No. three conical gear (117) meshing has No. four conical gear (118).

4. The rapid sampling device for detecting the degree of breakage of food according to claim 3, wherein: no. four internal centers of conical gear (118) department installs No. three dwang (119), install No. three bearing (120) of symmetry on No. three dwang (119), the symmetry No. three fixed column (121) are installed in bearing (120) outside, gear box (122) are installed in fixed column (121) outside, gear box (122) outside annular distribution has a plurality of dead lever (123), No. three dwang (119) lower extreme annular distribution has a plurality of connecting rod (124), puddler (125) are installed to connecting rod (124) other end, and the annular distributes storage case (126) are installed in puddler (125) outside, two sets of chassis (127) are installed in storage case (126) outside, chassis (127) bottom annular distribution has a plurality of bracing piece (128).

5. The rapid sampling device for detecting the degree of breakage of food according to claim 1, wherein: the first channel (110) penetrates through the outer box (1) and the gear box (122), the second channel (116) penetrates through the fixing column (121), the fixing column (121) penetrates through and is clamped at the bottom end of the gear box (122), and the bottom end of the column (104) is fixedly connected with the top end of the fixing column (121).

6. The rapid sampling device for detecting the degree of breakage of food according to claim 1, wherein: cylinder (104) dislocation is installed inside axis of rotation (103), broken awl (102) bottom and gear box (122) top contactless, storage case (126) top and outer container (1) bottom fixed connection, puddler (125) and storage case (126) inner wall contact, dead lever (123) one end fixed mounting is inboard in outer container (1), the fixing base is installed in the motor (111) outside, fixing base fixed mounting is on chassis (127) top of top layer.

7. The rapid sampling device for detecting the degree of breakage of food according to claim 1, wherein: bearing frame (209) are installed to No. four dwang (208) other ends, sheave (210) are installed to No. four dwang (208) middle-ends, the slip card is equipped with gag lever post (211) on sheave (210), rocking arm (212) are installed to gag lever post (211) bottom, No. two motor (213) are installed to rocking arm (212) other end one side, unfilled corner disc (214) are installed to rocking arm (212) other end opposite side.

8. The rapid sampling device for detecting the degree of breakage of food according to claim 1, wherein: connecting disc (205) one side fixed mounting is in the inside one side of workbin (2) that falls, and the annular distributes stopper (203) and carousel (204) of symmetry form the stock chest of a plurality of groups symmetry, blanking passageway (206) both ends can be on same straight line with stock chest and discharging pipe (202) of symmetry.

9. The rapid sampling device for detecting the degree of breakage of food according to claim 7, wherein: no. two motor (213) output is connected with unfilled corner disc (214), rocking arm (212) are installed to unfilled corner disc (214) bottom, unfilled corner disc (214) can with sheave (210) block.

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