CN113102292B - Automatic classification device is used in butyronitrile gloves production - Google Patents

Abstract

The invention discloses an automatic sorting device for butyronitrile glove production, which belongs to the technical field of butyronitrile glove production sorting equipment and comprises a conveying belt, baffles and supporting legs, wherein the baffles are fixed at the front end and the rear end of the conveying belt, a flow limiting plate is symmetrically arranged above the conveying belt and between the two baffles, a plurality of air nozzles are arranged above the conveying belt, connecting rods are arranged on one sides of the air nozzles, and color sensors are arranged at the lower ends of the connecting rods. According to the glove sorting device, when recognized gloves pass through the air jet head, the air jet head can blow the gloves off the conveyor belt by utilizing air flow, so that the problem that the gloves are damaged due to friction between the gloves and the conveyor belt is solved, the second air pump blows air into the rotating bin in the rotating state, the gloves are in a scattered and suspended state in the rotating bin, the gloves falling on the conveyor belt are in a scattered state in the manner, the sorting structure cannot be influenced by piling, and therefore the glove sorting efficiency is improved.

Description

Automatic classification device is used in butyronitrile gloves production

Technical Field

The invention relates to the technical field of butyronitrile glove production and classification equipment, in particular to an automatic classification device for butyronitrile glove production.

Background

The butyronitrile gloves are made or coated gloves, have an oil-proof effect, do not contain latex protein, do not cause anaphylactic reaction, have antistatic, ageing-resistant and oil-resistant performances, are designed according to the hand shape of a human body, have extremely high sensitivity, excellent tensile property and puncture resistance, high tensile strength and excellent wear resistance.

The gloves are required to be dipped in glue in the production process of the butyronitrile gloves, the gloves are dipped with glue with different colors, after a series of process arrangement, the gloves with different colors are mixed together and need to be classified before packaging, and the traditional butyronitrile glove classification mode is manual selection classification, so that the mode is low in efficiency and high in cost.

Chinese patent discloses an automatic sorting device for butyronitrile glove production, (with the authorization number of CN210411578U), the glove is poured on a conveyor belt mechanism, the conveyor belt can drive the glove to move, under the blocking of the gathering claw, only one glove can pass each time, so that the gloves can enter the range of the automatic sorting device in order, the sorting accuracy of the gloves is improved, however, when the gloves are classified, the gloves are firstly poured on the conveyor belt, the gloves poured on the upper end of the conveyor belt are piled and gathered together, the gloves piled on the conveyor belt pass through the gathering claw together, a plurality of gloves pass through the gathering claw, thereby causing the problems of inaccurate glove sorting and low efficiency, and simultaneously the electric push rod pushes the gloves away from the conveyor belt, and the gloves are pushed by the electric push rod, so that the gloves are damaged due to friction between the gloves and the conveyor belt. Therefore, the invention provides an automatic sorting device for butyronitrile glove production, which aims to solve the problems.

Disclosure of Invention

The invention aims to provide an automatic sorting device for butyronitrile glove production, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

an automatic classification device for butyronitrile glove production comprises a conveyor belt, baffles and supporting legs, wherein the baffles are fixed at the front end and the rear end of the conveyor belt, two baffles are symmetrically arranged above the conveyor belt, a plurality of jet heads are arranged above the conveyor belt, a connecting rod is arranged on one side of each jet head, a color sensor is arranged at the lower end of each connecting rod, a plurality of branch ports are formed in the baffle at the front end of the conveyor belt, guide plates are arranged on the two sides of the front end of each baffle, which are positioned at the branch ports, protective shells are arranged at the rear ends of the baffles at the rear end of the conveyor belt, a first air pump is arranged below the protective shells, a connecting hose is arranged on an air outlet pipe of the first air pump, first connecting pipes are arranged at the rear ends of the jet heads, and the jet heads are respectively connected with the connecting hose on the first air pump through the first connecting pipes, a plurality of all be equipped with the solenoid valve on the first connecting pipe in the protective housing, the top of conveyer belt is equipped with finishing device.

As a further scheme of the invention, the lower ends of the connecting rods are provided with illuminating lamps on one side of the color sensor.

As a further scheme of the invention, the arranging device comprises a shell, a fixed ring is sleeved on the lower portion of the shell, connecting frames are symmetrically arranged at the front end and the rear end of the fixed ring, the shell is connected with a baffle through the fixed ring and the connecting frames, a feed inlet is arranged at the upper end of the shell, a second discharge outlet is arranged at the lower end of the shell, a rotating bin is arranged inside the shell, two connecting plates are sleeved outside the rotating bin, grooves are arranged inside the two connecting plates, a first discharge outlet is arranged at the lower end of the rotating bin, and a movable plate is rotatably connected to the rotating bin at the first discharge outlet.

As a further scheme of the present invention, a control box is provided at the front end of the housing, a PLC controller is provided inside the control box, and a control panel is further provided at the front end of the housing.

As a further scheme of the present invention, protective sleeves are disposed on both the front and rear sides of the housing, the second connection pipes at the front end of the rotation bin both penetrate through the protective sleeves on the front side of the housing and are connected with the second air pump on the front side of the conveyor belt, and the second connection pipes at the rear end of the rotation bin both penetrate through the protective sleeves on the rear side of the housing and are connected with the second air pump on the rear side of the conveyor belt.

According to a further scheme of the invention, tooth sockets are arranged at the front end and the rear end of the rotating bin, a plurality of teeth are arranged in the tooth sockets, connectors are arranged at the front end and the rear end of the rotating bin in a penetrating manner, bearings are arranged in the connectors on the bin wall of the rotating bin, connecting discs are arranged in the connectors, the connecting discs are rotatably connected with the rotating bin through the bearings, and one ends, close to the inner wall of the shell, of the connecting discs are connected with the shell through connecting columns.

As a further scheme of the invention, motors are arranged inside the shell and positioned at the front side and the rear side of the rotating bin, helical gears are arranged on output shafts of the motors, the helical gears are meshed with teeth in tooth grooves, a plurality of connectors are arranged at the ends, far away from each other, of the two connecting discs, second connecting pipes are arranged at the ends, far away from the rotating bin, of the connectors, and the connectors are connected with second air pumps through the second connecting pipes.

Compared with the prior art, the invention has the beneficial effects that:

1. when the invention is used, the motor is controlled by the control panel to drive the rotating bin to rotate, so that the first discharge port rotates to be right below the feed port, then the movable plate is opened, gloves are poured into the rotating bin, then the second air pump is opened by the control panel, meanwhile, the motor is controlled to drive the rotating bin to rotate ceaselessly, the connecting plate can limit the movable plate when the rotating bin rotates, the movable plate is prevented from being opened when the rotating bin does not rotate to be above the second discharge port, the second air pump can blow air into the rotating bin ceaselessly through the second connecting pipe after being started, so that the gloves in the rotating bin are in a dispersed floating state, when the rotating bin rotates to be above the second discharge port, the movable plate can be opened under the action of gravity, so that the gloves in the rotating bin fly out of the first discharge port and the second discharge port and fall onto the conveying belt, and when the gloves fall onto the conveying belt in the mode, gloves are in a dispersed state, the glove sorting structure is not influenced by the collected stack to sort gloves, and therefore the glove sorting efficiency is improved.

2. When the glove collecting device is used, the identified gloves are blown away from the conveying belt by the air flow when passing through the air jet head, so that the gloves fall into the designated collecting basket, and the problem that the gloves are damaged due to friction between the gloves and the conveying belt is further avoided.

Drawings

Fig. 1 is a schematic structural diagram of an automatic sorting device for butyronitrile glove production.

Fig. 2 is a top view of an automatic sorting device for butyronitrile glove production.

Fig. 3 is a split view of a sorting device in the automatic sorting device for producing nitrile gloves.

Fig. 4 is a schematic connection diagram of a rotating bin and a shell in the automatic sorting device for butyronitrile glove production.

Fig. 5 is a perspective view of a rotating bin in the automatic sorting device for producing nitrile gloves.

Fig. 6 is a perspective view of a conveyor belt in an automatic sorting device for producing nitrile gloves.

FIG. 7 is a schematic view of the connection between the color sensor and the connecting rod in the automatic sorting device for butyronitrile glove production.

Fig. 8 is a schematic connection diagram of the electromagnetic valve and the first connection pipe in the automatic sorting device for butyronitrile glove production.

In the figure: 1. a conveyor belt; 2. a baffle plate; 3. supporting legs; 4. a housing; 5. a stationary ring; 6. a connecting frame; 7. a control box; 8. a control panel; 100. a restrictor plate; 101. a gas showerhead; 102. a connecting rod; 103. an illuminating lamp; 104. a color sensor; 105. a guide plate; 106. a protective shell; 107. a first connecting pipe; 108. an electromagnetic valve; 109. a first air pump; 400. a feed inlet; 401. rotating the bin; 402. a connecting plate; 403. a tooth socket; 404. a connecting disc; 405. a bearing; 406. a motor; 407. a helical gear; 408. a connector; 409. a second connecting pipe; 410. a protective sleeve; 411. a movable plate; 412. a first discharge port; 413. a second discharge port; 444. a second air pump.

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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1, 2, 6, 7 and 8, in the embodiment of the invention, an automatic sorting device for butyronitrile glove production comprises a conveyor belt 1, baffle plates 2 and support legs 3, wherein the baffle plates 2 are fixed at the front end and the rear end of the conveyor belt 1, the number of the support legs 3 is several, the support legs 3 are fixedly connected with the baffle plates 2, the lower ends of the support legs 3 are respectively provided with a shock pad, a current limiting plate 100 is symmetrically arranged above the conveyor belt 1 and between the two baffle plates 2, the current limiting plate 100 is arranged above the conveyor belt 1 in a 'er' shape, a plurality of air nozzles 101 are arranged above the conveyor belt 1, the air nozzles 101 are fixedly connected with the baffle plates 2 at the rear end of the conveyor belt 1, one side of each air nozzle 101 is provided with a connecting rod 102, the connecting rod 102 is connected with the baffle plates 2 at the rear end of the conveyor belt 1, the lower ends of the connecting rods 102 are respectively provided with a color sensor 104, the baffle plates 2 at the front end of the conveyor belt 1 are provided with a plurality of branch ports, the both sides that the front end of baffle 2 is located the reposition of redundant personnel mouth all are equipped with deflector 105, jet head 101 corresponds with the reposition of redundant personnel mouth each other, the rear end of baffle 2 of 1 rear end of conveyer belt is equipped with protective housing 106, the below of protective housing 106 is equipped with first air pump 109, be equipped with coupling hose on the outlet duct of first air pump 109, the rear end of jet head 101 all is equipped with first connecting pipe 107, a plurality of jet heads 101 are connected through coupling hose on first connecting pipe 107 and the first air pump 109 respectively, it all is equipped with solenoid valve 108 to lie in protective housing 106 on a plurality of first connecting pipes 107, the top of conveyer belt 1 is equipped with finishing device, finishing device is located 1 top left side of conveyer belt.

Wherein, one side that the lower extreme of connecting rod 102 is located color sensor 104 all is equipped with light 103, can carry out the light filling for color sensor 104 through light 103 to increase the accuracy of discernment.

The principle of the embodiment is as follows:

put gloves on conveyer belt 1, when gloves advance current limiting plate 100, gloves can be spacing blockked by current limiting plate 100, let gloves can concentrate on the central line of conveyer belt 1, thereby make each gloves can both be in the below of color sensor 104 when passing through color sensor 104 exactly, when gloves pass through color sensor 104, color sensor 104 can discern the gloves, color sensor 104 is when discerning the gloves that correspond the colour, the last jet head 101 of color sensor 104 apart from discerning corresponding colour can start, thereby will discern the gloves of colour and blow out conveyer belt 1, gloves are blown out conveyer belt 1 and then can fall into appointed gloves collection frame after being blown out conveyer belt 1.

Example two:

referring to fig. 1 to 5, the basic difference of embodiment 1 is that the organizing device includes a housing 4, a fixing ring 5 is sleeved on the lower portion of the housing 4, connecting frames 6 are symmetrically disposed on the front and rear ends of the fixing ring 5, the connecting frames 6 are in a telescopic shape, the housing 4 is connected to the baffle 2 through the fixing ring 5 and the connecting frames 6, a feed inlet 400 is disposed on the upper end of the housing 4, a guard door is disposed in the feed inlet 400 on the upper end of the housing 4, the guard door is rotatably connected to the housing 4, a second discharge outlet 413 is disposed on the lower end of the housing 4, a rotating bin 401 is disposed inside the housing 4, the rotating bin 401 is in a circular shape, two connecting plates 402 are sleeved on the outside of the rotating bin 401, the two connecting plates 402 are rotatably connected to the rotating bin 401, the two connecting plates 402 are in an arc shape, grooves are disposed inside the two connecting plates 402, a first discharge outlet 412 is disposed on the lower end of the rotating bin 401, a movable plate 411 is rotatably connected to the rotating bin 401 at a first discharge hole 412, the width of the movable plate 411 is smaller than the width of a groove in the connecting plate 402, tooth grooves 403 are formed in the front end and the rear end of the rotating bin 401, a plurality of teeth are formed in the tooth grooves 403, connectors are arranged at the front end and the rear end of the rotating bin 401 in a penetrating manner, bearings 405 are arranged in the connectors on the bin wall of the rotating bin 401, connecting discs 404 are arranged in the connectors, the connecting discs 404 are rotatably connected with the rotating bin 401 through the bearings 405, one end of each connecting disc 404 close to the inner wall of the shell 4 is connected with the shell 4 through a connecting column, motors 406 are arranged at the front side and the rear side of the rotating bin 401 in the shell 4, the types of the motors 406 are ZD \ Megaloshand 4IK, helical gears 407 are arranged on output shafts of the motors 406, the helical gears 407 are meshed with the teeth in the tooth grooves 403, and a plurality of connectors 408 are arranged at the ends of the two connecting discs 404 far away from each other, the connector 408 all runs through the connection disc 404, the one end of the connector 408 far away from the rotation bin 401 is all provided with a second connection pipe 409, the connector 408 is connected with the second air pump 444 through the second connection pipe 409 respectively, the air outlet pipeline of the second air pump 444 is provided with a shunt pipe, and the second connection pipe 409 is connected with the second air pump 444 through the shunt pipe.

Wherein, the front end of shell 4 is equipped with control box 7, and the inside of control box 7 is equipped with the PLC controller, and the front end of shell 4 still is equipped with control panel 8, can control gloves automatic classification device through mutually supporting of control box 7 and control panel 8, control panel 8 and PLC controller electric connection, and control panel 8's front end is equipped with the touch screen.

Wherein, both sides all are equipped with protective sheath 410 around shell 4, the second connecting pipe 409 that rotates storehouse 401 front end all passes the protective sheath 410 of shell 4 front side and is connected with the second air pump 444 of conveyer belt 1 front side, the second connecting pipe 409 that rotates storehouse 401 rear end all passes the protective sheath 410 of shell 4 rear side and is connected with the second air pump 444 of conveyer belt 1 rear side, can protect second connecting pipe 409 through protective sheath 410, avoid second connecting pipe 409 to damage.

The principle of the embodiment is as follows:

the motor 406 is controlled by the control panel 8 to drive the rotating bin 401 to rotate, so that the first discharge hole 412 rotates to a position right below the feed inlet 400, then the movable plate 411 is opened, gloves are poured into the rotating bin 401, then the second air pump 444 is opened by the control panel 8, meanwhile, the motor 406 is controlled to drive the rotating bin 401 to rotate ceaselessly, the connecting plate 402 can limit the movable plate 411 when the rotating bin 401 rotates, the movable plate 411 is prevented from being opened when the rotating bin 401 does not rotate to a position above the second discharge hole 413, the second air pump 444 can blow into the rotating bin 401 ceaselessly through the second connecting pipe 409 after being started, so that the gloves in the rotating bin 401 are in a dispersed floating state, when the rotating bin 401 rotates to a position above the second discharge hole 413, the movable plate 411 is opened under the action of gravity, and therefore the gloves in the rotating bin 401 fly out of the first discharge hole 412 and the second discharge hole 413 and fall onto the conveyor belt 1, when the gloves fall onto the conveyor belt 1 in the mode, the gloves are in a dispersed state, the gloves are not converged and piled to influence the sorting structure to sort the gloves, and therefore the glove sorting efficiency is improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (3)

1. The utility model provides an automatic classification device is used in butyronitrile gloves production, includes conveyer belt (1), baffle (2) and supporting leg (3), its characterized in that, both ends around conveyer belt (1) are fixed in baffle (2), the top of conveyer belt (1) is located two baffle (2) between the symmetry be equipped with restrictor plate (100), the top of conveyer belt (1) is equipped with a plurality of jet heads (101), and is a plurality of one side of jet head (101) all is equipped with connecting rod (102), the lower extreme of connecting rod (102) all is equipped with color sensor (104), a plurality of diffluence spouts have been seted up on baffle (2) of conveyer belt (1) front end, the both sides that the front end of baffle (2) is located the diffluence spout all are equipped with deflector (105), the rear end of baffle (2) of conveyer belt (1) rear end is equipped with protective housing (106), the below of protective housing (106) is equipped with first air pump (109), a connecting hose is arranged on an air outlet pipe of the first air pump (109), first connecting pipes (107) are arranged at the rear ends of the air nozzles (101), the air nozzles (101) are respectively connected with the connecting hoses on the first air pump (109) through the first connecting pipes (107), electromagnetic valves (108) are arranged on the first connecting pipes (107) and positioned in the protective shell (106), and an arranging device is arranged above the conveyor belt (1);

the sorting device comprises an outer shell (4), a fixing ring (5) is sleeved on the lower portion of the outer shell (4), connecting frames (6) are symmetrically arranged at the front end and the rear end of the fixing ring (5), the outer shell (4) is connected with a baffle (2) through the fixing ring (5) and the connecting frames (6), a feeding hole (400) is formed in the upper end of the outer shell (4), a second discharging hole (413) is formed in the lower end of the outer shell (4), a rotating bin (401) is arranged in the outer shell of the outer shell (4), two connecting plates (402) are sleeved outside the rotating bin (401), grooves are formed in the two connecting plates (402), a first discharging hole (412) is formed in the lower end of the rotating bin (401), and a movable plate (411) is rotationally connected to the rotating bin (401) located in the first discharging hole (412);

protective sleeves (410) are arranged on the front side and the rear side of the shell (4), second connecting pipes (409) at the front end of the rotating bin (401) penetrate through the protective sleeves (410) on the front side of the shell (4) to be connected with a second air pump (444) on the front side of the conveyor belt (1), and second connecting pipes (409) at the rear end of the rotating bin (401) penetrate through the protective sleeves (410) on the rear side of the shell (4) to be connected with the second air pump (444) on the rear side of the conveyor belt (1);

tooth sockets (403) are arranged at the front end and the rear end of the rotating bin (401), a plurality of teeth are arranged in the tooth sockets (403), connectors are arranged at the front end and the rear end of the rotating bin (401) in a penetrating mode, bearings (405) are arranged in the connectors on the bin wall of the rotating bin (401), connecting discs (404) are arranged in the connectors, the connecting discs (404) are rotatably connected with the rotating bin (401) through the bearings (405), and one end, close to the inner wall of the shell (4), of each connecting disc (404) is connected with the shell (4) through a connecting column;

both sides all are equipped with motor (406) around the inside of shell (4) is located rotation storehouse (401), all be equipped with helical gear (407) on the output shaft of motor (406), the tooth meshing in helical gear (407) and tooth's socket (403), two the one end of keeping away from each other of connection pad (404) all is equipped with a plurality of connectors (408), the one end of keeping away from rotation storehouse (401) in connector (408) all is equipped with second connecting pipe (409), connector (408) pass through second connecting pipe (409) and be connected with second air pump (444) respectively.

2. The automatic sorting device for nitrile glove production according to claim 1, wherein the lower ends of the connecting rods (102) are provided with illuminating lamps (103) on one side of the color sensor (104).

3. The automatic sorting device for nitrile glove production according to claim 1, wherein a control box (7) is arranged at the front end of the housing (4), a PLC is arranged inside the control box (7), and a control panel (8) is further arranged at the front end of the housing (4).

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