CN111591613A

CN111591613A - Liquid anti-shake conveyer

Info

Publication number: CN111591613A
Application number: CN202010467049.3A
Authority: CN
Inventors: 苗恩勤
Original assignee: Wenzhou Chunyuan Machinery Technology Co Ltd
Current assignee: Wenzhou Chunyuan Machinery Technology Co Ltd
Priority date: 2020-05-28
Filing date: 2020-05-28
Publication date: 2020-08-28

Abstract

The invention discloses a liquid anti-shake transportation device, which comprises a transportation box body, wherein a transportation cavity with a right opening is formed in the transportation box body, a motor shell with a right opening is arranged on the inner wall on the left side of the transportation cavity, an open motor cavity is formed in the motor shell, a motor is fixedly connected with the inner wall on the left side of the motor cavity, a transmission shaft is arranged at the right end of the motor in a power connection manner, and a swing rod is arranged at the right end of the transmission shaft in a rotating manner. So that the liquid in the long-distance transportation process is always kept stable.

Description

Liquid anti-shake conveyer

Technical Field

The invention relates to the field of intelligent logistics, in particular to a liquid anti-shaking conveying device.

Background

The transportation volume of modern logistics is increased year by year, various problems can occur in the transportation process to cause object damage, particularly, the problems that liquid overflows and even explodes easily when special liquid is transported, and some special liquid needs to keep high stability, so that special devices are needed to store and transport the liquid.

Disclosure of Invention

The embodiment designs a liquid anti-shaking transportation device, which comprises a transportation box body, wherein a transportation cavity with a right opening is formed in the transportation box body, a motor shell is fixedly connected to the inner wall of the left side of the transportation cavity, a motor cavity communicated with the left side and the right side is formed in the motor shell, a motor is fixedly connected to the inner wall of the left side of the transportation cavity, a transmission shaft is arranged at the right end of the motor in a power connection manner, a swing rod is arranged at the right end of the transmission shaft in a rotating manner, the swing rod is rotatably connected with the motor shell, a rotating rod is rotatably arranged at the upper right end of the swing rod, a protection box is fixedly connected to the right end of the rotating rod, a rotating cavity with a right opening is arranged in the protection box, a protection barrel is rotatably arranged in the rotating cavity, a twisting hole with a right opening is arranged in the protection barrel, two electromagnetic guide rails, the electromagnetic guide rail is internally provided with an electromagnetic chute with opposite openings, the electromagnetic chute is internally provided with a sliding plate in a left-right sliding manner, the lower end inner wall of the electromagnetic chute at the upper side is fixedly connected with two upper electromagnetic sheets, the sliding plate is taken as a symmetrical center, the two upper electromagnetic sheets are symmetrical front and back, the electromagnetic chutes at two sides are close to the inner wall at one side, the two lower electromagnetic sheets are symmetrical front and back by taking the sliding plate as a symmetrical center, the lower sides of the front and back ends of the sliding plate are fixedly connected with two lower magnets, the two lower magnets are symmetrical front and back by taking the sliding plate as a symmetrical center, the upper magnet is arranged right above the upper electromagnetic sheet and fixedly connected with the sliding plate, the lower end of the sliding plate is fixedly connected with a heat insulation cylinder with a forward opening, the heat insulation cylinder is fixedly connected with a magnetic cylinder, a semiconductor is arranged in the inflatable cavity in a sliding manner, and a liquid transportation groove with an upward opening is formed in the semiconductor; starting the motor, wherein the motor drives the transmission shaft to rotate, so as to drive the swinging rod to swing around the lower end of the swinging rod, so that the upper end of the swinging rod moves up and down, so as to drive the rotating rod to move up and down, so as to drive the protection box to move up and down, so as to drive the protection cylinder to move up and down, and meanwhile, the protection cylinder rotates around the central axis of the protection box under the action of inertia, so as to counteract the inertia of the protection cylinder to prevent the protection cylinder from rotating around the central axis of the protection box, so as to keep the stability of the semiconductor in; and starting the upper electromagnetic sheet and the lower electromagnetic sheet to drive the upper magnet to move left and right, wherein the lower magnet keeps a certain distance from the upper magnet all the time, and the upper magnet moves to drive the sliding plate to move left and right, so that the stability of the left and right directions of the semiconductor is kept.

Preferably, a left short rod is fixedly connected to the front end of the magnetic cylinder, a cross rod is fixedly connected to the front end of the left short rod, a switch rod is rotatably arranged in the middle of the cross rod, a torsion spring is sleeved outside the switch rod, one end of the torsion spring, which is close to the switch rod, is fixedly connected with the switch rod, and one section of the torsion spring, which is far away from the switch rod, is fixedly connected with the cross rod; the lower end of the switch rod is fixedly connected with a central rod, the front end of the central rod is fixedly connected with a knob, the rear end of the knob is rotatably provided with a lock cover, a lock cavity is formed in the lock cover, six symmetrical rods are arranged in the lock cavity, the six symmetrical rods are distributed in an annular array mode by taking the axis of the lock cavity as a symmetrical center, one end, close to the axis of the lock cavity, of each symmetrical rod is rotatably connected with the central rod, the symmetrical rods are far away from the axis of the lock cavity and rotatably provided with pin keys, the inner wall of the lock cavity is provided with six clamping grooves with openings facing the axis of the lock cavity, and the six clamping grooves are distributed in an annular array mode by taking the central rod as a; push down the break bar, the break bar rotates and then compresses the torsional spring, the break bar front end lapse drives the knob lapse, and then drives the locking closure stretches into in the middle of aerifing the chamber, rotate the knob, the knob rotates and drives well core rod rotates, and then drives the symmetry pole is close to well core rod one end rotates, and then promotes the symmetry pole is to keeping away from well core rod one end removes, and then drives the round key rotation, until the round key stretches into chucking in the middle of the draw-in groove, and then closes aerify the chamber.

Preferably, the symmetrical rod is kept away from well core rod one end and is linked firmly and be equipped with the montant, both ends link firmly around the montant are equipped with two right quarter butt, two the right quarter butt use the montant is symmetry around the centre of symmetry, the right quarter butt is kept away from montant one end with the round pin key is close to well core rod one end links firmly, the round pin key rear end is rotated and is connected and be equipped with the steering column, the steering column rear end with the locking closure links firmly, the symmetry pole is to keeping away from when well core rod one end removes, the symmetry pole promotes the right quarter butt is to keeping away from well core rod one end removes, and then drives the round pin key winds the steering column rotates, and then drives the round pin key stretches into in the middle.

Preferably, the inner wall of the rear side of the magnetic cylinder is provided with an inflation hole which is through from front to back, a valve is fixedly connected in the inflation hole, liquid nitrogen can be injected into the inflation cavity through the valve, the upper end of the inner wall of the transportation box body is fixedly connected with an acceleration sensor, the acceleration sensor is electrically connected with the motor and the upper electromagnetic sheet, and the acceleration sensor can detect acceleration.

The invention has the beneficial effects that: the invention can control the shake and torsion from any direction through the detection data of the sensor, and can conveniently keep enough stability for long distance of some special liquids.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the entire structure of an anti-shake liquid transporter according to the present invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1;

FIG. 3 is an enlarged schematic view of "B" of FIG. 2;

FIG. 4 is an enlarged schematic view of "C" of FIG. 3;

FIG. 5 is a schematic view of the structure in the direction "D-D" of FIG. 3;

FIG. 6 is a schematic view of the structure in the direction "E-E" of FIG. 3;

fig. 7 is an enlarged schematic view of "F" of fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-7, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a liquid anti-shaking transportation device, which comprises a transportation box body 11, wherein a transportation cavity 12 with an opening facing right is arranged in the transportation box body 11, a motor shell 19 is fixedly connected to the inner wall of the left side of the transportation cavity 12, a motor cavity 18 which is communicated with the left and the right is arranged in the motor shell 19, a motor 17 is fixedly connected to the inner wall of the left side of the transportation cavity 12, a transmission shaft 20 is arranged at the right end of the motor 17 in a power connection manner, a swing rod 21 is rotatably arranged at the right end of the transmission shaft 20, the swing rod 21 is rotatably connected with the motor shell 19, a rotating rod 16 is rotatably arranged at the upper right end of the swing rod 21, a protection box 13 is fixedly connected to the right end of the rotating rod 16, a rotating cavity 15 with a right opening is arranged in the protection box 13, a protection barrel 14 is rotatably arranged in the rotating cavity 15, a twisting hole 25 with a right opening is arranged, the two electromagnetic guide rails 24 are vertically symmetrical by taking the central axis of the torsion hole 25 as a symmetrical center, an electromagnetic sliding chute 23 with opposite openings is arranged in each electromagnetic guide rail 24, a sliding plate 22 is arranged in each electromagnetic sliding chute 23 in a left-right sliding manner, two upper electromagnetic sheets 27 are fixedly connected to the inner wall of the lower end of each upper electromagnetic sliding chute 23, the sliding plate 22 is taken as a symmetrical center, the two upper electromagnetic sheets 27 are longitudinally symmetrical, two lower electromagnetic sheets 29 are fixedly connected to the inner wall of one side, close to the sliding plate 22, of each electromagnetic sliding chute 23 on two sides, the two lower electromagnetic sheets 29 are longitudinally symmetrical by taking the sliding plate 22 as a symmetrical center, two lower magnets 30 are fixedly connected to the lower sides of the front end and the rear end of the sliding plate 22, the two lower magnets 30 are longitudinally symmetrical by taking the sliding plate 22 as a symmetrical center, an upper magnet 28 is arranged, the lower end of the sliding plate 22 is fixedly connected with a heat insulation cylinder 35 with a forward opening, a magnetic cylinder 36 is fixedly connected in the heat insulation cylinder 35, an inflation cavity 31 with a forward opening is arranged in the magnetic cylinder 36, a semiconductor 50 is arranged in the inflation cavity 31 in a sliding manner, and a liquid transportation groove 49 with an upward opening is arranged in the semiconductor 50; starting the motor 17, wherein the motor 17 drives the transmission shaft 20 to rotate, so as to drive the oscillating rod 21 to oscillate around the lower end of the oscillating rod, so that the upper end of the oscillating rod 21 moves up and down, so as to drive the rotating rod 16 to move up and down, so as to drive the protection box 13 to move up and down, so as to drive the protection cylinder 14 to move up and down, and meanwhile, the protection cylinder 14 rotates around the central axis of the protection box 13 under the action of inertia, so as to counteract the inertia of the protection cylinder 14 to prevent the protection cylinder 14 from rotating around the central axis of the protection box 13, so as to keep the stability of the semiconductor 50 in; the upper electromagnet sheet 27 and the lower electromagnet sheet 29 are started to drive the upper magnet 28 to move left and right, the lower magnet 30 keeps a certain distance between the upper magnet 22 and the lower magnet sheet 29, and the upper magnet 28 moves to drive the sliding plate 22 to move left and right, so that the stability of the left and right directions of the semiconductor 50 is kept.

Beneficially, the front end of the magnetic cylinder 36 is fixedly connected with a left short rod 34, the front end of the left short rod 34 is fixedly connected with a cross rod 48, the middle of the cross rod 48 is rotatably provided with a switch rod 32, a torsion spring 47 is sleeved outside the switch rod 32, one end of the torsion spring 47 close to the switch rod 32 is fixedly connected with the switch rod 32, and a section of the torsion spring 47 far away from the switch rod 32 is fixedly connected with the cross rod 48; a central rod 37 is fixedly connected to the lower end of the switch rod 32, a knob 33 is fixedly connected to the front end of the central rod 37, a lock cover 44 is rotatably arranged at the rear end of the knob 33, a lock cavity 43 is formed in the lock cover 44, six symmetric rods 39 are arranged in the lock cavity 43, the six symmetric rods 39 are distributed in an annular array by taking the axis of the lock cavity 43 as a symmetric center, one end, close to the axis of the lock cavity 43, of each symmetric rod 39 is rotatably connected with the central rod 37, the symmetric rod 39 is rotatably provided with a pin key 41 by being far away from the axis of the lock cavity 43, six clamping grooves 40 with openings facing the axis of the lock cavity 43 are formed in the inner wall of the lock cavity 43, and the six clamping grooves 40 are distributed in an annular array by taking the central rod 37 as a symmetric; push down switch lever 32, switch lever 32 rotates and then compresses torsional spring 47, switch lever 32 front end downstream drives knob 33 downstream, and then drives locking closure 44 stretches into in the middle of aerifing the chamber 31, rotate knob 33, knob 33 rotates the drive well core rod 37 rotates, and then drives symmetrical pole 39 is close to well core rod 37 one end is rotated, and then promotes symmetrical pole 39 is to keeping away from well core rod 37 one end removes, and then drives the round key 41 rotation, until round key 41 stretches into draw-in groove 40 is chucking in, and then closes aerify chamber 31.

Beneficially, one end of the symmetric rod 39, which is far away from the central rod 37, is fixedly connected with a vertical rod 46, two right short rods 45 are fixedly connected with the front end and the rear end of the vertical rod 46, the two right short rods 45 are symmetrical with the vertical rod 46 as a symmetrical center, the right short rod 45 is far away from one end of the vertical rod 46 and is close to the pin key 41, one end of the central rod 37 is fixedly connected, the rear end of the pin key 41 is rotatably connected with a steering rod 42, the rear end of the steering rod 42 is fixedly connected with the lock cover 44, when the symmetric rod 39 moves towards the end far away from the central rod 37, the symmetric rod 39 pushes the right short rod 45 to move towards the end far away from the central rod 37, so as to drive the pin key 41 to rotate around the steering rod 42, and further drive the pin key 41 to extend.

Beneficially, magnetic cylinder 36 rear side inner wall is opened and is had the hole 51 of aerifing that link up around, it is equipped with valve 52 to link firmly in the hole 51 of aerifing, through valve 52 can to inject the liquid nitrogen in the gas charging chamber 31, transportation box 11 inner wall upper end links firmly and is equipped with acceleration sensor 53, acceleration sensor 53 with motor 17 go up electromagnetic sheet 27 electric connection, and acceleration sensor 53 can detect the acceleration.

The following will describe in detail the use steps of a liquid anti-shake transport device herein with reference to fig. 1 to 7: initially, the swing lever 21 is at the center of the transportation chamber 12, the torsion spring 47 is in a normal state, the knob 33 and the center lever 37 are at the uppermost limit position, the lower end of the switch lever 32 is at the uppermost limit position, and the semiconductor 50 is in a horizontal state.

When the device is used, after liquid is placed in the liquid transportation groove 49, the switch rod 32 is pressed downwards, the switch rod 32 rotates to compress the torsion spring 47, the front end of the switch rod 32 moves downwards to drive the knob 33 to move downwards so as to drive the lock cover 44 to extend into the inflation cavity 31, the knob 33 rotates to drive the central rod 37 to rotate, the end, close to the central rod 37, of the symmetrical rod 39 is driven to rotate, the end, far away from the central rod 37, of the symmetrical rod 39 is driven to move, the pin key 41 is driven to rotate until the pin key 41 extends into the clamping groove 40 to be clamped tightly, and the inflation cavity 31 is closed; liquid nitrogen is injected into the inflation cavity 31 through a valve 52 in the inflation hole 51, and the semiconductor 50 generates magnetic force to be suspended in the inflation cavity 31 and the inflation cavity 31; when the acceleration sensor 53 detects an acceleration in a vertical direction, the protection box 13 moves up and down under the action of self inertia and the pulling force of the oscillating rod 21, so that the upper end of the oscillating rod 21 is driven to move up and down, the oscillating rod 21 is driven to rotate around the transmission shaft 20, the transmission shaft 20 is driven to rotate, meanwhile, the protection box 13 moves up and down to drive the protection cylinder 14 to move up and down, and the protection cylinder 14 rotates around the central axis of the protection box 13 under the action of self inertia; starting the motor 17, wherein the motor 17 drives the transmission shaft 20 to rotate, so as to drive the oscillating rod 21 to oscillate around the lower end of the oscillating rod, so as to drive the upper end of the oscillating rod 21 to move up and down, so as to drive the rotating rod 16 to move up and down, so as to drive the protection box 13 to move up and down, so as to drive the protection cylinder 14 to move up and down, and meanwhile, the protection cylinder 14 rotates around the central axis of the protection box 13 under the action of inertia, so that the self inertia of the protection cylinder 14 is counteracted to prevent the protection cylinder 14 from rotating around the central axis of the protection box 13, so; when the acceleration sensor 53 detects acceleration in the front-rear direction, the protection box 13 moves left and right under the action of self inertia and the pulling force of the swinging rod 21, so that the protection box 13 is driven to move left and right, the swinging rod 21 is driven to rotate around the transmission shaft 20, meanwhile, the protection box 13 moves up and down to drive the protection cylinder 14 to move up and down, and the protection cylinder 14 rotates around the central axis of the protection box 13 under the action of self inertia; starting the motor 17, wherein the motor 17 drives the transmission shaft 20 to rotate, further drives the oscillating rod 21 to oscillate around the lower end of the oscillating rod, further drives the upper end of the oscillating rod 21 to move up and down, further drives the rotating rod 16 to move up and down, further drives the protection box 13 to move up and down, further drives the protection cylinder 14 to move up and down, and meanwhile, the protection cylinder 14 rotates around the central axis of the protection box 13 under the action of inertia, further counteracts the inertia of the protection cylinder 14 to prevent the protection cylinder 14 from rotating around the central axis of the protection box 13, further keeps the stability of the protection cylinder 14 in the horizontal direction; when the transportation box body 11 rotates around the central axis of the protection box 13, the upper end of the swing rod 21 is kept still under the action of self inertia, when the transportation box body 11 stops rotating suddenly, the swing rod 21 rotates around the transmission shaft 20 under the action of self inertia, the motor 17 is started, the transmission shaft 20 is rotated slowly, the self inertia of the swing rod 21 is counteracted step by step, the stability of the swing rod 21 is kept, and the stability of the semiconductor 50 is kept; when the acceleration sensor 53 detects an acceleration in a horizontal direction, the sliding plate 22, the heat insulation cylinder 35, the magnetic cylinder 36, and the semiconductor 50 move left and right under the action of their own inertia, at this time, the upper electromagnetic sheet 27 and the lower electromagnetic sheet 29 are started, the current is gradually increased, the upper magnet 28 gradually decelerates under the action of the upper electromagnetic sheet 27 and stops, the upper magnet 27 is continuously driven, the upper magnet 28 is further driven to return to the middle position of the upper magnet sheet 27, the upper magnet 28 moves to drive the sliding plate 22 to move, the heat insulation cylinder 35 and the magnetic cylinder 36 to move, and the semiconductor 50 is further driven to move, the semiconductor 50 is driven to decelerate after decelerating by the upper magnet 28 and stops, the upper magnet 28 returns to the middle position of the upper magnet sheet 27 to drive the semiconductor 50 to return to the.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims

1. The utility model provides a liquid anti-shake conveyer which characterized in that: the transportation box comprises a transportation box body, wherein a transportation cavity with a right opening is formed in the transportation box body, a motor shell is fixedly connected to the inner wall of the left side of the transportation cavity, a motor cavity which is communicated from left to right is formed in the motor shell, a motor is fixedly connected to the inner wall of the left side of the transportation cavity, a transmission shaft is arranged at the right end of the motor in a power connection mode, a swinging rod is arranged at the right end of the transmission shaft in a rotating mode, the swinging rod is rotatably connected with the motor shell, a rotating rod is rotatably arranged at the upper right end of the swinging rod, a protection box is fixedly connected to the right end of the rotating rod, a rotating cavity with a right opening is formed in the protection box, a protection barrel is rotatably arranged in the rotating cavity, a twisting hole with a right opening is formed in the protection barrel, two electromagnetic guide rails are fixedly connected to the inner walls of the upper end and, a sliding plate is arranged in the electromagnetic sliding chute in a left-right sliding manner, two upper electromagnetic sheets are fixedly connected to the inner wall of the lower end of the electromagnetic sliding chute on the upper side, the two upper electromagnetic sheets are symmetrical front and back by taking the sliding plate as a symmetrical center, two lower electromagnetic sheets are fixedly connected with the electromagnetic chutes at two sides close to the inner wall at one side, the two lower electromagnetic sheets are symmetrical front and back by taking the sliding plate as a symmetrical center, two lower magnets are fixedly connected with the lower sides of the front and the rear ends of the sliding plate, the two lower magnets are symmetrical front and back by taking the sliding plate as a symmetrical center, an upper magnet is arranged right above the upper electromagnetic sheet and fixedly connected with the sliding plate, a heat insulation cylinder with a forward opening is fixedly connected at the lower end of the sliding plate, the heat insulation device is characterized in that a magnetic cylinder is fixedly connected in the heat insulation cylinder, an inflation cavity with a forward opening is arranged in the magnetic cylinder, a semiconductor is arranged in the inflation cavity in a sliding mode, and a liquid transportation groove with an upward opening is arranged in the semiconductor.

2. A liquid anti-shake transport apparatus as defined in claim 1, wherein: the front end of the magnetic cylinder is fixedly connected with a left short rod, the front end of the left short rod is fixedly connected with a cross rod, the middle part of the cross rod is rotatably provided with a switch rod, the switch rod is sleeved with a torsion spring, one end of the torsion spring, which is close to the switch rod, is fixedly connected with the switch rod, and one section of the torsion spring, which is far away from the switch rod, is fixedly connected with the cross rod; the utility model discloses a lock, including switch lever, lock chamber axle center, lock chamber, pin key, six openings, lock intracavity wall is equipped with six openings to the draw-in groove in lock chamber axle center, six the draw-in groove with well core rod is annular array and distributes for the center of symmetry.

3. A liquid anti-shake transport apparatus as claimed in claim 2, wherein: the symmetrical rod is far away from well core rod one end and links firmly and is equipped with the montant, both ends link firmly around the montant are equipped with two short bars on the right side, two the short bar on the right side use the montant is symmetry center longitudinal symmetry, the short bar on the right side is kept away from montant one end with the pin key is close to well core rod one end links firmly, the pin key rear end is rotated and is connected and is equipped with the steering column, the steering column rear end with the locking closure links firmly.

4. A liquid anti-shake transport apparatus as defined in claim 1, wherein: the inner wall of the rear side of the magnetic cylinder is provided with an inflation hole which is through from front to back, a valve is fixedly connected in the inflation hole, liquid nitrogen can be injected into the inflation cavity through the valve, the upper end of the inner wall of the transportation box body is fixedly connected with an acceleration sensor, and the acceleration sensor is electrically connected with the motor and the upper electromagnetic sheet.