CN215158918U - Transfer equipment based on food vacuum packaging - Google Patents

Abstract

The utility model discloses a transshipment equipment based on food vacuum packaging, including the outrigger, the transportation frame is installed at the top of outrigger, and the inboard mid-mounting of transportation frame has the conveying mechanism, and the slewing mechanism is installed to top one side of transportation frame, and the conveying mechanism includes transport plate, connecting rod, slide bar, first gear, second gear and semi-gear, and the both sides of transport plate are located the inside central point department of transportation frame, and one side below fixed mounting of transport plate has the connecting rod, and the one end fixedly connected with slide bar of connecting rod, and the meshing of the top and bottom of slide bar is connected with the semi-gear; the utility model discloses an inside conveying mechanism that sets up of transportation frame because conveying mechanism is the back and forth movement in the inside of transportation frame, can transport assigned position with food from a department, with food after placing the assigned position, continue to transport, so back and forth transport has practiced thrift the flow finish time of whole transportation to manpower resources has been practiced thrift, work efficiency has been improved.

Description

Transfer equipment based on food vacuum packaging

Technical Field

The utility model relates to a transfer apparatus technical field specifically is a transfer apparatus based on food vacuum packaging.

Background

The vacuum packaging is to completely pump out and seal the air in the packaging container, maintain the food in a highly decompressed state in the bag, and the air rarity is equivalent to a low oxygen effect, so that the microorganisms have no living condition, thereby achieving the purpose of fresh fruit and no disease and rot, therefore, the food needs to be vacuum packaged, and transported or stored in other places where the vacuum packaging needs to be carried out.

The existing transfer equipment for vacuum packaging of food has the following defects:

1. the current transfer equipment of food vacuum packaging needs the staff to take off food one by one and put the assigned position with food transportation to assigned position department to the work efficiency that reduces, and wasted manpower resources.

2. Current food vacuum packaging's transshipment equipment is mainly including bearing the bracket, and the bearing frame can be because staff's the improper operation road surface at ordinary times at the in-process of transporting food, and the bearing bracket can take place the skew to the landing of food appears easily, causes food vacuum packaging's damage.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a transshipment equipment based on food vacuum packaging to solve the problem that above-mentioned background art provided.

In order to achieve the above object, the utility model provides a following technical scheme: a transfer device based on food vacuum packaging comprises an outer frame, wherein a transport frame is mounted at the top of the outer frame, a transfer mechanism is mounted in the middle of the inner side of the transport frame, and a rotating mechanism is mounted on one side of the top of the transport frame;

the conveying mechanism comprises a conveying plate, a connecting rod, a sliding rod, a first gear, a second gear and a half gear, wherein two sides of the conveying plate are positioned at the central position inside the conveying frame, the connecting rod is fixedly arranged below one side of the conveying plate, one end of the connecting rod is fixedly connected with the sliding rod, the upper part and the lower part of the sliding rod are meshed with the half gear, the second gear is arranged on the rear side of the central position of the half gear, the first gear is meshed between the two groups of the second gears, and the rear end of the first gear is fixedly connected with the output end of a second motor through a rotating shaft;

slewing mechanism installs the axostylus axostyle including upper bracket, axostylus axostyle and plectrum at the interior top of upper bracket, and the surface mounting of axostylus axostyle has the plectrum, and first motor is installed on upper bracket one side top, and the one end fixed connection of the output of first motor through connection axostylus axostyle of pivot.

Preferably, the intelligent control ware is installed on one side top of outrigger, and the surperficial central point department of putting of intelligent control ware sets up a set of control button, and the bottom of intelligent control ware is connected with the plug through the wire, and the intelligent control ware passes through the wire respectively with first motor and second motor electric connection.

Preferably, the draw-in groove has been seted up to the inside of transportation frame, and transportation frame bottom is close to left side position department fixedly connected with protective housing, and the protective housing has seted up first sliding tray near one side of connecting rod, and the transversal "L" type structure of personally submitting of connecting rod, and the inside and the slide bar fixed connection of protective housing are inserted through first sliding tray to the connecting rod, and the protective housing keeps away from one side of connecting rod and has seted up the second sliding tray, and the second sliding tray is corresponding with the slide bar.

Preferably, the size of the first sliding groove is smaller than that of the second sliding groove, the first sliding groove is larger than that of the connecting rod, and the second sliding groove is larger than that of the sliding rod.

Preferably, the upper end and the lower end of the sliding rod are provided with saw-toothed structures, the half gear is meshed with the sliding rod and is fixedly connected with the inner wall of the protective shell through a rotating shaft at the central position of the half gear and the second gear, the second motor is fixed on the inner wall of the protective shell, and the half gear and the second gear are arranged in an up-and-down symmetrical mode relative to the sliding rod.

Preferably, the shifting piece is arranged in an up-and-down symmetrical mode relative to the shaft rod, and the size of the shifting piece is matched with the size of the interior of the transportation frame.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a slewing mechanism that transportation frame top set up, after the inside conveying mechanism of transportation frame transported food to the assigned position, drove the rotation that the axostylus axostyle drove the plectrum through the motor, the plectrum takes off food from the top of transport plate, need not the material of going of artifical hand, labour saving and time saving to production efficiency has been improved.

2. The utility model discloses an inside conveying mechanism that sets up of transportation frame because conveying mechanism is the back and forth movement in the inside of transportation frame, can transport assigned position with food from a department, with food after placing the assigned position, continue to transport, so back and forth transport has practiced thrift the flow finish time of whole transportation to manpower resources has been practiced thrift, work efficiency has been improved.

Drawings

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

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

FIG. 3 is a schematic top view of the cross-sectional structure of the present invention;

fig. 4 is an enlarged view of a portion a in fig. 2 according to the present invention.

In the figure: 1. an outer frame; 101. a transport rack; 102. a protective shell; 103. a first sliding groove; 104. a second sliding groove; 2. a conveying mechanism; 201. a transport plate; 202. a connecting rod; 203. a slide bar; 204. a first gear; 205. a second gear; 206. a half gear; 3. a rotating mechanism; 301. an upper bracket; 302. a shaft lever; 303. a shifting sheet; 4. a first motor; 5. a second motor; 6. an intelligent controller; 601. a control button; 602. and (4) a plug.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a transferring device based on food vacuum packaging comprises an outer frame 1, wherein a transporting frame 101 is installed at the top of the outer frame 1, a transporting mechanism 2 is installed in the middle of the inner side of the transporting frame 101, and a rotating mechanism 3 is installed on one side of the top of the transporting frame 101;

the conveying mechanism 2 comprises a conveying plate 201, a connecting rod 202, a sliding rod 203, a first gear 204, a second gear 205 and a half gear 206, wherein two sides of the conveying plate 201 are located at the central position inside the conveying frame 101, the connecting rod 202 is fixedly installed below one side of the conveying plate 201, one end of the connecting rod 202 is fixedly connected with the sliding rod 203, the upper part and the lower part of the sliding rod 203 are in meshed connection with the half gear 206, the second gear 205 is installed on the rear side of the central position of the half gear 206, the first gear 204 is in meshed connection between the two groups of the second gears 205, and the rear end of the first gear 204 is fixedly connected with the output end of the second motor 5 through a rotating shaft;

the rotating mechanism 3 comprises an upper support 301, a shaft lever 302 and a shifting piece 303, the shaft lever 302 is installed at the inner top of the upper support 301, the shifting piece 303 is installed on the surface of the shaft lever 302, a first motor 4 is installed at the outer top end of one side of the upper support 301, and the output end of the first motor 4 is connected with one end of the shaft lever 302 in a penetrating manner;

specifically, as shown in fig. 1 and fig. 2, when the apparatus is used, firstly, the external frame 1 is placed at a designated position, the food packaged in vacuum is placed above the surface of the transport plate 201, the second motor 5 is started, the second motor 5 drives the first gear 204 to rotate, the first gear 204 drives the second gear 205 and the half gear 206 to rotate, the second gear 205 is symmetrically arranged at the upper end and the lower end of the first gear 204, the rotation direction of the second gear 205 at the upper end and the lower end is opposite, the half gear 206 is engaged with the saw-toothed structure of the slide rod 203, when the half gear 206 above the slide rod 203 is engaged with the slide rod 203, the slide rod 203 is driven to move forward, so as to drive the transport plate 201 to move in the direction of the rotating mechanism 3 in the interior of the transport frame 101, the control button 601 in the intelligent controller 6 is pressed to start the first motor 4, the shaft lever 302 is driven to rotate by the first motor 4, thereby driving the shifting piece 303 to rotate, taking the vacuum packaged food from the transportation plate 201 under the rotation of the shifting piece 303, when the half gear 206 is disengaged from the sliding rod 203, the half gear 206 below is engaged with the sliding rod 203 to drive the sliding rod 203 to move backwards, thereby driving the transportation plate 201 to move in the opposite direction of the rotating mechanism 3 in the transportation frame 101, and carrying out the transportation of the vacuum food again.

Further, an intelligent controller 6 is mounted at the top end of one side of the outer frame 1, a group of control buttons 601 is arranged at the center position of the surface of the intelligent controller 6, the bottom end of the intelligent controller 6 is connected with a plug 602 through a wire, and the intelligent controller 6 is electrically connected with the first motor 4 and the second motor 5 through wires respectively;

specifically, as shown in fig. 1 and 2, the plug 602 is connected to an external power source to energize the first motor 4 and the second motor 5, and the control button 601 is provided to externally control the on/off of the first motor 4 and the second motor 5.

Further, a clamping groove is formed in the transportation frame 101, the protective shell 102 is fixedly connected to the position, close to the left side, of the bottom of the transportation frame 101, a first sliding groove 103 is formed in one side, close to the connecting rod 202, of the protective shell 102, the cross section of the connecting rod 202 is of an L-shaped structure, the connecting rod 202 is inserted into the protective shell 102 through the first sliding groove 103 and is fixedly connected with the sliding rod 203, a second sliding groove 104 is formed in one side, away from the connecting rod 202, of the protective shell 102, and the second sliding groove 104 corresponds to the sliding rod 203;

specifically, as shown in fig. 1 and 2, the protective shell 102 is installed at the bottom of the transportation frame 101, so that the parts inside the protective shell 102 are prevented from being exposed to dust for a long time, and the transportation plate 201 is arranged to drive the transportation plate 201 to move back and forth inside the transportation frame 101 to convey the vacuum-packaged food.

Further, the size of the first sliding groove 103 is smaller than that of the second sliding groove 104, the first sliding groove 103 is larger than that of the connecting rod 202, and the size of the second sliding groove 104 is larger than that of the sliding rod 203;

specifically, as shown in fig. 1 and 2, the first sliding groove 103 is provided to facilitate the sliding of the connecting rod 202 inside the protective shell 102, and the second sliding groove 104 is provided to facilitate the sliding of the sliding rod 203 back and forth inside the protective shell 102.

Furthermore, the upper end and the lower end of the sliding rod 203 are provided with saw-toothed structures, a half gear 206 is meshed with the sliding rod 203, the central positions of the half gear 206 and the second gear 205 are fixedly connected with the inner wall of the protective shell 102 through a rotating shaft, the second motor 5 is fixed on the inner wall of the protective shell 102, and the half gear 206 and the second gear 205 are arranged in an up-and-down symmetrical manner relative to the sliding rod 203;

specifically, as shown in fig. 4, the slide rod 203, the first gear 204, the second gear 205, and the half gear 206 are provided to provide a power source for the reciprocating movement of the conveyor 2.

Further, the poking pieces 303 are arranged up and down symmetrically about the shaft rod 302, and the size of the poking pieces 303 is matched with the size of the inside of the transportation frame 101;

specifically, as shown in fig. 1 and 2, the setting of the poking sheet 303 can take the vacuum-packed food off the surface of the transport plate 201, thereby saving human resources.

The working principle is as follows: as shown in fig. 1, 2 and 3, when the device is used, the external frame 1 is firstly placed at a designated position, the plug 602 is connected with an external power source, then the vacuum-packed food is placed above the surface of the transport plate 201, the second motor 5 is started by pressing the control button 601 inside the intelligent controller 6, the second motor 5 drives the first gear 204 to rotate, so as to drive the second gear 205 and the half gear 206 to rotate, because the second gear 205 is symmetrically arranged at the upper end and the lower end of the first gear 204, the rotating direction of the second gear 205 at the upper end and the lower end is opposite, because the half gear 206 is meshed with the saw-toothed structure of the sliding rod 203, under the drive of the first gear 204, when the half gear 206 above the sliding rod 203 is meshed with the sliding rod 203, the sliding rod 203 is driven to move forward, so as to drive the transport plate 201 to move towards the direction of the rotating mechanism 3 inside the transport frame 101, press the inside control button 601 of intelligent control ware 6 and start first motor 4, drive axostylus axostyle 302 by first motor 4 and rotate, thereby it rotates to drive plectrum 303, take off vacuum packaging's food from transport plate 201 under the rotation of plectrum 303, when half gear 206 breaks away from with slide bar 203, then half gear 206 and the meshing of slide bar 203 of below, drive slide bar 203 rearward movement, thereby it removes to the opposite direction of slewing mechanism 3 in the inside of transport frame 101 to drive transport plate 201, carry out the transportation of vacuum food again, so round trip transportation, the flow completion time of whole transportation has been practiced thrift, thereby manpower resources have been practiced thrift, and the work efficiency is improved.

Those not described in detail in this specification are within the skill of the art.

The utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the description with the record of drawing of description, and the concrete connection mode of each part all adopts conventional means such as ripe bolt, rivet, welding among the prior art, and machinery, part and equipment all adopt prior art, and conventional model, including circuit connection adopts conventional connection mode among the prior art, does not detailed here again.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. A transshipment equipment based on food vacuum packaging, includes outrigger (1), its characterized in that: the top of the outer frame (1) is provided with a transport frame (101), the middle part of the inner side of the transport frame (101) is provided with a conveying mechanism (2), and one side of the top of the transport frame (101) is provided with a rotating mechanism (3);

the conveying mechanism (2) comprises a conveying plate (201), a connecting rod (202), a sliding rod (203), a first gear (204), a second gear (205) and a half gear (206), wherein two sides of the conveying plate (201) are located at the inner center position of the conveying frame (101), the connecting rod (202) is fixedly installed below one side of the conveying plate (201), one end of the connecting rod (202) is fixedly connected with the sliding rod (203), the upper side and the lower side of the sliding rod (203) are connected with the half gear (206) in a meshed mode, the second gear (205) is installed on the rear side of the center position of the half gear (206), the first gear (204) is connected between two groups of the second gears (205) in a meshed mode, and the rear end of the first gear (204) is fixedly connected with the output end of the second motor (5) through a rotating shaft;

slewing mechanism (3) are including upper bracket (301), axostylus axostyle (302) and plectrum (303), axostylus axostyle (302) are installed to the interior top of upper bracket (301), and the surface mounting of axostylus axostyle (302) has plectrum (303), first motor (4) are installed on upper bracket (301) one side top, and the output of first motor (4) passes through the one end fixed connection of pivot and axostylus axostyle (302).

2. The food vacuum packaging-based transfer device of claim 1, wherein: intelligent control ware (6) are installed on one side top of outrigger (1), and the surperficial central point department of putting of intelligent control ware (6) sets up a set of control button (601), and the bottom of intelligent control ware (6) is connected with plug (602) through the wire, and intelligent control ware (6) through the wire respectively with first motor (4) and second motor (5) electric connection.

3. The food vacuum packaging-based transfer device of claim 1, wherein: the inside of transportation frame (101) has seted up the draw-in groove, and transportation frame (101) bottom is close to left side position department fixedly connected with protective housing (102), and protective housing (102) are close to one side of connecting rod (202) and have seted up first sliding tray (103), the transversal "L" type structure of personally submitting of connecting rod (202), and the inside and slide bar (203) fixed connection of protective housing (102) are inserted through first sliding tray (103) to connecting rod (202), and one side that connecting rod (202) were kept away from in protective housing (102) has seted up second sliding tray (104), and second sliding tray (104) and slide bar (203) are corresponding.

4. The food vacuum packaging-based transfer device of claim 3, wherein: the size of the first sliding groove (103) is smaller than that of the second sliding groove (104), the first sliding groove (103) is larger than that of the connecting rod (202), and the size of the second sliding groove (104) is larger than that of the sliding rod (203).

5. The food vacuum packaging-based transfer device of claim 1, wherein: the upper end and the lower end of the sliding rod (203) are provided with saw-toothed structures, the half gear (206) is meshed with the sliding rod (203) and is fixedly connected with the inner wall of the protective shell (102) through a rotating shaft at the central position of the half gear (206) and the second gear (205), the second motor (5) is fixed on the inner wall of the protective shell (102), and the half gear (206) and the second gear (205) are arranged in a mode of being symmetrical up and down relative to the sliding rod (203).

6. The food vacuum packaging-based transfer device of claim 1, wherein: the poking pieces (303) are arranged in an up-and-down symmetrical mode relative to the shaft rod (302), and the size of the poking pieces (303) is matched with the size of the interior of the transportation frame (101).

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