CN211592362U - Refrigerator car equipment of getting goods based on touch-sensitive screen - Google Patents

Abstract

The utility model relates to a refrigerator car field, concretely relates to goods equipment is got to refrigerator car based on touch-sensitive screen, including the connecting rod of cold-stored railway carriage or compartment, loading base, portable region, folding door, touch-sensitive screen equipment, floor, refrigerating unit, fretwork region, track, displacement sensor and installation displacement controller. The utility model provides a goods equipment is got to refrigerator car based on touch-sensitive screen places the goods in the loading base, and the loading base then installs on the track, controls the loading base through the displacement controller on the connecting rod of touch-sensitive screen equipment, displacement sensor and installation displacement controller to the goods that will uninstall remove to oneself in front, reduced the degree of difficulty of getting goods effectively, get the optimization of goods mode for the refrigerator car and provide a new thinking.

Description

Refrigerator car equipment of getting goods based on touch-sensitive screen

Technical Field

The utility model relates to a refrigerator car field, concretely relates to goods equipment is got to refrigerator car based on touch-sensitive screen.

Background

Refrigerated vehicles are a very common mode of transportation for storing and transporting frozen foods. During transportation, the transported goods may not be transported to the same place completely, so that the goods need to be unloaded for many times, and meanwhile, the refrigerating unit cannot be closed, thereby causing great waste of cold air in the refrigerating compartment. Meanwhile, goods needing to be unloaded are sometimes difficult to take, time consumption is long when the goods are unloaded, and energy consumption of the refrigerating unit is increased indirectly. Therefore, the goods placing and unloading mode in the refrigerator car is optimized, the energy consumption of the refrigerating unit in the refrigerator car is saved, and the energy-saving effect is achieved.

Disclosure of Invention

An object of the utility model is to provide a goods equipment is got to refrigerator car based on touch-sensitive screen places the goods on the base of unified specification, and the pedestal mounting is on the track to combine touch-sensitive screen equipment, through carrying out the input of instruction to touch-sensitive screen equipment, come to adjust the position of placing of goods, thereby remove the goods to the place that needs to arrive, reduce the degree of difficulty of getting goods and get long time of goods.

In order to achieve the above object, one embodiment of the present invention provides a refrigerator car pickup device based on a touch screen, which includes a refrigerator compartment, a loading base, a movable region, a folding door, a touch screen device, a floor, a refrigerating unit, a hollow region, a track, a displacement sensor, and a connecting rod for installing a displacement controller; the loading base comprises a first loading base, a second loading base, a third loading base, a fourth loading base, a fifth loading base, a sixth loading base, a seventh loading base, an eighth loading base, a ninth loading base, a tenth loading base, an eleventh loading base, a twelfth loading base, a thirteenth loading base, a fourteenth loading base, a fifteenth loading base, a sixteenth loading base, a seventeenth loading base, an eighteenth loading base, a nineteenth loading base, a twentieth loading base, a twenty-first loading base and a twenty-second loading base; the movable region comprises a first movable region and a second movable region; the folding door comprises a first folding door and a second folding door; the floor comprises a first floor and a second floor; the track comprises a first track and a second track; the displacement sensors comprise a first displacement sensor, a second displacement sensor, a third displacement sensor, a fourth displacement sensor, a fifth displacement sensor, a sixth displacement sensor, a seventh displacement sensor, an eighth displacement sensor, a ninth displacement sensor, a tenth displacement sensor, an eleventh displacement sensor, a twelfth displacement sensor, a thirteenth displacement sensor, a fourteenth displacement sensor, a fifteenth displacement sensor, a sixteenth displacement sensor, a seventeenth displacement sensor, an eighteenth displacement sensor, a nineteenth displacement sensor, a twentieth displacement sensor, a twenty-first displacement sensor, a twenty-second displacement sensor and a twenty-fourth displacement sensor of the twenty-third displacement sensor; the connecting rods of the mounting displacement controllers are connected below the corresponding loading bases; the first loading base, the second loading base, the third loading base, the fourth loading base, the fifth loading base, the sixth loading base, the seventh loading base, the eighth loading base, the ninth loading base, the tenth loading base and the eleventh loading base are first assembly loading bases; the twelfth loading base, the thirteenth loading base, the fourteenth loading base, the fifteenth loading base, the sixteenth loading base, the seventeenth loading base, the eighteenth loading base, the nineteenth loading base, the twentieth loading base, the twenty-first loading base and the twenty-second loading base are second assembly loading bases; the first displacement sensor, the second displacement sensor, the third displacement sensor, the fourth displacement sensor, the fifth displacement sensor, the sixth displacement sensor, the seventh displacement sensor, the eighth displacement sensor, the ninth displacement sensor, the tenth displacement sensor, the eleventh displacement sensor and the twelfth displacement sensor are a first group of displacement sensors; a thirteenth displacement sensor, a fourteenth displacement sensor, a fifteenth displacement sensor, a sixteenth displacement sensor, a seventeenth displacement sensor, an eighteenth displacement sensor, a nineteenth displacement sensor, a twentieth displacement sensor, a twenty-first displacement sensor, a twentieth displacement sensor, a twenty-third displacement sensor and a twenty-fourth displacement sensor are a second group of displacement sensors; the refrigeration compartment is divided into 2-3 layers; the loading bases are consistent in specification, the bottom surface of each loading base is square, and the loading bases are arranged on the floor of each layer of the refrigeration compartment in a rectangular array mode; 1 movable area is reserved at the arrangement position of the loading base of each layer; a folding door is arranged inside the refrigeration compartment and close to the rear side of the refrigeration compartment; a touch screen device is arranged on the left side of the interior of the refrigeration compartment and close to the refrigeration compartment side; a refrigerating unit is arranged in the middle of the top of the front side of the refrigerating compartment inside the refrigerating compartment; the floor of 1 layer of the refrigeration compartment is not hollowed; performing hollow-out treatment on 2-3 layers of floors of the refrigeration compartment; installing a track for moving the loading base in the floor of each layer of the refrigeration compartment, and connecting the loading base with the track through a connecting rod provided with a displacement controller; a displacement sensor is arranged on the track, the touch screen equipment sends a control signal to a connecting rod provided with the displacement controller, the connecting rod provided with the displacement controller responds to the signal and executes an instruction, and the displacement sensor feeds the signal back to the touch screen equipment; when a connecting rod provided with a displacement controller responds to a signal execution instruction, the touch screen equipment is self-locked for 3 seconds; the loading base is only moved between positions where the displacement sensors are mounted.

Preferably, the loading base is made of an aluminum alloy material.

Optionally, the height of the loading base is 20% -50% of the side length of the bottom surface.

Preferably, 2 folding doors with the same specification are symmetrically installed.

Preferably, the hollowed-out area is arranged on a floor of 2-3 layers in the refrigerating compartment, and the hollowed-out area is located below the refrigerating unit.

Preferably the tracks are in the form of right angle tracks, forming a rectangular array.

Preferably, the displacement sensor is mounted on the rail.

Preferably, a groove structure is provided on the connecting rod mounting the displacement controller for fixing on the rail.

Optionally, the thickness of each floor is 80mm to 150 mm.

The utility model discloses a with the loading pedestal mounting on the track in cold-stored railway carriage or compartment to relevant parts such as displacement sensor and displacement controller are controlled their removal, thereby make place can easily take in the goods of the difficult position of taking. And simultaneously, the utility model discloses jointly used touch-sensitive screen equipment, let the removal of goods more visualization and easily observe, also reduced the degree of difficulty of operation, can remove the goods that want the uninstallation to own through simple and convenient operation, reduced the degree of difficulty of getting goods effectively, also reduced the required time of getting goods. Through the utility model discloses a design provides a new thinking for the refrigerator car optimization of getting goods mode.

Drawings

Fig. 1 is a schematic view of a 1-layer overlooking structure of a refrigerating compartment of a refrigerator car cargo taking device based on a touch screen, which comprises a 1-refrigerating compartment, a 2.1-first cargo loading base, a 2.2-second cargo loading base, a 2.3-third cargo loading base, a 2.4-fourth cargo loading base, a 2.5-fifth cargo loading base, a 2.6-sixth cargo loading base, a 2.7-seventh cargo loading base, a 2.8-eighth cargo loading base, a 2.9-ninth cargo loading base, a 2.10-tenth cargo loading base, a 2.11-eleventh cargo loading base, a 3.1-first movable area, a 4.1-first folding door, a 4.2-second folding door, a 5-touch screen device and a 6.1-first floor.

Fig. 2 is a schematic view of a 2-layer overlooking structure of a refrigerating compartment of a refrigerator car goods taking device based on a touch screen, which comprises a 1-refrigerating compartment, a 2.12-twelfth goods loading base, a 2.13-thirteenth goods loading base, a 2.14-fourteenth goods loading base, a 2.15-fifteenth goods loading base, a 2.16-sixteenth goods loading base, a 2.17-seventeenth goods loading base, a 2.18-eighteenth goods loading base, a 2.19-nineteenth goods loading base, a 2.20-twentieth goods loading base, a 2.21-twenty first goods loading base, a 2.22-twenty second goods loading base, a 3.2-second movable area, a 4.1-first folding door, a 4.2-second folding door, a 5-touch screen device, a 6.2-second floor, a 7-refrigerating unit and an 8-hollowed-out area.

Fig. 3 is a schematic view of the structure of the 1-layer track of the touch screen-based refrigeration compartment of the present invention, which includes a 1-refrigeration compartment, a 4.1-first folding door, a 4.2-second folding door, a 5-touch screen device, a 6.1-first floor, a 9.1-first track, a 10.1-first displacement sensor, a 10.2-second displacement sensor, a 10.3-third displacement sensor, a 10.4-fourth displacement sensor, a 10.5-fifth displacement sensor, a 10.6-sixth displacement sensor, a 10.7-seventh displacement sensor, a 10.8-eighth displacement sensor, a 10.9-ninth displacement sensor, a 10.10-tenth displacement sensor, a 10.11-eleventh displacement sensor, and a 10.12-twelfth displacement sensor.

FIG. 4 is a schematic view of the structure of the refrigerating compartment with 2 layers of tracks in the touch screen-based refrigerating compartment of the present invention, including 1-refrigerating compartment, 4.1-first folding door, 4.2-second folding door, 5-touch screen device, 6.2-second floor, 7-refrigerating unit, 8-hollow area, 9.2-second track, 10.13-thirteenth displacement sensor, 10.14-fourteenth displacement sensor, 10.15-fifteenth displacement sensor, 10.16-sixteenth displacement sensor, 10.17-seventeenth displacement sensor, 10.18-eighteenth displacement sensor, 10.19-nineteenth displacement sensor, 10.20-twentieth displacement sensor, 10.21-twenty-first displacement sensor, 10.22-twenty-second displacement sensor, 10.23-twenty-third displacement sensor and 10.24-twenty-fourth displacement sensor.

Fig. 5 is the structure schematic diagram (from the inside of the folding door) of the front view of the refrigerator car goods taking device based on the touch screen of the present invention, which comprises a 1-refrigerating compartment, a 2.9-ninth loading base, a 2.10-tenth loading base, a 2.11-eleventh loading base, a 2.20-twentieth loading base, a 2.21-twenty-first loading base, a 2.22-twenty-second loading base, a 7-refrigerating unit, a 9.1-first track and a 9.2-second track.

Fig. 6 is the utility model discloses a refrigerator car cargo handling equipment's based on touch-sensitive screen main view structure sketch map (close folding door), including 1-cold-stored railway carriage or compartment, 4.1-first folding door, 4.2-second folding door and 5-touch-sensitive screen equipment.

Fig. 7 is a schematic front view of a loading base of the touch screen-based refrigerator car cargo taking device of the present invention, which includes a 2.1-first loading base and a 11.1-first connecting rod for installing a displacement controller; 2.1-a first loading base, 2.2-a second loading base, 2.3-a third loading base, 2.4-a fourth loading base, 2.5-a fifth loading base, 2.6-a sixth loading base, 2.7-a seventh loading base, 2.8-an eighth loading base, 2.9-a ninth loading base, 2.10-a tenth loading base, 2.11-an eleventh loading base, specifications of 2.12-twelfth loading base, 2.13-thirteenth loading base, 2.14-fourteenth loading base, 2.15-fifteenth loading base, 2.16-sixteenth loading base, 2.17-seventeenth loading base, 2.18-eighteenth loading base, 2.19-nineteenth loading base, 2.20-twentieth loading base, 2.21-twenty first loading base and 2.22-twenty second loading base are all shown in fig. 7.

Fig. 8 is a schematic top view of a loading base of a touch screen-based refrigerator car pick-up device of the present invention, including a 2.1-first loading base; 2.1-a first loading base, 2.2-a second loading base, 2.3-a third loading base, 2.4-a fourth loading base, 2.5-a fifth loading base, 2.6-a sixth loading base, 2.7-a seventh loading base, 2.8-an eighth loading base, 2.9-a ninth loading base, 2.10-a tenth loading base, 2.11-an eleventh loading base, specifications of 2.12-twelfth loading base, 2.13-thirteenth loading base, 2.14-fourteenth loading base, 2.15-fifteenth loading base, 2.16-sixteenth loading base, 2.17-seventeenth loading base, 2.18-eighteenth loading base, 2.19-nineteenth loading base, 2.20-twentieth loading base, 2.21-twenty first loading base and 2.22-twenty second loading base are all shown in figure 8.

Fig. 9 is a schematic perspective view of a loading base of a refrigerator car cargo handling device based on a touch screen according to the present invention, including a 2.1-first loading base; 2.1-a first loading base, 2.2-a second loading base, 2.3-a third loading base, 2.4-a fourth loading base, 2.5-a fifth loading base, 2.6-a sixth loading base, 2.7-a seventh loading base, 2.8-an eighth loading base, 2.9-a ninth loading base, 2.10-a tenth loading base, 2.11-an eleventh loading base, specifications of 2.12-twelfth loading base, 2.13-thirteenth loading base, 2.14-fourteenth loading base, 2.15-fifteenth loading base, 2.16-sixteenth loading base, 2.17-seventeenth loading base, 2.18-eighteenth loading base, 2.19-nineteenth loading base, 2.20-twentieth loading base, 2.21-twenty first loading base and 2.22-twenty second loading base are all shown in fig. 9.

Detailed Description

The following describes embodiments of the present invention in detail with reference to the accompanying drawings.

The refrigerator car goods taking equipment based on the touch screen can be used on refrigerator cars with any size and specification, and the size and the installation position of the equipment can be adjusted according to the specific size of the refrigerator car; there are generally small refrigerated vehicles and large refrigerated vehicles.

The utility model discloses refrigerator car equipment of getting goods based on touch-sensitive screen designs as the example with the small-size refrigerator car of gold cup as basic motorcycle type, and whole car size is 4950 × 1720 × 2530mm, and railway carriage or compartment body size is 2850 × 1580 × 1600mm, and railway carriage or compartment body volume is 7.2m³。

As shown in fig. 1, an embodiment of the utility model provides a 1 layer overlook structure in refrigerator car of goods equipment is got to refrigerator car based on touch-sensitive screen, including refrigerator car 1, first shipment base 2.1, second shipment base 2.2, third shipment base 2.3, fourth shipment base 2.4, fifth shipment base 2.5, sixth shipment base 2.6, seventh shipment base 2.7, eighth shipment base 2.8, ninth shipment base 2.9, tenth shipment base 2.10, eleventh shipment base 2.11, first movable region 3.1, first folding door 4.1, second folding door 4.2, touch-sensitive screen equipment 5 and first floor 6.1.

As shown in fig. 2, an embodiment of the present invention provides a 2-layer overlook structure of a refrigerator car cargo pickup device based on a touch screen, which includes a refrigerator car 1, a twelfth cargo base 2.12, a thirteenth cargo base 2.13, a fourteenth cargo base 2.14, a fifteenth cargo base 2.15, a sixteenth cargo base 2.16, a seventeenth cargo base 2.17, an eighteenth cargo base 2.18, a nineteenth cargo base 2.19, a twentieth cargo base 2.20, a twenty-first cargo base 2.21, a twenty-second cargo base 2.22, a second movable region 3.2, a first folding door 4.1, a second folding door 4.2, a touch screen device 5, a second floor 6.2, a refrigerator set 7 and a hollow region 8.

The first loading base 2.1, the second loading base 2.2, the third loading base 2.3, the fourth loading base 2.4, the fifth loading base 2.5, the sixth loading base 2.6, the seventh loading base 2.7, the eighth loading base 2.8, the ninth loading base 2.9, the tenth loading base 2.10 and the eleventh loading base 2.11 are first assembly loading bases.

The twelfth loading base 2.12, the thirteenth loading base 2.13, the fourteenth loading base 2.14, the fifteenth loading base 2.15, the sixteenth loading base 2.16, the seventeenth loading base 2.17, the eighteenth loading base 2.18, the nineteenth loading base 2.19, the twentieth loading base 2.20, the twenty-first loading base 2.21 and the twenty-second loading base 2.22 are second assembled bases.

The refrigeration compartment 1 is equally divided into two layers; the sizes of the bottom surfaces of the first loading base 2.1, the second loading base 2.2, the third loading base 2.3, the fourth loading base 2.4, the fifth loading base 2.5, the sixth loading base 2.6, the seventh loading base 2.7, the eighth loading base 2.8, the ninth loading base 2.9, the tenth loading base 2.10, the eleventh loading base 2.11, the twelfth loading base 2.12, the thirteenth loading base 2.13, the fourteenth loading base 2.14, the fifteenth loading base 2.15, the sixteenth loading base 2.16, the seventeenth loading base 2.17, the eighteenth loading base 2.18, the nineteenth loading base 2.19, the twentieth loading base 2.20, the twenty-first loading base 2.21 and the twenty-second loading base 2.22 are all 500mm multiplied by 500 mm; the first assembly base and the second assembly base are arranged according to a rectangular array mode, the array specification is four rows and three columns, adjacent assembly bases are tightly attached to each other and are all arranged on the first floor 6.1 and the second floor 6.2; the first assembly cargo base is arranged on the layer 1 of the refrigeration compartment 1 and is 300mm away from the front side and 40mm away from the left side of the refrigeration compartment 1; in the array of the first assembly cargo base, a complete cargo base bottom area specification (500 x 500mm) space is reserved for not mounting the cargo base, and the space is a first movable area 3.1; the second assembly cargo base is arranged on the 2 layers of the refrigeration compartment 1 and is 300mm away from the front side and 40mm away from the left side of the refrigeration compartment 1; in the array of the second assembly cargo bed, a complete cargo bed bottom area specification (500 x 500mm) space is reserved for not installing the cargo bed, and the space is a second movable area 3.2; a first folding door 4.1 and a second folding door 4.2 are arranged at a position 430mm away from the rear side of the refrigeration compartment 1, the sizes of the first folding door 4.1 and the second folding door 4.2 are 790 x 1600mm, and the first folding door 4.1 and the second folding door 4.2 are symmetrically arranged; a touch screen device 5 having a size of 300 x 500mm is installed at a position 50mm from the rear side of the refrigeration compartment 1; the refrigerating unit 7 is arranged at the top of the front side of the refrigeration compartment 1 and is arranged in the middle; a hollowed-out area 8 is provided in the floor 2 of the refrigeration compartment 1, directly below the refrigeration unit 7, in the shape of an arch having a width of 1200mm and a radius of 845 mm.

The first cargo loading base 2.1, the second cargo loading base 2.2, the third cargo loading base 2.3, the fourth cargo loading base 2.4, the fifth cargo loading base 2.5, the sixth cargo loading base 2.6, the seventh cargo loading base 2.7, the eighth cargo loading base 2.8, the ninth cargo loading base 2.9, the tenth cargo loading base 2.10, the eleventh cargo loading base 2.11, the twelfth cargo loading base 2.12, the thirteenth cargo loading base 2.13, the fourteenth cargo loading base 2.14, the fifteenth cargo loading base 2.15, the sixteenth cargo loading base 2.16, the seventeenth cargo loading base 2.17, the eighteenth cargo loading base 2.18, the nineteenth cargo loading base 2.19, the twentieth cargo loading base 2.20, the twenty-first cargo loading base 2.21 and the twenty-second cargo loading base 2.22 are made of aluminum alloy materials to ensure the strength and the waterproof performance of the bases.

The initial positions of the first 3.1 and second 3.2 moveable regions are shown in fig. 1-1 and 1-2, but with continued use of the invention, will change to dynamic regions.

The first folding door 4.1 and the second folding door 4.2 are made of PVC materials which have good mechanical property and shock resistance.

The touch screen device 5 is used for controlling the movement of the first loading base 2.1, the second loading base 2.2, the third loading base 2.3, the fourth loading base 2.4, the fifth loading base 2.5, the sixth loading base 2.6, the seventh loading base 2.7, the eighth loading base 2.8, the ninth loading base 2.9, the tenth loading base 2.10, the eleventh loading base 2.11, the twelfth loading base 2.12, the thirteenth loading base 2.13, the fourteenth loading base 2.14, the fifteenth loading base 2.15, the sixteenth loading base 2.16, the seventeenth loading base 2.17, the eighteenth loading base 2.18, the nineteenth loading base 2.19, the twentieth loading base 2.20, the twenty-first loading base 2.21 and the twenty-second loading base 2.22.

The hollowed-out area 8 is used for passing the cold air generated by the refrigerating unit 7, so that the cold air can reach any layer in the refrigerating compartment 1.

As shown in fig. 3, an embodiment of the present invention provides a structure of a 1-layer track of a refrigerator car of a goods taking device of a refrigerator car based on a touch screen, which includes a refrigerator car 1, a first folding door 4.1, a second folding door 4.2, a touch screen device 5, a first floor 6.1, a first track 9.1, a first displacement sensor 10.1, a second displacement sensor 10.2, a third displacement sensor 10.3, a fourth displacement sensor 10.4, a fifth displacement sensor 10.5, a sixth displacement sensor 10.6, a seventh displacement sensor 10.7, an eighth displacement sensor 10.8, a ninth displacement sensor 10.9, a tenth displacement sensor 10.10, an eleventh displacement sensor 10.11, and a twelfth displacement sensor 10.12.

As shown in fig. 4, an embodiment of the present invention provides a 2-layer track structure for a refrigerated compartment of a touch screen-based truck goods taking device, including a refrigerated compartment 1, a first folding door 4.1, a second folding door 4.2, a touch screen device 5, a second floor 6.2, a refrigerator group 7, a hollow area 8, a second track 9.2, a thirteenth displacement sensor 10.13, a fourteenth displacement sensor 10.14, a fifteenth displacement sensor 10.15, a sixteenth displacement sensor 10.16, a seventeenth displacement sensor 10.17, an eighteenth displacement sensor 10.18, a nineteenth displacement sensor 10.19, a twentieth displacement sensor 10.20, a twenty-first displacement sensor 10.21, a twenty-second displacement sensor 10.22, a twenty-third displacement sensor 10.23, and a twenty-fourth displacement sensor 10.24.

The first displacement sensor 10.1, the second displacement sensor 10.2, the third displacement sensor 10.3, the fourth displacement sensor 10.4, the fifth displacement sensor 10.5, the sixth displacement sensor 10.6, the seventh displacement sensor 10.7, the eighth displacement sensor 10.8, the ninth displacement sensor 10.9, the tenth displacement sensor 10.10, the eleventh displacement sensor 10.11 and the twelfth displacement sensor 10.12 are a first group of displacement sensors.

The thirteenth displacement sensor 10.13, the fourteenth displacement sensor 10.14, the fifteenth displacement sensor 10.15, the sixteenth displacement sensor 10.16, the seventeenth displacement sensor 10.17, the eighteenth displacement sensor 10.18, the nineteenth displacement sensor 10.19, the twentieth displacement sensor 10.20, the twenty-first displacement sensor 10.21, the twenty-second displacement sensor 10.22, the twenty-third displacement sensor 10.23 and the twenty-fourth displacement sensor 10.24 are displacement sensors of the second group.

The overlooking angle installation conditions of the first folding door 4.1, the second folding door 4.2, the touch screen device 5, the refrigerating unit 7 and the hollowed-out area 8 are as described in [0030 ]; the first 9.1 and second 9.2 rails are mounted below the first and second assembly bases, respectively, each turning point being located below the midpoint of the loading bases and at the midpoint of the initial positions of the first 3.1 and second 3.2 movable areas; the first and second sets of displacement sensors are mounted at all turning points of the first and second tracks 9.1, 9.2, respectively.

The first track 9.1 and the second track 9.2 are both 100mm wide and are rectangular arrays, the specifications are 4 transverse tracks and 3 vertical tracks, and the rectangles formed by the central lines are squares with the size of 500 multiplied by 500 mm.

The first group of displacement sensors and the second group of displacement sensors are in signal contact with the touch screen device 5, and after receiving the displacement signals, the signals are transmitted to the touch screen device 5.

As shown in fig. 5, an embodiment of the present invention provides a main view structure (viewed from the inside of a folding door) of a goods taking device of a refrigerator car based on a touch screen, which includes a refrigerator compartment 1, a ninth loading base 2.9, a tenth loading base 2.10, an eleventh loading base 2.11, a twentieth loading base 2.20, a twenty-first loading base 2.21, a twenty-second loading base 2.22, a refrigerating unit 7, a first rail 9.1, and a second rail 9.2.

As shown in fig. 6, an embodiment of the present invention provides a front view structure (closing folding door) of a goods taking device of a refrigerator car based on a touch screen, which includes a refrigerator compartment 1, a first folding door 4.1, a second folding door 4.2 and a touch screen device 5.

The refrigerating unit 7 is arranged at the top of the front side of the refrigeration compartment and is arranged in the middle; the thickness of the first floor 6.1 and the second floor 6.2 are both 100 mm; the first 9.1 and second 9.2 rails are mounted in the first 6.1 and second 6.2 floors; the ninth 2.9, tenth 2.10 and eleventh 2.11 loading bases are mounted on the first rail 9.1; the twentieth, twenty-first and twenty-second loading bases 2.20, 2.21, 2.22 are mounted on the second rail 9.2.

First folding door 4.1 and second folding door 4.2 are used for separating the region at floor place and the region that the human body stood, when needs get goods, pull open first folding door 4.1 and second folding door 4.2, carry out the uninstallation of goods.

As shown in fig. 7, a front view structure of a loading base of a refrigerator car goods taking device based on a touch screen according to an embodiment of the present invention includes a first loading base 2.1 and a connecting rod 11.1 of a first installation displacement controller; the specifications of the first loading base 2.1, the second loading base 2.2, the third loading base 2.3, the fourth loading base 2.4, the fifth loading base 2.5, the sixth loading base 2.6, the seventh loading base 2.7, the eighth loading base 2.8, the ninth loading base 2.9, the tenth loading base 2.10, the eleventh loading base 2.11, the twelfth loading base 2.12, the thirteenth loading base 2.13, the fourteenth loading base 2.14, the fifteenth loading base 2.15, the sixteenth loading base 2.16, the seventeenth loading base 2.17, the eighteenth loading base 2.18, the nineteenth loading base 2.19, the twentieth loading base 2.20, the twenty-first loading base 2.21 and the twenty-second loading base 2.22 are all as shown in fig. 7.

As shown in fig. 8, an embodiment of the present invention provides a top view structure of a loading base of a refrigerator car cargo taking device based on a touch screen, which includes a first loading base 2.1; the specifications of the first loading base 2.1, the second loading base 2.2, the third loading base 2.3, the fourth loading base 2.4, the fifth loading base 2.5, the sixth loading base 2.6, the seventh loading base 2.7, the eighth loading base 2.8, the ninth loading base 2.9, the tenth loading base 2.10, the eleventh loading base 2.11, the twelfth loading base 2.12, the thirteenth loading base 2.13, the fourteenth loading base 2.14, the fifteenth loading base 2.15, the sixteenth loading base 2.16, the seventeenth loading base 2.17, the eighteenth loading base 2.18, the nineteenth loading base 2.19, the twentieth loading base 2.20, the twenty-first loading base 2.21 and the twenty-second loading base 2.22 are all as shown in fig. 8.

As shown in fig. 9, the three-dimensional structure of the loading base of the touch screen-based refrigerator car pickup device according to an embodiment of the present invention includes a first loading base 2.1; the specifications of the first loading base 2.1, the second loading base 2.2, the third loading base 2.3, the fourth loading base 2.4, the fifth loading base 2.5, the sixth loading base 2.6, the seventh loading base 2.7, the eighth loading base 2.8, the ninth loading base 2.9, the tenth loading base 2.10, the eleventh loading base 2.11, the twelfth loading base 2.12, the thirteenth loading base 2.13, the fourteenth loading base 2.14, the fifteenth loading base 2.15, the sixteenth loading base 2.16, the seventeenth loading base 2.17, the eighteenth loading base 2.18, the nineteenth loading base 2.19, the twentieth loading base 2.20, the twenty-first loading base 2.21 and the twenty-second loading base 2.22 are all as shown in fig. 9.

All the loading bases have the same specification, and the first loading base 2.1 is taken as an example for explanation.

The outer contour dimension of the first loading base 2.1 is 500 multiplied by 200mm, the wall thickness is 20mm, the top is opened, and goods can be placed; a connecting rod 11.1 of a first installation displacement controller with the length of 100mm and the radius of 50mm is arranged in the center of the bottom of the first loading base 2.1.

The first loading base 2.1 is connected with the first track 9.1 through a connecting rod 11.1 of the first mounting displacement controller, and a groove processed in the middle of the connecting rod 11.1 of the first mounting displacement controller is used for being fixedly connected with the first track 9.1.

Taking the first loading base 2.1 as an example, in this specific embodiment, a first group of displacement sensors are installed on the first track 9.1, the touch screen device 5 sends out a control signal to the connecting rod 11.1 of the first installation displacement controller, the connecting rod 11.1 of the first installation displacement controller responds to the signal and executes an instruction, the first group of displacement sensors feeds back the signal to the touch screen device 5, and when the connecting rod of the installation displacement controller responds to the signal and executes the instruction, the touch screen device 5 is self-locked for 3 seconds; the loading base is only moved between positions where the displacement sensors are mounted.

For a large refrigerator car, the installation of the number of layering and loading bases can be increased, and the layout of the rest equipment is consistent with that of a small refrigerator car.

The above embodiments are merely illustrative of the design principles and applications of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (9)

1. Goods equipment is got to refrigerator car based on touch-sensitive screen, its characterized in that:

the refrigerator car goods taking equipment based on the touch screen comprises a refrigerator compartment (1), a goods loading base, a movable area, a folding door, touch screen equipment (5), a floor, a refrigerating unit (7), a hollow area (8), a track, a displacement sensor and a connecting rod for installing a displacement controller;

the loading bases comprise a first loading base (2.1), a second loading base (2.2), a third loading base (2.3), a fourth loading base (2.4), a fifth loading base (2.5), a sixth loading base (2.6), a seventh loading base (2.7), an eighth loading base (2.8), a ninth loading base (2.9), a tenth loading base (2.10), an eleventh loading base (2.11), a twelfth loading base (2.12), a thirteenth loading base (2.13), a fourteenth loading base (2.14), a fifteenth loading base (2.15), a sixteenth loading base (2.16), a seventeenth loading base (2.17), an eighteenth loading base (2.18), a nineteenth loading base (2.19), a twentieth loading base (2.20), a first loading base (2.21) and a twentieth loading base (2.22);

the movable regions comprise a first movable region (3.1) and a second movable region (3.2);

the folding door comprises a first folding door (4.1) and a second folding door (4.2);

the floor comprises a first floor (6.1) and a second floor (6.2);

the track comprises a first track (9.1) and a second track (9.2);

the displacement sensors comprise a first displacement sensor (10.1), a second displacement sensor (10.2), a third displacement sensor (10.3), a fourth displacement sensor (10.4), a fifth displacement sensor (10.5), a sixth displacement sensor (10.6), a seventh displacement sensor (10.7), an eighth displacement sensor (10.8), a ninth displacement sensor (10.9), a tenth displacement sensor (10.10), an eleventh displacement sensor (10.11), a twelfth displacement sensor (10.12), a thirteenth displacement sensor (10.13), a fourteenth displacement sensor (10.14), a fifteenth displacement sensor (10.15), a sixteenth displacement sensor (10.16), a seventeenth displacement sensor (10.17), an eighteenth displacement sensor (10.18), a nineteenth displacement sensor (10.19), a twentieth displacement sensor (10.20), a twenty-first displacement sensor (10.21), a twenty-second displacement sensor (10.22), A twenty-third displacement sensor (10.23) and a twenty-fourth displacement sensor (10.24);

the connecting rods of the mounting displacement controllers are connected below the corresponding loading bases;

the first loading base (2.1), the second loading base (2.2), the third loading base (2.3), the fourth loading base (2.4), the fifth loading base (2.5), the sixth loading base (2.6), the seventh loading base (2.7), the eighth loading base (2.8), the ninth loading base (2.9), the tenth loading base (2.10) and the eleventh loading base (2.11) are first assembly loading bases;

the twelfth loading base (2.12), the thirteenth loading base (2.13), the fourteenth loading base (2.14), the fifteenth loading base (2.15), the sixteenth loading base (2.16), the seventeenth loading base (2.17), the eighteenth loading base (2.18), the nineteenth loading base (2.19), the twentieth loading base (2.20), the twenty-first loading base (2.21) and the twenty-second loading base (2.22) are second assembling loading bases;

the first displacement sensor (10.1), the second displacement sensor (10.2), the third displacement sensor (10.3), the fourth displacement sensor (10.4), the fifth displacement sensor (10.5), the sixth displacement sensor (10.6), the seventh displacement sensor (10.7), the eighth displacement sensor (10.8), the ninth displacement sensor (10.9), the tenth displacement sensor (10.10), the eleventh displacement sensor (10.11) and the twelfth displacement sensor (10.12) are a first group of displacement sensors;

a thirteenth displacement sensor (10.13), a fourteenth displacement sensor (10.14), a fifteenth displacement sensor (10.15), a sixteenth displacement sensor (10.16), a seventeenth displacement sensor (10.17), an eighteenth displacement sensor (10.18), a nineteenth displacement sensor (10.19), a twentieth displacement sensor (10.20), a twenty-first displacement sensor (10.21), a twenty-second displacement sensor (10.22), a twenty-third displacement sensor (10.23) and a twenty-fourth displacement sensor (10.24) are a second group of displacement sensors;

the refrigeration compartment (1) is divided into 2-3 layers;

the loading bases have the same specification, the bottom surface is square, and the loading bases are arranged on the floor of each layer of the refrigeration compartment (1) in a rectangular array mode;

1 movable area is reserved at the arrangement position of the loading base of each layer;

a folding door is arranged inside the refrigeration compartment (1) and close to the rear side of the refrigeration compartment (1);

a touch screen device (5) is arranged on the left side inside the refrigeration compartment (1) and close to the rear side of the refrigeration compartment (1);

a refrigerating unit (7) is arranged in the middle of the top of the front side of the refrigeration compartment (1) in the refrigeration compartment (1);

the floor of 1 layer of the refrigeration compartment (1) is not hollowed;

performing hollow-out treatment on 2-3 layers of floors of the refrigeration compartment (1);

a track for moving a loading base is arranged in the floor of each layer of the refrigeration compartment (1), and the loading base is connected with the track through a connecting rod provided with a displacement controller;

a displacement sensor is arranged on the track, the touch screen equipment (5) sends a control signal to a connecting rod for installing the displacement controller, the connecting rod for installing the displacement controller responds to the signal and executes an instruction, and the displacement sensor feeds the signal back to the touch screen equipment (5);

when a connecting rod provided with a displacement controller responds to a signal execution instruction, the touch screen device (5) is self-locked for 3 seconds;

the loading base is only moved between positions where the displacement sensors are mounted.

2. A touch screen based refrigerator car pickup apparatus as claimed in claim 1 wherein:

the loading base is made of aluminum alloy materials.

3. A touch screen based refrigerator car pickup apparatus as claimed in claim 2 wherein:

the height of the loading base is 20-50% of the side length of the bottom surface.

4. A touch screen based refrigerator car pickup apparatus as claimed in claim 1 wherein:

2 folding doors with the same specification are symmetrically installed.

5. A touch screen based refrigerator car pickup apparatus as claimed in claim 1 wherein:

the hollow area (8) is arranged on 2-3 layers of floors in the refrigeration compartment (1), and the hollow area (8) is located below the refrigerating unit (7).

6. A touch screen based refrigerator car pickup apparatus as claimed in claim 1 wherein:

the tracks are in the form of right-angle tracks to form a rectangular array.

7. A touch screen based refrigerator car pickup apparatus as claimed in claim 1 wherein:

the displacement sensor is mounted on the track.

8. A touch screen based refrigerator car pickup apparatus as claimed in claim 1 wherein:

and a groove structure is arranged on the connecting rod for mounting the displacement controller and is used for being fixed on the track.

9. A touch screen based refrigerator car pickup apparatus as claimed in claim 1 wherein:

the thickness of each floor is 80 mm-150 mm.

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