阅读说明：本技术 非接触式物体体积自动测量装置 (Non-contact type object volume automatic measuring device ) 是由 陈京强 于 2019-12-12 设计创作，主要内容包括：本发明提供了非接触式物体体积自动测量装置,属于测量装置技术领域,旨在解决现有的物流物件的体积、重量测量比较麻烦,使工作效率低下的问题；包括计算装置、地秤、底座、支架和滑动设置在所述支架上的三组测量装置；通过滑动设置在装置支架上的三组测量装置,对放在装置内部的货物进行三个表面面积测量,通过计算快速获得货物的体积,通过地秤测量出货物的重量,将测量结果在显示屏上展示出来,实现了一台设备快速测量物流计费所需的体积和重量,便于费用计算,优化物流作业流程,提高了工作效率。(The invention provides a non-contact type object volume automatic measuring device, belongs to the technical field of measuring devices, and aims to solve the problems that the volume and weight of the conventional logistics objects are troublesome to measure and the working efficiency is low; the device comprises a computing device, a floor scale, a base, a bracket and three groups of measuring devices which are arranged on the bracket in a sliding manner; through sliding three measuring device of group that set up on the device support, carry out three surface area measurement to putting the goods in the device inside, obtain the volume of goods fast through calculating, measure the weight of goods through the weighbridge, show the measuring result on the display screen, realized that an equipment fast measuring commodity circulation charges required volume and weight, the expense of being convenient for calculates, optimizes the commodity circulation operation flow, has improved work efficiency.)

1. The non-contact type automatic object volume measuring device is characterized by comprising a calculating device, a floor scale, a base, a bracket and three groups of measuring devices which are arranged on the bracket in a sliding manner; the bracket comprises a plurality of square telescopic rods and connecting rods; the square telescopic rod is vertically arranged at the top end of the base, and the connecting rod is vertically arranged at the top end of the square telescopic rod; the measuring device comprises two horizontal driving parts, two first vertical driving parts and two second vertical driving parts; the horizontal driving component comprises two guide rails and a connecting plate; one guide rail is fixedly arranged at the tops of the two square telescopic rods, and the other guide rail is fixedly arranged at the tops of the other two square telescopic rods; the connecting plate is arranged on the guide rail in a sliding manner; the other horizontal driving part is symmetrically arranged at the bottom of the square telescopic rod; the bottom end of the connecting plate at the top is provided with a light curtain transmitting end, and the top end of the connecting plate at the bottom is provided with a light curtain receiving end; the first vertical driving part comprises two vertical plates, one vertical plate is arranged on the opposite surface of two square telescopic rods in a sliding mode, and the other vertical plate is arranged on the opposite surface of the other two square telescopic rods in a sliding mode; one of the vertical plates is provided with a light curtain transmitting end, and the other vertical plate is provided with a light curtain receiving end; the second vertical driving part comprises two vertical plates, one vertical plate is arranged on the opposite surface of two square telescopic rods in a sliding mode, and the other vertical plate is arranged on the opposite surface of the other two square telescopic rods in a sliding mode; one of the vertical plates is provided with a light curtain transmitting end, and the other vertical plate is provided with a light curtain receiving end; the vertical plate, the vertical plate and the square telescopic rod are mutually vertical; the light curtain transmitting end and the light curtain receiving end are arranged oppositely; the ground scale, the light curtain transmitting end and the light curtain receiving end are respectively electrically connected with the computing device.

2. The non-contact automatic object volume measuring device according to claim 1, further comprising tempered glass, wherein the tempered glass is disposed at the bottom of the square telescopic rod, four legs of the tempered glass are fixedly connected with the square telescopic rod, and the tempered glass is disposed above the light curtain receiving end at the bottom.

3. The apparatus according to claim 1, wherein a hydraulic rod is provided in the telescopic square rod.

Technical Field

The invention relates to the technical field of measuring devices, in particular to a non-contact automatic object volume measuring device.

Background

At present, in the logistics industry, the charging mode of the goods is usually to charge by taking the maximum value between the volume and the weight, at present, when charging operation is carried out, a worker is required to measure the weight of the goods firstly and then measure the volume of the goods, the operation is carried out in two steps, more time is wasted, the two operations are respectively completed through different devices, physical consumption of the worker is large when the goods are carried back and forth, errors often occur when the volume of the goods is manually measured and calculated, and correct collection of cost is influenced; the whole operation flow is complicated, and the working efficiency is low.

Disclosure of Invention

In view of the technical deficiencies, the invention aims to provide a non-contact automatic object volume measuring device, which measures three surface areas of goods placed in the device through three groups of measuring devices arranged on a device bracket in a sliding manner, quickly obtains the volume of the goods through calculation, measures the weight of the goods through a ground scale, and displays the measurement result on a display screen, so that one device can quickly measure the volume and the weight required by logistics charging, the cost calculation is facilitated, the logistics operation process is optimized, and the working efficiency is improved.

In order to solve the technical problems, the invention adopts the following technical scheme:

the non-contact type automatic object volume measuring device is characterized by comprising a calculating device, a floor scale, a base, a bracket and three groups of measuring devices which are arranged on the bracket in a sliding manner; the bracket comprises a plurality of square telescopic rods and connecting rods; the square telescopic rod is vertically arranged at the top end of the base, and the connecting rod is vertically arranged at the top end of the square telescopic rod; the measuring device comprises two horizontal driving parts, two first vertical driving parts and two second vertical driving parts; the horizontal driving component comprises two guide rails and a connecting plate; one guide rail is fixedly arranged at the tops of the two square telescopic rods, and the other guide rail is fixedly arranged at the tops of the other two square telescopic rods; the connecting plate is arranged on the guide rail in a sliding manner; the other horizontal driving part is symmetrically arranged at the bottom of the square telescopic rod; the bottom end of the connecting plate at the top is provided with a light curtain transmitting end, and the top end of the connecting plate at the bottom is provided with a light curtain receiving end; the first vertical driving part comprises two vertical plates, one vertical plate is arranged on the opposite surface of two square telescopic rods in a sliding mode, and the other vertical plate is arranged on the opposite surface of the other two square telescopic rods in a sliding mode; one of the vertical plates is provided with a light curtain transmitting end, and the other vertical plate is provided with a light curtain receiving end; the second vertical driving part comprises two vertical plates, one vertical plate is arranged on the opposite surface of two square telescopic rods in a sliding mode, and the other vertical plate is arranged on the opposite surface of the other two square telescopic rods in a sliding mode; one of the vertical plates is provided with a light curtain transmitting end, and the other vertical plate is provided with a light curtain receiving end; the vertical plate, the vertical plate and the square telescopic rod are mutually vertical; the light curtain transmitting end and the light curtain receiving end are arranged oppositely; the ground scale, the light curtain transmitting end and the light curtain receiving end are respectively electrically connected with the computing device.

Preferably, still include toughened glass, toughened glass arranges in square telescopic link bottom, toughened glass's four feet with square telescopic link fixed connection, just toughened glass is located the bottom the top of light curtain receiving terminal.

Preferably, a hydraulic rod is arranged in the square telescopic rod.

The invention has the beneficial effects that: this design is through sliding three measuring device of group that sets up on the device support, carries out three surface area measurement to putting the goods in the device inside, obtains the volume of goods fast through calculating, measures the weight of goods through the weighbridge, shows out measuring result on the display screen, has realized that an equipment measures required volume and weight of commodity circulation charging fast, and the expense of being convenient for calculates, optimizes the commodity circulation operation flow, has improved work efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an automatic non-contact object volume measuring device according to an embodiment of the present invention.

Description of reference numerals:

the device comprises a square telescopic rod 1, a connecting rod 2, a connecting plate 3, a screw rod 4, a transmission plate 5, a guide rail 6, a base 7, a floor scale 8, a vertical plate 9, a vertical plate 10, a driving motor 11, toughened glass 12, a light curtain transmitting end 13 and a light curtain receiving end 14.

Detailed Description

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

As shown in fig. 1, the non-contact object volume automatic measuring device comprises a calculating device, a floor scale 8, a base 7, a bracket and three groups of measuring devices arranged on the bracket in a sliding manner; the support comprises a plurality of square telescopic rods 1 and connecting rods 2; a hydraulic rod is arranged in the square telescopic rod 1; the hydraulic rod is positioned at the bottom of the square telescopic rod 1, the top end of the telescopic rod of the hydraulic rod is fixedly connected with the bottom of the telescopic rod of the square telescopic rod 1, and the square telescopic rod 1 is driven to stretch by the stretching of the hydraulic rod; the square telescopic rod 1 is vertically arranged at the top end of the base 7, and the connecting rod 2 is vertically arranged at the top end of the square telescopic rod 1; the measuring device comprises two horizontal driving parts, two first vertical driving parts and two second vertical driving parts; the horizontal driving component comprises two guide rails 6 and a connecting plate 3; one guide rail 6 is fixedly arranged at the tops of two adjacent square telescopic rods 1, and two ends of the guide rail 6 are respectively contacted with two opposite surfaces of the two square telescopic rods 1; the other guide rail 6 is fixedly arranged at the top of the other two adjacent square telescopic rods 1, and the two guide rails 6 are in the same horizontal plane and are parallel to each other; the upper end of the connecting plate 3 is fixedly provided with a sliding block matched with the guide rail 6, and the connecting plate 3 is arranged on the guide rail 6 in a sliding manner through the sliding block; the square telescopic rod 1 is provided with a driving motor 11, and the driving motor 11 is positioned on the outer side of the bracket; a rotating shaft of the driving motor 11 is in transmission connection with a screw rod 4, a connecting block is arranged on the connecting plate 3, a threaded sleeve matched with the screw rod 4 is arranged in the connecting block, and the screw rod 4 is in transmission connection with the connecting plate 3 through the threaded sleeve on the connecting block; the connecting plate 3 is driven to reciprocate on the horizontal plane by the rotation of the driving motor 11. The other horizontal driving part is symmetrically arranged at the bottom of the square telescopic rod 1, and the other driving motor 11 drives the connecting plate 3 at the bottom to move; the bottom end of the connecting plate 3 at the top is provided with a light curtain transmitting end 13, and the top end of the connecting plate 3 at the bottom is provided with a light curtain receiving end 14; the bottom of the square telescopic rod 1 is provided with toughened glass 12, four legs of the toughened glass 12 are fixedly connected with the square telescopic rod 1, the toughened glass 12 is positioned above a light curtain receiving end 14 at the bottom, and a light curtain emitted by a light curtain emitting end 13 can be received by the light curtain receiving end 14 through the toughened glass 12; the first vertical driving part comprises two vertical plates 9, guide grooves are formed in the side faces of the square telescopic rods 1, the four square telescopic rods 1 are provided with the guide grooves, and the guide grooves are arranged in a pairwise opposite mode; one vertical plate 9 is arranged on the opposite surface of two square telescopic rods 1 in a sliding manner, and the other vertical plate 9 is arranged on the opposite surface of the other two square telescopic rods 1 in a sliding manner; elastic rollers are rotatably arranged at two ends of the vertical plate 9 and rotate in the guide grooves of the square telescopic rod 1, so that the vertical plate 9 is prevented from deviating; a transmission block is arranged on the outer side surface of the vertical plate 9, a screw rod 4 is rotationally arranged in the transmission block, the bottom end of the screw rod 4 is connected with a driving motor 11 in a transmission mode, a threaded sleeve matched with the screw rod 4 is arranged in the transmission block, a fixed block is arranged at the other end of the screw rod 4, a through hole is formed in the fixed block, the screw rod 4 is in clearance fit with the through hole, and when the hydraulic rod drives the square telescopic tube to extend or contract, the fixed block can slide on; one end of the fixed block is fixed on the side surface of the connecting rod 2, and the vertical plate 9 is driven to reciprocate up and down by the rotation of the driving motor 11; one vertical plate 9 is provided with a light curtain transmitting end 13, and the other vertical plate 9 is provided with a light curtain receiving end 14; the second vertical driving component comprises two vertical plates 10, wherein one vertical plate 10 is arranged on the opposite surfaces of the other two square telescopic rods 1 in a sliding manner, and the other vertical plate 10 is arranged on the opposite surfaces of the other two square telescopic rods 1 in a sliding manner; the square telescopic rod 1 is provided with a guide groove for the vertical plate 10 to slide, and two ends of the vertical plate 10 are rotatably provided with elastic rollers; a transmission plate 5 is fixedly arranged at one end of the outer side surface of the vertical plate 10, a screw sleeve is arranged on the transmission plate 5, a screw rod 4 matched with the screw sleeve is rotatably arranged in the screw sleeve, the bottom end of the screw rod 4 is connected with a driving motor 11 in a transmission manner, the driving motor 11 is fixed on a base 7, a limiting block is arranged at the other end of the screw rod 4, a through hole for accommodating the screw rod 4 is formed in the limiting block, and the screw rod 4 is in clearance fit with; one of the vertical plates 10 is provided with a light curtain transmitting end 13, and the other vertical plate 10 is provided with a light curtain receiving end 14; the vertical plate 9, the vertical plate 10 and the square telescopic rod 1 are mutually vertical; the light curtain transmitting ends 13 and the light curtain receiving ends 14 are arranged oppositely, and the light curtain transmitted by the corresponding light curtain transmitting ends 13 can be received by the corresponding light curtain receiving ends 14; the floor scale 8, the light curtain transmitting end 13 and the light curtain receiving end 14 are electrically connected with a computing device respectively, and a display screen is typically connected on the computing device.

When the device is used, goods are placed in the center of toughened glass 12, the driving motor 11 drives the two connecting plates 3, the two vertical plates 9 and the two vertical plates 10 to move respectively, the surface areas of three surfaces of the goods are scanned through the light curtain transmitting end 13 and the light curtain receiving end 14 which are arranged oppositely, scanning data are transmitted into a calculating device, and the volume of the goods is calculated through a mathematical formula for calculating the volume through the surface area; the weight of the goods without the dead weight of the device is weighed by the floor scale 8, the weight is transmitted into the calculating device, and the result is displayed through a display screen of the calculating device. When the cargo volume is larger or smaller, the height of the telescopic adjusting device of the hydraulic rod is adjusted to adapt to the measurement of the weight and the volume of the cargo with different volumes.

According to the design, three sets of measuring devices are arranged on the device support in a sliding mode, three surface area measurements are carried out on goods placed in the device, the size of the goods is obtained quickly through calculation, the weight of the goods is measured through the floor scale, and the measurement result is displayed on the display screen, so that the purpose that one device can measure the size and the weight required by logistics billing quickly is achieved, cost calculation is facilitated, the logistics operation flow is optimized, and the working efficiency is improved.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.