CN216668977U - Metal ingot weight detection equipment with weight checking function - Google Patents

Abstract

The utility model relates to the field of precious metal weighing, in particular to metal ingot weight detection equipment with a weight correcting function, which comprises a rack and a conveying device, wherein the conveying device is used for conveying metal ingots; the moving part drives the fork material part to move between the object placing platform and the weighing platform, so that the fork material part takes the calibration box to the weighing platform for weighing and calibration.

Description

Metal ingot weight detection equipment with weight checking function

Technical Field

The utility model relates to the field of precious metal weighing, in particular to metal ingot weight detection equipment with a weight correcting function.

Background

At present, in the same industry at home, precious metal ingots need to weigh finished products in the production process, and the precious metals are more precious, if the precious metals lack weight due to working factors or human factors, loss will be generated, the existing weighing equipment only simply weighs the precious metals and corrects the weight, when the weighing batch is large, the weighing device is easy to generate errors under the condition of long time, so that the weight detection equipment capable of performing interval correction on the weighing device needs to be designed, and the precision of weighing at each time is ensured.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model provides the metal ingot weight detection equipment with the weight correcting function.

In order to achieve the purpose, the technical scheme adopted by the utility model is as follows: a metal ingot weight detection device with a weight correcting function comprises a rack and a conveying device used for conveying metal ingots, wherein the rack comprises a conveying rack and a weighing rack, the conveying device is arranged on the conveying rack, the metal ingot weight detection device further comprises a moving device and a weighing mechanism, the weighing mechanism comprises a weighing platform, a storage platform, a weighing device arranged on the weighing platform and a correcting box arranged on the storage platform, the moving device comprises a moving piece and a material forking piece, the moving piece is slidably arranged on the weighing rack, and the moving piece drives the material forking piece to move between the conveying device and the weighing platform so as to enable the material forking piece to fetch metal ingots onto the weighing platform for weighing; the moving part drives the fork material part to move between the object placing platform and the weighing platform, so that the fork material part takes the calibration box to the weighing platform for weighing and calibration.

Furthermore, the moving part comprises a sliding block and a guide rail, the fork part comprises a fork material plate, a connecting frame and a lifting plate, the guide rail is arranged on the weighing rack, the sliding block is slidably arranged on the guide rail, the connecting frame is connected with the sliding plate, the lifting plate can be vertically moved and arranged on the connecting frame, and the fork material plate is connected with the lifting plate to enable the fork material plate to move in the vertical direction.

Further, the object placing platform and the weighing platform are respectively and correspondingly placed on two sides in the weighing machine frame, the conveying machine frame is arranged between the object placing platform and the weighing platform, and the conveying machine frame transversely penetrates through the weighing machine frame.

Furthermore, weights are arranged in the proofreading box.

And a plurality of chain plates and chains are arranged on the conveying rack, and the chain plates are connected and combined in a surrounding manner through the chains to form the conveying belt.

The middle section of the bottom of the further metal ingot stacking forming is provided with a convex structure protruding downwards, a plurality of support plate combinations are further arranged on the conveyor frame, a plurality of adjacent support plate combinations are arranged at intervals, and the support plate combinations are provided with concave structures recessed downwards and correspond to the convex structures.

Further, the backup pad combination includes a plurality of high backup pads, low backup pad, locates the combination formation on the adjacent link joint through high backup pad and low backup pad the backup pad combination, and can be along with the conveyer belt transmission, high backup pad symmetry respectively sets up on non-adjacent link joint, low backup pad is located between the link joint that is equipped with high backup pad, and locates on the adjacent link joint, high backup pad height is higher than low backup pad board for form between low backup pad and the adjacent high backup pad and can let the first material space of getting that fork material spare passes through, and the backup pad combination forms the high structure in middle low both sides and forms sunk structure the sunk structure.

Furthermore, a plurality of cushion blocks are arranged on the object placing platform, the proofreading box is arranged on the cushion blocks, a second material taking space allowing the fork material plate to be inserted is formed between every two adjacent cushion blocks, and the second material taking space corresponds to the fork material plate.

As can be seen from the above description of the present invention, compared with the prior art, the weight detecting apparatus for metal ingots with a weight calibration function provided by the present invention has the advantages that the calibration box is arranged to perform the weight calibration operation on the weighing device through the calibration box when weighing metal ingots in each batch, so as to ensure the weighing and measuring accuracy; the mobile device is arranged to respectively take the metal ingot and the calibration box to the weighing device for weighing; the supporting plate combination is arranged to form a supporting plate combination capable of supporting and placing a metal ingot by arranging a high supporting plate and a low supporting plate, and a first material taking space into which a material fork plate can be inserted is formed in the metal ingot re-supporting plate combination, so that the metal ingot can be taken out and weighed conveniently; the conveying rack and the weighing rack are arranged in a crossed mode, and the weighing platform and the object placing platform are arranged on two sides of the conveying rack, so that the mobile device is convenient to fork the calibration box and the metal ingot on the weighing rack.

Drawings

FIG. 1 is a schematic view of the assembly structure of the present invention.

FIG. 2 is a schematic side view of the present invention.

Fig. 3 is a schematic structural diagram of the weighing mechanism of the present invention.

FIG. 4 is a schematic view of a half-section structure of the weighing mechanism of the present invention.

FIG. 5 is an enlarged view of the structure at the position A of the present invention.

The labels in the figure correspond to the following: 1. the automatic material taking device comprises a rack, 11 conveying racks, 12 weighing racks, 13 conveying belts, 131 supporting plate combinations, 132 chain plates, 133 chains, 134 high supporting plates, 135 low supporting plates, 136 first material taking spaces, 2 moving devices, 21 moving parts, 211 sliding blocks, 212 guide rails, 22 material forking parts, 221 material forking plates, 222 connecting frames, 223 lifting plates, 3 weighing mechanisms, 31 weighing platforms, 311 weighing devices, 32 object placing platforms, 321 calibration boxes, 322 cushion blocks, 323 second material taking spaces.

Detailed Description

The utility model is further described below by means of specific embodiments.

Referring to fig. 1 to 5, an ingot weight detecting apparatus with a weight calibration function includes a frame 1, a conveying device, a moving device 2, and a weighing mechanism 3.

The frame 1 comprises a conveying frame 11 and a weighing frame 12, the conveying device is arranged on the conveying frame 11, and the conveying device is used for conveying metal ingots. Weighing machine constructs 3 and includes weighing platform 31, platform 32, locates weighing platform 31's weighing apparatus 311, locates proofreading case 321 on platform 32, is equipped with the weight in the proofreading case 321, platform 32 corresponds respectively with platform 31 and places both sides in weighing frame 12, carry frame 11 to locate and put between platform 31 in weighing, and carry frame 11 traversing frame 12 setting of weighing, set up like this and make things convenient for mobile device 2 to remove between weighing platform 31 and platform 32, conveniently fork and get case 321 and metal ingot.

The moving device 2 comprises a moving part 21 and a material forking part 22, the moving part 21 is slidably arranged on the weighing rack 12, the material forking part 22 can move along with the moving part 21, the moving part 21 comprises a sliding block 211 and a guide rail 212, the material forking part 22 comprises a material forking plate 221, a connecting frame 222 and a lifting plate 223, the guide rail 212 is arranged on the weighing rack 12, the sliding block 211 is slidably arranged on the guide rail 212, the connecting frame 222 is connected with the sliding plate, the lifting plate 223 can be vertically arranged on the connecting frame 222, and the material forking plate 221 is connected with the lifting plate 223 so that the material forking plate 221 can move in the vertical direction. Moving member 21 drives fork material piece 22 and removes between conveyor and weighing platform 31 to make fork material piece 22 get the ingot metal and weigh on weighing platform 31, moving member 21 also can drive fork material piece 22 and remove between storage platform 32 and weighing platform 31, so that fork material piece 22 gets proofreading case 321 to weigh the calibration on weighing platform 31, reach and carry out the check weighing operation through proofreading case 321 symmetrical weighing machine 311 earlier, in order to guarantee to weigh measurement accuracy.

The conveying frame 11 is provided with a plurality of chain plates 132 and chains 133, and the chain plates 132 are connected and combined in a surrounding manner through the chains 133 to form a conveying belt. The middle section of the bottom of the metal ingot stacking forming is provided with a convex structure protruding downwards, a plurality of support plate combinations 131 are further arranged on the conveyor frame 11, a plurality of adjacent support plate combinations 131 are arranged at intervals, and the support plate combinations 131 are provided with concave structures recessed downwards and correspond to the convex structures. The support plate assembly 131 comprises a plurality of high support plates 134 and low support plates 135, and the high support plates 134 and the low support plates 135 are arranged on adjacent chain plates 132 to form the support plate assembly 131 in a combined manner, so that metal ingots are placed on the support plate assembly 131 to be transmitted along with a conveying belt. The high supporting plates 134 are symmetrically arranged on the non-adjacent chain plates 132 respectively, the low supporting plates 135 are arranged between the chain plates 132 provided with the high supporting plates 134 and arranged on the adjacent chain plates 132, the high supporting plates 134 are higher than the low supporting plates 135, so that a first material taking space 136 allowing the fork material plate 221 to pass through is formed between the low supporting plates 135 and the adjacent high supporting plates 134, the supporting plate combination 131 forms a structure with a middle part and two high sides to form the concave structure, the metal ingot is placed more stably, and the fork material plate 221 can take materials through the first material taking space 136.

The platform 32 is provided with a plurality of spacers 322, the calibration boxes 321 are disposed on the spacers 322, and a second material taking space 323 into which the fork material plate 221 is inserted is formed between adjacent spacers 322, and the fork material space corresponds to the fork material plate 221.

The working principle of the precious metal weight detection equipment with the weight correcting function is as follows:

a preparation process, before a batch of metal ingots are conveyed to a conveying belt, weights with corresponding weights are placed in a calibration box 321, a material fork plate 221 is moved to a second material taking space 323 through a moving device 2, the calibration box 321 is forked and then moved to a weighing device 311 and placed on the weighing device 311 for weighing, and the calibration weighing device 311 displays whether the numerical value is equal to the weight of the weights;

the weighing process includes that the metal ingots after stacking are moved to the supporting plate combination 131, the metal ingots move towards the weigher 311 along with transmission of the conveying belt, when the metal ingots are conveyed to be parallel to the weigher 311, namely when the material fork plate 221 corresponds to the first material taking space 136, the conveying belt stops conveying, the moving device 2 is started, the metal ingots are taken to the weigher 311 through the material fork plate 221 to be weighed, the metal ingots are weighed and sent back to the supporting plate combination 131, and the next metal ingots are weighed according to transmission of the conveying belt.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.

Claims (8)

1. The utility model provides an ingot metal weight detection equipment with check weighing function, includes the frame, is used for carrying the conveyor of ingot metal, the frame is including carrying the frame, weighing machine frame, conveyor locates and carries on the frame, its characterized in that: the metal ingot weighing device comprises a conveying device, a weighing platform, a moving device and a weighing mechanism, wherein the weighing mechanism comprises the weighing platform, the storage platform, a weighing device arranged on the weighing platform and a calibration box arranged on the storage platform; the moving part drives the fork material part to move between the object placing platform and the weighing platform, so that the fork material part takes the calibration box to the weighing platform for weighing and calibration.

2. An ingot weight detecting apparatus having a weight correcting function according to claim 1, wherein: the moving member includes slider, guide rail, it includes fork flitch, link, lifter plate to fork the material piece, the guide rail is located on the frame of weighing, slider slidable locates on the guide rail, the link is connected with the slide, on the link is located that the lifter plate can reciprocate, fork the flitch and be connected with the lifter plate, make and fork the flitch and can move in vertical direction.

3. An ingot weight detecting apparatus having a weight correcting function according to claim 1, wherein: the object placing platform and the weighing platform are respectively and correspondingly placed on two sides in the weighing rack, the conveying rack is arranged between the object placing platform and the weighing platform, and the conveying rack transversely penetrates through the weighing rack.

4. An ingot weight detecting apparatus having a weight correcting function according to claim 1, wherein: weights are arranged in the proofreading box.

5. An ingot weight detecting apparatus having a weight correcting function according to claim 1, wherein: the conveying frame is provided with a plurality of chain plates and a chain, and the chain plates are connected and combined in a surrounding mode through the chain to form the conveying belt.

6. An ingot weight detecting apparatus having a weight correcting function according to claim 5, wherein: the middle section of the bottom of the metal ingot stacking forming is provided with a convex structure protruding downwards, a plurality of support plate combinations are further arranged on the conveyor frame, a plurality of adjacent support plate combinations are arranged at intervals, and the support plate combinations are provided with concave structures recessed downwards and correspond to the convex structures.

7. An ingot weight detecting apparatus having a weight correcting function according to claim 6, wherein: the backup pad combination includes a plurality of high backup pads, low backup pad, locates the combination formation on the adjacent link joint through high backup pad and low backup pad the backup pad combination, and can be along with the conveyer belt transmission, high backup pad symmetry respectively sets up on non-adjacent link joint, low backup pad is located between the link joint that is equipped with high backup pad, and locates on the adjacent link joint, high backup pad height is higher than low backup pad board for form between low backup pad and the adjacent high backup pad and can let the first material space of getting that the fork material spare passes through, and the backup pad combination forms the high structure in middle low both sides and forms sunk structure.

8. An ingot weight detecting apparatus having a weight correcting function according to claim 1, wherein: the article placing platform is provided with a plurality of cushion blocks, the proofreading box is arranged on the cushion blocks, a second material taking space allowing the fork material plate to be inserted is formed between every two adjacent cushion blocks, and the second material taking space corresponds to the fork material plate.

Images