JP4323594B2 - Weighing machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention, ThinCarrying easy-to-adhere itemsWeigh the mass whileIt relates to a weighing machine.
[0002]
[Prior art]
Articles can be transported on a transport belt provided on a conveyor or the like. This conveyor is used in a weighing machine or the like and can measure the mass of an article. For example, a weighing machine measures the mass of an article and outputs a sorting signal to a subsequent sorting machine. In response to the sorting signal, the sorting machine transports normal products having a specified mass in a horizontal direction, and drops defective products that are less than the specified mass or have an excessive mass.
Such a weighing machine generally has a configuration in which an article is weighed while being conveyed.
[0003]
  Figure15Is a plan view showing a conventional weighing machine, FIG.16FIG. 4 is a partial perspective view of a drive roller. The weighing machine shown in this figure is intended for articles that tend to come into close contact with each other, such as ham, bacon, and cloth-like poultices.
[0004]
For this reason, as shown in the figure, the conveyor 80 has a plurality of concave grooves 83 formed in the driving roller 81 and the driven roller 82 at predetermined intervals in the axial direction. An annular belt 84 having a circular cross section is attached to the concave groove 83 portion. A conveyance driving motor 86 is connected to one end of the driving roller 81 via a connecting means 85 such as a gear or a belt.
The article is conveyed on the upper surface of the conveyor 80 by the rotation of the motor 86. The belts 84 are arranged at a predetermined interval, and are in contact with an article that tends to be in close contact with a minimum area. Thereby, the delivery to the next-stage apparatus (for example, a sorter) can be smoothly performed after weighing.
[0005]
[Problems to be solved by the invention]
However, in the above configuration, since a plurality of belts 84 are attached to the driving roller 81, it is necessary to remove each belt 84 one by one.
In addition, a part of the article, dust, and the like are easily accumulated on the back surface of the belt 84 and the concave groove 83 of the driving roller 81, and cleaning cannot be performed easily. As a result, there is a problem that germs easily propagate in the concave groove 83.
Further, since the drive roller 81 is configured to be exposed to the outside and rotate, there is a risk that an object is easily caught in this portion, for example, a hand is caught.
[0006]
Further, this conveyor 80 cannot be easily disassembled because the drive roller 81 portion is drivingly connected to the motor 83. In order to disassemble the conveyor 80, it was necessary to move the receiving seat of the motor 86 and remove the belt of the connecting means 85, which was troublesome.
In particular, when the article is a food, disassembly for periodically cleaning the conveyor 80 is required, but this cannot be easily performed. Due to the time and effort required for disassembling and assembling, parts may be lost or assembled incorrectly.
[0007]
  SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and is a conveyance bell that is easy to attach and detach without causing articles to adhere to each other.TheEasier to disassemble and assemble, more cleanable and saferTotalThe purpose is to provide a weighing machine.
[0008]
[Means for Solving the Problems]
  In order to achieve the above object, the weighing machine of the present invention is as described in claim 1.A conveyor having a pair of rollers (11A, 11B), a single belt (12) formed endlessly and having a predetermined width and length, and stretched between the pair of rollers;
  A cradle (10) that pivotally supports the pair of rollers;
  A weighing unit (8) that supports the cradle (10) and measures the mass of an article conveyed and moved on the belt,ConveyorAboveIn a weighing machine that weighs mass while conveying articles placed on a belt,
  in frontOn the surface of the beltIsThe cross-section has a predetermined shape and the beltOne end part (17a) and the other end part (17b) are joined independently by the joining part (17G) along the conveying direction to be endless.Continuously formedA plurality of protrusions (17) in the width direction of the beltSeparated from each other by a predetermined distancePastedProvidedAnd
  Further, the joint portions of the protrusions are arranged in a distributed manner in the front-rear direction of the belt in the conveying direction.It is characterized by that.
[0016]
  The belt 12 having the above-described configuration is provided with a plurality of protrusions 17 that are continuous in a predetermined direction. When the article is transferred onto the belt 12, it is supported by the protrusions 17 and can be prevented from being in close contact with the surface of the belt 12, and can be smoothly discharged to the subsequent stage.
  The belt 12 can be applied to a conveyor, and can be easily removed by swinging one roller 11B side.
  The driving roller 11A and the motor unit 4 are connected to each other.Part 15Separation is possible at the part, and the conveyor can be easily disassembled.
  In addition, in the configuration in which the belt 12 having a plurality of the protrusions 17 is provided and the protrusions 17 are continuously formed along the conveyance direction, the joining portion 17G of the one end 17a and the other end 17b of the protrusion 17 is the belt 12. Therefore, the load when the joining portion 17G passes through the rollers 11A and 11B can be reduced, and the vibration can be reduced.
  In particular, when using the belt 12 with the protrusion 17 to measure an article that is easily adhered, the vibration due to the joint portion 17G is reduced and the measurement accuracy is not lowered. It is possible to prevent the article from adhering to the surface and smoothly discharge the article after the measurement.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be specifically described below with reference to the drawings.
1 is a plan view showing a conveyor of the present invention, FIG. 2 is a front view, and FIG. 3 is a side view.
In the present embodiment, as an apparatus including the conveyor 1, a weighing machine that measures the mass while conveying an article without stopping the article is illustrated as an example and described.
[0018]
The conveyor 1 is generally composed of a support unit 2, a transport unit 3, and a motor unit 4.
First, the support unit 2 includes a pair of left and right side plates 6a and 6b and gantry 7a and 7b that connect the side plates 6a and 6b. The mounts 7a and 7b are connected and fixed to the measuring unit 8, and measure the mass of the entire conveyor 1 and the articles. The weighing unit 8 includes, for example, a load cell or an electronic balance. The weighing signal of the weighing unit 8 is output to a calculation unit (not shown), and the mass of the article is obtained by subtracting the weight of the conveyor 1 by calculation processing of the calculation unit. The measuring unit 8 is fixed on a base 9 of the apparatus.
[0019]
  Next, the transport unit 3 is connected to the support unit 2.WearIt is removable. The transport unit 3 includes a receiving base 10 having substantially the same lateral width and length as the support unit 2, a driving roller 11A and a driven roller 11B provided at both ends of the receiving base 10, and a tension between these rollers 11A and 11B. The endless belt 12 is generally configured.
[0020]
As shown in the configuration diagrams of FIGS. 4A, 4 </ b> B, and 4 </ b> C, the cradle 10 includes a plurality of receiving portions 10 a having a substantially U-shaped cross section that continuously open downward in the length direction ( 4 in FIG. 4). Then, a plurality of support rods 13 (two in FIG. 4) perpendicular to the length direction are inserted into the side portions of the receiving portions 10a, and the receiving portions 10a are connected and fixed in parallel to each other. The width of the left and right. In the cradle 10 configured as described above, the upper surface of each receiving portion 10a forms a flat surface 14 having the same height. Each support 13 is inserted in the vicinity of each end in the length direction of the cradle 10.
In addition, the flat surface 14 of each receiving portion 10a is provided with a plurality of long groove-like opening holes 21 extending along the length direction.
[0021]
The cradle 10 is not limited to the above-described configuration, and the basin 10a having a substantially U-shaped cross-section that continuously opens in the length direction is configured to have a single left and right width. The support 13 may be fixed between the side portions of the cradle 10a to form a flat surface 14.
[0022]
As described above, the cradle 10 is reinforced in the lateral width direction and the length direction by the side portion of the receiving portion 10 a and the support 13, so that the load of the article conveyed on the belt 12 by the flat surface 14 can be obtained. To support.
[0023]
The drive roller 11 </ b> A is supported by a bearing portion 16 having a rotating shaft 11 </ b> Aa extending at both ends thereof fixed to one end of the cradle 10 in the length direction. These bearing portions 16 are provided with bearings 42 that rotatably support the rotary shaft 11Aa. Further, in the driving roller 11A, the flat surface 14 of the cradle 10 and the upper peripheral surface thereof have the same height.
[0024]
The driven roller 11 </ b> B is disposed on the other end in the length direction of the cradle 10 via the swinging portion 35. The oscillating portions 35 are provided on both sides of the cradle 10 so as to oscillate with one support rod 13 protruding from the both side plates 10d of the cradle 10 as the oscillating shaft 35a. 11B is supported.
[0025]
As shown in FIGS. 5 and 6, the oscillating portion 35 is formed as a housing having an internal space, and support means 36 involved in supporting the driven shaft 11Ba of the driven roller 11B is provided therein. Yes.
The support means 36 includes a support 37, an adjustment screw 38, and an elastic member 39.
The support member 37 is made of a plate piece bent in a substantially L shape, and a long hole 40 that is partially opened is formed at the tip of the bent piece 37a. The one piece 37a is along the outer surface of the side plate 10d of the cradle 10 in the housing, and the opening of the elongated hole 40 is directed toward the swing end side of the swing portion 35.
[0026]
Then, the driven shaft 11Ba of the driven roller 11B is inserted and supported in the long hole 40. The driven shaft 11Ba is formed with a recess 33 for receiving the thickness of one piece 37a of the support member 37, and is loosely inserted into the elongated hole 40 through the recess 33. Therefore, the driven roller 11B can move along the long hole 40 and the movement of the driven shaft 11Ba in the axial direction is restricted.
[0027]
The adjustment screw 38 is inserted into the housing from the outside of the swing end of the swing portion 35. The adjustment screw 38 is inserted into the tip of the driven shaft 11Ba loosely inserted into the elongated hole 40 of the support 37 and is screwed into the other piece 37b bent away from the cradle 10 in the support 37. Has been. Therefore, by rotating the adjustment screw 38 so as to be tightened with respect to the other piece 37b of the support tool 37, the support tool 37 is pulled toward the swing end in the housing. On the contrary, by rotating the adjustment screw 38 so as to be loosened, the support member 37 is moved away from the swing end side in the housing.
[0028]
The driven shaft 11Ba rotatably supports the driven roller 11B by a bearing 43 disposed in the driven roller 11B. For this reason, even if the adjusting screw 38 is inserted through the tip of the driven shaft 11Ba, the rotation of the driven roller 11B is not hindered.
[0029]
The bearing 43 is configured to have heat resistance and water pressure resistance similarly to the bearing 42 that supports the drive roller 11A described above. The specific configuration is the same as that of the bearing 42 described above.
[0030]
The elastic member 39 is configured as a compression coil spring. The compression coil spring 39 is interposed between the other piece 37b of the support 37 and the driven shaft 11Ba while being inserted through the adjustment screw 38. The compression coil spring 39 always presses the driven roller 11B toward the swinging end side of the swinging part 35 via the driven shaft 11Ba in the housing.
Further, when the adjusting screw 38 is tightened or loosened, the compression coil spring 39 is expanded or contracted, and the pressing force is adjusted.
[0031]
The swinging portion 35 is held by the holder 41 so that the swinging of the swinging portion 35 is restricted to the other end side in the length direction of the cradle 10 so that the swinging thereof is restricted.
As shown in FIG. 5, the holder 41 includes a holding pin 41 a that can be inserted into a hole 10 e provided in the side plate 10 d of the cradle 10 with a slight margin (play). The holding pin 41a protrudes in a direction to be always inserted into the hole 10e by the spring material 41b.
Therefore, the driven roller 11 </ b> B that can be swung by the swinging portion 35 is regulated by the holder 41 so that the swinging of the driven roller 11 </ b> B is inadvertently swung within a range in which the allowance (play) is allowed to swing. It becomes.
[0032]
Further, the swinging portion 35 is provided with a stopper 35b that comes into contact with the cradle 10, and the swinging upward in FIG. 6 is restricted.
[0033]
FIG. 7 is a perspective view showing the belt 12.
The belt 12 is configured as a canvas formed by weaving polyester fibers in an annular shape. The belt 12 has a width that is about the length of the driving roller 11A and the driven roller 11B in the axial direction, and a length between the driving roller 11A and the driven roller 11B.
The inner and outer surfaces are coated with a urethane resin so as to have heat resistance and moisture resistance.
[0034]
On the surface (outer surface) 12 f of the belt 12, a plurality of protrusions 17 that are continuous along the conveying direction are formed to protrude. As shown in the enlarged cross-sectional view of FIG. 8, the protrusion 17 has a substantially semicircular cross section, and is formed by sticking a belt-shaped one molded with a urethane resin to the belt 12. . Affixing is performed by adhesion or welding.
[0035]
The protrusion 17 is formed by bonding one end portion 17 a and the other end portion 17 b into an endless ring by bonding or the like, and then a flat fixing surface 17 c is attached to the surface 12 f of the belt 12.
A plurality of the protrusions 17 are provided at a predetermined interval in the width direction of the belt 12, and the joining portion (joining part 17 </ b> G) between the one end 17 a and the other end 17 b of each protrusion 17 is the front and rear in the conveying direction of the belt 12. Are distributed at different positions.
As a result, even if a bending force is applied to the belt, the joint portions are not arranged in a straight line but are dispersed, so that the durability of the joint portions 17G of the respective protrusions can be maintained.
[0036]
With this projection 17, the article W can be held and transported with a predetermined height floating on the surface 12 f of the belt 12 by touching the upper surface 17 d of the projection 12, as shown by a one-dot chain line in FIG. 8.
The intervals between the protrusions 17 are arranged at appropriate intervals according to the degree of bending of an article placed on the belt 12. For example, by narrowing the interval, the article can be held only by the upper surface 17d of each protrusion 17 and can be conveyed without touching the surface 12f of the belt 12.
[0037]
As shown in FIG. 4B, an endless bar member 12a is formed at the center of the inner surface of the belt 12. As shown in FIG. This crosspiece member 12a is formed of urethane resin, and is fixed to the belt 12 by welding or the like.
As shown in FIG. 4 (a), grooves 11Ac and 11Bc are formed at the central portions of the driving roller 11A and the driven roller 11B so as to receive the crosspiece member 12a, and other roller surfaces excluding the grooves 11Ac and 11Bc. And contact with the inner surface of the belt 12.
Moreover, the receiving stand 10 avoids the contact with the said crosspiece member 12a with the space | interval of the receiving part 10a.
[0038]
As shown in FIGS. 1 to 3, the belt 12 configured as described above has a driven roller 11 </ b> B and a driving roller 11 </ b> A with the swinging end of the swinging portion 35 facing the other end in the length direction of the cradle 10. It is stretched between the driving roller 11A and the driven roller 11B while being away from the driving roller 11B.
[0039]
Further, in the state where the belt 12 is stretched between the driving roller 11A and the driven roller 11B, the support means 36 described above receives the tension of the belt 12 by the elastic force of the elastic member 39, and causes the driven roller 11B to move. It expands / contracts in the direction of contacting / separating the drive roller 11A.
That is, when the tension of the belt 12 is smaller than the elastic force of the elastic member 39, the support means 36 presses the driven roller 11B away from the driving roller 11A, and the belt 12 is stretched. When the tension of the belt 12 is larger than the elastic force of the elastic member 39, the support means 36 receives the tension of the belt 12 and moves the driven roller 11B backward in the direction approaching the driving roller 11A.
Further, if the adjustment screw 38 of the support means 36 is tightened or loosened, the compression coil spring 39 is expanded and contracted, and the tension applied to the belt 12 can be adjusted.
[0040]
In addition, the belt 12 stretched between the driving roller 11A and the driven roller 11B is prevented from meandering during rotation when the crosspiece member 12a on the inner surface engages with the grooves 11Ac and 11Bc. .
[0041]
By the way, the above-described transport unit 3 is placed on the support unit 2 and is fixed by a fixture 30 so as to be detachable.
The side plates 6 a and 6 b of the support unit 2 stand upright so as to be parallel to the length direction of the cradle 10 and avoid the thickness of the side plate 10 d of the cradle 10 in the transport unit 3. It is slightly narrower than 10 in the width direction (inward).
[0042]
On the other hand, between the side plates 10d of the cradle 10 in the transport unit 3, as described above, the two supports 13 parallel to the width direction (one is located in the vicinity of the drive roller 11A and the other forms the swing shaft 35a). ) Further, at the other end in the length direction of the cradle 10 is a driven shaft 11Ba of a driven roller 11B supported via a swing shaft 35a.
In the transport unit 3, the support 13, the swing shaft 35 a (support 13), and the driven shaft 11Ba are supported by the upper end edges of the side plates 6 a and 6 b of the support unit 2 and placed on the support unit 2. That is, the side plates 6 a and 6 b form a support plate that supports the transport unit 3.
[0043]
As shown in the side views of FIG. 2 and FIG. 9, with respect to the upper edge of the side plates 6 a and 6 b of the support unit 2, the portion that receives the support rod 13 in the vicinity of the drive roller 11 </ b> A can be fitted with the support rod 13. A U-shaped receiving groove 45 is formed. In addition, a portion that receives the swing shaft 35a at the upper edge and a portion that receives the driven shaft 11Ba form horizontal placement portions 46A and 46B.
[0044]
When the transport unit 3 is placed on the support unit 2 having the above configuration, the side plate 10 d of the receiving table 10 in the transport unit 3 is placed outside the side plates 6 a and 6 b of the support unit 2. Then, the support rod 13 is positioned by the receiving groove 45, and the swinging shaft 35a and the driven shaft 11Ba are placed on the placement portions 46A and 46B.
[0045]
The fixture 30 that fixes the transport unit 3 placed on the support unit 2 is configured by a catch clip as shown.
The catch clip 30 is provided on the side plates 6 a and 6 b of the support unit 2. Further, the side plate 10d of the cradle 10 in the transport unit 3 is provided with an engagement piece 30a to which the catch clip 30 is locked.
Then, the catch clip 30 is engaged with the engagement piece 30a, and the transport unit 3 is fixedly held at the upper position of the support unit 2.
The fixture 30 is not limited to the catch clip described above, and may be configured to screw the transport unit 3 to the support unit 2.
[0046]
Thus, when the transport unit 3 is placed and fixed on the support unit 2, the support 13 and the swing shaft 35 a (support 13) are connected to the upper end edges (the receiving grooves 45 and It is fixed so as to be pressed against the mounting part 46A).
The driven shaft 11Ba of the driven roller 11B is swingable by the swinging portion 35 and is abutted and supported by the upper end edges (mounting portion 46B) of the side plates 6a and 6b of the support unit 2.
[0047]
The driven roller 11B with which the driven shaft 11Ba is abutted and supported is an upper portion of the driving roller 11A whose upper peripheral surface has the same height in advance by molding the upper end edges (mounting portions 46B) of the side plates 6a and 6b. The height is the same as the circumferential surface and the flat surface 14 of the cradle 10.
As a result, the endless belt 12 stretched between the driving roller 11A and the driven roller 11B is lined on the flat surface 14 without any step, thereby improving article conveyance. If the height position of the portion is shifted, a step is generated in the belt, and when the article passes through the step, an unnecessary measurement signal is output, and weight measurement cannot be performed accurately.
[0048]
Next, as shown in FIGS. 1 and 3, the motor unit 4 is provided on the side plate 6 b of the support unit 2 on the one end side of the driving roller 11 </ b> A. The motor unit 4 includes a drive motor and a speed reducer, and these are accommodated in a waterproof case 4a. The output shaft 4b of the motor unit 4 is disposed at a position coaxial with the rotation shaft 11Aa of the drive roller 11A, and these are connected by a connecting portion 15.
[0049]
The connecting portion 15 is composed of a pair (male and female) couplings 18 (18a, 18b) fixed to the output shaft 4b of the motor unit 4 and the rotating shaft 11Aa extending to one end side of the driving roller 11A. .
[0050]
FIG. 10 is a diagram illustrating the connecting portion 15. FIG. 4A is a cross-sectional plan view, and FIG.
One coupling 18a has a predetermined number of engagement teeth 19 in which a plurality of crests 19a and troughs 19b are formed in a concavo-convex shape radially at a predetermined angle with the rotation center as a center. The other coupling 18 b also has engaging teeth of the same shape that mesh with the engaging teeth 19.
The end surface 19c of the engagement tooth 19 is formed to be inclined at a predetermined angle with respect to the rotation direction. The end face 19c guides the mutual engagement when the couplings 18a and 18b come close to each other in the axial direction.
[0051]
The coupling 18 is accommodated in a cylindrical protective cover 20 formed on the bearing portion 16 that pivotally supports one end of the rotating shaft 11Aa of the drive roller 11A. The protective cover 20 is concentric with the rotation shaft 11Aa of the drive roller 11A, and the rotation shaft 11Aa passes therethrough. The protective cover 20 has a length capable of accommodating the couplings 18a and 18b and an inner diameter having a predetermined diameter. Moreover, the inner periphery of the front-end | tip part 20b is formed in the taper shape.
[0052]
On the other hand, the motor unit 4 side of the connecting portion 15 will be described. The seat 23 is concentrically protruded and fixed to the output shaft 4b portion of the waterproof cover 4a. The seat 23 has a substantially cylindrical shape having an outer diameter of a predetermined diameter, and the distal end portion 23b is formed in a tapered shape.
Here, the inner peripheral surface 20c of the protective cover 20 and the outer peripheral surface 23c of the receiving seat 23 are fitted to each other with a predetermined accuracy, and the shaft cores of the couplings 18a and 18b are positioned at the same position by this fitting. The
[0053]
As described above, the rotation shaft 11Aa of the drive roller 11A and the output shaft 4b of the motor unit 4 can be freely engaged and disengaged by the coupling 18, and the shaft core is positioned by the protective cover 20 and the receiving seat 23. The
[0054]
The weighing operation of the weighing machine including the conveyor 1 having the above configuration will be described.
When the drive motor of the motor unit 4 is rotationally driven, the rotational force is decelerated via the speed reducer, and the output shaft 4b rotates. The output shaft 4b is connected to the rotation shaft 11Aa of the drive roller 11A of the transport unit 3 via the coupling 18 of the connecting portion 15. Thereby, the driving roller 11A rotates and the belt 12 stretched between the driven roller 11B moves in one direction.
[0055]
When the article is transferred onto the belt 12, the article is placed on the upper surface 17d portion of the plurality of protrusions 17 provided on the belt 12 surface 12a. Therefore, even if the article is easy to adhere, the article is prevented from coming into close contact with the surface 12a of the belt 12 by the plurality of protrusions 17 provided at a predetermined interval. Thereby, the delivery after completion | finish of conveyance can be performed smoothly.
Each protrusion 17 is continuously formed in the conveying direction of the belt 12 and does not hinder the conveying force when an article is transferred onto the belt 12.
[0056]
The weighing unit 8 measures the masses of the conveyor 1 and the articles. The calculation unit subtracts the weight of the conveyor 1 by calculation processing based on the measurement signal to obtain the mass of the article. The calculation unit performs control such as determining the quality of the article according to the mass of the article, and sorting the article according to the mass.
[0057]
Since the protrusions 17 provided on the belt 12 are located at positions where the joint portions 17G are different from each other in the transport direction, the joint portion 17G portion is a conveyor when passing the drive roller 11A or the driven roller 11B portion. 1 vibrations can be minimized.
[0058]
That is, the joining portion 17G has a predetermined hardness, and a bending force is applied when passing through the driving roller 11A or the driven roller 11B portion, and the conveying force is applied to the driving roller 11A and the driven roller 11B side. It generates a force to vibrate and become a load. However, since the joints 17G of the protrusions 17 are arranged in a distributed manner before and after in the transport direction, this load component can always be generated at any one of the joints 17G.
Thereby, the vibration of the conveyor 1 at the time of article weighing can be reduced, and unnecessary vibration at the time of weighing in the weighing unit 8 can be prevented, so that the weighing accuracy can be maintained without lowering.
[0059]
Next, the attaching / detaching operation of the transport unit 3 in the conveyor 1 having the above configuration will be described.
First, the removal of the transport unit 3 is performed by first releasing the catch clip 30 that holds the fixing to the support unit 2. And the connection state of the connection part 15 which has connected the output shaft 4b of the motor unit 4 and rotating shaft 11Aa of 11 A of drive rollers is cancelled | released. That is, the fitting between the protective cover 20 and the receiving seat 23 is released, and the engagement state between the couplings 18 is released. Accordingly, the transport unit 3 is detached independently in the upper direction of the support unit 2 as shown in FIG.
[0060]
The removed transport unit 3 can be cleaned and sterilized while the belt 12 is still attached.
For example, the transfer unit 3 itself is put into a washing water tank (not shown), and the water in the washing water tank is boiled and boiled. Such boiling cleaning and sterilization processes can be used effectively because hygiene considerations are important, especially when the goods to be transported are food, and bacteria and mold that propagate on the production line can be easily used. Can be sterilized.
Here, when the transport unit 3 is cleaned and sterilized by boiling, the belt 12 contracts (about 1%), and an excessive load is applied to the driving roller 11A and the driven roller 11B.
However, the transport unit 3 described above is provided with support means 36 that is applied to the driven roller 11B, receives the tension of the belt 12 by the elastic force of the elastic member 39, and expands or contracts the driven roller 11B in the direction of contacting and separating from the drive roller 11A. Yes. As a result, even if the belt 12 contracts, the driven roller 11B receives the contraction of the belt 12 through the support means 36 in the vicinity of the driving roller 11A, so that an excessive load is applied to the driving roller 11A and the driven roller 11B. There is no such thing.
[0061]
Further, when the contraction of the belt 12 differs in the width direction, meandering occurs in the rotating belt 12.
However, the transport unit 3 described above includes an endless cross member 12a on the inner surface of the belt 12, and the driving roller 11A and the driven roller 11B include grooves 11Ac and 11Bc for receiving the cross member 12a. Thus, even if the contraction of the belt 12 is different in the width direction, the meandering of the belt 12 is forcibly suppressed by the fitting of the crosspiece member 12a and the groove portions 11Ac and 11Bc.
[0062]
The transport unit 3 employs a lubricating member having excellent heat resistance and water pressure resistance for the bearings 42 and 43 that rotatably support the driving roller 11A and the driven roller 11B, and the belt 12 has heat resistance and moisture resistance. Since it is comprised so that it can have, it can fully respond to the washing | cleaning and sterilization process by boiling.
[0063]
Thus, in the conveyor 1 mentioned above, since it comprised so that the conveyance unit 3 itself which becomes independently removable could be boiled, it becomes possible to perform a washing | cleaning and sterilization process cheaply, safely and easily. .
[0064]
Next, in order to attach the transport unit 3 to the support unit 2 after the cleaning / sterilization step, it can be easily attached by the operation reverse to the above.
That is, the transport unit 3 may be placed on the support unit 2 and the transport unit 3 may be fixedly held by the catch clip 30.
[0065]
At this time, the motor unit 4 and the driving roller 11 </ b> A are connected by the connecting portion 15. That is, when the motor unit 4 is fixed to the side plate 6b of the support unit 2, the receiving seat 23 is fitted to the protective cover 20 so that the axial centers of the couplings 18a and 18b are engaged with each other. Can do. In addition, since the end faces 19c of the engaging teeth 19 are inclined by a predetermined angle, the couplings 18a and 18b are not aligned with the peaks and valleys of the tooth faces when the couplings 18a and 18b are close to each other in the axial direction. , Can be rotated and meshed with each other.
[0066]
The rotation shaft 11Aa of the drive roller 11A and the output shaft 4b of the motor unit 4 are not shown in the figure, but there are pulleys on the rotation shaft 11Aa and the output shaft 4b, and a drive belt is attached to each pulley. The structure which consists of may be sufficient. In this case, for example, the motor unit 4 is slid to release the tension of the drive belt, and the drive belt is detached from each pulley so that the shafts 11Aa and 4b can be freely engaged and detached, and the transport unit 3 can be removed. it can.
[0067]
Further, in the transport unit 3 described above, the belt 12 can be removed as necessary, for example, when the belt 12 is replaced or when the belt 12 and another transport unit 3 are separately cleaned and sterilized.
Hereinafter, the attaching / detaching operation of the belt 12 from the transport unit 3 will be described.
[0068]
To remove the belt 12, as shown in FIG. 11, the swinging portion 35 provided in the transport unit 3 is swung. In this embodiment, since the swinging of the swinging part 35 is regulated by the holding tool 41, the holding tool 41 is pulled, the holding pin 41a is pulled out from the hole 10e provided in the side plate 10d, and the swinging regulation is performed. Is released.
Then, by swinging the swing portion 35, the driven roller 11B approaches the drive roller 11A, the tension of the belt 12 is released, and the belt 12 is removed from the transport unit 3 (each roller 11A, 11B).
[0069]
In this way, the driven roller 11B is swung by the swinging portion 35, whereby the driven roller 11B and the driving roller 11A are brought close to each other instantaneously, so that the belt 12 can be easily removed. Further, by swinging the driven roller 11B by the swinging portion 35, the interval between the driven roller 11B and the driving roller 11A can be increased, so that the cross member 12a is formed on the inner surface of the belt 12 as described above. Even if the belt member 12A is not obstructed, the belt 12 can be removed.
[0070]
Thereafter, in order to attach the belt 12 to the transport unit 3, the belt 12 can be easily attached by the reverse operation.
That is, the belt 12 may be hung on the rollers 11A and 11B and the swinging portion 35 may be returned to the original position.
[0071]
At this time, since the driven roller 11B is oscillated by the oscillating portion 35, the interval between the driven roller 11B and the driving roller 11A does not change when the oscillating portion 35 is returned to its original position. Therefore, the belt 12 returns to the original state.
[0072]
Further, when the belt 12 is mounted between the driving roller 11A and the driven roller 11B, the support means 36 even if the tension of the belt 12 itself is slightly different from the original state by, for example, cleaning the belt 12 or replacing the belt 12. The compression coil spring 39 absorbs the difference.
If the tension of the belt 12 itself is significantly different from the original state, the tension of the belt 12 may be adjusted by changing the pressing force with the adjusting screw 38 of the support means 36.
[0073]
The protrusion 17 of the belt 12 described in the above embodiment is not limited to a semicircular cross section as described above. For example, the protrusion 17 has a triangular shape as shown in the partial cross-sectional view of FIG. 12, or a rectangular shape as shown in the partial cross-sectional view of FIG. Any shape may be used.
By the way, as shown in FIG. 14, the protrusions 17 having the above-mentioned shapes may be applied to the canvas of the belt 12 and then a thin urethane resin sheet 25 may be attached or coated so as to cover the protrusions. Good. As a result, the sticking state of the protrusions 17 on the surface 12f of the belt 12 can be stabilized and the protrusions 17 can be prevented from being peeled off, and foreign matter, dust, etc. can be prevented from entering the bonding portions of the protrusions 17 on the belt 12. become able to.
[0078]
【The invention's effect】
  According to the weighing machine of the present invention,On the surface of the belt, a plurality of protrusions, which have a predetermined shape in cross section and are continuously joined endlessly with one end and the other end being joined independently by a joint along the belt conveyance direction, Are provided in a direction with a predetermined interval between them.Depending on the configuration of the conveyor belt,The article can be conveyed without being in close contact with the surface of the belt.
  This conveyor belt can be easily formed by simply joining the protrusions formed in a string shape to the surface of the belt.
  Further, a plurality of the protrusions can be provided continuously in the belt conveyance direction and provided in the width direction of the belt. Both ends of this string-like protrusion are bonded and attached to the surface of the belt, but due to the configuration in which the joints of each protrusion are dispersed and arranged in the front and rear of the belt conveying direction, a bending force acts on the belt. In addition, since the joint portions are not arranged in a straight line, the durability of the joint portions of the respective protrusions can be maintained.
[0079]
  Of the present inventionWeighing machineAccording to the above, the belt is stretched between a pair of rollersConveyorStructureFinallyAccordingly, even an article that is easily adhered can be conveyed without being adhered to the surface of the belt.
  In addition, the belt can be easily attached and detached by configuring the roller such that one of the pair of rollers can swing relative to the cradle so as to be close to the other roller.
  In addition, by configuring the connecting portion between the one roller and the motor unit so that the driving force can be connected and separated, the conveyor can be easily disassembled, and cleaning can be easily performed.
[0080]
  According to the weighing machine provided with the above-described transport belt of the present invention, the mass of the article can be measured and discharged without the article being in close contact with the belt, so that the weighing can be performed smoothly.
  In addition, since the conveyor belt of the present invention can be cleaned simply by removing a single belt, the cleaning property is improved particularly when the object to be weighed is considered to be hygienic, such as food. Will be able to.
  Further, when a belt having a plurality of protrusions that are continuous in the belt conveyance direction and provided in the width direction of the belt is used, both ends of the string-like protrusions are joined and attached to the surface of the belt However, since the joint portions of the protrusions are distributed in the front and rear directions of the belt, the load and vibration when the joint portion passes through the roller portion can be reduced, and the measurement accuracy can be maintained.
  In addition, since the protrusions are covered with a sheet or coating, the sticking state of the protrusions on the surface of the belt can be stabilized, and the protrusions can be prevented from being peeled off. Etc. can be prevented.
[Brief description of the drawings]
FIG. 1 is a plan view showing a conveyor according to the present invention.
FIG. 2 is a front view of the conveyor.
FIG. 3 is a side view of the conveyor.
FIG. 4A is a plan view showing a configuration of a cradle of a transport unit.
  (B) Side view of the cradle.
  (C) Front view of the cradle.
FIG. 5 is a plan sectional view showing a configuration of a swinging portion.
FIG. 6 is a side cross-sectional view showing a configuration of a swing part.
FIG. 7 is a perspective view showing a belt.
FIG. 8 is a partially enlarged sectional view of a belt.
FIG. 9 is a front view showing a configuration of a support unit.
FIG. 10A is a plan sectional view showing a connecting portion.
  (B) The side view.
FIG. 11 is a front view showing a swinging operation of a driven roller.
FIG. 12 is a partial cross-sectional view showing a modification of the protrusion shape on the belt.
FIG. 13 is a partial cross-sectional view showing a modification of the protrusion shape on the belt.
FIG. 14 is a partial cross-sectional view showing surface processing on a belt.
FIG. 15The top view which shows the conventional measuring machine for adhesion prevention.
FIG. 16The perspective view which shows the drive roller part of the same conventional weighing machine.
[Explanation of symbols]
  DESCRIPTION OF SYMBOLS 1 ... Conveyor, 3 ... Conveyance unit, 8 ... Measurement part, 10 ... Receptacle, 11A ... Drive roller, 11Aa ... Rotating shaft, 11B ... Driven roller, 11Ba ... Driven shaft, 12 ... Belt, 17 ... Projection, 17a ... One end Part, 17b ... other end part, 35 ... swinging part, 42, 43 ... bearing, W ... article.

Claims (1)

A conveyor having a pair of rollers (11A, 11B), a single belt (12) formed endlessly and having a predetermined width and length, and stretched between the pair of rollers;
A cradle (10) that pivotally supports the pair of rollers;
It said cradle (10) supports, the metering unit on the belt weighing the mass of the article to be conveyed moves (8), comprising a mass while conveying the placing on the belt article of the conveyor in the weighing machine for weighing,
On the surface of the pre-Symbol belt, one end along the conveying direction of the belt cross section forms a predetermined shape (17a) and the other end portion (17b) is joint endless are independently joined by (17G) a plurality of protrusions which are continuously formed (17), each other in the width direction of the belt are provided attached at a predetermined distance,
Furthermore, the joints of the protrusions are arranged in a distributed manner in the front-rear direction of the belt in the conveying direction .