CN214238498U - Slicer transfer chain equipment - Google Patents

Abstract

A slicer conveyor line apparatus comprising: the slicing machine comprises a rack, an inclined plate, a floating mechanism, a transmission mechanism and a slicing mechanism, wherein the transmission mechanism comprises a first transmission mechanism and a second transmission mechanism, the floating mechanism comprises a floating fixed plate, a first slide rail sliding block component, a floating plate, a floating rod, a spring and a floating wheel, the second transmission mechanism also comprises a plurality of position adjusting mechanisms for tensioning a second transmission belt, and the slicing mechanism comprises a chopping block, a fourth motor, a rotating plate, an eccentric wheel, a U-shaped plate, a seventh slide rail sliding block component and a cutter fixed plate; the advantages are as follows: the structure is simple, and the cost is low; the products are stably conveyed, and the deviation is avoided; the pressing height is adjustable, and the conveying of products with different sizes is met; the slice rotating mechanism can cut the angle; the cutting operation is formed in a mode that the cutter cuts obliquely, so that the cutting area is greatly increased, and the cutting precision is ensured; high automation degree and high efficiency.

Description

Slicer transfer chain equipment

Technical Field

The utility model relates to a section technical field specifically is a slicer transfer chain equipment.

Background

In the daily production process, a plurality of products such as rubber products, plastic products and the like are of an integral structure, and the rubber products or the plastic products need to be sawn into a sheet structure and then subsequently processed, but in the prior art, tools such as simple cutting tools or sawing machines are generally utilized, and through the modes of artificial fixation, artificial feeding and the like, the products are easy to swing in the cutting process, so that the cutting precision of the products is low, and in addition, operators can be accidentally injured; in addition, a plurality of programs need input of labor cost, so that the processing cost is high, and meanwhile, the supply and working efficiency is greatly reduced; when the inclined shearing is needed, the cutting angle cannot be ensured to be continuously unchanged, and the cutting precision is low.

The utility model provides a slicer transfer chain equipment solves above-mentioned technical problem.

SUMMERY OF THE UTILITY MODEL

A slicer conveyor line apparatus comprising: the slicing machine comprises a rack, an inclined plate, a floating mechanism, a transmission mechanism and a slicing mechanism, wherein the inclined plate is arranged in a frame of the rack, the transmission mechanism comprises a first transmission mechanism and a second transmission mechanism, the floating mechanism, the first transmission mechanism and the second transmission mechanism are fixed with the inclined plate, and the slicing mechanism is directly or indirectly fixed with the inclined plate; first transport mechanism includes first motor, first action wheel, first from driving wheel, first conveying belt, first backup pad, second backup pad, first backup pad is fixed with the hang plate, the second backup pad with first backup pad fixed connection, first motor with first backup pad is fixed, and first action wheel is installed to the output shaft of first motor, and first from the driving wheel is installed to the hang plate face, and first action wheel, first from driving wheel cup joint the transmission through first conveying belt, first backup pad extends the below of belt face on the first conveying belt, second transport mechanism includes second motor, second action wheel, second from driving wheel, third from driving wheel, fourth from driving wheel, fifth from driving wheel, third backup pad, second conveying belt, second action wheel, second from driving wheel, third from driving wheel, fourth from driving wheel, from driving wheel, The fifth driven wheel is directly or indirectly rotatably arranged on the surface of the inclined plate, an output shaft of the second motor is sleeved with a second driving wheel, the second conveying belt is sleeved on the outer sides of the second driving wheel, the second driven wheel, the third driven wheel, the fourth driven wheel and the fifth driven wheel, the third supporting plate is fixed with the inclined plate, the third supporting plate is positioned below the lower belt surface of the second conveying belt, and a conveying table surface of the third supporting plate, which is close to one end of the first conveying mechanism, is flush with the conveying surface of the first conveying belt; the slicing mechanism comprises a chopping board, a cutter and a driving device, the driving device is fixedly connected with the cutter, the chopping board is located below the cutter, the floating mechanism is located above the first conveying belt, and the floating mechanism is used for pressing products conveyed on the first conveying belt.

Preferably, slicer transfer chain equipment, floating mechanism includes floating fixed plate, a N first slide rail sliding block subassembly, a N floating plate, a N floating rod, a N spring, a N floating wheel, floating fixed plate with first backup pad fixed connection, a slide rail sliding block subassembly with first backup pad face is fixed, the floating rod upper end with floating fixed plate is fixed, the lower extreme passes the floating plate, the one end of floating plate with the slider fixed connection of a slide rail sliding block subassembly, the rotatable formula of the other end is fixed with the floating wheel, every floating rod overcoat has the spring.

Preferably, slicer transfer chain equipment still includes a plurality of position adjustment mechanism in the second transport mechanism, position adjustment mechanism is used for adjusting the position of second driven wheel, third driven wheel, fourth driven wheel, fifth driven wheel, tensioning second conveyer belt.

Preferably, the slicer conveying line equipment is characterized in that the position adjusting mechanism comprises a first position adjusting mechanism, a second position adjusting mechanism, a third position adjusting mechanism, a fourth position adjusting mechanism and a fifth position adjusting mechanism, the first position adjusting mechanism comprises a second slide rail sliding block assembly, a first lifting plate, a first L-shaped plate and a first connecting rod, the second slide rail sliding block assembly is fixed with a surface of an inclined plate, the first lifting plate is fixed with a sliding block in the second slide rail sliding block assembly, the first L-shaped plate is fixed with the inclined plate, the first connecting rod penetrates through the surface of the first L-shaped plate and is fixed with the first lifting plate, the second motor is fixed with the first lifting plate, and an output shaft penetrates through the first lifting plate; the second position adjusting mechanism comprises a third sliding rail sliding block component, a second lifting plate, a second connecting rod and a first hexagonal rod, the third sliding rail sliding block component is fixedly arranged on the surface of the inclined plate, the second lifting plate is fixed with a sliding block in the third sliding rail sliding block component, two second driven wheels are fixedly arranged on the surface of the second lifting plate in a rotatable mode, the first hexagonal rod is fixed with the inclined plate, the second connecting rod penetrates through the first hexagonal rod, and a spring is sleeved outside the first hexagonal rod; the third position adjusting mechanism comprises a second L-shaped plate, a first lead screw nut component, a fourth slide rail sliding block component, a third motor, a lead screw fixing plate, a third L-shaped plate, a third connecting rod and a ninth slide rail sliding block component, wherein two vertical waist-shaped through holes are processed on the surface of the second L-shaped plate, the third driven wheel is installed on the surface of the second L-shaped plate through the vertical waist-shaped through holes, the second L-shaped plate is fixed with the lower end surface of a nut in the first lead screw nut component, the upper end surface of the nut in the first lead screw nut component is fixed with a sliding block in the ninth slide rail sliding block component, the ninth slide rail sliding block component is fixedly installed on the lower surface of a connecting plate, two ends of the connecting plate are fixedly connected with the lead screw fixing plate, two ends of a lead screw in the first lead screw nut component are fixedly connected with the lead screw fixing plates at two ends through rolling bearings, and the connecting plate between the two lead screw fixing plates is fixedly connected with the third L-shaped plate, the third L-shaped plate is fixedly connected with a slide block in the ninth sliding rail slide block component, and the ninth sliding rail slide block component is fixedly connected with the surface of the inclined plate; the fourth position adjusting mechanism comprises a fifth sliding rail sliding block component, a fifth driven wheel mounting plate, a fourth connecting rod, a second hexagonal rod and a fifth connecting rod, the fifth sliding rail sliding block component is fixed with the surface of the inclined plate, the fifth driven wheel mounting plate is fixed with a sliding block in the fifth sliding rail sliding block component, the fifth driven wheel can be rotatably fixed on the surface of the fifth driven wheel mounting plate, the lower surface of the fifth driven wheel mounting plate is fixed with the upper end of the fourth connecting rod, the lower end of the fourth connecting rod penetrates through a third L-shaped plate, a spring is sleeved on the outer side of the fourth connecting rod, the second hexagonal rod is fixed on the surface of the inclined plate, the fifth connecting rod penetrates through the fifth driven wheel mounting plate, the lower end of the fifth driven wheel mounting plate is fixed with the second hexagonal rod, the spring is sleeved on the fifth connecting rod, and the fifth sliding rail sliding block component and the ninth sliding rail sliding block component share the same sliding rail, the upper end of the third connecting rod is fixed with the fifth driven wheel mounting plate through a connecting block, the lower end of the third connecting rod penetrates through a third L-shaped plate, and a spring is sleeved outside the third connecting rod; the fifth position adjusting mechanism comprises a sixth sliding rail sliding block assembly and a fourth L-shaped plate, the sixth sliding rail sliding block assembly is fixed to the surface of the inclined plate, the fourth L-shaped plate is fixed to a sliding block in the sixth sliding rail sliding block assembly and a connecting plate between the two lead screw fixing plates respectively, and the fourth driven wheel is connected with the fourth L-shaped plate in a rotatable mode.

Preferably, slicer transfer chain equipment, the section mechanism includes chopping block, cutter, drive arrangement includes seventh slide rail sliding block set up of fourth motor, rotor plate, eccentric wheel, U-shaped plate, slope, cutter fixed plate, the output of fourth motor with the rotor plate is fixed, but the eccentric wheel roll formula is installed the eccentric position of rotor plate, the eccentric wheel is located in the U-shaped groove space of U-shaped plate, the U-shaped plate with cutter fixed plate face is fixed, the cutter fixed plate back with the slider face of seventh slide rail sliding block set up is fixed, seventh slide rail sliding block set up is fixed through the slide rail fixed plate, the cutter passes through splint to be fixed cutter fixed plate face, the lower extreme of cutter is fixed with the chopping block.

Preferably, the slicing machine conveying line equipment also comprises a slicing rotating mechanism, the slicing rotating mechanism comprises a rolling bearing, a fifth motor, a second lead screw nut component, an eighth sliding rail sliding block component, a slicing mechanism fixing plate and a rack plate, the end surface of the inner ring of the rolling bearing is convexly arranged, the end surface of the convex circle is processed with teeth, the output shaft of the fifth motor is fixedly connected with the end part of the screw rod of the second screw rod nut component, the fifth motor, the second screw rod nut component and the eighth slide rail sliding block component are fixed with the surface of the inclined plate through corresponding middle connecting plates, one side of a nut in the second screw rod nut component is fixed with a slide block in the eighth slide rail slide block component through a connecting plate, and the other side of the nut is fixed with a rack plate, teeth in the rack plate are meshed with teeth on the end face of the inner ring of the rolling bearing, and the slicing mechanism is directly or indirectly fixed with the rack plate.

Preferably, the slicer conveying line equipment further comprises a material receiving plate, the material receiving plate is fixed to the lower plate surface of the inclined plate, and the material receiving plate is located at the inclined lower end of the cutting board.

Description of the drawings:

the embodiments are further described with reference to the accompanying drawings, in which:

FIG. 1 is an overall block diagram of a slicer conveyor line apparatus;

fig. 2 is a structural view of a floating mechanism, a first conveyance mechanism;

FIG. 3 is a plan view of a portion of the microtome conveyor line apparatus;

FIGS. 4 and 5 are partial block diagrams of a position adjustment mechanism in the microtome conveyor line apparatus;

FIGS. 6 and 7 are block diagrams of a slicing mechanism in a slicer conveyor line apparatus;

the specific structure corresponding to the number is as follows:

the device comprises a frame 1, an inclined plate 2, a floating mechanism 3, a fixed plate 31, a first slide rail slider assembly 32, a floating plate 33, a floating rod 34, a floating wheel 35, a first transmission mechanism 4, a first motor 41, a first driving wheel 42, a first driven wheel 43, a first transmission belt 44, a first support plate 45, a second support plate 46, a second transmission mechanism 5, a second motor 51, a second driving wheel 52, a second driven wheel 53, a third driven wheel 54, a fourth driven wheel 55, a fifth driven wheel 56, a third support plate 57, a first position adjusting mechanism 59, a second slide rail slider assembly 591, a first lifting plate 592, a first L-shaped plate 593, a first connecting rod 594, a second position adjusting mechanism 510, a third slide rail slider assembly 511, a second lifting plate 512, a second connecting rod 513, a first hexagonal rod 514, a third position adjusting mechanism 520, a second L-shaped plate 521, a first lead screw nut assembly 522, a fourth sliding rail slider component 523, a third motor 524, a screw rod fixing plate 525, a third L-shaped plate 526, a third connecting rod 527, a ninth sliding rail slider component 528, a fourth position adjusting mechanism 530, a fifth sliding rail slider component 531, a fifth driven wheel mounting plate 532, a fourth connecting rod 533, a second hexagonal rod 534, a fifth connecting rod 535, a fifth position adjusting mechanism 540, a sixth sliding rail slider component 541, a fourth L-shaped plate 542, a slicing mechanism 6, a cutting board 61, a fourth motor 62, a rotating plate 63, an eccentric wheel 64, a U-shaped plate 65, a seventh sliding rail slider component 66, a cutting knife fixing plate 67, a slicing rotating mechanism 7, a rolling bearing 71, a fifth motor 72, a second screw rod nut component 73, an eighth sliding rail slider component 74, a slicing mechanism fixing plate 75, a rack plate 76 and a material receiving plate 8,

the following detailed description of the invention will be further described in conjunction with the above-identified drawings.

Detailed Description

Specific embodiment example 1:

a slicer conveyor line apparatus comprising: the slicing machine comprises a rack 1, an inclined plate 2, a floating mechanism 3, a transmission mechanism and a slicing mechanism 6, wherein the inclined plate 2 is installed in a frame of the rack 1, the transmission mechanism comprises a first transmission mechanism 4 and a second transmission mechanism 5, the floating mechanism 3, the first transmission mechanism 4 and the second transmission mechanism 5 are fixed with the inclined plate 2, and the slicing mechanism 6 is directly or indirectly fixed with the inclined plate 2; first transport mechanism 4 includes first motor 41, first action wheel 42, first follow driving wheel 43, first conveying belt 44, first backup pad 45, second backup pad 46, first backup pad 45 is fixed with hang plate 2, second backup pad 46 with first backup pad 45 fixed connection, first motor 41 with first backup pad 45 is fixed, and first action wheel 42 is installed to the output shaft of first motor 41, and first follow driving wheel 43 is installed to hang plate 2 face, and first action wheel 42, first follow driving wheel 43 cup joint the transmission through first conveying belt 44, first backup pad 45 extends in the below of belt surface on first conveying belt 44, second transport mechanism 5 includes second motor 51, second action wheel 52, second follow driving wheel 53, third follow driving wheel 54, fourth follow driving wheel 55, fifth follow driving wheel 56, third backup pad 57, A second conveying belt (not shown in the figure), wherein the second driving wheel 52, the second driven wheel 53, the third driven wheel 54, the fourth driven wheel 55 and the fifth driven wheel 56 are directly or indirectly rotatably mounted on the surface of the inclined plate 2, an output shaft of the second motor 51 is sleeved with the second driving wheel 52, the second conveying belt is sleeved outside the second driving wheel 52, the second driven wheel 53, the third driven wheel 54, the fourth driven wheel 55 and the fifth driven wheel 56, the third supporting plate 57 is fixed with the inclined plate 2, the third supporting plate 57 is located below the lower belt surface of the second conveying belt, and the conveying table surface of one end of the third supporting plate 57, which is close to the first conveying mechanism 4, is flush with the conveying surface of the first conveying belt 44; the slicing mechanism 6 comprises a cutting board 61, a cutter and a driving device, the driving device is fixedly connected with the cutter, the cutting board 61 is positioned below the cutter, the floating mechanism 3 is positioned above the first conveying belt 44, and the floating mechanism 3 is used for pressing a product conveyed on the first conveying belt 44, so that the stable conveying of the product is ensured.

The floating mechanism 3 comprises a floating fixing plate 31, 6 first slide rail slider assemblies 32, 6 floating plates 33, 6 floating rods 34, 6 springs (not shown in the figure) and 6 floating wheels 35, the floating fixing plate 31 is fixedly connected with a first supporting plate 45, the first slide rail slider assemblies 32 are fixed to the surface of the first supporting plate 45, the upper ends of the floating rods 34 are fixed to the floating fixing plate 3, the lower ends of the floating rods penetrate through the floating plates 33, one ends of the floating plates 33 are fixedly connected with the sliders of the first slide rail slider assemblies 32, the other ends of the floating plates 33 can be rotatably fixed with the floating wheels 35, and each floating rod 33 is externally sleeved with a spring (the spring is located between the floating fixing plate 31 and the floating plate 33).

Further, the second conveying mechanism 5 further includes five position adjusting mechanisms, and the position adjusting mechanisms are used for adjusting the positions of the second driven wheel 53, the third driven wheel 54, the fourth driven wheel 55, and the fifth driven wheel 56, and tensioning the second conveying belt. Wherein the position adjusting mechanism comprises a first position adjusting mechanism 59, a second position adjusting mechanism 510, a third position adjusting mechanism 520, a fourth position adjusting mechanism 530, and a fifth position adjusting mechanism 540, the first position adjusting mechanism 59 comprises a second sliding rail slider assembly 591 fixed with the face of the inclined plate 2, a first lifting plate 592, a first L-shaped plate 593, a first connecting rod 594, the first lifting plate 592 is fixed with the slider in the second sliding rail slider assembly 591, the first L-shaped plate 593 is fixed with the inclined plate 2, the first connecting rod 594 is fixed with the first lifting plate 592 through the face of the first L-shaped plate 593, the second motor 51 is fixed with the first lifting plate 592, and the output shaft passes through the first lifting plate 592; the second position adjusting mechanism 510 includes a third sliding rail slider assembly 511, a second lifting plate 512, a second connecting rod 513, and a first hexagonal rod 514, the third sliding rail slider assembly 511 is fixedly mounted on the surface of the inclined plate 2, the second lifting plate 512 is fixed to a sliding block in the third sliding rail slider assembly 511, two second driven wheels 53 are rotatably and fixedly mounted on the surface of the second lifting plate 512, the first hexagonal rod 514 is fixed to the inclined plate 2, the second connecting rod 513 passes through the first hexagonal rod 514, and a spring (not shown) is sleeved outside the first hexagonal rod 514; the third position adjusting mechanism 520 comprises a second L-shaped plate 521, a first lead screw nut component 522, a fourth sliding rail sliding block component 523, a third motor 524, a lead screw fixing plate 525, a third L-shaped plate 526, a third connecting rod 527 and a ninth sliding rail sliding block component 528, wherein two vertical waist-shaped through holes are formed in the plate surface of the second L-shaped plate 521, the third driven wheel 54 is installed through the vertical waist-shaped through holes, the second L-shaped plate 521 is fixed with the lower end surface of a nut in the first lead screw nut component 522, the upper end surface of the nut in the first lead screw nut component 522 is fixed with a sliding block in the ninth sliding rail sliding block component 528, the ninth sliding rail sliding block component 528 is fixedly installed on the lower plate surface of a connecting plate, two ends of the connecting plate are fixedly connected with the lead screw fixing plate 525, two ends of the first lead screw nut component 522 are fixedly connected with the lead screw fixing plates 525 at two ends through rolling bearings, a connecting plate between the two screw rod fixing plates 525 is fixedly connected with the third L-shaped plate 526, the third L-shaped plate 526 is fixedly connected with a slide block in the ninth sliding rail slide block assembly 528, and the ninth sliding rail slide block assembly 528 is fixedly connected with the surface of the inclined plate 2; the fourth position adjusting mechanism 530 includes a fifth sliding track slider assembly 531, a fifth driven wheel mounting plate 532, a fourth connecting rod 533, a second hexagonal rod 534, and a fifth connecting rod 535, the fifth sliding track slider assembly 531 is fixed to the surface of the inclined plate 2, the fifth driven wheel mounting plate 532 is fixed to a slider in the fifth sliding track slider assembly 531, the fifth driven wheel 56 is rotatably fixed to the surface of the fifth driven wheel mounting plate 532, the lower surface of the fifth driven wheel mounting plate 532 is fixed to the upper end surface of the fifth connecting rod 535, the lower end of the fifth connecting rod 535 passes through the third L-shaped plate 526, a spring (spring not shown) is sleeved outside the fifth connecting rod 535, the second hexagonal rod 534 is fixed to the surface of the inclined plate 2, the fifth connecting rod 535 passes through the fifth driven wheel mounting plate 532, the lower end of the fifth connecting rod 535 is fixed to the second hexagonal rod 534, and a spring (spring not shown) is sleeved outside the fifth connecting rod 535, the fifth sliding rail slider assembly 531 and the ninth sliding rail slider assembly 528 share the same sliding rail, the upper end of the third connecting rod 527 is fixed with the fifth driven wheel mounting plate 532 through a connecting block, the lower end of the third connecting rod 527 passes through the third L-shaped plate 526, and a spring (not shown) is sleeved outside the third connecting rod 527; the fifth position adjustment mechanism 540 includes a sixth sliding rail slider assembly 541 and a fourth L-shaped plate 542, the sixth sliding rail slider assembly 541 is fixed to the surface of the inclined plate 2, the fourth L-shaped plate 542 is fixed to a slider in the sixth sliding rail slider assembly 541 and a connecting plate between the two lead screw fixing plates 525, respectively, and the fourth driven wheel 55 is rotatably connected to the fourth L-shaped plate 542.

The position adjusting mechanism comprises a first position adjusting mechanism 59, a second position adjusting mechanism 510, a third position adjusting mechanism 520, a fourth position adjusting mechanism 530 and a fifth position adjusting mechanism 540, which respectively adjust the second driving wheel 52, the second driven wheel 53, the third driven wheel 54, the fifth driven wheel 56 and the fourth driven wheel 55 correspondingly, so that the second conveyor belt 58 sleeved outside the position adjusting mechanism can keep a tensioned state, and the normal conveying function of the second conveying mechanism 5 is ensured, wherein the second driving wheel 52, the second driven wheel 53, the fifth driven wheel 56 and the fourth driven wheel 55 are all adjusted in up-and-down movement, and the third driven wheel 54 is adjusted in two-way movement of left-and-right translation and up-and-down movement. The third driven wheel 54 and the fourth driven wheel 55 are moved up and down in synchronization with each other.

Further, the slicing mechanism 6 includes a cutting board 61, a cutter and a driving device, the driving device includes a fourth motor 62, a rotating plate 63, an eccentric wheel 64, a U-shaped plate 65, a seventh sliding rail slider assembly 66 and a cutter fixing plate 67, which are obliquely arranged, the output end of the fourth motor 62 is fixed to the rotating plate 63, the eccentric wheel 64 is rotatably installed at the eccentric position of the rotating plate 63, the eccentric wheel 64 is located in the U-shaped groove space of the U-shaped plate 65, the U-shaped plate 65 is fixed to the surface of the cutter fixing plate 67, the back of the cutter fixing plate 67 is fixed to the surface of the slider of the seventh sliding rail slider assembly 66, the seventh sliding rail assembly 66 is fixed to the surface of the sliding rail fixing plate, the cutter is fixed to the surface of the cutter fixing plate 67 through a clamping plate, and the cutting board 61 is fixed to the lower end of the cutter.

Further, the slicing and rotating mechanism 7 is further included, the slicing and rotating mechanism 7 includes a rolling bearing 71, a fifth motor 72, a second lead screw nut component 73, an eighth sliding rail block component 74, a slicing mechanism fixing plate 75 and a rack plate 76, the end face of the inner ring of the rolling bearing 71 is convexly provided and the end face of the outer convex circle is processed with teeth, the output shaft of the fifth motor 72 is fixedly connected with the end part of the lead screw of the second lead screw nut component 73, the fifth motor 72, the second lead screw nut component 73 and the eighth sliding rail block component 74 are fixed with the surface of the inclined plate 2 through corresponding intermediate connecting plates, one side of the nut in the second lead screw nut component 73 is fixed with the slider in the eighth sliding rail component 74 through a connecting plate, the other side of the nut in the second lead screw nut component 73 is fixed with the rack plate 76, the teeth in the rack plate 76 are engaged with the teeth on the end face of the inner ring of the rolling bearing 71, the slicer mechanism 6 is directly or indirectly fixed to the rack plate 76.

Through the operation of the fifth motor 72, the nut in the second screw nut assembly 73 can be driven to ascend and descend, so that the rack plate 76 is driven to ascend and descend, the rolling bearing 71 inner ring is driven to rotate, and then the slicing mechanism 6 is driven to rotate, the cutting angle can be adjusted through the rotation of the slicing mechanism 6, the cutting angle is adjusted through adjusting the included angle between the cutter and the central axis of the product, and then the sectional area of the cut product is changed.

Further, still include and connect flitch 8, connect flitch 8 with the lower plate face of hang plate 2 is fixed, connect flitch 8 to be located the slope lower extreme of chopping block 61, the slice product landing after the cutting connects flitch 8 in, from connecting the flitch landing.

The working principle is as follows: products to be sliced are conveyed from the lower part of the floating mechanism 3 and the upper part of the first conveying belt 44, and during the conveying process, the springs in the floating mechanism 3 can allow the products to be stably conveyed through the compression and the floating wheels 35; after the product is conveyed to the second conveying mechanism 5, the corresponding driving wheel and the corresponding driven wheel in the second conveying mechanism 5 are pushed up and down due to the existence of the product, the product conveyed in place can be located at the position of the chopping board 61, the fourth motor 62 drives the eccentric wheel to roll along the U-shaped groove in the U-shaped plate 65, the eccentric wheel 64 applies horizontal and vertical component forces to the cutter fixing plate 67, the cutter fixing plate 67 slides along the inclined seventh sliding rail sliding block component 66, the cutter is driven to realize inclined cutting, the cutting resistance of the inclined cutting is greatly reduced, and the product can be cut quickly.

The utility model relates to a slicer transfer chain equipment advantage as follows: firstly, the whole slicing machine conveying line equipment is simple in structure and low in cost; secondly, the first floating mechanism is arranged above the first conveying mechanism, so that the product can be stably conveyed, the product is prevented from deviating in the conveying process, and the subsequent cutting precision is ensured; third, the second conveying mechanism allows the corresponding driving wheel and the corresponding driven wheel to move horizontally or vertically by arranging the position adjusting mechanism, so that the conveying use of products within a certain size difference range can be met, and the pressing height or the pressing degree can be adjusted by rotating the fixed height of the corresponding connecting rod, so that the conveying use of products with different sizes can be further met, and the universal degree of equipment is improved; fourthly, the slicing rotating mechanism is arranged to realize the angular rotation of the slicing mechanism, and the cutting angle is adjusted at any time; fifthly, the cutting operation is formed in a mode that the cutter cuts obliquely, so that the cutting area is greatly increased, and the cutting precision is guaranteed; sixthly, the automation degree and the efficiency are high.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (7)

1. A slicer conveyor line apparatus comprising: the slicing machine comprises a rack, an inclined plate, a floating mechanism, a transmission mechanism and a slicing mechanism, wherein the inclined plate is arranged in a frame of the rack, the transmission mechanism comprises a first transmission mechanism and a second transmission mechanism, the floating mechanism, the first transmission mechanism and the second transmission mechanism are fixed with the inclined plate, and the slicing mechanism is directly or indirectly fixed with the inclined plate; the method is characterized in that: first transport mechanism includes first motor, first action wheel, first from driving wheel, first conveying belt, first backup pad, second backup pad, first backup pad is fixed with the hang plate, the second backup pad with first backup pad fixed connection, first motor with first backup pad is fixed, and first action wheel is installed to the output shaft of first motor, and first from the driving wheel is installed to the hang plate face, and first action wheel, first from driving wheel cup joint the transmission through first conveying belt, first backup pad extends the below of belt face on the first conveying belt, second transport mechanism includes second motor, second action wheel, second from driving wheel, third from driving wheel, fourth from driving wheel, fifth from driving wheel, third backup pad, second conveying belt, second action wheel, second from driving wheel, third from driving wheel, fourth from driving wheel, from driving wheel, The fifth driven wheel is directly or indirectly rotatably arranged on the surface of the inclined plate, an output shaft of the second motor is sleeved with a second driving wheel, the second conveying belt is sleeved on the outer sides of the second driving wheel, the second driven wheel, the third driven wheel, the fourth driven wheel and the fifth driven wheel, the third supporting plate is fixed with the inclined plate, the third supporting plate is positioned below the lower belt surface of the second conveying belt, and a conveying table surface of the third supporting plate, which is close to one end of the first conveying mechanism, is flush with the conveying surface of the first conveying belt; the slicing mechanism comprises a chopping board, a cutter and a driving device, the driving device is fixedly connected with the cutter, the chopping board is located below the cutter, the floating mechanism is located above the first conveying belt, and the floating mechanism is used for pressing products conveyed on the first conveying belt.

2. The slicer conveyor line apparatus of claim 1, wherein: the floating mechanism comprises a floating fixing plate, N first sliding rail sliding block assemblies, N floating plates, N floating rods, N springs and N floating wheels, the floating fixing plate is fixedly connected with a first supporting plate, the first sliding rail sliding block assemblies are fixed with the surface of the first supporting plate, the upper ends of the floating rods are fixed with the floating fixing plate, the lower ends of the floating rods penetrate through the floating plates, one ends of the floating plates are fixedly connected with sliding blocks of the first sliding rail sliding block assemblies, the other ends of the floating plates are rotatably fixed with the floating wheels, and each floating rod is sleeved with a spring.

3. The slicer conveyor line apparatus of claim 1, wherein: the second conveying mechanism further comprises a plurality of position adjusting mechanisms, and the position adjusting mechanisms are used for adjusting the positions of the second driven wheel, the third driven wheel, the fourth driven wheel and the fifth driven wheel and tensioning the second conveying belt.

4. The slicer conveyor line apparatus of claim 3, wherein: the position adjusting mechanism comprises a first position adjusting mechanism, a second position adjusting mechanism, a third position adjusting mechanism, a fourth position adjusting mechanism and a fifth position adjusting mechanism, the first position adjusting mechanism comprises a second sliding rail sliding block assembly fixed with the surface of an inclined plate, a first lifting plate, a first L-shaped plate and a first connecting rod, the first lifting plate is fixed with a sliding block in the second sliding rail sliding block assembly, the first L-shaped plate is fixed with the inclined plate, the first connecting rod penetrates through the surface of the first L-shaped plate and is fixed with the first lifting plate, the second motor is fixed on the first lifting plate, and an output shaft penetrates through the first lifting plate; the second position adjusting mechanism comprises a third sliding rail sliding block component, a second lifting plate, a second connecting rod and a first hexagonal rod, the third sliding rail sliding block component is fixedly arranged on the surface of the inclined plate, the second lifting plate is fixed with a sliding block in the third sliding rail sliding block component, two second driven wheels are fixedly arranged on the surface of the second lifting plate in a rotatable mode, the first hexagonal rod is fixed with the inclined plate, the second connecting rod penetrates through the first hexagonal rod, and a spring is sleeved outside the first hexagonal rod; the third position adjusting mechanism comprises a second L-shaped plate, a first lead screw nut component, a fourth slide rail sliding block component, a third motor, a lead screw fixing plate, a third L-shaped plate, a third connecting rod and a ninth slide rail sliding block component, wherein two vertical waist-shaped through holes are processed on the surface of the second L-shaped plate, the third driven wheel is installed on the surface of the second L-shaped plate through the vertical waist-shaped through holes, the second L-shaped plate is fixed with the lower end surface of a nut in the first lead screw nut component, the upper end surface of the nut in the first lead screw nut component is fixed with a sliding block in the ninth slide rail sliding block component, the ninth slide rail sliding block component is fixedly installed on the lower surface of a connecting plate, two ends of the connecting plate are fixedly connected with the lead screw fixing plate, two ends of a lead screw in the first lead screw nut component are fixedly connected with the lead screw fixing plates at two ends through rolling bearings, and the connecting plate between the two lead screw fixing plates is fixedly connected with the third L-shaped plate, the third L-shaped plate is fixedly connected with a slide block in the ninth sliding rail slide block component, and the ninth sliding rail slide block component is fixedly connected with the surface of the inclined plate; the fourth position adjusting mechanism comprises a fifth sliding rail sliding block component, a fifth driven wheel mounting plate, a fourth connecting rod, a second hexagonal rod and a fifth connecting rod, the fifth sliding rail sliding block component is fixed with the surface of the inclined plate, the fifth driven wheel mounting plate is fixed with a sliding block in the fifth sliding rail sliding block component, the fifth driven wheel can be rotatably fixed on the surface of the fifth driven wheel mounting plate, the lower surface of the fifth driven wheel mounting plate is fixed with the upper end of the fourth connecting rod, the lower end of the fourth connecting rod penetrates through a third L-shaped plate, a spring is sleeved on the outer side of the fourth connecting rod, the second hexagonal rod is fixed on the surface of the inclined plate, the fifth connecting rod penetrates through the fifth driven wheel mounting plate, the lower end of the fifth driven wheel mounting plate is fixed with the second hexagonal rod, the spring is sleeved on the fifth connecting rod, and the fifth sliding rail sliding block component and the ninth sliding rail sliding block component share the same sliding rail, the upper end of the third connecting rod is fixed with the fifth driven wheel mounting plate through a connecting block, the lower end of the third connecting rod penetrates through a third L-shaped plate, and a spring is sleeved outside the third connecting rod; the fifth position adjusting mechanism comprises a sixth sliding rail sliding block assembly and a fourth L-shaped plate, the sixth sliding rail sliding block assembly is fixed to the surface of the inclined plate, the fourth L-shaped plate is fixed to a sliding block in the sixth sliding rail sliding block assembly and a connecting plate between the two lead screw fixing plates respectively, and the fourth driven wheel is connected with the fourth L-shaped plate in a rotatable mode.

5. The slicer conveyor line apparatus of claim 1, wherein: the slicing mechanism comprises a chopping board, a cutter and a driving device, wherein the driving device comprises a fourth motor, a rotating plate, an eccentric wheel, a U-shaped board, a seventh sliding rail sliding block assembly and a cutter fixing board which are obliquely arranged, the output end of the fourth motor is fixed with the rotating plate, the eccentric wheel can be installed at the eccentric position of the rotating plate in a rolling mode, the eccentric wheel is located in the U-shaped groove space of the U-shaped board, the U-shaped board is fixed with the surface of the cutter fixing board, the back of the cutter fixing board is fixed with the surface of a sliding block of the seventh sliding rail sliding block assembly, the seventh sliding rail sliding block assembly is fixed through the sliding rail fixing board, the cutter is fixed on the surface of the cutter fixing board through a clamping board, and the lower end of the cutter is fixed with the chopping board.

6. The slicer conveyor line apparatus of claim 5, wherein: the slicing and rotating mechanism comprises a rolling bearing, a fifth motor, a second screw nut component, an eighth sliding rail sliding block component, a slicing mechanism fixing plate and a rack plate, the end surface of the inner ring of the rolling bearing is convexly arranged, the end surface of the convex circle is processed with teeth, the output shaft of the fifth motor is fixedly connected with the end part of the screw rod of the second screw rod nut component, the fifth motor, the second screw rod nut component and the eighth slide rail sliding block component are fixed with the surface of the inclined plate through corresponding middle connecting plates, one side of a nut in the second screw rod nut component is fixed with a slide block in the eighth slide rail slide block component through a connecting plate, and the other side of the nut is fixed with a rack plate, teeth in the rack plate are meshed with teeth on the end face of the inner ring of the rolling bearing, and the slicing mechanism is directly or indirectly fixed with the rack plate.

7. The slicer conveyor line apparatus of claim 1, wherein: the chopping board is characterized by further comprising a material receiving plate, wherein the material receiving plate is fixed with the lower board surface of the inclined board, and the material receiving plate is located at the inclined lower end of the chopping board.

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