CN211631566U - Cookie biscuit forming machine - Google Patents

Cookie biscuit forming machine Download PDF

Info

Publication number
CN211631566U
CN211631566U CN201922453534.0U CN201922453534U CN211631566U CN 211631566 U CN211631566 U CN 211631566U CN 201922453534 U CN201922453534 U CN 201922453534U CN 211631566 U CN211631566 U CN 211631566U
Authority
CN
China
Prior art keywords
cookie
plate
forming machine
assembly
lifting mechanism
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201922453534.0U
Other languages
Chinese (zh)
Inventor
谢顺和
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sinmag Equipment China Co ltd
Original Assignee
Sinmag Equipment China Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sinmag Equipment China Co ltd filed Critical Sinmag Equipment China Co ltd
Priority to CN201922453534.0U priority Critical patent/CN211631566U/en
Application granted granted Critical
Publication of CN211631566U publication Critical patent/CN211631566U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

The utility model relates to a cookie forming machine, which comprises a frame, wherein a working platform is arranged on the frame, a conveyer belt is arranged on the working platform, a lifting mechanism is arranged across the conveyer belt, a forming extrusion assembly is arranged on the lifting mechanism, a funnel is arranged above the forming extrusion assembly in a through way, and a plurality of flower nozzles are arranged at the bottom end of the forming extrusion assembly in parallel; a control box is arranged on the working platform positioned on the side edge of the lifting mechanism, a gear assembly is arranged in the control box and connected with a transverse rotating shaft extending out of the side wall of the molding extrusion assembly, and the gear assembly provides rotating power for an extrusion roller on the transverse rotating shaft so as to assist in blanking extrusion; the side edge of the molding extrusion assembly positioned below the gear assembly is also connected with a rotary driving mechanism, and a driving wheel in the rotary driving mechanism is meshed with a driven wheel in the molding extrusion assembly to provide rotary power for the plurality of pinions. The utility model discloses a molding of cookie outward appearance, the shaping is stable, and production efficiency is high, and the uniformity is good.

Description

Cookie biscuit forming machine
Technical Field
The utility model belongs to the technical field of food processing equipment technique and specifically relates to a cookies make-up machine.
Background
In the production of cookies, a special cookie molding machine is generally arranged. The existing cookie maker generally includes a molding die, which is repeatedly formed, reset and re-formed by an external driving force applied to the molding die.
Among the prior art, on the one hand, the shaping outward appearance of cookie relies on the molding mould completely, and the molding is single, changes the molding and need change the mould, and on the other hand, along with the use of molding mould, inevitable can lead to fashioned biscuit outward appearance uniformity variation because of the wearing and tearing of mould or canceling release mechanical system to can not stable production, influence production efficiency and shaping effect greatly.
SUMMERY OF THE UTILITY MODEL
The applicant aims at the defects in the prior art and provides a cookie forming machine with a reasonable structure, so that cookies can be formed, the flower shape is rich, the forming is stable, the production efficiency is high, and the consistency is good.
The utility model discloses the technical scheme who adopts as follows:
a cookie forming machine comprises a rack, wherein a working platform is mounted on the rack, a conveying belt is mounted on the working platform, a lifting mechanism is mounted across the conveying belt, a forming extrusion assembly is mounted on the lifting mechanism, a funnel is mounted above the forming extrusion assembly in a through mode, and a plurality of flower nozzles are mounted at the bottom end of the forming extrusion assembly in parallel; a control box is arranged on the working platform positioned on the side edge of the lifting mechanism, a gear assembly is arranged in the control box, the gear assembly is connected with the end part of the forming extrusion assembly, and the gear assembly assists in blanking extrusion; the side edge of the molding extrusion assembly positioned below the gear assembly is also connected with a rotary driving mechanism, and the rotary driving mechanism provides rotary power for the molding extrusion assembly during molding.
As a further improvement of the above technical solution:
the structure of the molding extrusion assembly is as follows: the material extruding device comprises a support fixedly connected with a lifting mechanism, wherein the support is of a vertically-through shell structure, transverse rotating shafts are arranged in parallel on two side walls penetrating through the support, a single transverse rotating shaft is sleeved with a material extruding roller, and the end part of the transverse rotating shaft positioned outside the support is connected with a gear assembly; the top of the support is fixedly installed with the funnel, a grid plate is embedded in the middle of the bottom surface of the support, and an upper pressing plate and a lower pressing plate are installed at the bottom of the support below the grid plate at intervals; a plurality of mutually meshed pinions are rotatably mounted in the space between the upper pressing plate and the lower pressing plate, driven wheels are mounted at the end parts of the pinions in a meshed manner, and the driven wheels are connected with a rotary driving mechanism; and a flower nozzle is arranged below the lower pressing plate.
Through holes are formed in the upper pressing plate and the lower pressing plate, and the pinion is axially hollow; the grids on the grid plate are in one-to-one correspondence with and are communicated with the through holes on the upper pressure plate, the centers of the pinions, the through holes on the lower pressure plate and the flower mouths; the plurality of flower nozzles are linearly arranged along the width direction of the conveying belt.
The bottom of the support extends downwards to form a dovetail groove, and the upper pressure plate is embedded in the dovetail groove; a plurality of upright supports are arranged between the upper pressing plate and the lower pressing plate.
And end covers are fixedly arranged at two ends of the support, and two ends of the transverse rotating shaft are respectively and rotatably connected with the end covers at two sides.
The lifting mechanism has the structure that: the lifting mechanism comprises a lifting motor arranged in a rack, the output end of the lifting motor is provided with a speed reducer with double output shafts, two output ends on two sides of the speed reducer are respectively provided with a cam, a single cam is rotatably provided with a vertical connecting rod, the top of the connecting rod is provided with a lifting plate, and the two lifting plates are jointly provided with a supporting frame body; two guide pillars are arranged at one end of the supporting frame body in parallel, a vertical upward guide plate is arranged at the other end of the supporting frame body, the guide pillars and the guide plate both penetrate through the working platform upwards, a cross rod is arranged between the top end of each guide pillar and the guide plate, and two cross rods are jointly installed to form an extrusion assembly.
The two cams are driven by the speed reducer to synchronously rotate; a horizontal connecting shaft is fixedly arranged at the arc edge of the single cam, and a connecting rod vertical to the connecting shaft is rotatably arranged at the end of the connecting shaft.
A longitudinal partition plate is arranged in the machine frame on the side edge of the lifting motor, and a sliding block is arranged on the side surface of the longitudinal partition plate facing the lifting motor; the outer side surface of the guide plate is provided with a vertical slide rail, and the slide rail and the slide block are mutually matched and slidably connected; the guide post is slidably sleeved with a guide sleeve, and the guide sleeve and the working platform are fixedly installed.
The rotary driving mechanism is arranged on the lifting mechanism, the rotary driving mechanism synchronously lifts along with the lifting mechanism, and the rotary driving mechanism is structurally characterized in that: including being located the inside shaping motor of frame, the vertical pivot is installed through the speed reducer to the shaping motor output, and work platform is upwards passed to vertical pivot, and the action wheel is installed to the upper end of vertical pivot, the action wheel meshes with the follow driving wheel among the shaping extrusion assembly.
The gear assembly is composed of two mutually meshed large gears with the same size, wherein one large gear is driven to rotate by the material extruding motor; the side edges of the two big gears are both provided with a coupling, and the two big gears synchronously input power for the molding extrusion assembly.
The utility model has the advantages as follows:
the utility model has the advantages of compact structure, it is reasonable, and convenient for operation, it rotates in opposite directions to drive two crowded material gyro wheels through the gear assembly, make the dough raw materials in the funnel receive the extrusion and fall to the grid plate behind the support in, when the raw materials falls to the pinion well kenozooecium that is located between top board and the lower pressure plate interval, because of the work of shaping motor, by vertical pivot through the action wheel, drive intermeshing's pinion rotation behind the follow driving wheel, thereby make the raw materials in the well kenozooecium of pinion twist reverse because of rotating and circumference, last raw materials fall to the conveyer belt through the flower nozzle, thereby the cookie shaping is accomplished, the forming efficiency is greatly improved, the shaping is stable under fixed operating parameter, the uniformity is good.
The utility model discloses still include following advantage:
the lifting motor works, and the whole body of the dragging forming extrusion assembly reciprocates up and down by taking the guide post as a guide through the rotation of the cam, so that the forming extrusion assembly is particularly suitable for forming cookies with higher sizes such as pagoda type cookies and gourd type cookies;
by changing the rotating speed of the material extruding motor and the rotating speeds of the two material extruding rollers, the material extruding and discharging speeds are further adjusted, and various cookie models are formed by matching with the adjustment of parameters of the forming motor and the lifting motor and the shape of the flower nozzle, so that the cookie models are rich in models and wide in applicability;
a plurality of flower mouths are arranged linearly along the width direction of the conveying belt, so that a plurality of cookies are formed at one time, meanwhile, the conveying belt works, and subsequently formed cookies continuously fall down and are conveyed to the next procedure.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic structural view of the extrusion molding assembly of the present invention.
Fig. 3 is the installation schematic diagram of the lifting mechanism and the molding extrusion assembly of the present invention.
Fig. 4 is a partially enlarged view of a portion a in fig. 3.
Fig. 5 is the installation schematic diagram of the molding motor, the extruding motor and the molding extrusion assembly of the present invention.
Fig. 6 is an installation schematic diagram of the slide rail and the slide block of the present invention.
Wherein: 1. a frame; 2. a longitudinal partition plate; 3. molding the motor; 4. a working platform; 5. a control box; 6. a lifting motor; 7. a conveyor belt; 8. a lifting mechanism; 9. forming the extrusion assembly; 10. a funnel; 11. a flower nozzle; 12. a slide rail; 13. a slider; 31. a longitudinal rotating shaft; 32. a driving wheel; 51. a material extruding motor; 52. a bull gear; 53. a coupling; 81. a cam; 82. a connecting rod; 83. a lifting plate; 84. a support frame body; 85. a guide sleeve; 86. a guide post; 87. a cross bar; 88. a guide plate; 89. a connecting shaft; 90. a column; 91. a support; 911. a dovetail groove; 92. extruding rollers; 93. a transverse rotating shaft; 94. an end cap; 95. a grid plate; 96. an upper pressure plate; 97. a driven wheel; 98. a lower pressing plate; 99. a pinion gear.
Detailed Description
The following describes embodiments of the present invention with reference to the drawings.
As shown in fig. 1, the cookie maker of the present embodiment includes a frame 1, wherein a working platform 4 is installed on the frame 1, a conveyor belt 7 is installed on the working platform 4, a lifting mechanism 8 is installed across the conveyor belt 7, a forming extrusion assembly 9 is installed on the lifting mechanism 8, a funnel 10 is installed above the forming extrusion assembly 9 in a penetrating manner, and a plurality of flower nozzles 11 are installed at the bottom end of the forming extrusion assembly 9 in parallel; a control box 5 is arranged on the working platform 4 positioned on the side edge of the lifting mechanism 8, a gear assembly is arranged in the control box 5, the gear assembly is connected with the end part of the forming extrusion assembly 9, the gear assembly is connected with a transverse rotating shaft 93 extending out of the side wall of the support 91, and the gear assembly drives the extrusion roller 92 to rotate through the transverse rotating shaft 93, so that the feeding extrusion is assisted; the side edge of the molding extrusion assembly 9 positioned below the gear assembly is also connected with a rotary driving mechanism, and the rotary driving mechanism provides rotary power for the molding extrusion assembly 9 during molding.
As shown in fig. 2, the profile extrusion assembly 9 has a structure of: the material extruding device comprises a support 91 fixedly connected with a lifting mechanism 8, wherein the support 91 is of a vertically through shell structure, transverse rotating shafts 93 are arranged in parallel on two side walls penetrating through the support 91, a single transverse rotating shaft 93 is sleeved with an extruding roller 92, and the end part of the transverse rotating shaft 93 positioned outside the support 91 is connected with a gear assembly; the top of the support 91 is fixedly installed with the funnel 10, a grid plate 95 is embedded in the middle of the bottom surface of the support 91, and an upper pressure plate 96 and a lower pressure plate 98 are installed at the bottom of the support 91 below the grid plate 95 at intervals; a plurality of mutually meshed pinions 99 are rotatably mounted in the space between the upper pressing plate 96 and the lower pressing plate 98, a driven wheel 97 is mounted on the end of the pinion 99 in a meshed manner, and the driven wheel 97 is connected with a rotary driving mechanism; a flower nozzle 11 is mounted below the lower platen 98.
Through holes are formed in the upper pressing plate 96 and the lower pressing plate 98, and the pinion 99 is axially hollow; the grids on the grid plate 95 are in one-to-one correspondence with and are communicated with the through holes on the upper pressure plate 96, the center of the pinion 99, the through holes on the lower pressure plate 98 and the flower nozzles 11; a plurality of nozzles 11 are arranged linearly along the width direction of the conveyor belt 7 to form a plurality of cookies at a time, and simultaneously, the conveyor belt 7 works, and subsequently formed cookies continuously fall down and are conveyed to the next process.
A dovetail groove 911 extends downwards from the bottom of the support 91, the upper pressure plate 96 is embedded in the dovetail groove 911, and the outer wall surface of the dovetail groove 911 is fixedly installed with the cross rod 87 in the lifting mechanism 8; a plurality of uprights 90 are mounted between upper platen 96 and lower platen 98.
End covers 94 are fixedly arranged at two ends of the support 91, and two ends of the transverse rotating shaft 93 are respectively and rotatably connected with the end covers 94 at two sides.
As shown in fig. 3, the lifting mechanism 8 has the structure: the lifting mechanism comprises a lifting motor 6 arranged in a rack 1, wherein the output end of the lifting motor 6 is provided with a speed reducer with double output shafts, two output ends on two sides of the speed reducer are respectively provided with a cam 81, a single cam 81 is rotatably provided with a vertical connecting rod 82, the top of the connecting rod 82 is provided with a lifting plate 83, and two lifting plates 83 are jointly provided with a supporting frame body 84; two guide posts 86 are installed side by side at one end of the supporting frame body 84, a guide plate 88 which is vertically upward is installed at the other end of the supporting frame body 84, the guide posts 86 and the guide plate 88 both penetrate through the working platform 4 upward, a cross rod 87 is installed between the top end of the single guide post 86 and the guide plate 88, and the two cross rods 87 are installed and molded together to form the extrusion assembly 9.
As shown in fig. 4, the two cams 81 are driven by the reducer to rotate synchronously; a horizontal connecting shaft 89 is fixedly arranged at the arc edge of the single cam 81, and the end of the connecting shaft 89 is rotatably provided with a connecting rod 82 vertical to the connecting shaft 89.
A longitudinal partition plate 2 is arranged in the frame 1 positioned on the side edge of the lifting motor 6, and a sliding block 13 is arranged on the side surface of the longitudinal partition plate 2 facing the lifting motor 6; the outer side surface of the guide plate 88 is provided with a vertical slide rail 12, the slide rail 12 is matched and slidably connected with the slide block 13, as shown in fig. 6, in the lifting process of the lifting mechanism 8, the guide pillar 86 is matched with the guide sleeve 85, and the slide rail 12 is matched with the slide block 13, so that the guide is provided for the lifting action, and the lifting action is smoother and more natural; the guide post 86 is slidably sleeved with a guide sleeve 85, and the guide sleeve 85 is fixedly installed with the working platform 4.
The lifting motor 6 works, and the whole forming extrusion assembly 9 is dragged to reciprocate up and down by taking the guide post 86 as a guide through the rotation of the cam 81, so that the forming extrusion assembly is particularly suitable for forming cookies with higher sizes such as pagoda type cookies and gourd type cookies;
the rotary driving mechanism is arranged on the lifting mechanism 8, the rotary driving mechanism synchronously lifts along with the lifting mechanism 8, and the structure of the rotary driving mechanism is as follows: the forming machine comprises a forming motor 3 positioned in a rack 1, wherein a longitudinal rotating shaft 31 is installed at the output end of the forming motor 3 through a speed reducer, the longitudinal rotating shaft 31 upwards penetrates through a working platform 4, a driving wheel 32 is installed at the upper end of the longitudinal rotating shaft 31, and the driving wheel 32 is meshed with a driven wheel 97 in a forming extrusion assembly 9, so that mutually meshed pinions 99 are driven to rotate, as shown in fig. 5.
The gear assembly is composed of two mutually meshed large gears 52 with the same size, wherein one large gear 52 is driven by the extruding motor 51 to rotate; the lateral sides of the two large gears 52 are respectively provided with a coupling 53, and the two large gears 52 synchronously input power for the forming extrusion assembly 9, so that the two extrusion rollers 92 on the transverse rotating shaft 93 rotate inwards in opposite directions, and the raw materials are extruded downwards; through the rotational speed that changes crowded material motor 51, change two crowded material gyro wheels 92's rotational speed, and then adjust crowded material and ejection of compact speed, the adjustment of cooperation forming motor 3 and elevator motor 6 parameter to and the shape of flower mouth 11, the shaping goes out various cookie models, makes the molding abundant, extensive applicability.
The utility model discloses a theory of operation does:
placing dough material in a hopper 10;
the material extruding motor 51 works to drive the mutually meshed big gears 52 to rotate oppositely, so that the transverse rotating shafts 93 connected with the big gears 52 rotate oppositely, and the extruding rollers 92 sleeved on the transverse rotating shafts 93 rotate oppositely, so that the dough raw material is extruded inwards and downward force is applied;
when the extruded raw material falls to the hollow part of the pinion 99 between the upper pressing plate 96 and the lower pressing plate 98 through the grid plate 95, the longitudinal rotating shaft 31 is driven to rotate due to the work of the forming motor 3, so that the driving wheel 32 rotates to drive the driven wheel 97 meshed with the driving wheel to rotate, the pinion 99 meshed with the driving wheel rotates, the raw material in the hollow part of the pinion 99 is circumferentially twisted due to the rotation of the raw material, and finally falls onto the conveying belt 7 through the flower nozzle 11, and the cookie forming is completed.
The utility model is simple in operation, the structure is ingenious, is applicable to the shaping of cookie, and shaping flower type is abundant, and the suitability is strong, and the shaping uniformity is good, and the shaping is efficient.
The above description is for the purpose of explanation and not limitation of the invention, which is defined in the claims, and any modifications may be made within the scope of the invention.

Claims (10)

1. The cookie forming machine is characterized in that: the automatic flower-forming machine comprises a rack (1), wherein a working platform (4) is installed on the rack (1), a conveying belt (7) is installed on the working platform (4), a lifting mechanism (8) is installed by crossing the conveying belt (7), a forming extrusion assembly (9) is installed on the lifting mechanism (8), a funnel (10) is installed above the forming extrusion assembly (9) in a penetrating manner, and a plurality of flower nozzles (11) are installed at the bottom end of the forming extrusion assembly (9) in parallel; a control box (5) is arranged on the working platform (4) positioned on the side edge of the lifting mechanism (8), a gear assembly is arranged in the control box (5), the gear assembly is connected with the end part of the forming extrusion assembly (9), and the gear assembly assists in blanking extrusion; the side edge of the molding extrusion component (9) positioned below the gear component is also connected with a rotary driving mechanism, and the rotary driving mechanism provides rotary power for the molding extrusion component (9) during molding.
2. A cookie-forming machine as claimed in claim 1, wherein: the structure of the molding extrusion assembly (9) is as follows: the material extruding device comprises a support (91) fixedly connected with a lifting mechanism (8), wherein the support (91) is of a vertically-through shell structure, transverse rotating shafts (93) are arranged in parallel on two side walls penetrating through the support (91), a single transverse rotating shaft (93) is sleeved with an extruding roller (92), and the end part of the transverse rotating shaft (93) positioned outside the support (91) is connected with a gear assembly; the top of the support (91) is fixedly mounted with the funnel (10), a grid plate (95) is embedded in the middle of the bottom surface of the support (91), and an upper pressure plate (96) and a lower pressure plate (98) are mounted at the bottom of the support (91) below the grid plate (95) at intervals; a plurality of mutually meshed pinions (99) are rotatably mounted in the space between the upper pressing plate (96) and the lower pressing plate (98), a driven wheel (97) is mounted on the end part of the pinion (99) in a meshed manner, and the driven wheel (97) is connected with a rotary driving mechanism; and a flower nozzle (11) is arranged below the lower pressing plate (98).
3. A cookie-forming machine as claimed in claim 2, wherein: through holes are formed in the upper pressing plate (96) and the lower pressing plate (98), and the pinion (99) is axially hollow; grids on the grid plate (95) are in one-to-one correspondence with and are communicated with through holes on the upper pressure plate (96), the center of the pinion (99), through holes on the lower pressure plate (98) and the flower nozzles (11); the plurality of flower nozzles (11) are linearly arranged along the width direction of the conveying belt (7).
4. A cookie-forming machine as claimed in claim 2, wherein: a dovetail groove (911) extends downwards from the bottom of the support (91), and the upper pressure plate (96) is embedded in the dovetail groove (911); a plurality of upright posts (90) are arranged between the upper pressing plate (96) and the lower pressing plate (98) for supporting.
5. A cookie-forming machine as claimed in claim 2, wherein: and end covers (94) are fixedly arranged at two ends of the support (91), and two ends of the transverse rotating shaft (93) are respectively and rotatably connected with the end covers (94) at two sides.
6. A cookie-forming machine as claimed in claim 1, wherein: the lifting mechanism (8) is structurally characterized in that: the lifting mechanism comprises a lifting motor (6) arranged in a rack (1), wherein the output end of the lifting motor (6) is provided with a speed reducer with double output shafts, two output ends on two sides of the speed reducer are respectively provided with a cam (81), a single cam (81) is rotatably provided with a vertical connecting rod (82), the top of each connecting rod (82) is provided with a lifting plate (83), and two lifting plates (83) are jointly provided with a supporting frame body (84); two guide posts (86) are installed side by side at one end of the supporting frame body (84), a guide plate (88) which is vertically upward is installed at the other end of the supporting frame body (84), the guide posts (86) and the guide plate (88) all penetrate through the working platform (4) upwards, a cross rod (87) is installed between the top end of the single guide post (86) and the guide plate (88), and the two cross rods (87) are installed and molded together to form the extrusion assembly (9).
7. A cookie-forming machine as claimed in claim 6, wherein: the two cams (81) are driven by the speed reducer to synchronously rotate; a horizontal connecting shaft (89) is fixedly arranged at the arc edge of the single cam (81), and a connecting rod (82) vertical to the connecting shaft (89) is rotatably arranged at the end of the connecting shaft (89).
8. A cookie-forming machine as claimed in claim 6, wherein: a longitudinal partition plate (2) is arranged in the rack (1) positioned on the side edge of the lifting motor (6), and a sliding block (13) is arranged on the side surface, facing the lifting motor (6), of the longitudinal partition plate (2); a vertical slide rail (12) is arranged on the outer side surface of the guide plate (88), and the slide rail (12) is matched with the slide block (13) in a sliding manner; a guide sleeve (85) is slidably sleeved on the guide post (86), and the guide sleeve (85) is fixedly installed with the working platform (4).
9. A cookie-forming machine as claimed in claim 1, wherein: the rotary driving mechanism is arranged on the lifting mechanism (8), the rotary driving mechanism synchronously lifts along with the lifting mechanism (8), and the rotary driving mechanism is structurally characterized in that: including being located inside shaping motor (3) of frame (1), vertical pivot (31) are installed through the speed reducer to shaping motor (3) output, and work platform (4) are upwards passed in vertical pivot (31), and action wheel (32) are installed to vertical pivot (31) top end, from driving wheel (97) meshing in subassembly (9) is extruded with the shaping in action wheel (32).
10. A cookie-forming machine as claimed in claim 1, wherein: the gear assembly comprises two large gears (52) which are meshed with each other and have the same size, wherein one large gear (52) is driven to rotate by a material extruding motor (51); the lateral sides of the two large gears (52) are provided with couplings (53), and the two large gears (52) synchronously input power for the molding extrusion assembly (9).
CN201922453534.0U 2019-12-30 2019-12-30 Cookie biscuit forming machine Active CN211631566U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201922453534.0U CN211631566U (en) 2019-12-30 2019-12-30 Cookie biscuit forming machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201922453534.0U CN211631566U (en) 2019-12-30 2019-12-30 Cookie biscuit forming machine

Publications (1)

Publication Number Publication Date
CN211631566U true CN211631566U (en) 2020-10-09

Family

ID=72701541

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201922453534.0U Active CN211631566U (en) 2019-12-30 2019-12-30 Cookie biscuit forming machine

Country Status (1)

Country Link
CN (1) CN211631566U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112810336A (en) * 2021-01-25 2021-05-18 徐的莲 Inkpad forming equipment for stationery production

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112810336A (en) * 2021-01-25 2021-05-18 徐的莲 Inkpad forming equipment for stationery production

Similar Documents

Publication Publication Date Title
CN100553460C (en) A kind of equipment for producing round steamed bread
CN103875749B (en) A kind of cat ear cake Volume bar shaping machine set
CN211631566U (en) Cookie biscuit forming machine
CN107410406A (en) Stuffing food forming machine
CN2827006Y (en) Slicing, packing machine
CN210248150U (en) Wonton forming device
CN107439627A (en) Economizing type imitates manual steamed stuffed bun wrapper-rolling machine
CN111820256A (en) Wonton forming device
CN203762156U (en) Orecchiette cake rewinding and moulding machine set
CN202738688U (en) Automatic rotary flour pressing machine
CN202738689U (en) Automatic rotary flour pressing square steamed bread combination machine
CN204499446U (en) Enclosed-type imitates manual boiled dumpling handset
CN103988864A (en) Novel crisp noodle coiling machine
CN100553462C (en) Tunnel forming machine
CN203735353U (en) Novel fried dough twist rod coiling machine
CN211482675U (en) Digital dumpling preparation facilities of micro motor driven
CN205922697U (en) Kneading device
CN206078990U (en) Full automatization stuffed dumplings machine
CN216452981U (en) Intelligent operation robot device of racking machine
CN111011417A (en) Digital dumpling preparation facilities of micro motor driven
CN216701240U (en) Cheese production rapid prototyping device
CN213695506U (en) Modular steamed bun production line
CN212087817U (en) Cake paste injection molding device
CN214257803U (en) Noodle production line
CN210538509U (en) Multifunctional lifting filling machine

Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant