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CN-224225362-U - Cam-driven konjak sol quantitative dispenser

CN224225362UCN 224225362 UCN224225362 UCN 224225362UCN-224225362-U

Abstract

The utility model provides a cam-driven konjak sol quantitative dispenser, which belongs to the technical field of food processing equipment and comprises a base, a cam driving mechanism arranged on the base, a dispensing pump body in transmission connection with the cam driving mechanism, a piston assembly arranged in the dispensing pump body and a dispensing nozzle connected to the outlet end of the dispensing pump body, wherein the cam driving mechanism comprises a cam wheel disc and a push rod in contact with the contour surface of the cam wheel disc, the other end of the push rod is connected with the piston assembly, the push rod is driven to reciprocate by rotation of the cam wheel disc, the contour surface of the cam wheel disc is provided with a plurality of protruding parts and recessed parts, the protruding parts and the recessed parts are alternately distributed, and the radial height of the protruding parts is larger than that of the recessed parts.

Inventors

  • YAO GUOQING
  • YANG NA
  • ZHAO MEILIN

Assignees

  • 云南萃芋耘品生物科技有限公司

Dates

Publication Date
20260512
Application Date
20250623

Claims (10)

  1. 1. The utility model provides a cam drive formula konjaku sol ration distributor, includes the base, set up the cam actuating mechanism on the base, with cam actuating mechanism transmission connection's the distribution pump body, install the piston assembly in the distribution pump body, connect the distribution nozzle at the distribution pump body exit end, its characterized in that, cam actuating mechanism includes cam rim plate and the push rod that contacts with cam rim plate profile surface, the other end and the piston assembly of push rod are connected, through the rotatory drive push rod reciprocating motion of cam rim plate, realize the ration of konjaku sol.
  2. 2. The cam-driven konjak sol quantitative dispenser of claim 1, wherein the profile surface of the cam disc is provided with a plurality of raised portions and recessed portions, the raised portions and the recessed portions are alternately distributed, and the radial height of the raised portions is greater than that of the recessed portions.
  3. 3. The cam-driven konjak sol quantitative dispenser of claim 2, wherein the end of the push rod is provided with a roller, the roller is in rolling contact with the contour surface of the cam disc, and the roller is mounted at the end of the push rod through a bearing.
  4. 4. A cam-driven konjak sol dispenser according to claim 3 wherein the piston assembly includes a piston rod and a piston head mounted at the end of the piston rod, the piston head forming a sealed chamber within the dispensing pump body.
  5. 5. The cam-driven konjak sol quantitative dispenser of claim 4, wherein the dispensing pump body is provided with a feed inlet and a discharge outlet, the feed inlet is connected with the konjak sol storage tank, and the discharge outlet is connected with the dispensing nozzle.
  6. 6. The cam-driven konjak sol quantitative dispenser of claim 5, wherein the feed inlet is provided with a one-way valve which allows konjak sol to flow from the storage tank into the dispensing pump body and prevents konjak sol from flowing back.
  7. 7. The cam-driven konjak sol quantitative dispenser of claim 6, wherein the dispensing nozzle is provided with an adjusting nut for adjusting the size of the discharge aperture of the dispensing nozzle.
  8. 8. The cam-driven konjak sol dispenser of claim 7, wherein the cam-driven mechanism further comprises a gear set coaxially coupled to the cam disc.
  9. 9. The cam-driven konjak sol quantitative dispenser of claim 8, wherein the base is provided with a guide slot in which the push rod reciprocates linearly.
  10. 10. The cam-driven konjak sol quantitative dispenser of claim 9, wherein a sealing ring is arranged between the piston head and the inner wall of the dispensing pump body, and the sealing ring is made of a corrosion-resistant rubber material.

Description

Cam-driven konjak sol quantitative dispenser Technical Field The utility model belongs to the technical field of food processing equipment, and particularly relates to a cam-driven konjak sol quantitative dispenser. Background Konjak sol plays a key role in various fields by virtue of its unique gelling, thickening and water-retaining properties. It can be used for improving taste and stability of jelly and meat products, improving emulsion texture in cosmetic manufacture, and can be used as excellent binder and disintegrating agent in pharmaceutical preparation. The traditional gravity flow type dispensing equipment relies on the self gravity of konjak sol to realize dispensing, once the viscosity of the sol is changed, the flow rate is difficult to control, and the mechanical extrusion type equipment can actively apply external force, but the fluctuation of the dispensing quantity is obvious due to lack of a precise regulating mechanism. Although the electronic control type distribution equipment has the advantage of precision, the configuration of a precision sensor and a complex circuit causes complicated structure and high manufacturing cost, and the requirements on environmental conditions such as cleanliness, temperature and humidity are harsh. Although the pneumatic distribution equipment can realize a good distribution effect, the huge air source system and control system not only occupy a large amount of space, but also have high purchase, maintenance and operation costs. These short plates severely restrict the efficient development of bewitched taro sol-related industries. That is, the prior art has the technical problems of low konjak sol distribution precision, unstable distribution amount, complex equipment structure and high cost. Disclosure of utility model In view of the above, the utility model provides a cam-driven konjak sol quantitative dispenser, which can solve the technical problems of low konjak sol dispensing precision, unstable dispensing quantity, complex equipment structure and high cost. The utility model is realized in the following way: The utility model provides a cam-driven konjak sol quantitative dispenser which comprises a base, a cam driving mechanism arranged on the base, a dispensing pump body in transmission connection with the cam driving mechanism, a piston assembly arranged in the dispensing pump body, and a dispensing nozzle connected to the outlet end of the dispensing pump body, wherein the cam driving mechanism comprises a cam wheel disc and a push rod in contact with the outline surface of the cam wheel disc, the other end of the push rod is connected with the piston assembly, and the push rod is driven to reciprocate through rotation of the cam wheel disc so as to realize quantitative dispensing of konjak sol. The cam-driven konjak sol quantitative dispenser has the technical effects that the cam-driven konjak sol quantitative dispenser converts rotary motion into linear reciprocating motion through the cam driving mechanism, drives the piston assembly to reciprocate in the dispensing pump body, realizes suction and discharge of konjak sol, and ensures the accuracy and continuity of dispensing. Based on the technical scheme, the cam-driven konjak sol quantitative dispenser can be further improved as follows: The profile surface of the cam wheel disc is provided with a plurality of protruding portions and recessed portions, the protruding portions and the recessed portions are distributed alternately, and the radial height of each protruding portion is larger than that of each recessed portion. The cam wheel disc has the beneficial effects that the convex parts and the concave parts of the cam wheel disc are alternately distributed, so that the push rod can generate regular reciprocating motion, the convex parts push the push rod to advance, the concave parts allow the push rod to retract, and the periodicity and the stability of the distribution action are ensured. Further, the tail end of the push rod is provided with a roller, the roller is in rolling contact with the contour surface of the cam wheel disc, and the roller is arranged at the tail end of the push rod through a bearing. The improved scheme has the beneficial effects that the roller at the tail end of the push rod is in rolling contact with the cam wheel disc, so that the friction resistance is reduced, the transmission efficiency is improved, the roller is ensured to rotate flexibly by a bearing mounting mode, the service life is prolonged, and the maintenance requirement is reduced. Further, the piston assembly includes a piston rod and a piston head mounted at an end of the piston rod, the piston head forming a sealed chamber within the dispensing pump body. The improved scheme has the beneficial effects that the piston assembly forms a sealing chamber with variable volume in the dispensing pump body through the matching of the piston rod and the piston head, so that the precise suction and