A feed drying apparatus
By introducing a combined structure of drive shaft, rotating seat, drive rod and scraper into the feed drying equipment, the problem of feed sticking is solved and the processing cost is reduced.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SICHUAN TAIKUN FEED CO LTD
- Filing Date
- 2025-08-06
- Publication Date
- 2026-06-26
AI Technical Summary
In existing feed drying equipment, undried feed tends to stick to the inner wall of the drum, leading to increased processing costs.
A device comprising a drying chamber, a conveying assembly, a feeding assembly, a discharging assembly, and a drying assembly is designed. The device uses a combination of a drive shaft, a rotating seat, a drive rod, and a scraper to clean the inner wall of the drying chamber and prevent sticking.
It effectively prevents feed from sticking to the inner wall of the drying chamber during the drying process, thus reducing processing costs.
Smart Images

Figure CN224415642U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of feed processing technology, and in particular to a feed drying device. Background Technology
[0002] Currently, feed drying is a crucial step in feed production and processing, especially for various plant-based or animal-based feeds. The quality of drying directly affects the quality of the final product. However, existing feed drying equipment, due to its unreasonable structural design, cannot break up clumps of feed caused by moisture during the drying process, resulting in poor uniform drying.
[0003] The existing publication number CN212747070U discloses a feed drying device, including a feed inlet, a feed drum, crushing rods, a driven trough, a heating barrel, spiral blades, support columns, bearings, shafts, drive wheels, heating resistance wires, gears, idler wheels, a motor, a power switch, an anti-slip support frame, a discharge outlet, and support rods. The crushing rods are installed on the inner wall of the feed inlet. When feed containing moisture is poured into the feed inlet, it may clump. If these clumps are not treated, they will affect the heating process. Therefore, multiple crushing rods are installed around the inner wall of the feed inlet. When the feed drum rotates, it drives the crushing rods to rotate, breaking up the clumps and improving the heating efficiency. The heating barrel is fixed at the four corners of the outer wall of the feed drum, providing rapid heat absorption, which helps the feed inside the drum dry quickly and also maintains the heat dissipation rate.
[0004] However, when the above-mentioned feed drying equipment is in use, the feed inside the feed drum is driven forward by the spiral blades inside, but the undried feed is easy to stick to the inner wall of the feed drum, which increases the processing cost. Utility Model Content
[0005] The purpose of this utility model is to provide a feed drying device that solves the problem that when the feed inside the feed drum is driven forward by the spiral blades inside, the undried feed tends to stick to the inner wall of the feed drum, which increases the processing cost.
[0006] To achieve the above objectives, this utility model provides a feed drying device, including a drying chamber, a conveying assembly, a feeding assembly, a discharging assembly, and a drying assembly. The conveying assembly includes a drive shaft, a rotating seat, a drive rod, and scrapers. The drive shaft is rotatably connected to the drying chamber and passes through it. There are two rotating seats, each fixedly connected to the drive shaft and located on the outside of the drive shaft. There are multiple drive rods, each fixedly connected to the rotating seat and located on the outside of the rotating seat. There are multiple scrapers, each fixedly connected to the drive rod and located in the middle of the drive rod. The feeding assembly, the discharging assembly, and the drying assembly are all connected to the drying chamber.
[0007] The material conveying assembly further includes a material conveying roller and a screw cylinder. The material conveying roller is fixedly connected to the drive shaft and located between the two rotating seats. The screw cylinder is fixedly connected to the material conveying roller and located outside the material conveying roller.
[0008] The feeding assembly includes a feeding pipe and a feeding hopper. The feeding pipe is fixedly connected to the drying chamber and located at the top of the drying chamber. The feeding hopper is fixedly connected to the feeding pipe and located at the top of the feeding pipe.
[0009] The discharge assembly includes a discharge hopper and a discharge pipe. The discharge hopper is fixedly connected to the drying chamber and located outside the drying chamber. The discharge pipe is fixedly connected to the discharge hopper and located outside the discharge hopper.
[0010] The drying assembly includes a heating seat, a base, and support columns. The heating seat is fixedly connected to the drying chamber and located at the bottom of the drying chamber. The base is fixedly connected to the heating seat and located at the bottom of the heating seat. There are multiple support columns, each fixedly connected to the base and located between the base and the drying chamber.
[0011] This utility model discloses a feed drying device. The drying chamber is used for drying and storing feed. The drive shaft is connected to an external power device for driving the conveying assembly. The rotating seat provides support and transmission for the drive rod, and the drive rod provides support for the scraper. The scraper is used to clean the inner wall of the drying chamber. In use, the feed to be dried is fed into the drying chamber through the feed hopper and feed pipe. The external power device rotates, driving the drive shaft to rotate, which in turn drives the rotating seat to rotate, driving the drive rod and the scraper. The rotating drive rod and scraper clean the inner wall of the drying chamber, preventing feed from sticking to the inner wall during drying. This solves the problem that in feed drying equipment, feed inside the feed drum moves forward driven by the internal spiral blades, but undried feed easily sticks to the inner wall of the feed drum, increasing processing costs. Attached Figure Description
[0012] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the accompanying drawings used in the description of the embodiments or the prior art will be briefly introduced below.
[0013] Figure 1 This is a schematic diagram of the overall structure of the feed drying equipment according to the first embodiment of this utility model.
[0014] Figure 2 This is a schematic diagram of the material conveying assembly according to the first embodiment of this utility model.
[0015] In the diagram: 101-Drying oven, 102-Drive shaft, 103-Rotating seat, 104-Drive rod, 105-Scraper, 106-Feeding roller, 107-Spiral drum, 108-Feeding pipe, 109-Feeding hopper, 110-Discharge hopper, 111-Discharge pipe, 112-Heating seat, 113-Base, 114-Support column. Detailed Implementation
[0016] The embodiments of the present invention are described in detail below. Examples of the embodiments are shown in the accompanying drawings. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain the present invention, but should not be construed as limiting the present invention.
[0017] The first embodiment of this application is as follows:
[0018] Please see Figure 1 and Figure 2 ,in, Figure 1 This is a schematic diagram of the overall structure of the feed drying equipment according to the first embodiment of this utility model. Figure 2This is a schematic diagram of the conveying assembly of the first embodiment of the present invention. The present invention provides a feed drying device, including a drying chamber 101, a conveying assembly, a feeding assembly, a discharging assembly, and a drying assembly. The conveying assembly includes a drive shaft 102, a rotating seat 103, a drive rod 104, a scraper 105, a conveying roller 106, and a spiral drum 107. The feeding assembly includes a feeding pipe 108 and a feeding hopper 109. The discharging assembly includes a discharging hopper 110 and a discharging pipe 111. The drying assembly includes a heating seat 112, a base 113, and a support column 114. The aforementioned solution solves the problem that when the feed drying device is in use, the feed in the feed drum is driven forward by the spiral blades inside, but the undried feed easily sticks to the inner wall of the feed drum, which increases the processing cost.
[0019] In this specific embodiment, the drive shaft 102 is rotatably connected to the drying chamber 101 and passes through the drying chamber 101. There are two rotating seats 103, each fixedly connected to the drive shaft 102 and located on the outer side of the drive shaft 102. There are multiple drive rods 104, each fixedly connected to the rotating seat 103 and located on the outer side of the rotating seat 103. There are multiple scraper blades 105, each fixedly connected to the drive rod 104 and located in the middle of the drive rod 104. The feeding assembly, the discharging assembly, and the drying assembly are connected to the drying chamber 101. The drying chamber 101 is used for drying and preserving feed. 02 is connected to an external power unit for driving the conveying assembly. The rotating seat 103 provides support and transmission for the transmission rod 104, and the transmission rod 104 provides support for the scraper 105. The scraper 105 is used to clean the inner wall of the drying chamber 101. When the equipment is in use, the feed to be dried is put into the drying chamber 101 through the feed hopper 109 and the feed pipe 108. The external power unit rotates, driving the transmission shaft 102 to rotate, and at the same time driving the rotating seat 103 to rotate, driving the transmission rod 104 and the scraper 105. The rotating transmission rod 104 and the scraper 105 clean the inner wall of the drying chamber 101, preventing the feed from sticking to the inner wall of the drying chamber 101 during the drying process.
[0020] The feeding roller is fixedly connected to the drive shaft 102 and located between the two rotating seats 103. The spiral cylinder 107 is fixedly connected to the feeding roller 106 and located outside the feeding roller 106. The feeding roller is used to provide support and transmission for the spiral cylinder 107. The spiral cylinder 107 is used to uniformly convey the feed in the drying box 101.
[0021] Secondly, the feed pipe 108 is fixedly connected to the drying chamber 101 and located at the top of the drying chamber 101. The feed hopper 109 is fixedly connected to the feed pipe 108 and located at the top of the feed pipe 108. The feed pipe 108 is used to provide support for the feed hopper 109. The feed hopper 109 is used to gather the feed to be put into the drying chamber 101, so that the feed can be concentrated and enter the interior of the drying chamber 101 through the feed pipe 108.
[0022] Furthermore, the discharge hopper 110 is fixedly connected to the drying chamber 101 and located outside the drying chamber 101. The discharge pipe 111 is fixedly connected to the discharge hopper 110 and located outside the discharge hopper 110. The discharge hopper 110 is used to collect the dried feed in the drying chamber 101. The collected feed is discharged from the drying chamber 101 through the discharge pipe 111, which facilitates the discharge of the feed.
[0023] Finally, the heating base 112 is fixedly connected to the drying chamber 101 and located at the bottom of the drying chamber 101. The base 113 is fixedly connected to the heating base 112 and located at the bottom of the heating base 112. There are multiple support columns 114, each fixedly connected to the base 113 and located between the base 113 and the drying chamber 101. The heating base 112 is equipped with a heating device to heat the bottom of the drying chamber 101, facilitating the drying of the feed inside the drying chamber 101. The base 113 and the support columns 114 provide support for the entire equipment.
[0024] Using the feed drying equipment of this embodiment, the drying chamber 101 is used to dry and preserve feed. The drive shaft 102 is connected to an external power device for driving the conveying assembly. The rotating seat 103 provides support and transmission for the drive rod 104, which in turn provides support for the scraper 105. The scraper 105 is used to clean the inner wall of the drying chamber 101. During use, the feed to be dried is fed into the drying chamber 101 through the feed hopper 109 and the feed pipe 108. The feed is then transported by an external power source. The rotation of the force device drives the transmission shaft 102 to rotate, which in turn drives the rotating seat 103 to rotate, thus transmitting power to the transmission rod 104 and the scraper 105. The rotating transmission rod 104 and the scraper 105 clean the inner wall of the drying chamber 101, preventing feed from sticking to the inner wall of the drying chamber 101 during the drying process. This solves the problem that when feed is used in feed drying equipment, the feed in the feed drum is driven forward by the spiral blades inside, but the undried feed easily sticks to the inner wall of the feed drum, which increases processing costs.
[0025] The above-disclosed embodiments are merely one or more preferred embodiments of this application and should not be construed as limiting the scope of this application. Those skilled in the art can understand that all or part of the processes for implementing the above embodiments and equivalent changes made in accordance with the claims of this application still fall within the scope of this application.
Claims
1. A feed drying device, comprising a drying chamber, characterized in that, It also includes a material conveying assembly, a feeding assembly, a discharging assembly, and a drying assembly; The feeding assembly includes a drive shaft, a rotating seat, a drive rod, and scrapers. The drive shaft is rotatably connected to the drying chamber and passes through the drying chamber. There are two rotating seats, each fixedly connected to the drive shaft and located on the outside of the drive shaft. There are multiple drive rods, each fixedly connected to the rotating seat and located on the outside of the rotating seat. There are multiple scrapers, each fixedly connected to the drive rod and located in the middle of the drive rod. The feeding assembly, the discharging assembly, and the drying assembly are all connected to the drying chamber.
2. The feed drying equipment as described in claim 1, characterized in that, The material conveying assembly also includes a material conveying roller and a screw cylinder. The material conveying roller is fixedly connected to the drive shaft and located between the two rotating seats. The screw cylinder is fixedly connected to the material conveying roller and located outside the material conveying roller.
3. The feed drying equipment as described in claim 2, characterized in that, The feeding assembly includes a feeding pipe and a feeding hopper. The feeding pipe is fixedly connected to the drying chamber and located at the top of the drying chamber. The feeding hopper is fixedly connected to the feeding pipe and located at the top of the feeding pipe.
4. The feed drying equipment as described in claim 3, characterized in that, The discharge assembly includes a discharge hopper and a discharge pipe. The discharge hopper is fixedly connected to the drying chamber and located outside the drying chamber. The discharge pipe is fixedly connected to the discharge hopper and located outside the discharge hopper.
5. The feed drying equipment as described in claim 4, characterized in that, The drying assembly includes a heating base, a base, and support columns. The heating base is fixedly connected to the drying chamber and located at the bottom of the drying chamber. The base is fixedly connected to the heating base and located at the bottom of the heating base. There are multiple support columns, each fixedly connected to the base and located between the base and the drying chamber.