Piglet bloodletting and delivery integrated device
By designing an integrated pig bloodletting and conveying equipment, automatic cleaning is achieved using drive components, lifting components, water storage pipes, and high-pressure nozzles. This solves the problem of low manual cleaning efficiency of horizontal flat plate bloodletting conveyors, and improves cleaning efficiency and equipment cleanliness.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUBEI XIZHILONG MEAT FOOD CO LTD
- Filing Date
- 2025-07-23
- Publication Date
- 2026-07-07
AI Technical Summary
The existing horizontal flat plate bloodletting conveyor does not have an automatic rinsing function, requiring manual cleaning, which affects the cleaning efficiency.
An integrated pig bloodletting and conveying device was designed, comprising a frame, a recovery bin, a pumping mechanism, a cleaning unit, and a liquid supply unit. Automatic cleaning is achieved through drive components, lifting components, water storage pipes, and high-pressure nozzles, covering all parts of the device.
It achieves full-range automatic cleaning of equipment, saving cleaning time and labor costs, improving production efficiency, and ensuring the cleanliness of equipment.
Smart Images

Figure CN224461004U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of pig slaughtering technology, and in particular to an integrated device for pig bleeding and conveying. Background Technology
[0002] In the pig slaughtering and processing industry, the horizontal flat plate bleeding conveyor is one of the commonly used pieces of equipment. Its main function is to perform bleeding operations on pigs and then smoothly transport the bleeding pigs to the subsequent processing stages.
[0003] Currently, in existing horizontal flatbed bloodletting conveyors, blood flows on the surface of the pigs during the bloodletting process. After the bloodletting and transport of the pigs, blood stains inevitably remain on the surface of the equipment. These blood stains include not only the pigs' own blood but may also be mixed with contaminants such as hair from the pigs' bodies.
[0004] However, most existing horizontal flat plate blood collection conveyors do not have an automatic rinsing function. Before and after each use, in order to ensure the cleanliness and hygiene of the equipment and meet the requirements of hygiene standards, staff need to use handheld high-pressure nozzles to rinse the surface of the equipment. This not only increases the workload but also takes a long time and affects the efficiency of the cleaning process.
[0005] To address the aforementioned issues, a pig bloodletting and transport integrated device has been designed. Utility Model Content
[0006] This application provides an integrated device for bloodletting and conveying pigs to solve the problem that most existing horizontal flat plate bloodletting conveyors in the related technology do not have an automatic rinsing function and require manual cleaning, which affects the cleaning efficiency.
[0007] Firstly, a pig bloodletting and conveying integrated device is provided, comprising:
[0008] The frame has a recycling bin with an opening above it. A conveyor is mounted on the frame above the opening. A pumping mechanism is mounted on the recycling bin to extract pig blood from it. A support frame is mounted on the frame, and a movable platform is slidably mounted on the support frame. A driving component is mounted on the movable platform to drive it to move along the length of the recycling bin.
[0009] The mobile platform is equipped with a cleaning unit, which includes a lifting component on the mobile platform, two water storage pipes opposite to each other on the lifting component, and multiple high-pressure nozzles on the water storage pipes.
[0010] The cleaning unit also includes a liquid supply unit, which is used to supply liquid to the water storage pipe.
[0011] In some embodiments, the recycling bin is a conical box that is wider at the top and narrower at the bottom, and one end of the recycling bin is provided with a valve for discharging wastewater after cleaning.
[0012] In some embodiments, the support frame has two sets of slide rails arranged opposite each other, the slide rails have multiple sliders, and the moving platform is arranged between the tops of the multiple sliders.
[0013] In some embodiments, the drive unit includes a rack mounted on a support frame, a drive motor and a reducer mounted on a moving platform, the output shaft of the drive motor being connected to the input shaft of the reducer, the output shaft of the reducer extending below the moving platform, and a gear mounted on the output shaft of the reducer meshing with the rack.
[0014] In some embodiments, the lifting component includes a lifting platform disposed below the movable platform, and two electric push rods disposed opposite each other on the movable platform. The bottom end of the piston rod of the electric push rod passes through the movable platform and is connected to the lifting platform. The lifting platform is T-shaped.
[0015] In some embodiments, the water storage pipes are arranged opposite each other on both sides of the lifting platform;
[0016] The liquid supply unit includes a liquid storage tank and a pump body. The liquid inlet of the pump body is connected to the liquid storage tank, and the liquid outlet of the pump body is connected to a flexible hose. The other end of the flexible hose is connected to a T-connector, and the other end of the T-connector is connected to two water storage pipes respectively.
[0017] In some embodiments, the pumping mechanism includes a second pump body mounted on a frame, the inlet of the second pump body being connected to a pumping pipe, the pumping pipe being connected to a plurality of pipe joints, the other end of the pipe joints extending into the recovery chamber, and the opening of the pipe joints facing downwards.
[0018] In some embodiments, the conveyor includes two side plates disposed opposite to each other on the frame, two drive rollers rotatably disposed between the two side plates, a mesh conveyor belt drivingly connected between the outer sides of the two drive rollers, and a gap for the flow of pig blood between the mesh conveyor belt and one side plate, the gap being located above the opening;
[0019] Multiple auxiliary rollers are rotatably arranged between the two side plates, and the sidewalls of the auxiliary rollers are in contact with the upper surface inside the mesh conveyor belt;
[0020] A second drive motor and a second reducer are provided on one side plate. The output shaft of the second drive motor is connected to the input shaft of the reducer, and the output shaft of the second reducer is connected to one end of any drive roller.
[0021] This application provides an integrated equipment for bloodletting and conveying pigs. Through the drive unit, lifting unit, water storage pipe, high-pressure nozzle and liquid supply unit, the equipment can be thoroughly cleaned without the need for manual cleaning of each part by holding the nozzle, saving cleaning time and labor costs, and further improving the overall production efficiency.
[0022] By moving the mobile platform along the length of the recycling bin and adjusting the height of the lifting components, the cleaning unit can perform comprehensive cleaning of all parts of the equipment, leaving no dead corners and ensuring that every corner of the equipment is effectively cleaned.
[0023] Multiple high-pressure nozzles can generate high-pressure water jets with strong impact force, which can effectively wash away residual dirt and impurities on the surface of the equipment, making the cleaning more thorough. Attached Figure Description
[0024] To more clearly illustrate the technical solutions in the embodiments of this application, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0025] Figure 1 A three-dimensional structural illustration provided for an embodiment of this application. Figure 1 ;
[0026] Figure 2 A three-dimensional structural illustration provided for an embodiment of this application. Figure 2 ;
[0027] Figure 3 A three-dimensional schematic diagram of the connection structure between the driver and the mobile station provided in an embodiment of this application;
[0028] Figure 4 This is a three-dimensional schematic diagram of the connection structure between the conveyor and the recycling bin provided in an embodiment of this application;
[0029] Figure 5 A three-dimensional schematic diagram of the connection structure between the recovery bin and the pumping mechanism provided in the embodiments of this application;
[0030] Figure 6 This is a plan view of the liquid supply unit provided in an embodiment of this application.
[0031] In the diagram: 1. Frame; 2. Recycling bin; 3. Opening; 4. Conveyor; 5. Pumping mechanism; 6. Support frame; 7. Valve; 8. Moving platform; 9. Drive unit; 10. Cleaning unit; 61. Slide rail; 62. Slider; 91. Rack; 92. Drive motor; 93. Reducer; 94. Gear; 101. Lifting component; 102. Water storage pipe; 103. High-pressure nozzle; 105. Liquid supply unit; 1011. Lifting platform; 1012. Electric push rod; 1051. Liquid storage tank; 1052. Pump body; 1053. Hose; 1054. T-connector; 51. Pump body II; 52. Pumping pipe; 53. Pipe joint; 41. Side plate; 42. Drive roller; 43. Mesh conveyor belt; 44. Gap; 45. Auxiliary roller. Detailed Implementation
[0032] To make the objectives, technical solutions, and advantages of the embodiments of this application clearer, the technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.
[0033] This application provides an integrated device for bloodletting and conveying pigs, which solves the problem that most existing horizontal flat plate bloodletting conveyors in the related technology do not have an automatic rinsing function and require manual cleaning, thus affecting cleaning efficiency.
[0034] Please see Figures 1-3 A pig bloodletting and conveying integrated device includes: a frame 1, a recovery chamber 2 on the frame 1, an opening 3 above the recovery chamber 2, a conveyor 4 located above the opening 3 on the frame 1, and a pumping mechanism 5 on the recovery chamber 2 for pumping pig blood from the recovery chamber 2. The device is characterized in that a support frame 6 is provided above the frame 1, a movable platform 8 is slidably arranged above the support frame 6, and a driving component 9 is provided on the movable platform 8 for driving the movable platform 8 to move along the length of the recovery chamber 2.
[0035] The mobile platform 8 is provided with a cleaning unit 10. The cleaning unit 10 includes a lifting component 101 on the mobile platform 8, two water storage pipes 102 disposed opposite to each other on the lifting component 101, and a plurality of high-pressure nozzles 103 disposed on the water storage pipes 102. The cleaning unit 10 also includes a liquid supply unit 105, which is used to supply liquid to the water storage pipes 102.
[0036] It should be noted that the recycling bin 2 in this embodiment is a conical box that is wider at the top and narrower at the bottom, and a valve 7 for discharging wastewater after cleaning is provided at one end of the recycling bin 2.
[0037] The live pig is placed on the conveyor 4 located above the opening 3 of the recycling bin 2. As the conveyor 4 operates, the live pig is transported to a suitable position for bleeding. The pig blood flows into the recycling bin 2 below. When the pig blood in the recycling bin 2 accumulates to a certain level, the pumping mechanism 5 starts working to extract the pig blood that has gathered at the bottom of the recycling bin 2 and transport it to an external pig blood collection container to achieve centralized collection of pig blood.
[0038] After each production run is completed and before the start of daily production, the liquid supply unit 105 is activated to extract the mixed solution of cleaning liquid and disinfectant and send it to two water storage pipes 102. Under pressure, the cleaning liquid in the water storage pipes 102 is sprayed out in the form of high-pressure water jets through multiple high-pressure nozzles 103 to powerfully wash the surface of the equipment, including the conveyor 4, the area around the opening 3 of the recovery bin 2, and other parts, to wash away residual blood, impurities, etc.
[0039] At the same time, the drive unit 9 starts to operate, driving the moving table 8 to move along the support frame 6 in the length direction of the recycling bin 2, and driving the cleaning unit 10 on it to move together, so that the cleaning unit 10 can cover different parts of the equipment.
[0040] Meanwhile, the lifting component 101 changes the position of the two water storage pipes 102 and the high-pressure nozzles 103 on them according to the cleaning requirements, so as to adapt to the cleaning requirements of different equipment heights.
[0041] The wastewater after cleaning flows into the recovery chamber 2 and is discharged through the valve 7 set at one end of the recovery chamber 2, thus completing the cleaning process of the equipment.
[0042] The drive unit 9, lifting unit 101, water storage pipe 102, high-pressure nozzle 103 and liquid supply unit 105 enable comprehensive cleaning of the equipment without the need for manual cleaning of each part by holding the nozzle, saving cleaning time and labor costs, and further improving overall production efficiency.
[0043] By moving the mobile platform 8 along the length of the recycling bin 2 and adjusting the height of the lifting component 101, the cleaning unit 10 can perform all-round cleaning of all parts of the equipment, leaving no dead corners and ensuring that every corner of the equipment is effectively cleaned.
[0044] Multiple high-pressure nozzles 103 can generate high-pressure water jets with strong impact force, which can effectively wash away residual dirt and impurities on the surface of the equipment, making the cleaning more thorough.
[0045] The wastewater after cleaning can be discharged through valve 7 at one end of the recycling bin 2, which facilitates the collection and treatment of wastewater, avoids wastewater flowing everywhere and causing pollution to the environment, and also facilitates the maintenance and cleaning of the equipment.
[0046] like Figure 2 As shown, in one embodiment, two sets of slide rails 61 are arranged opposite each other on the support frame 6, and multiple sliders 62 are arranged on the slide rails 61. The moving platform 8 is arranged between the tops of the multiple sliders 62.
[0047] The moving platform 8 is installed between the tops of multiple sliders 62. The sliders 62 are set on two sets of opposite slide rails 61 on the support frame 6. Under the action of driving force, the sliders 62 slide smoothly along the slide rails 61, thereby driving the moving platform 8 to move linearly along the support frame 6 in the length direction of the recycling bin 2. Through the cooperation structure of the slide rails 61 and the sliders 62, the stability of the movement of the moving platform 8 is ensured, so that the cleaning unit 10 can accurately reach all parts of the equipment.
[0048] like Figure 1 and Figure 2 As shown, in one embodiment, the driving component 9 includes a rack 91 mounted on a support frame 6, a drive motor 92 mounted on a moving platform 8, and a reducer 93. The output shaft of the drive motor 92 is connected to the input shaft of the reducer 93. The output shaft of the reducer 93 extends below the moving platform 8. The output shaft of the reducer 93 is provided with a gear 94, which meshes with the rack 91.
[0049] Upon receiving the cleaning command, the drive motor 92 starts running, and the high-speed rotation power is transmitted to the reducer 93. The reducer 93, through its internal gear transmission mechanism, converts the high-speed, low-torque output of the drive motor 92 into a low-speed, high-torque output to meet the needs of equipment movement. As a result, the output shaft of the reducer 93 drives the gear 94 to rotate. The meshing action of the gear 94 and the rack 91 generates a thrust along the direction of the rack 91. The thrust acts on the moving table 8, and the slider 62 slides smoothly along the slide rail 61, driving the moving table 8 to move linearly along the support frame 6 in the length direction of the recovery bin 2.
[0050] like Figure 2 and Figure 3 As shown, in one embodiment, the lifting member 101 includes a lifting platform 1011 arranged below the moving platform 8, and two electric push rods 1012 arranged opposite to each other on the moving platform 8. The bottom end of the piston rod of the electric push rod 1012 passes through the moving platform 8 and is connected to the lifting platform 1011. The lifting platform 1011 is T-shaped.
[0051] When the moving platform 8 moves above the equipment section that needs to be cleaned, the two electric push rods 1012 are activated simultaneously according to the height of the section and the cleaning requirements. The piston rods of the electric push rods 1012 extend downwards, which pushes the lifting platform 1011 to move downwards. The lifting platform 1011 is T-shaped, and its structure can provide good stability and support. During the descent, it can smoothly drive the water storage pipe 102 and high-pressure nozzle 103 installed on the lifting platform 1011 to descend to a suitable height.
[0052] By adjusting the height of the lifting platform 1011, the high-pressure nozzle 103 is always kept at the optimal cleaning height, thus improving the cleaning effect.
[0053] like Figure 3 and Figure 6 As shown, further explanation is needed in this embodiment: the water storage pipes 102 are arranged opposite each other on both sides of the lifting platform 1011; the liquid supply unit 105 includes a liquid storage tank 1051 and a pump body 1052. The inlet of the pump body 1052 is connected to the liquid storage tank 1051, and the outlet of the pump body 1052 is connected to a flexible hose 1053. The other end of the flexible hose 1053 is connected to a three-way connector 1054, and the other end of the three-way connector 1054 is connected to two water storage pipes 102 respectively.
[0054] During use, the pump body 1052 starts, and the suction generated by the pump body 1052 draws the cleaning fluid in the storage tank 1051 into the pump body 1052. Then, the cleaning fluid enters the hose 1053 through the outlet of the pump body 1052. The hose 1053 has a certain degree of flexibility and extensibility, which can adapt to the movement and vibration of the equipment during operation. The cleaning fluid is delivered to the three-way connector 1054 through the hose 1053. The three-way connector 1054 evenly distributes the cleaning fluid into the two connected water storage pipes 102.
[0055] It should be noted that the liquid storage tank 1051 is equipped with an injection port for injecting water and disinfectant.
[0056] like Figure 1 and Figure 5 As shown, in one embodiment, the pumping mechanism 5 includes a second pump body 51 mounted on a frame 1. The inlet of the second pump body 51 is connected to a pumping pipe 52, and the pumping pipe 52 is connected to multiple pipe joints 53. The other end of each pipe joint 53 extends into the recovery chamber 2, with the opening of the pipe joint 53 facing downwards. The other end of the second pump body 51 is connected to an external pig blood recovery container.
[0057] When the amount of pig blood in the recycling bin 2 accumulates to a certain level, the pumping mechanism 5 starts working, the pump body 2 51 starts, and the pump body 2 51 generates suction. Under the suction of the pump body 2 51, the pig blood in the recycling bin 2 is sucked into the pumping pipe 52 through the pipe joint 53. Multiple pipe joints 53 can increase the suction area and efficiency, and can extract pig blood from different locations in the recycling bin 2 more quickly.
[0058] The pig blood drawn into the suction pipe 52 is transported along the suction pipe 52 to the outlet of the pump body 51 under the continuous action of the pump body 51, and flows into the external pig blood recycling container through the outlet of the pump body 51, thus completing the collection and transfer of pig blood.
[0059] like Figure 1 and Figure 4 As shown, in one embodiment, the conveyor 4 includes two side plates 41 arranged opposite to each other on the frame 1. Two drive rollers 42 are rotatably arranged between the two side plates 41. A mesh conveyor belt 43 is driven between the outer sides of the two drive rollers 42. A gap 44 for the flow of pig blood is provided between the mesh conveyor belt 43 and one side plate 41. The gap 44 is located above the opening 3. A plurality of auxiliary rollers 45 are rotatably arranged between the two side plates 41. The sidewall of the auxiliary rollers 45 contacts the upper surface inside the mesh conveyor belt 43. A second drive motor and a second reducer are provided on one side plate 41. The output shaft of the second drive motor is connected to the input shaft of the reducer. The output shaft of the second reducer is connected to one end of any drive roller 42.
[0060] The pig to be bled is placed at one end of the conveyor 4. The two side plates 41 of the conveyor 4 are set opposite each other on the frame 1, providing a relatively stable conveying channel for the pig and preventing the pig from deviating from the track during the conveying process.
[0061] The pigs are placed on the mesh conveyor belt 43, which consists of chains and mesh panels. This ensures the stable placement of the pigs and allows the pig's blood to flow through the mesh.
[0062] When the second drive motor starts, its output shaft transmits power to the second reducer. The second reducer reduces the speed and increases the torque of the high-speed rotation of the motor, and then transmits the processed power to the drive roller 42 through the output shaft. When one of the drive rollers 42 rotates under the drive of the second reducer, it will drive the mesh conveyor belt 43 and the other drive roller 42 to rotate together. The mesh conveyor belt 43 starts to circulate, smoothly transporting the pigs placed on it.
[0063] The side wall of the auxiliary roller 45 contacts the upper surface inside the mesh conveyor belt 43. During the operation of the mesh conveyor belt 43, the auxiliary roller 45 can share some of the pressure borne by the drive roller 42, reduce the deformation and wear of the mesh conveyor belt 43, and ensure the smooth operation of the mesh conveyor belt 43.
[0064] When pigs are transported to the bleeding station for bleeding, the released blood flows down through the mesh of the mesh conveyor belt 43. Because there is a gap 44 between the mesh conveyor belt 43 and one side plate 41, the blood flows quickly through the opening 3 into the recycling bin 2 below, ensuring the normal transport of pigs and efficiently collecting the blood into the recycling bin 2, thus improving the bleeding efficiency.
[0065] The conveyor belt 43 allows pig blood to flow smoothly through the mesh, while the pigs are placed stably on the conveyor belt, ensuring the normal transport of the pigs and providing convenient conditions for the collection of pig blood.
[0066] The gap 44 between the mesh conveyor belt 43 and one side plate 41 allows pig blood to flow quickly into the recycling bin 2 along the gap 44.
[0067] In the description of this application, it should be noted that the terms "upper," "lower," etc., indicating the orientation or positional relationship are based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this application. Unless otherwise expressly specified and limited, the terms "installed," "connected," and "linked" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication between two elements. For those skilled in the art, the specific meaning of the above terms in this application can be understood according to the specific circumstances.
[0068] It should be noted that in this application, relational terms such as "first" and "second" are used merely to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.
[0069] The above description is merely a specific embodiment of this application, enabling those skilled in the art to understand or implement this application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of this application. Therefore, this application is not to be limited to the embodiments shown herein, but is to be accorded the widest scope consistent with the principles and novel features claimed herein.
Claims
1. A pig bloodletting and conveying integrated device, comprising: A frame (1) is provided with a recycling bin (2), an opening (3) is provided above the recycling bin (2), a conveyor (4) is provided on the frame (1) above the opening (3), and a pumping mechanism (5) is provided on the recycling bin (2). The pumping mechanism (5) is used to extract pig blood from the recycling bin (2). The frame (1) is provided with a support frame (6), a moving platform (8) is slidably provided on the support frame (6), and a driving component (9) is provided on the moving platform (8). The driving component (9) is used to drive the moving platform (8) to move along the length of the recycling bin (2). The mobile platform (8) is provided with a cleaning unit (10), which includes a lifting component (101) provided on the mobile platform (8), two water storage pipes (102) provided opposite to each other on the lifting component (101), and multiple high-pressure nozzles (103) provided on the water storage pipes (102). The cleaning unit (10) further includes a liquid supply unit (105) for supplying liquid to the water storage pipe (102).
2. The integrated equipment for bleeding and transporting pigs as described in claim 1, characterized in that: The recycling bin (2) is a cone-shaped box that is wider at the top and narrower at the bottom. One end of the recycling bin (2) is equipped with a valve (7) for discharging wastewater after cleaning.
3. The integrated equipment for bleeding and transporting pigs as described in claim 1, characterized in that: The support frame (6) has two sets of slide rails (61) arranged opposite each other, and multiple sliders (62) are arranged on the slide rails (61). The moving platform (8) is arranged between the tops of the multiple sliders (62).
4. The integrated equipment for bleeding and transporting pigs as described in claim 1, characterized in that: The drive unit (9) includes a rack (91) mounted on a support frame (6), a drive motor (92) mounted on a moving platform (8), and a reducer (93). The output shaft of the drive motor (92) is connected to the input shaft of the reducer (93). The output shaft of the reducer (93) extends to the bottom of the moving platform (8). The output shaft of the reducer (93) is provided with a gear (94), which meshes with the rack (91).
5. The integrated equipment for bleeding and transporting pigs as described in claim 1, characterized in that: The lifting component (101) includes a lifting platform (1011) arranged below the moving platform (8) and two electric push rods (1012) arranged opposite to each other on the moving platform (8). The bottom end of the piston rod of the electric push rod (1012) passes through the moving platform (8) and is connected to the lifting platform (1011). The lifting platform (1011) is T-shaped.
6. The integrated equipment for bleeding and transporting pigs as described in claim 1, characterized in that: The water storage pipe (102) is arranged opposite to each other on both sides of the lifting platform (1011); The liquid supply unit (105) includes a liquid storage tank (1051) and a pump body (1052). The inlet of the pump body (1052) is connected to the liquid storage tank (1051), and the outlet of the pump body (1052) is connected to a flexible hose (1053). The other end of the flexible hose (1053) is connected to a three-way connector (1054), and the other end of the three-way connector (1054) is connected to two water storage pipes (102) respectively.
7. The integrated equipment for bleeding and transporting pigs as described in claim 1, characterized in that: The pumping mechanism (5) includes a second pump body (51) mounted on a frame (1). The inlet of the second pump body (51) is connected to a pumping pipe (52). The pumping pipe (52) is connected to a plurality of pipe joints (53). The other end of the pipe joints (53) extends into the recovery chamber (2). The opening of the pipe joints (53) faces downward.
8. The integrated equipment for bleeding and transporting pigs as described in claim 1, characterized in that: The conveyor (4) includes two side plates (41) arranged opposite to each other on the frame (1), and two active rollers (42) are rotatably arranged between the two side plates (41). A mesh conveyor belt (43) is connected between the outer sides of the two active rollers (42). There is a gap (44) between the mesh conveyor belt (43) and one side plate (41) for the flow of pig blood. The gap (44) is located above the opening (3). A plurality of auxiliary rollers (45) are rotatably arranged between the two side plates (41), and the sidewalls of the auxiliary rollers (45) are in contact with the upper surface inside the mesh conveyor belt (43); A second drive motor and a second reducer are provided on one side plate (41). The output shaft of the second drive motor is connected to the input shaft of the reducer, and the output shaft of the second reducer is connected to one end of any drive roller (42).