A warming breast pump
The heating components and sensor system of the warming pump milk machine maintain the milk temperature at 37-45℃, solving the problem of milk cooling during feeding and ensuring a comfortable feeding experience for infants.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHONGQING MATERNAL & CHILD HEALTH HOSPITAL (CHONGQING OBSTETRICS & GYNECOLOGY HOSPITAL CHONGQING INST OF GENETICS & REPRODUCTION)
- Filing Date
- 2025-02-10
- Publication Date
- 2026-07-10
AI Technical Summary
During feeding, the milk in the syringe cools down quickly, causing discomfort to the infant during prolonged feeding.
A heated milk pump machine was designed, comprising an injection pump, a fixed clamp, an injection cylinder, a heating element, and a sensor. The heating element maintains the milk temperature within the range of 37-45℃, the heating power is controlled by a temperature controller, and the sensor monitors the temperature and displays real-time data.
It effectively maintains the milk temperature within a suitable range, avoiding discomfort to infants caused by the milk cooling down during prolonged feeding.
Smart Images

Figure CN224474567U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of medical device technology, and in particular to a warming milk pump machine. Background Technology
[0002] In clinical practice, some young children are unable to drink milk orally due to physiological abnormalities, neurological problems, infectious diseases, or psychological and behavioral factors.
[0003] The existing method involves drawing milk heated to 40 degrees Celsius into a syringe, which is then mounted on a medical micro-infusion pump. The pump pushes the tail of the syringe to slowly extract the milk, which is then delivered into the infant's mouth, thus achieving automatic feeding.
[0004] However, breastfeeding is a slow process. During a long feeding period, the heated milk in the syringe cools down quickly, which can easily cause discomfort to the baby while feeding. Utility Model Content
[0005] The purpose of this invention is to provide a heated milk pump machine, which aims to solve the problem that feeding is a slow process, and the heated milk in the syringe cools down quickly during long feeding sessions, which can easily cause discomfort to the infant while feeding.
[0006] To achieve the above objectives, this utility model provides a warming pump milk machine, including a syringe pump, a fixing bracket, and a syringe barrel. The fixing bracket is disposed on the syringe pump and located on one side of the syringe pump, and the syringe barrel is disposed on the fixing bracket and located on the side of the fixing bracket closer to the syringe pump.
[0007] It also includes heating components,
[0008] The heating assembly includes a delivery pipe, a mounting bracket, a heating element, a mounting sleeve, a sensor, a control base, a temperature controller, and a display component. The delivery pipe is connected to the syringe and located on one side of the syringe. The mounting bracket is fixedly connected to the injection pump and located on one side of the injection pump. The heating element is disposed on the mounting bracket and located on the side of the mounting bracket closer to the syringe. The mounting sleeve is fixedly connected to the delivery pipe and located on one side of the delivery pipe. The sensor is disposed on the mounting sleeve and located on the side of the mounting sleeve closer to the delivery pipe. The control base is fixedly connected to the injection pump and connected to the sensor, and located on one side of the injection pump. The temperature controller is disposed on the control base and connected to the heating element, and located on one side of the control base. The display component is disposed on the mounting sleeve and connected to the sensor.
[0009] The display component includes a mounting bracket and a display screen. The mounting bracket is fixedly connected to the fixing sleeve and is located on one side of the fixing sleeve. The display screen is disposed on the mounting bracket and connected to the sensor, and is located on the side of the mounting bracket closer to the sensor.
[0010] The heating assembly also includes a nipple, which is connected to the delivery tube and located on the side of the delivery tube away from the syringe.
[0011] The heating assembly also includes a control panel, which is mounted on the control base and located on one side of the control base.
[0012] The heating component also includes a rubber ring, which is disposed on the delivery pipe and located on one side of the delivery pipe.
[0013] This utility model discloses a heated milk pump machine. When feeding an infant, the milk in the syringe is slowly dispensed through the delivery tube by the pump. Simultaneously, a sensor monitors the temperature of the milk delivered through the delivery tube. A control base receives and processes the monitoring data transmitted by the sensor, and a temperature controller controls the heating power. Combined with the temperature monitoring data transmitted from the sensor to the control base, the temperature of the milk in the syringe is maintained within the range of 37-45℃. The heating element heats the milk in the syringe, and the sensor monitoring and temperature controller control ensure that the milk remains at a suitable temperature for an extended period, preventing discomfort to the infant caused by cooling during prolonged feeding. Attached Figure Description
[0014] 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.
[0015] Figure 1 This is a schematic diagram of the structure of the heating pump milk machine according to the first embodiment of this utility model.
[0016] Figure 2 This is a schematic diagram of the heating assembly according to the first embodiment of the present invention.
[0017] Figure 3 This is a schematic diagram of the structure of the fixing sleeve according to the first embodiment of this utility model.
[0018] In the diagram: 101-Injection pump, 102-Fixing clamp, 103-Injection cylinder, 104-Delivery tube, 105-Fixing frame, 106-Heating element, 107-Fixing sleeve, 108-Sensor, 109-Control base, 110-Thermostat, 111-Nipple, 112-Control panel, 113-Rubber ring, 114-Mounting bracket, 115-Display screen. Detailed Implementation
[0019] 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.
[0020] The first embodiment of this application is:
[0021] Please see Figures 1 to 3 ,in Figure 1 This is a schematic diagram of the structure of the heating pump milk machine according to the first embodiment of this utility model. Figure 2 This is a schematic diagram of the heating assembly according to the first embodiment of the present invention. Figure 3 This is a schematic diagram of the structure of the fixing sleeve according to the first embodiment of this utility model.
[0022] This utility model provides a heated milk pump machine, including a syringe pump 101, a fixing bracket 102, a syringe barrel 103, and a heating assembly. The heating assembly includes a delivery pipe 104, a fixing bracket 105, a heating element 106, a fixing sleeve 107, a sensor 108, a control base 109, a temperature controller 110, a display component, a nipple 111, a control panel 112, and a rubber ring 113. The display component includes a mounting bracket 114 and a display screen 115. This solution addresses the problem that feeding is a slow process, and during prolonged feeding, the heated milk in the syringe cools down quickly, potentially causing discomfort to the infant. It is understood that this solution can be used when a constant milk temperature is required.
[0023] In this embodiment, the fixing bracket 102 is disposed on the injection pump 101, and the syringe 103 is disposed on the fixing bracket 102. The injection pump 101 is a medical micro-injection pump 101. The syringe 103 can store milk, and the fixing bracket 102 can fix the syringe 103 on the injection pump 101. The injection pump 101 can slowly push the milk in the syringe 103 out.
[0024] The delivery pipe 104 is connected to the syringe 103 and located on one side of the syringe 103. The fixing frame 105 is fixedly connected to the injection pump 101 and located on one side of the injection pump 101. The heating element 106 is disposed on the fixing frame 105 and located on the side of the fixing frame 105 near the syringe 103. The fixing sleeve 107 is fixedly connected to the delivery pipe 104 and located on one side of the delivery pipe 104. The sensor 108 is disposed on the fixing sleeve 107 and located on the side of the fixing sleeve 107 near the delivery pipe 104. The control base 109 is fixedly connected to the injection pump 101 and connected to the sensor 108, and is located on the side of the syringe 103. On one side of the injection pump 101, the temperature controller 110 is mounted on the control base 109 and connected to the heating element 106, located on one side of the control base 109. The display component is mounted on the fixing sleeve 107 and connected to the sensor 108. The delivery pipe 104 communicates with the injection cylinder 103, allowing the milk in the injection cylinder 103 to be discharged under the push of the injection pump 101. There are two fixing brackets 105, which are bolted to the injection pump 101. The heating element 106 is mounted on the two fixing brackets 105, and when energized, it can circulate the milk in the injection cylinder 103. Heating is provided. The fixing sleeve 107 is bonded to the outside of the delivery pipe 104. The sensor 108 is mounted on the fixing sleeve 107. The sensor 108 is an MLX90614 infrared temperature sensor 108, which can monitor the temperature of the milk being delivered in the delivery pipe 104. The control base 109 is bolted to the outside of the injection pump 101. The control base 109 contains a processing chip and control circuit, which can receive and process the monitoring data transmitted by the sensor 108. The temperature controller 110 is mounted on the control base 109. The temperature controller 110 is a digital temperature controller. The temperature control of the temperature controller 110... The temperature range is set between 37-45℃. The temperature controller 110 is electrically connected to the heating element 106. The temperature controller 110 can control the heating power. Combined with the temperature monitoring data transmitted to the control base 109 by the sensor 108, the temperature of the milk in the syringe 103 can be maintained within the range of 37-45℃. The display component is mounted on the fixed sleeve 107 and connected to the sensor 108. The display component can display the temperature monitored by the sensor 108 in real time. Therefore, when it is necessary to feed the infant, the milk in the syringe 103 can be slowly discharged from the syringe 103 by the injection pump 101 through the delivery tube 104 for feeding.Simultaneously, the sensor 108 monitors the temperature of the milk delivered in the delivery tube 104. The control base 109 receives and processes the monitoring data transmitted by the sensor 108, and the temperature controller 110 controls the heating power. Combined with the temperature monitoring data transmitted from the sensor 108 to the control base 109, the temperature of the milk in the syringe 103 can be maintained within the range of 37-45℃. This allows the heating element 106 to heat the milk in the syringe 103, while the monitoring by the sensor 108 and the control by the temperature controller 110 ensure that the milk remains at a suitable temperature for an extended period, preventing discomfort to the infant caused by cooling during prolonged feeding.
[0025] Secondly, the mounting bracket 114 is fixedly connected to the fixing sleeve 107 and is located on one side of the fixing sleeve 107; the display screen 115 is mounted on the mounting bracket 114 and connected to the sensor 108, and is located on the side of the mounting bracket 114 closer to the sensor 108. The mounting bracket 114 is bolted to the fixing sleeve 107. The display screen 115 is mounted on the mounting bracket 114 and electrically connected to the sensor 108. The display screen 115 can display the temperature data detected by the sensor 108 in real time, helping adults to understand the temperature of the milk in the delivery tube 104 in real time.
[0026] Meanwhile, the nipple 111 is connected to the delivery tube 104 and is located on the side of the delivery tube 104 away from the syringe 103. The nipple 111 is connected to the delivery tube 104, and the simulated shape of the nipple 111 can better help the baby to be fed.
[0027] In addition, the control panel 112 is disposed on the control base 109 and located on one side of the control base 109. The control panel 112 facilitates the input of control information of the control base 109 by the operator.
[0028] Finally, the rubber ring 113 is disposed on the conveying pipe 104 and located on one side of the conveying pipe 104. There are multiple rubber rings 113, and multiple rubber rings 113 are sleeved on the conveying pipe 104. The elastic deformation capability of the rubber ring 113 can bind the connecting wire between the control base 109 and the sensor 108 to the conveying pipe 104.
[0029] When using the warming pump milk machine of this embodiment, when feeding an infant, the milk in the syringe 103 is slowly discharged through the delivery pipe 104 under the push of the injection pump 101 for feeding. At the same time, the temperature of the milk delivered in the delivery pipe 104 can be monitored by the sensor 108. The control base 109 can receive and process the monitoring data transmitted by the sensor 108. The temperature controller 110 can control the heating power. With the temperature monitoring data transmitted by the sensor 108 to the control base 109, the temperature of the milk in the syringe 103 can be maintained within the range of 37-45℃. Thus, the heating element 106 heats the milk in the syringe 103. At the same time, the monitoring by the sensor 108 and the control by the temperature controller 110 keep the milk at a suitable temperature for a long time, avoiding the discomfort of the infant caused by the milk cooling during long feeding.
[0030] 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 warming pump milk machine, comprising an injection pump, a fixing bracket, and an injection cylinder, wherein the fixing bracket is disposed on the injection pump and located on one side of the injection pump, and the injection cylinder is disposed on the fixing bracket and located on the side of the fixing bracket closer to the injection pump, characterized in that, It also includes heating components, The heating assembly includes a delivery pipe, a mounting bracket, a heating element, a mounting sleeve, a sensor, a control base, a temperature controller, and a display component. The delivery pipe is connected to the syringe and located on one side of the syringe. The mounting bracket is fixedly connected to the injection pump and located on one side of the injection pump. The heating element is disposed on the mounting bracket and located on the side of the mounting bracket closer to the syringe. The mounting sleeve is fixedly connected to the delivery pipe and located on one side of the delivery pipe. The sensor is disposed on the mounting sleeve and located on the side of the mounting sleeve closer to the delivery pipe. The control base is fixedly connected to the injection pump and connected to the sensor, and located on one side of the injection pump. The temperature controller is disposed on the control base and connected to the heating element, and located on one side of the control base. The display component is disposed on the mounting sleeve and connected to the sensor.
2. The milk pump machine as described in claim 1, characterized in that, The display component includes a mounting bracket and a display screen. The mounting bracket is fixedly connected to the fixing sleeve and is located on one side of the fixing sleeve. The display screen is disposed on the mounting bracket and connected to the sensor, and is located on the side of the mounting bracket closer to the sensor.
3. The milk pump machine as described in claim 1, characterized in that, The heating assembly also includes a nipple connected to the delivery tube and located on the side of the delivery tube away from the syringe.
4. The milk pump machine as described in claim 1, characterized in that, The heating assembly also includes a control panel, which is mounted on the control base and located on one side of the control base.
5. The milk pump machine with heating function as described in claim 1, characterized in that, The heating assembly also includes a rubber ring, which is disposed on the delivery pipe and located on one side of the delivery pipe.